Journal articles on the topic 'N.S.W. H.S.C. Geography Syllabus'

Bioclimatology is applied for growing tea in the West of Nghe An province, where the tea is considered as a high economic efficient plant to be priorly cultivated for reducing poverty and getting rich. Based on the bioclimatic characteristics of tea plant and regional climatic data from 1980 to 2014, the bioclimatic diagrams are built and the tea cultivability is mapped in term of annual average temperature and total precipitation, for this region with regarding its district of Con Cuong as an analytical key. The climate, including both temperature and precipitation, in Con Cuong is relatively suitable for the tea plantation. The Western Nghe An, a land of approx. 1.4 million ha, could be classified in five areas with different suitability for tea plant. The unfavorable area occupies only 1% of total region and the four favorable rests account for 99% of total, in which, the most favorable area is largest with about 746,355 ha, i.e. over 50% of whole region. The three other areas are cultivable but they are less favorable in terms of either temperature or precipitation. Growing tea in Western Nghe An, even in favorable areas, it should be taken into account of the weather disadvantages in certain moments of the year such as extreme dry, cold, hot and rainy events.ReferencesAhmed S., 2014. Tea and the taste of climate change, www.herbalgram.org, issue, 103, 44–51.Ahmed S., Stepp J.R., Orians C., Griffin T., Matyas C., 2014. Effects of extreme climate events on tea (Camellia sinensis) functional quality validate indigenous farmer knowledge and sensory preferences in tropical China. PloS one, 9(10), e109126.Bhagat R.M., Deb Baruah R., Safique S., 2010. climate and tea [camellia sinensis (l.) o. kuntze] Production with Special Reference to North Eastern India: A Review. Journal of Environmental Research And Development, 4(4), 1017–1028.Carr M., 1972. The Climatic Requirements of the Tea Plant: A Review. Experimental Agriculture, 8(01), 1–14. https://doi.org/10.1017/S0014479700023449.Carr M.K.V., Stephen W., 1992. Climate, weather and the yield of tea. In: Tea Cultivation to consumtpion. K.C. Wilson and M.N. Clifford (Eds). Chapman and Hall, 87–135.Daleen Lotter, David le Maitre, 2014. Modeling the distribution of Aspalathus linearis (Rooibos tea): implications of climate change for livelihoods dependent on both cultivation and harvesting from the wild. Ecology and Evolution, 4(8), 1209–1221.Ducan J.M.A., Saikia S.D., Gupta N., Biggs E.M., 2016. Observing climate impacts on tea yield in Assam, India. Applied Geogr., 77, 64–71.Institute of Geography, 2016. Department of Climatically Geography. The precipitation and temperature data at meteorological measuring stations in the West of Nghe An Province between 1984 and 2014. Data stored at Department of Climatically Geography, Institute of Geography, Ha Noi, 46p.Gaussen H., 1954. 8 ème Congrès international de Botanique. Section 7 et 3. Paris.Hadfield W., 1976. The effect of high temperature on some aspects of the physiology and cultivation of tea bush (Camellia sinensis) in North East India. In: Light as an Ecological factor. G.C. Evans, R. Bainbridge and O. Rackham (Eds.) Blackwel Sci. Publ., London, 477–495.Hoang Luu Thu Thuy, 2012. The comprehensive assessment of natural, socio-economic and environmental conditions for environmental protection planning in Nghe An Province. Doctoral Thesis. Institude of Geography, Hanoi, 150p.Huang Shoubo, 1989. Meteorology of tea plants in China: a review. Agri. Forest Meteorol., 47, 19–30.Huang Shoubo, 1991. A study on the ecological climates of some famous tea growing areas in high mountainous regions of China. Chinese Geographical Science, 1(2), 121–128.International Center for Tropical Agriculture, 2017. Identification of suitable tea growing areas in Malawi under climate change scenarios. Ciat report, Cali, Colombia, 39p.Kabir S.E., 2001. A study on Ecophysiology of Tea (Camellia sinensis) with special reference to the influence of climatic factors on physiology of a few selected Tea clones of Darjeering. International Journal of Tea Science, 1(4), 1–9.Kandiah S., Thevadasan T., 1980. Quantification of weather parameters to predict tea yields. Tea Q., Srilanka, 49(1), 25–33.Kaye L., 2014. Climate change threatens Sri Lanka’s tea industry. Triple Pundit: People, Planet, Profit. Available at: www.triplepundit.com/2014/06/climate-changethreatens-sri-lanka-tea-industry. Accessed July 25, 2014.Nakayama A., Harada S., 1962. Studies on the effect on the growth of tea plant. IV. The effect of temperature on the growth of young plants in summer. Bull. Tea Res. Station, Japan, 1, 28–40.Nguyen Bao Ve, 2005. The syllabus of industrial trees. Hanoi Argricultural Publishing House, 224p.Nguyen Dai Khanh, 2003. The assessment of agricultural climatic conditions for tea’s growth in major tea regions of Vietnam. Doctoral Thesis. Institute of Meteorology and Hydrology, 149p.Nguyen Khanh Van, Nguyen Thi Hien, Phan Ke Loc, Nguyen Tien Hiep, 2000. The bioclimatic diagrams of Vietnam. Vietnam National University Publishing House, Ha Noi, 126p.Nguyen Van Hong, 2017. Analyzing, assessing landscape for agriculture, forestry development and biodiversity conservation in the southwestern border districts in Nghe An province. Doctoral thesis. Vietnam National University, Hanoi, 150p.Nguyen Van Tao (ed.), 2004. Completing the asexual propagation process of LDP1 and LDP2 cultivars by cuttings in order to transfer to production. State Project of production pilot, coded KC.06.DA.09.NN. Institute of Tea Research, Phu Tho, 50p.Nkomwa E.C., Joshua M.K., Ngongondo C., Monjerezi M., Chipungu F., 2014. Assessing indigenous knowledge systems and climate change adaptation strategies in agriculture: A case study of Chagaka Village, Chikhwawa, Southern Malawi. Physics and Chemistry of the Earth, Parts A/B/C, 67–69, 164–172.Pham Hoang Ho, 2003. An Illustrated Flora of Vietnam, 2, 430–434. Youth Publishing House, 952p.Rebecca Boehm, Sean B. Cash, Bruce T. Anderson, Selena Ahmed, Timothy S. Griffin, Albert Robbat Jr., John Richard Stepp, Wenyan Han, Matt Hazel and Colin M. Orians, 2016. Association between Empirically Estimated Monsoon Dynamics and Other Weather Factors and Historical Tea Yields in China: Results from a Yield Response Model. Climate, 4, 20; doi:10.3390/cli4020020. www.mdpi.com/journal/climate.Schepp K., 2014. Strategy to adapt to climate change for Michimikuru tea farmers in Kenya. Adap CC Report. 2008. Available at: www.adapcc.org/en/kenya.htm. Accessed July 25, 2014.Sen A.R., Biswas A.K., Sanyal D.K., 1966. The Influence of Climatic Factors on the Yield of Tea in the Assam Valley, J. App. Meteo., 5(6), 789–800.Statistics Office of Nghe An Province, 2016. The annual abstracts of statistics 2015. Nghe An Publishing House, Nghe An, 453p.Tanton T.W., 1982. Environmental factors affecting yield of tea (camellia sinensis). Effect of air temperature. Expl. Agri., 18, 47–52.The People’s Committee of Nghe An Province, 2013. The Decision No. 448/QĐ-UBND dated 31/01/2013 to approve the hi-tech agriculture planning on the production of tea in Nghe An Province.The People’s Committee of Nghe An Province, 2013. The Decision No. 6290/QĐ-UBND dated 24/12/2013 to approve the adjustments and supplements for the development of Nghe An tea Industrial zone planning in 2013–2020.Walter H, Lieth, 1967. Klimadiagram - Weltatlas. Veb Gustav Fischer Verlag Jena.Wijeratne M.A., 1996. Vulnerability of Sri Lanka tea production to global climate change. Water, Air and Soil Pollution, 92(1-2), 87–94.Wijeratne M.A., Anandacoomaraswamy A., Amarathunga M., Ratnasiri J., 2007. Assessment of impact of climate change on productivity of tea (Camellia sinensis L.) plantations in Sri Lanka, 119–126.http://nghean.gov.vn, 05/06/2015. Many crops are withered in Con Cuong.http://baonghean.vn, 25/03/2013. Drought threaten rice and tea in Con Cuong. http://baonghean.vn/con-cuong-han-han-de-doa-lua-che-44581.html.

This study aims to determine the utilization of forests conducted by communities in forest area of Wolasi sub-district. This research was conducted in Wolasi forest sub-district of Southeast Sulawesi Province. The research methods used were survey and interview with 86 and 87 respondents with purposive sampling by plotting two different villages characteristics to represent forest utilization form in different area (villages in lowland landforms) and Aoma village (village has the shape of hilly terrain). The result of this study examining the forests utilization of inhabitants in Wolasi sub-district, which is represented by two topographic characteristics. Reseacher selected two similar conditions that engage the forest as a source of daily needs and workface that is considered as a resource, producing timber and non-timber products. Ranowila inhabitants occupations are dominated with farmers, while in Leleka village, despite being farmers, some inhabitants are craftsmen of non-timber forest products such as bamboo and rattan as well as furniture entrepreneur. This fact is influenced by residential areas that close to the forest and can be observed through the neighbourhood area which is close to the temporary forest area in Leleka Village. Temporary forest is located in an area which always extends land, since the topography circumstance encourages numerous people prefer to live closely towards their managed land. The forest is beneficial both in the term of land utilization or forest products,due to the distance there is limited knowledge,as well as limited work, it enhances low expenditure obtained. Keywords: Utilization, Forest, Community in District Wolasi References Adhikari, B., Di Falco, S., & Lovett, J. C. (2004). Household characteristics and forest dependency: evidence from common property forest management in Nepal. Ecological economics, 48(2), 245-257. Nurbaya & Efransjah (2018). The State of Indonesia’s Forests 2018. Jakarta: Ministry of Environment and Forestry Republic of Indonesia. Aryadi, M. (2012). Hutan rakyat: fenomenologi adaptasi budaya masyarakat. UPT Penerbitan, Universitas Muhammadiyah Malang. Banowati, E., & Sriyanto.(2013). Geografi Pertanian. Yogyakarta:Ombak. Cannon, C. H., Summers, M., Harting, J. R., & Kessler, P. J. (2007). Developing conservation priorities based on forest type, condition, and threats in a poorly known ecoregion: Sulawesi, Indonesia. Biotropica, 39(6), 747-759. Dudley, N., Schlaepfer, R., Jackson, W., Jeanrenaud, J. P., & Stolton, S. (2012). Forest quality: assessing forests at a landscape scale. Routledge. Gibson, L., Lee, T. M., Koh, L. P., Brook, B. W., Gardner, T. A., Barlow, J., ... & Sodhi, N. S. (2011). Primary forests are irreplaceable for sustaining tropical biodiversity. Nature, 478(7369), 378. Parrotta, J.A.(2015). The Historical, Environmental and Socio-economic Context of Forests and Tree-based Systems for Food Security and Nutrition. 1(3), 72-136. Pongtuluran, Y. (2015). Manajemen sumber daya alam dan lingkungan. Penerbit Andi. Silaen, A.P. (2008).Preservation of Forest and Environmental Functions Environmental Law Perspectives. 16 (3), 218-594. Suradi, S. (2012). Pertumbuhan Ekonomi dan Kesejahteraan Sosial. Sosio Informa, 17(3). Wagner, S., Nocentini, S., Huth, F., & Hoogstra-Klein, M. (2014). Forest management approaches for coping with the uncertainty of climate change: trade-offs in service provisioning and adaptability. Ecology and Society, 19(1). Wirakusumah, S. (2003). Mendambakan Kelestarian Sumber Daya Hutan Bagi Sebesar-Besarnya Kemakmuran Rakyat. Penerbit Universitas Indonesia. Jakarta. Cetakan Pertama. Copyright (c) 2019 Geosfera Indonesia Journal and Department of Geography Education, University of Jember This work is licensed under a Creative Commons Attribution-Share A like 4.0 International License

Rapid urbanization rates impact significantly on the nature of Land Cover patterns of the environment, which has been evident in the depletion of vegetal reserves and in general modifying the human climatic systems (Henderson, et al., 2017; Kumar, Masago, Mishra, & Fukushi, 2018; Luo and Lau, 2017). This study explores remote sensing classification technique and other auxiliary data to determine LULCC for a period of 50 years (1967-2016). The LULCC types identified were quantitatively evaluated using the change detection approach from results of maximum likelihood classification algorithm in GIS. Accuracy assessment results were evaluated and found to be between 56 to 98 percent of the LULC classification. The change detection analysis revealed change in the LULC types in Minna from 1976 to 2016. Built-up area increases from 74.82ha in 1976 to 116.58ha in 2016. Farmlands increased from 2.23 ha to 46.45ha and bared surface increases from 120.00ha to 161.31ha between 1976 to 2016 resulting to decline in vegetation, water body, and wetlands. The Decade of rapid urbanization was found to coincide with the period of increased Public Private Partnership Agreement (PPPA). Increase in farmlands was due to the adoption of urban agriculture which has influence on food security and the environmental sustainability. The observed increase in built up areas, farmlands and bare surfaces has substantially led to reduction in vegetation and water bodies. The oscillatory nature of water bodies LULCC which was not particularly consistent with the rates of urbanization also suggests that beyond the urbanization process, other factors may influence the LULCC of water bodies in urban settlements. Keywords: Minna, Niger State, Remote Sensing, Land Surface Characteristics References Akinrinmade, A., Ibrahim, K., & Abdurrahman, A. (2012). Geological Investigation of Tagwai Dams using Remote Sensing Technique, Minna Niger State, Nigeria. Journal of Environment, 1(01), pp. 26-32. Amadi, A., & Olasehinde, P. (2010). Application of remote sensing techniques in hydrogeological mapping of parts of Bosso Area, Minna, North-Central Nigeria. International Journal of Physical Sciences, 5(9), pp. 1465-1474. Aplin, P., & Smith, G. (2008). Advances in object-based image classification. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 37(B7), pp. 725-728. Ayele, G. T., Tebeje, A. K., Demissie, S. S., Belete, M. A., Jemberrie, M. A., Teshome, W. M., . . . Teshale, E. Z. (2018). Time Series Land Cover Mapping and Change Detection Analysis Using Geographic Information System and Remote Sensing, Northern Ethiopia. Air, Soil and Water Research, 11, p 1178622117751603. Azevedo, J. A., Chapman, L., & Muller, C. L. (2016). Quantifying the daytime and night-time urban heat island in Birmingham, UK: a comparison of satellite derived land surface temperature and high resolution air temperature observations. Remote Sensing, 8(2), p 153. Blaschke, T., Hay, G. J., Kelly, M., Lang, S., Hofmann, P., Addink, E., . . . van Coillie, F. (2014). Geographic object-based image analysis–towards a new paradigm. ISPRS Journal of Photogrammetry and Remote Sensing, 87, pp. 180-191. Bukata, R. P., Jerome, J. H., Kondratyev, A. S., & Pozdnyakov, D. V. (2018). Optical properties and remote sensing of inland and coastal waters: CRC press. Camps-Valls, G., Tuia, D., Bruzzone, L., & Benediktsson, J. A. (2014). Advances in hyperspectral image classification: Earth monitoring with statistical learning methods. IEEE signal processing magazine, 31(1), pp. 45-54. Chen, J., Chen, J., Liao, A., Cao, X., Chen, L., Chen, X., . . . Lu, M. (2015). Global land cover mapping at 30 m resolution: A POK-based operational approach. ISPRS Journal of Photogrammetry and Remote Sensing, 103, pp. 7-27. Chen, M., Mao, S., & Liu, Y. (2014). Big data: A survey. Mobile networks and applications, 19(2), pp. 171-209. Cheng, G., Han, J., Guo, L., Liu, Z., Bu, S., & Ren, J. (2015). Effective and efficient midlevel visual elements-oriented land-use classification using VHR remote sensing images. IEEE transactions on geoscience and remote sensing, 53(8), pp. 4238-4249. Cheng, G., Han, J., Zhou, P., & Guo, L. (2014). Multi-class geospatial object detection and geographic image classification based on collection of part detectors. ISPRS Journal of Photogrammetry and Remote Sensing, 98, pp. 119-132. Coale, A. J., & Hoover, E. M. (2015). Population growth and economic development: Princeton University Press. Congalton, R. G., & Green, K. (2008). Assessing the accuracy of remotely sensed data: principles and practices: CRC press. Corner, R. J., Dewan, A. M., & Chakma, S. (2014). Monitoring and prediction of land-use and land-cover (LULC) change Dhaka megacity (pp. 75-97): Springer. Coutts, A. M., Harris, R. J., Phan, T., Livesley, S. J., Williams, N. S., & Tapper, N. J. (2016). Thermal infrared remote sensing of urban heat: Hotspots, vegetation, and an assessment of techniques for use in urban planning. Remote Sensing of Environment, 186, pp. 637-651. Debnath, A., Debnath, J., Ahmed, I., & Pan, N. D. (2017). Change detection in Land use/cover of a hilly area by Remote Sensing and GIS technique: A study on Tropical forest hill range, Baramura, Tripura, Northeast India. International journal of geomatics and geosciences, 7(3), pp. 293-309. Desheng, L., & Xia, F. (2010). Assessing object-based classification: advantages and limitations. Remote Sensing Letters, 1(4), pp. 187-194. Dewan, A. M., & Yamaguchi, Y. (2009). Land use and land cover change in Greater Dhaka, Bangladesh: Using remote sensing to promote sustainable urbanization. Applied Geography, 29(3), pp. 390-401. Dronova, I., Gong, P., Wang, L., & Zhong, L. (2015). Mapping dynamic cover types in a large seasonally flooded wetland using extended principal component analysis and object-based classification. Remote Sensing of Environment, 158, pp. 193-206. Duro, D. C., Franklin, S. E., & Dubé, M. G. (2012). A comparison of pixel-based and object-based image analysis with selected machine learning algorithms for the classification of agricultural landscapes using SPOT-5 HRG imagery. Remote Sensing of Environment, 118, pp. 259-272. Elmhagen, B., Destouni, G., Angerbjörn, A., Borgström, S., Boyd, E., Cousins, S., . . . Hambäck, P. (2015). Interacting effects of change in climate, human population, land use, and water use on biodiversity and ecosystem services. Ecology and Society, 20(1) Farhani, S., & Ozturk, I. (2015). Causal relationship between CO 2 emissions, real GDP, energy consumption, financial development, trade openness, and urbanization in Tunisia. Environmental Science and Pollution Research, 22(20), pp. 15663-15676. Feng, L., Chen, B., Hayat, T., Alsaedi, A., & Ahmad, B. (2017). The driving force of water footprint under the rapid urbanization process: a structural decomposition analysis for Zhangye city in China. Journal of Cleaner Production, 163, pp. S322-S328. Fensham, R., & Fairfax, R. (2002). Aerial photography for assessing vegetation change: a review of applications and the relevance of findings for Australian vegetation history. Australian Journal of Botany, 50(4), pp. 415-429. Ferreira, N., Lage, M., Doraiswamy, H., Vo, H., Wilson, L., Werner, H., . . . Silva, C. (2015). Urbane: A 3d framework to support data driven decision making in urban development. Visual Analytics Science and Technology (VAST), 2015 IEEE Conference on. Garschagen, M., & Romero-Lankao, P. (2015). Exploring the relationships between urbanization trends and climate change vulnerability. Climatic Change, 133(1), pp. 37-52. Gokturk, S. B., Sumengen, B., Vu, D., Dalal, N., Yang, D., Lin, X., . . . Torresani, L. (2015). System and method for search portions of objects in images and features thereof: Google Patents. Government, N. S. (2007). Niger state (The Power State). Retrieved from http://nigerstate.blogspot.com.ng/ Green, K., Kempka, D., & Lackey, L. (1994). Using remote sensing to detect and monitor land-cover and land-use change. Photogrammetric engineering and remote sensing, 60(3), pp. 331-337. Gu, W., Lv, Z., & Hao, M. (2017). Change detection method for remote sensing images based on an improved Markov random field. Multimedia Tools and Applications, 76(17), pp. 17719-17734. Guo, Y., & Shen, Y. (2015). Quantifying water and energy budgets and the impacts of climatic and human factors in the Haihe River Basin, China: 2. Trends and implications to water resources. Journal of Hydrology, 527, pp. 251-261. Hadi, F., Thapa, R. B., Helmi, M., Hazarika, M. K., Madawalagama, S., Deshapriya, L. N., & Center, G. (2016). Urban growth and land use/land cover modeling in Semarang, Central Java, Indonesia: Colombo-Srilanka, ACRS2016. Hagolle, O., Huc, M., Villa Pascual, D., & Dedieu, G. (2015). A multi-temporal and multi-spectral method to estimate aerosol optical thickness over land, for the atmospheric correction of FormoSat-2, LandSat, VENμS and Sentinel-2 images. Remote Sensing, 7(3), pp. 2668-2691. Hegazy, I. R., & Kaloop, M. R. (2015). Monitoring urban growth and land use change detection with GIS and remote sensing techniques in Daqahlia governorate Egypt. International Journal of Sustainable Built Environment, 4(1), pp. 117-124. Henderson, J. V., Storeygard, A., & Deichmann, U. (2017). Has climate change driven urbanization in Africa? Journal of development economics, 124, pp. 60-82. Hu, L., & Brunsell, N. A. (2015). A new perspective to assess the urban heat island through remotely sensed atmospheric profiles. Remote Sensing of Environment, 158, pp. 393-406. Hughes, S. J., Cabral, J. A., Bastos, R., Cortes, R., Vicente, J., Eitelberg, D., . . . Santos, M. (2016). A stochastic dynamic model to assess land use change scenarios on the ecological status of fluvial water bodies under the Water Framework Directive. Science of the Total Environment, 565, pp. 427-439. Hussain, M., Chen, D., Cheng, A., Wei, H., & Stanley, D. (2013). Change detection from remotely sensed images: From pixel-based to object-based approaches. ISPRS Journal of Photogrammetry and Remote Sensing, 80, pp. 91-106. Hyyppä, J., Hyyppä, H., Inkinen, M., Engdahl, M., Linko, S., & Zhu, Y.-H. (2000). Accuracy comparison of various remote sensing data sources in the retrieval of forest stand attributes. Forest Ecology and Management, 128(1-2), pp. 109-120. Jiang, L., Wu, F., Liu, Y., & Deng, X. (2014). Modeling the impacts of urbanization and industrial transformation on water resources in China: an integrated hydro-economic CGE analysis. Sustainability, 6(11), pp. 7586-7600. Jin, S., Yang, L., Zhu, Z., & Homer, C. (2017). A land cover change detection and classification protocol for updating Alaska NLCD 2001 to 2011. Remote Sensing of Environment, 195, pp. 44-55. Joshi, N., Baumann, M., Ehammer, A., Fensholt, R., Grogan, K., Hostert, P., . . . Mitchard, E. T. (2016). A review of the application of optical and radar remote sensing data fusion to land use mapping and monitoring. Remote Sensing, 8(1), p 70. Kaliraj, S., Chandrasekar, N., & Magesh, N. (2015). Evaluation of multiple environmental factors for site-specific groundwater recharge structures in the Vaigai River upper basin, Tamil Nadu, India, using GIS-based weighted overlay analysis. Environmental earth sciences, 74(5), pp. 4355-4380. Koop, S. H., & van Leeuwen, C. J. (2015). Assessment of the sustainability of water resources management: A critical review of the City Blueprint approach. Water Resources Management, 29(15), pp. 5649-5670. Kumar, P., Masago, Y., Mishra, B. K., & Fukushi, K. (2018). Evaluating future stress due to combined effect of climate change and rapid urbanization for Pasig-Marikina River, Manila. Groundwater for Sustainable Development, 6, pp. 227-234. Lang, S. (2008). Object-based image analysis for remote sensing applications: modeling reality–dealing with complexity Object-based image analysis (pp. 3-27): Springer. Li, M., Zang, S., Zhang, B., Li, S., & Wu, C. (2014). A review of remote sensing image classification techniques: The role of spatio-contextual information. European Journal of Remote Sensing, 47(1), pp. 389-411. Liddle, B. (2014). Impact of population, age structure, and urbanization on carbon emissions/energy consumption: evidence from macro-level, cross-country analyses. Population and Environment, 35(3), pp. 286-304. Lillesand, T., Kiefer, R. W., & Chipman, J. (2014). Remote sensing and image interpretation: John Wiley & Sons. Liu, Y., Wang, Y., Peng, J., Du, Y., Liu, X., Li, S., & Zhang, D. (2015). Correlations between urbanization and vegetation degradation across the world’s metropolises using DMSP/OLS nighttime light data. Remote Sensing, 7(2), pp. 2067-2088. López, E., Bocco, G., Mendoza, M., & Duhau, E. (2001). Predicting land-cover and land-use change in the urban fringe: a case in Morelia city, Mexico. Landscape and urban planning, 55(4), pp. 271-285. Luo, M., & Lau, N.-C. (2017). Heat waves in southern China: Synoptic behavior, long-term change, and urbanization effects. Journal of Climate, 30(2), pp. 703-720. Mahboob, M. A., Atif, I., & Iqbal, J. (2015). Remote sensing and GIS applications for assessment of urban sprawl in Karachi, Pakistan. Science, Technology and Development, 34(3), pp. 179-188. Mallinis, G., Koutsias, N., Tsakiri-Strati, M., & Karteris, M. (2008). Object-based classification using Quickbird imagery for delineating forest vegetation polygons in a Mediterranean test site. ISPRS Journal of Photogrammetry and Remote Sensing, 63(2), pp. 237-250. Mas, J.-F., Velázquez, A., Díaz-Gallegos, J. R., Mayorga-Saucedo, R., Alcántara, C., Bocco, G., . . . Pérez-Vega, A. (2004). Assessing land use/cover changes: a nationwide multidate spatial database for Mexico. International Journal of Applied Earth Observation and Geoinformation, 5(4), pp. 249-261. Mathew, A., Chaudhary, R., Gupta, N., Khandelwal, S., & Kaul, N. (2015). Study of Urban Heat Island Effect on Ahmedabad City and Its Relationship with Urbanization and Vegetation Parameters. International Journal of Computer & Mathematical Science, 4, pp. 2347-2357. Megahed, Y., Cabral, P., Silva, J., & Caetano, M. (2015). Land cover mapping analysis and urban growth modelling using remote sensing techniques in greater Cairo region—Egypt. ISPRS International Journal of Geo-Information, 4(3), pp. 1750-1769. Metternicht, G. (2001). Assessing temporal and spatial changes of salinity using fuzzy logic, remote sensing and GIS. Foundations of an expert system. Ecological modelling, 144(2-3), pp. 163-179. Miller, R. B., & Small, C. (2003). Cities from space: potential applications of remote sensing in urban environmental research and policy. Environmental Science & Policy, 6(2), pp. 129-137. Mirzaei, P. A. (2015). Recent challenges in modeling of urban heat island. Sustainable Cities and Society, 19, pp. 200-206. Mohammed, I., Aboh, H., & Emenike, E. (2007). A regional geoelectric investigation for groundwater exploration in Minna area, north west Nigeria. Science World Journal, 2(4) Morenikeji, G., Umaru, E., Liman, S., & Ajagbe, M. (2015). Application of Remote Sensing and Geographic Information System in Monitoring the Dynamics of Landuse in Minna, Nigeria. International Journal of Academic Research in Business and Social Sciences, 5(6), pp. 320-337. Mukherjee, A. B., Krishna, A. P., & Patel, N. (2018). Application of Remote Sensing Technology, GIS and AHP-TOPSIS Model to Quantify Urban Landscape Vulnerability to Land Use Transformation Information and Communication Technology for Sustainable Development (pp. 31-40): Springer. Myint, S. W., Gober, P., Brazel, A., Grossman-Clarke, S., & Weng, Q. (2011). Per-pixel vs. object-based classification of urban land cover extraction using high spatial resolution imagery. Remote Sensing of Environment, 115(5), pp. 1145-1161. Nemmour, H., & Chibani, Y. (2006). Multiple support vector machines for land cover change detection: An application for mapping urban extensions. ISPRS Journal of Photogrammetry and Remote Sensing, 61(2), pp. 125-133. Niu, X., & Ban, Y. (2013). Multi-temporal RADARSAT-2 polarimetric SAR data for urban land-cover classification using an object-based support vector machine and a rule-based approach. International journal of remote sensing, 34(1), pp. 1-26. Nogueira, K., Penatti, O. A., & dos Santos, J. A. (2017). Towards better exploiting convolutional neural networks for remote sensing scene classification. Pattern Recognition, 61, pp. 539-556. Oguz, H., & Zengin, M. (2011). Analyzing land use/land cover change using remote sensing data and landscape structure metrics: a case study of Erzurum, Turkey. Fresenius Environmental Bulletin, 20(12), pp. 3258-3269. Pohl, C., & Van Genderen, J. L. (1998). Review article multisensor image fusion in remote sensing: concepts, methods and applications. International journal of remote sensing, 19(5), pp. 823-854. Price, O., & Bradstock, R. (2014). Countervailing effects of urbanization and vegetation extent on fire frequency on the Wildland Urban Interface: Disentangling fuel and ignition effects. Landscape and urban planning, 130, pp. 81-88. Prosdocimi, I., Kjeldsen, T., & Miller, J. (2015). Detection and attribution of urbanization effect on flood extremes using nonstationary flood‐frequency models. Water resources research, 51(6), pp. 4244-4262. Rawat, J., & Kumar, M. (2015). Monitoring land use/cover change using remote sensing and GIS techniques: A case study of Hawalbagh block, district Almora, Uttarakhand, India. The Egyptian Journal of Remote Sensing and Space Science, 18(1), pp. 77-84. Rokni, K., Ahmad, A., Solaimani, K., & Hazini, S. (2015). A new approach for surface water change detection: Integration of pixel level image fusion and image classification techniques. International Journal of Applied Earth Observation and Geoinformation, 34, pp. 226-234. Sakieh, Y., Amiri, B. J., Danekar, A., Feghhi, J., & Dezhkam, S. (2015). Simulating urban expansion and scenario prediction using a cellular automata urban growth model, SLEUTH, through a case study of Karaj City, Iran. Journal of Housing and the Built Environment, 30(4), pp. 591-611. Santra, A. (2016). Land Surface Temperature Estimation and Urban Heat Island Detection: A Remote Sensing Perspective. Remote Sensing Techniques and GIS Applications in Earth and Environmental Studies, p 16. Shrivastava, L., & Nag, S. (2017). MONITORING OF LAND USE/LAND COVER CHANGE USING GIS AND REMOTE SENSING TECHNIQUES: A CASE STUDY OF SAGAR RIVER WATERSHED, TRIBUTARY OF WAINGANGA RIVER OF MADHYA PRADESH, INDIA. Shuaibu, M., & Sulaiman, I. (2012). Application of remote sensing and GIS in land cover change detection in Mubi, Adamawa State, Nigeria. J Technol Educ Res, 5, pp. 43-55. Song, B., Li, J., Dalla Mura, M., Li, P., Plaza, A., Bioucas-Dias, J. M., . . . Chanussot, J. (2014). Remotely sensed image classification using sparse representations of morphological attribute profiles. IEEE transactions on geoscience and remote sensing, 52(8), pp. 5122-5136. Song, X.-P., Sexton, J. O., Huang, C., Channan, S., & Townshend, J. R. (2016). Characterizing the magnitude, timing and duration of urban growth from time series of Landsat-based estimates of impervious cover. Remote Sensing of Environment, 175, pp. 1-13. Tayyebi, A., Shafizadeh-Moghadam, H., & Tayyebi, A. H. (2018). Analyzing long-term spatio-temporal patterns of land surface temperature in response to rapid urbanization in the mega-city of Tehran. Land Use Policy, 71, pp. 459-469. Teodoro, A. C., Gutierres, F., Gomes, P., & Rocha, J. (2018). Remote Sensing Data and Image Classification Algorithms in the Identification of Beach Patterns Beach Management Tools-Concepts, Methodologies and Case Studies (pp. 579-587): Springer. Toth, C., & Jóźków, G. (2016). Remote sensing platforms and sensors: A survey. ISPRS Journal of Photogrammetry and Remote Sensing, 115, pp. 22-36. Tuholske, C., Tane, Z., López-Carr, D., Roberts, D., & Cassels, S. (2017). Thirty years of land use/cover change in the Caribbean: Assessing the relationship between urbanization and mangrove loss in Roatán, Honduras. Applied Geography, 88, pp. 84-93. Tuia, D., Flamary, R., & Courty, N. (2015). Multiclass feature learning for hyperspectral image classification: Sparse and hierarchical solutions. ISPRS Journal of Photogrammetry and Remote Sensing, 105, pp. 272-285. Tzotsos, A., & Argialas, D. (2008). Support vector machine classification for object-based image analysis Object-Based Image Analysis (pp. 663-677): Springer. Wang, L., Sousa, W., & Gong, P. (2004). Integration of object-based and pixel-based classification for mapping mangroves with IKONOS imagery. International journal of remote sensing, 25(24), pp. 5655-5668. Wang, Q., Zeng, Y.-e., & Wu, B.-w. (2016). Exploring the relationship between urbanization, energy consumption, and CO2 emissions in different provinces of China. Renewable and Sustainable Energy Reviews, 54, pp. 1563-1579. Wang, S., Ma, H., & Zhao, Y. (2014). Exploring the relationship between urbanization and the eco-environment—A case study of Beijing–Tianjin–Hebei region. Ecological Indicators, 45, pp. 171-183. Weitkamp, C. (2006). Lidar: range-resolved optical remote sensing of the atmosphere: Springer Science & Business. Wellmann, T., Haase, D., Knapp, S., Salbach, C., Selsam, P., & Lausch, A. (2018). Urban land use intensity assessment: The potential of spatio-temporal spectral traits with remote sensing. Ecological Indicators, 85, pp. 190-203. Whiteside, T. G., Boggs, G. S., & Maier, S. W. (2011). Comparing object-based and pixel-based classifications for mapping savannas. International Journal of Applied Earth Observation and Geoinformation, 13(6), pp. 884-893. Willhauck, G., Schneider, T., De Kok, R., & Ammer, U. (2000). Comparison of object oriented classification techniques and standard image analysis for the use of change detection between SPOT multispectral satellite images and aerial photos. Proceedings of XIX ISPRS congress. Winker, D. M., Vaughan, M. A., Omar, A., Hu, Y., Powell, K. A., Liu, Z., . . . Young, S. A. (2009). Overview of the CALIPSO mission and CALIOP data processing algorithms. Journal of Atmospheric and Oceanic Technology, 26(11), pp. 2310-2323. Yengoh, G. T., Dent, D., Olsson, L., Tengberg, A. E., & Tucker III, C. J. (2015). Use of the Normalized Difference Vegetation Index (NDVI) to Assess Land Degradation at Multiple Scales: Current Status, Future Trends, and Practical Considerations: Springer. Yu, Q., Gong, P., Clinton, N., Biging, G., Kelly, M., & Schirokauer, D. (2006). Object-based detailed vegetation classification with airborne high spatial resolution remote sensing imagery. Photogrammetric Engineering & Remote Sensing, 72(7), pp. 799-811. Zhou, D., Zhao, S., Zhang, L., & Liu, S. (2016). Remotely sensed assessment of urbanization effects on vegetation phenology in China's 32 major cities. Remote Sensing of Environment, 176, pp. 272-281. Zhu, Z., Fu, Y., Woodcock, C. E., Olofsson, P., Vogelmann, J. E., Holden, C., . . . Yu, Y. (2016). Including land cover change in analysis of greenness trends using all available Landsat 5, 7, and 8 images: A case study from Guangzhou, China (2000–2014). Remote Sensing of Environment, 185, pp. 243-257.

This article presents the results of the first implementation of map literacy learning model in middle school classes - this is the preliminary test. The implementation of this learning model will gain optimal results when it is conducted by following all the component of the model such as the syntax, theoretical framework, social system, teachers' roles, and support system. After the model implementation has been completed, the results showed that there was significantly different in students' spatial thinking skills before and after the treatment. However, the implementation also revealed that the model has some technical issues and thus to be improved. In a social system revision, the teacher has to be flexibly provide scaffolding every time he/she sees that the students need it. Teacher's book is significantly important to help a teacher lead the learning process. After improvement of the model has been completed, then it is ready to be implemented in the main field testing stage. Keywords: map literacy, social studies learning, spatial thinking References Abbasnasab, S., Rashid, M., & Saad, M. (2012). Knowledge with Professional Practice A Sociocultural Perspective on Assessment for Learning : The Case of a Malaysian Primary School ESL Context, 66, 343–353. http://doi.org/10.1016/j.sbspro.2012.11.277 Adeyemi, S. B., & Cishe, E. N. (2015). Effects of Cooperative and Individualistic Learning Strategies on Students’ Map Reading and Interpretation. International Journal of Arts & Sciences, 8(7), 383–395. Bednarz, S. W., Acheson, G., & Bednarz, R. S. (2006). Maps and Map Learning in Social Studies. Social Education, 70(7), 398–404. http://doi.org/10.4324/9780203841273 Brophy, J., & Alleman, J. (2009). Meaningful social studies for elementary students. Teachers and Teaching, 15(3), 357–376. http://doi.org/10.1080/13540600903056700 Cohen, L., Manion, L., Morrison, K., & Wyse, D. (2010). A Guide To Teaching Practice (5th ed.). London and New York: Rotledge. Churcher, K. M. A., Downs, E., & Tewksbury, D. (2014). “ Friending ” Vygotsky : A Social Constructivist P edagogy of Knowledge Building Through Classroom Social Media Use, 14(1), 33–50. Durmuş, Y. T. (2016). Effective Learning Environment Characteristics as a requirement of Constructivist Curricula: Teachers’ Needs and School Principals’ Views. International Journal of Instruction, 9(2), 183–198. http://doi.org/10.12973/iji.2016.9213a Fani, T., & Ghaemi, F. (2011). Implications of Vygotsky ’ s Zone of Proximal Development ( ZPD ) in Teacher Education : ZPTD and Self-scaffolding. Procedia - Social and Behavioral Sciences, 29(Iceepsy), 1549–1554. http://doi.org/10.1016/j.sbspro.2011.11.396 Gauvain, M. (1993). The Development of Spatial Thinking in Everyday Activity. Developmental Review, 13, 92–121. Hribar, G. C. (2015). Using Map-Based Investigations with Elementary Students. In ESRI Education GIS Conference (pp. 1–26). Huynh, N. T., & Sharpe, B. (2013). An Assessment Instrument to Measure Geospatial Thinking Expertise An Assessment Instrument to Measure Geospatial Thinking Expertise. Journal of Geography, 112(October 2014), 3–41. http://doi.org/10.1080/00221341.2012.682227 Ishikawa, T. (2012). Geospatial Thinking and Spatial Ability: An Empirical Examination of Knowledge and Reasoning in Geographical Science. The Professional Geographer, (July 2015), 121018062625002. http://doi.org/10.1080/00330124.2012.724350 Jessie A. (1951). Maps and Slow-Learners. Journal of Geography, 50:4, 145-149, DOI: 10.1080/00221345108982661 Jo, I., Bednarz, S., & Metoyer, S. (2010). Selecting and Designing Questions to Facilitate Spatial Thinking. The Geography Teacher, 7(2), 49–55. http://doi.org/10.1080/19338341.2010.510779 Joyce, B.R., Weil, M., & Calhoun, E. (2014). Models of Teaching (8th Ed). New Jersey: Pearson Education. Key, L.V., Bradley, J.A., & Bradley, K.A. (2010).Stimulating Instruction in Social Studies. The Social Studies, 101:3, 117-120, DOI: 10.1080/00377990903283932 Leinhardt, G., Stainton, C., & Bausmith, J. M. (1998). Constructing Maps Collaboratively. Journal of Geography, 97(1), 19–30. http://doi.org/10.1080/00221349808978821 Logan, J. R. (2012). Making a Place for Space: Spatial Thinking in Social Science. Annual Review of Sociology, 38(1), 507–524. http://doi.org/10.1146/annurev-soc-071811-145531 Logan, J. R., Zhang, W., & Xu, H. (2010). Applying spatial thinking in social science research. GeoJournal, 75(1), 15–27. http://doi.org/10.1007/s10708-010-9343-0 National Reseach Council. (2006). Learning to Think spatially. Washington, D.C.: The National Academic Press. Retrieved from www.nap.edu NCSS. (2016). A Vision of Powerful Teaching and Learning in the Social Studies, 80(3), 180–182. Saekhow, J. (2015). Steps of Cooperative Learning on Social Networking by Integrating Instructional Design based on Constructivist Approach. Procedia - Social and Behavioral Sciences, 197(February), 1740–1744. http://doi.org/10.1016/j.sbspro.2015.07.230 Uttal, D. H. (2000). Maps and spatial thinking: a two-way street. Developmental Science, 3(3), 283–286. http://doi.org/10.1111/1467-7687.00121 Verma, K. (2014). Geospatial Thinking of Undergraduate Students in Public Universities in The United States. Texas State University. Wiegand, P. (2006). Learning and Teaching with Maps. London and New York: Routledge Taylor & Francis Group. Retrieved from http://cataleg.udg.edu/record=b1373859~S10*cat

Proximate analysis of Dioscorea hispida tubers, collected from five locations around Leuser ecosystem in Aceh Province, showed variations amongst samples. Standard AOAC method for proximate analysis of the fresh weight showed that the water content varied between 15.8 - 37.8%, crude protein 1.13 -6.20%, crude lipid 1.99 - 9.36% and ash 0.29 - 1.24%. The total carbohydrate was high, i.e. between 58.3 -71.9%. The main mineral was phosphorus, with a value of 11.7 - 46.9 mg/100g. These variations could be due to soil, climate and weather factors, as well as postharvest handling. Phytochemical tests showed that all of the samples contained alkaloids and terpenoids. One of the samples (LP) also contained phenol and steroid. The high cyanide content in the tubers (379 - 739 ppm) was easily removed by repeated washing. The cyanide level dropped significantly after the 3rd wash. Information on nutritional content in D. hispida is essential for planning its utilization. Increasing the economic value of D. hispida is expected to attract people around the Leuser ecosystem to cultivate and utilize it, thereby reducing illegal forest encroachment.Keywords: Dioscorea hispida, proximate, Leuser, janeng, gadung, starchREFERENCESBarton H 2014 Yams: Origins and Development, Encyclopaedia of Global Archaeology, p 7943-7947, (Springer. DOI 10.1007/978-1-4419-0465-2_2193).Obidiegwu J E and Akpabio E M 2017 The Geography of Yam Cultivation in Southern Nigeria: Exploring Its Social Meanings and Cultural Functions J. Ethnic Foods 4 28-35.Chandrasekara A and Kumar T J 2016 Roots and Tuber Crops as Functional Foods: A Review on Phytochemical Constituents and Their Potential Health Benefits Intl. J. Food Sci. 2016 1-15.Kumar S, Das G, Shin H-S and Patra J K 2017 Dioscorea spp. (A Wild Edible Tuber): A Study on Its Ethnopharmacological Potential and Traditional Use by the Local People of Similipal Biosphere Reserve India Front. Pharmacol. 8 52.Lin J Y, Lu S, Liou Y L and Liou H L 2006a Antioxidant and Hypolipidaemic Effects of a Novel Yam–boxthorn Noodle in an In Vivo Murine Model Food Chem. 94 377–384.Lin J Y, Lu S, Liou Y L and Liou H L, 2006b, Increased IgA and IgG Serum Levels Using a Novel Yam–boxthorn Noodle in a BALB/c Mouse Model Food Chem. Toxicol. 44 170–178.Bhandari M R and Kawabata J 2004 Organic Acid, Phenolic Content and Antioxidant Activity of Wild Yam (Dioscorea spp.) Tubers of Nepal Food Chem. 88 163–168.Lin J T and Yang D J 2008 Determination of Steroidal Saponins in Different Organs of Yam (Dioscorea pseudojaponica Yamamoto) Food Chem. 108 1068–1074.AOAC 1984. Official Methods of Analysis. Washington DC: Association of Official Analytical Chemists.Harborne J B 1984 Phytochemical Method 2nd ed. (London: Chapman and Hall Ltd.)Bhandari M R, Kasai T and Kawabata J 2003 Nutritional Evaluation of Wild Yam (Dioscorea spp.) Tubers of Nepal Food Chem. 82 619–623.Adepoju O T, Boyejo O and Adeniji P O 2017 Nutrient and Antinutrient Composition of Yellow Yam (Dioscorea cayenensis) Products Data in Brief 11 428–431.Wu Z-G, Jiang W, Nitin M, Bao X-Q, Chen S-L and Tao Z-M 2016 Characterizing Diversity Based on Nutritional and Bioactive Compositions of Yam Germplasm (Dioscorea spp.) Commonly Cultivated in China J. Food Drug Anal. 24 367 – 375.Udensi E A, Osebele H O and Iweala O O 2008 The Investigation of Chemical Composition and Functional Properties of Water Yam (Dioscorea alata): Effect of Varietal Differences Pakistan J. Nutrition 7(2) 342-344.Hornick S B 1992 Factors Affecting the Nutritional Quality of Crops Am. J. Altern. Agric. 7 (Special Issue on Soil Quality) 63-68.Lewicki P P 2004 Water as the Determinant of Food Engineering Properties, A Review J. Food Eng. 61 483–495Yeh A-I, Chan T-Y and Chuang G C-C 2009 Effect of Water Content and Mucilage on Physico-chemical Characteristics of Yam (Discorea alata Purpurea) Starch J. Food Eng. 95 106–114.McPherson E and Jane J 1999 Comparison of Waxy Potato with Other Root And Tuber Starches Carbohydr. Polym. 40 57–70.Freitas R A, Paula R C, Feitosa J P A, Rocha S and Sierakowski M R 2004 Amylose Contents, Rheological Properties and Gelatinization Kinetics of Yam (Dioscorea alata) and cassava (Manihot utilissima) starches Carbohydr. Polym. 55 3–8.Barsby T L, Donald A M, Frazier P J, Donald A M, Perry P A and Waigh T A 2001 The Impact of Internal Granule Structure on Processing and Properties in Starch: Advances in Structure and Function p 45-52 (Royal Society of Chemistry, http://dx.doi.org/10.1039/9781847551917-00045)Tattiyakul J, Naksriarporn T and Pradipasena P 2012 X-ray Diffraction Pattern and Functional Properties of Dioscorea hispida Dennst Starch Hydrothermally Modified at Different Temperatures Food Bioproc. Technol. 5 964–971.Savikin-Fodulovic K, Grubisic D, Culafic L, Menkovic N and Ristic M 1998 Diosgenin and Phytosterols Content in Five Callus Lines of Dioscorea balcanica Plant Sci. 135 63–67.Cushnie T. P. T, Cushnie B and Lamb A J 2014 Alkaloids: An Overview of Their Antibacterial, Antibiotic-enhancing and Antivirulence Activities Int. J. Antimicrob. Agents 44 (5) 377-386.Tholl D 2015 Biosynthesis and Biological Functions of Terpenoids in Plants, Biotechnology of Isoprenoids p 63-106 Part of the Advances in Biochemical Engineering/Biotechnology book series (ABE, volume 148).Nagata K, Aistrup G L, Honda H, Shono T and Narahashi T 1999 Modulation of the Nicotinic Acetylcholine Receptor by Dioscorine in Clonal Rat Phaeochlomocytoma (PC12) Cells Pestic. Biochem. Physiol. 64 (3) 157–165.Bhandari M R and Kawabata J 2005 Bitterness and Toxicity in Wild Yam (Dioscorea spp.) Tubers of Nepal Plant Foods Hum. Nutr. 60 129–135, 2005.White W L B , Arias-Garzon D I, McMahon J M and Sayre R 1998 Cyanogenesis in Cassava: The Role of Hydroxynitrile Lyase in Root Cyanide Production Plant Physiol. 116 1219-25.Kumoro A C and Hartati I. 2015 Microwave Assisted Extraction of Dioscorin from Gadung (Dioscorea hispida Dennst) Tuber Flour, Procedia Chem. 14 47 – 55.

The people who live in the Merapi area have been going on for years. Merapi is the most active volcano in Central Java that can threaten the community, but the community still exists today, of course, having local wisdom in responding to the eruption of Merapi. This study aims to determine the local wisdom of Wonolelo Village before, during, and after the Merapi eruption. In addition, to find out the historical relationship of the Merapi eruption to local wisdom and the challenges faced by Wonolelo Village in maintaining the sustainability of local wisdom. This research was used as a descriptive qualitative method. The method of collecting data is done through observation, in-depth interviews, and documentation. Data sources of this study are community leaders, spiritual leaders, and people who are more than 70 years old. Analysis of the data used is sourced triangulation based on the Miles & Huberman model. The results showed that local wisdom in responding to the Merapi eruption in Wonolelo Village still exists today. Local wisdom is divided into three segments, namely before, during, and after the eruption of Merapi. Local wisdom before the Merapi eruption is a notification that Merapi eruption activity will occur. Local wisdom in Wonolelo Village has challenges in the form of modernization and not running the local wisdom relay to young people. Keywords: Disaster, Local wisdom, Merapi volcano. References Andreastuti, S.D., Newhall, C., Dwiyanto, J. (2006). Menelusuri Kebenaran Letusan Gunung Merapi 1006. Jurnal Geologi Indonesia, Vol. 1, No. 4, Hal. 201-207. Andreastuti, S., Paripurno, E., Gunawan, H., Budianto, A., Syahbana, D., & Pallister, J. (2019). Character of community response to volcanic crises at sinabung and kelud volcanoes. Journal of Volcanology and Geothermal Research, 382, 298-310. doi:10.1016/j.jvolgeores.2017.01.022 Atmojo, S. E., Rusilowati, A., Dwiningrum, S. I. A., & Skotnicka, M. (2018). The reconstruction of disaster knowledge through thematic learning of science, environment, technology, and society integrated with local wisdom. Jurnal Pendidikan IPA Indonesia, 7(2), 204-213. doi:10.15294/jpii.v7i2.14273 Bencana, B. N. P. (2010). Peraturan Kepala Badan Nasional Penanggulangan Bencana Nomor 17 Tahun 2010 Tentang Pedoman Umum Penyelenggaraan Rehabilitasi dan Rekonstruksi Pasca Bencana. Jakarta: BNPB. Bencana, B. P. B. (2010). Badan Nasional Penanggulangan Daerah. Magelang: BPBD. Geologi, BPPTK (2018). Badan Penyelidikan dan Pengembangan Teknologi Kebencanaan Geologi. Jakarta: BPPTKG Geologi, BPPTK (2019). Badan Penyelidikan dan Pengembangan Teknologi Kebencanaan Geologi. Jakarta: BPPTKG Bardintzeff, J.M. (1984). Merapi volcano (java, Indonesia) and merapi type nuee ardente. Bull volcanol, Vol. 47, No. 3, Hal. 432-446. Boyolali, B. P. S. K. (2018). Kabupaten Boyolali dalam Angka. Boyolali : Badan Pusat Statistik Cahyadi, A. (2013). Pengelolaan lingkungan zamrud khatulistiwa. Yogyakarta: Pintal. Cho, S.E., Won, S., & Kim, S. (2016). Living in harmony with disaster: exploring volcanic hazard vulnerability in Indonesia. Sustainability, Vol. 8, Hlm. 1-13. Daly, P. (2015). Embedded wisdom or rooted problems? aid workers' perspectives on local social and political infrastructure in post-tsunami aceh. Disasters, 39(2), 232-257. doi:10.1111/disa.12105 Dibyosaputro, S., Hadmoko, D.S., Cahyadi, A., & Nugraha, H. (2016). Gunung merapi: kebencanaan dan pengurangan risikonya. Yogyakarta: Badan Penerbit Fakultas Geografi (BPFG) Universitas Gadjah Mada. Fatkhan, M. (2006). Kearifan lingkungan masyarakat lereng gunung merapi. Aplikasia, Jurnal Aplikasi Ilmu-ilmu Agama, Vol. 7, No. 2, Desember, Hal. 107-121. Gertisser, R., Charbonnier, S.J., Keller, J., & Quidelleur, X. (2012). The geological evolution of Merapi vulcano, Central Java, Indonesia. Bull Volcanol, Vol. 74. Hal. 1213-1233. Haba, J. (2008). Bencana alam dalam perspektif lokal dan perspektif kristiani. LIPI, Vol. 34, No. 1, Hal. 25-49. Hardoyo, S.R., Marfai, M.A., Ni’mah, N.M., Mukti, R.Y., Zahro, Q., & Halim, A. (2011). Strategi adaptasi masyarakat terhadap bencana banjir rob di pekalongan. Yogyakarta: Magister Perencanaan Pengelolaan Pesisir dan Daerah Aliran Sungai, Cahaya Press. Ikeda, S., & Nagasaka, T. (2011). An emergent framework of disaster risk governance towards innovating coping capability for reducing disaster risks in local communities. International Journal of Disaster Risk Science, 2(2) doi:10.1007/s13753-011-0006-7 Inaotombi, S., & Mahanta, P. C. (2019). Pathways of socio-ecological resilience to climate change for fisheries through indigenous knowledge. Human and Ecological Risk Assessment, 25(8), 2032-2044. doi:10.1080/10807039.2018.1482197 Klaten, B. P. S. K. (2018). Kabupaten Klaten dalam Angka. Klaten : Badan Pusat Statistik Kusumasari, B., & Alam, Q. (2012). Local wisdom-based disaster recovery model in indonesia. Disaster Prevention and Management: An International Journal, 21(3), 351-369. doi:10.1108/09653561211234525 Lestari, P., Kusumayudha, S. B., Paripurno, E. T., & Jayadianti, H. (2016). Environmental communication model for disaster mitigation of mount sinabung eruption karo regency of north sumatra. Information (Japan), 19(9B), 4265-4270. Magelang, B. P. S. K. (2018). Kabupaten Magelang dalam Angka. Boyolali : Badan Pusat Statistik Marfai, M.A. (2011). Jakarta flood hazard and community participation on disaster preparedness. Prosiding dalam seminar Community preparedness and disaster management, center for religious and cross-cultural studies, UGMI, no. 2/2011 (december), Hlm, 209-221. Marfai, M.A., & Hizbaron, D.R. (2011). Community’s adaptive capacity due to coastal flooding in semarang coastal city, Indonesia. International Journal of Seria Geografie, Annals of the Univeristy of Oradea. E-ISSN 2065-1619. Year XX. Mulyaningsih, S., Sampurno, Zaim, Y., Puradimaja, D.J., Bronto, S., & Siregar, D.A. (2006). Perkembangan geologi pada kuwarter awal sampai masa sejarah di dataran yogyakarta. Jurnal Geologi Indonesia, Vol. 1, No. 2, Juni, Hal. 103-113. Permana, S. A., Setyowati, D. L., Slamet, A., & Juhadi. (2017). Society management in manage economic after merapi disaster. International Journal of Applied Business and Economic Research, 15(7), 1-10 Preece, K., Gertisser, R., Barclay, J., Berlo, K., Herd, R.A., & Facility, E.I.M. (2014). Pre and syneruptive degassing and crystallisation processes of the 2010 and 2006 eruptions of merapi volcano, indonesia. Contrib Mineral Petrol, Vol. 168: No. 1061, Hal. 1-25, DOI 10.1007/s00410-014-1061-z. Ridwan, N.A. (2007). Landasan keilmuan kearifan lokal. Jurnal study islam dan budaya, Vol. 5, No. 1. Hlm. 27-38. Rokib, M. (2013). Teologi Bencana: Studi Santri Tanggap Bencana. Yogyakarta: Buku Pintal. Sawangan, B. P. S. K. (2018). Kecamatan Sawangan dalam Angka. Sawangan : Badan Pusat Statistik Setiawan, B., Innatesari, D. K., Sabtiawan, W. B., & Sudarmin, S. (2017). The development of local wisdom-based natural science module to improve science literation of students. Jurnal Pendidikan IPA Indonesia, 6(1), 49-54. doi:10.15294/jpii.v6i1.9595 Sibarani, R. (2013). Pembentukan karakter berbasis kearifan lokal. Online, http://www.museum.pusaka.nias.org/2013/02/pembentukan-karakter-berbasis-kearifan.html. Diunduh tanggal 10 october 2019. Sleman, B. P. S. K. (2018). Kabupaten Sleman dalam Angka. Sleman : Badan Pusat Statistik Syahputra, H. (2019). Indigenous knowledge representation in mitigation process: A study of communities’ understandings of natural disasters in aceh province, indonesia. Collection and Curation, 38(4), 94-102. doi:10.1108/CC-11-2017-0046 Voight, B., Constantine, E.K., Siswowidjoyo, S., & Torley, R. (2000). Historical eruptions of merapi vulcano, Central Java, Indonesia, 1768-1998. Journal of Volcanology and Geothermal Research, Vol. 100, Hal. 69–138. Wilson, T.; Kaye, G., Stewart, C. and Cole, J. (2007). Impacts of the 2006 eruption of merapi volcano, Indonesia, on agriculture and infrastructure. GNS Science Report, 2007/07 Hal. 1-69. Copyright (c) 2019 Geosfera Indonesia Journal and Department of Geography Education, University of Jember This work is licensed under a Creative Commons Attribution-Share A like 4.0 International License

This study aim to attempt mapping out the Land Use or Land Cover (LULC) status of Regional Project Coordination Committee (RPCC) between 2009-2019 with a view of detecting the land consumption rate and the changes that has taken place using RS and GIS techniques; serving as a precursor to the further study on urban induced variations or change in weather pattern of the cityn Rangpur City Corporation(RCC) is the main administrative functional area for both of Rangpur City and Rangpur division and experiencing a rapid changes in the field of urban sprawl, cultural and physical landscape,city growth. These agents of Land use or Land cover (LULC) varieties are responsible for multi-dimensional problems such as traffic congestion, waterlogging, and solid waste disposal, loss of agricultural land. In this regard, this study fulfills LULC changes by using Geographical Information Systems (GIS) and Remote Sensing (RS) as well as field survey was conducted for the measurement of change detection. The sources of data were Landsat 7 ETM and landsat 8 OLI/TIRS of both C1 level 1. Then after correcting the data, geometrically and radiometrically change detection and combined classification (supervised & unsupervised) were used. The study finds LULC changes built-up area, water source, agricultural land, bare soil in a change of percentage is 17.23, 2.58, -9.94, -10.19 respectively between 2009 and 2019. Among these changes, bare soil is changed to a great extent, which indicates the expansion of urban areas is utilizing the land to a proper extent. Keywords: Urban expansion; land use; land cover; remote sensing; geographic information system (GIS); Rangpur City Corporation(RCC). References Al Rifat, S. A., & Liu, W. (2019). Quantifying spatiotemporal patterns and major explanatory factors of urban expansion in miami metropolitan area during 1992-2016. Remote Sensing, 11(21) doi:10.3390/rs11212493 Arimoro AO, Fagbeja MA, Eedy W. (2002). The Need and Use of Geographic Information Systems for Environmental Impact Assessment in Africa: With Example from Ten Years Experience in Nigeria. AJEAM/RAGEE, 4(2), 16-27. Belal, A.A. and Moghanm, F.S. (2011).Detecting Urban Growth Using Remote Sensing and GIS Techniques in Al Gharbiya Governorate, Egypt.The Egyptian Journal of Remote Sensing and Space Science, 14, 73-79. http://dx.doi.org/10.1016/j.ejrs.2011.09.001 Dewan, A.M. and Yamaguchi, Y. (2009). Using Remote Sensing and GIS to Detect and Monitor and Use and Land Cover Change in Dhaka Metropolitan of Bangladesh during 1960-2005. Environmental Monitor Assessment, 150, 237- 249. Retrieved from http://dx.doi.org/10.1007/s10661-008-0226-5 Djimadoumngar, K.-N., & Adegoke, J. (2018). Satellite-Based Assessment of Land Use and Land Cover (LULC) Changes around Lake Fitri, Republic of Chad. Journal of Sustainable Development, 11(5), 71. doi:10.5539/jsd.v11n5p71 Edwards, B., Frasch, T., & Jeyacheya, J. (2019). Evaluating the effectiveness of land-use zoning for the protection of built heritage in the bagan archaeological zone, Myanmar—A satellite remote-sensing approach. Land use Policy, 88 doi:10.1016/j.landusepol.2019.104174 Fallati, L., Savini, A., Sterlacchini, S., & Galli, P. (2017). Land use and land cover (LULC) of the Republic of the Maldives: first national map and LULC change analysis using remote-sensing data. Environmental Monitoring and Assessment, 189(8). doi:10.1007/s10661-017-6120-2 Fučík, P., Novák, P., & Žížala, D. (2014). A combined statistical approach for evaluation of the effects of land use, agricultural and urban activities on stream water chemistry in small tile-drained catchments of south bohemia, czech republic. Environmental Earth Sciences, 72(6), 2195-2216. doi:10.1007/s12665-014-3131-y Elbeih, S. F., & El-Zeiny, A. M. (2018). Qualitative assessment of groundwater quality based on land use spectral retrieved indices: Case study sohag governorate, egypt. Remote Sensing Applications: Society and Environment, 10, 82-92. doi:10.1016/j.rsase.2018.03.001 Fasal, S. (2000). Urban expansion and loss of agricultural land – A GIS based study of Saharanpur City, India. Environment and Urbanization, 12(2), 133 – 149 He, S., Wang, X., Dong, J., Wei, B., Duan, H., Jiao, J., & Xie, Y. (2019). Three-dimensional urban expansion analysis of valley-type cities: A case study of chengguan district, lanzhou, china. Sustainability (Switzerland), 11(20) doi:10.3390/su11205663 Heimlich, R.E and W.D. Anderson. (2001). Development at the Urban Fringe and Beyond: Impacts on Agriculture and Rural Land. 803, Economic Research Service, U.S. Department of Agriculture, Washington D.C., pg 80 Im, N., Kawamura, K., Suwandana, E., & Sakuno, Y. (2014). Monitoring land use and land cover effects on water quality in cheung ek lake using ASTER images. American Journal of Environmental Sciences, 11(1), 1-12. doi:10.3844/ajessp.2015.1.12 Kalnay, E., & Cai, M. (2003). Impact of urbanization and land-use change on climate. Nature, 423(6939), 528-531. doi:10.1038/nature01675 Matlhodi, B., Kenabatho, P. K., Parida, B. P., & Maphanyane, J. G. (2019). Evaluating land use and land cover change in the gaborone dam catchment, botswana, from 1984-2015 using GIS and remote sensing. Sustainability (Switzerland), 11(19) doi:10.3390/su11195174 Uddin, M. M. M. (2015). Causal relationship between agriculture, industry and services sector for GDP growth in Bangladesh: An econometric investigation. Journal of Poverty, Investment and Development, 8. Mondal, I., Srivastava, V. K., Roy, P. S., & Talukdar, G. (2014). Using logit model to identify the drivers of landuse landcover change in the lower gangetic basin, india. Paper presented at the International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, , XL-8(1) 853-859. doi:10.5194/isprsarchives-XL-8-853-2014 Navale, V. B., & Mhaske, S. Y. (2019). Land use/land cover changes in sangamner city by using remote sensing and GIS. International Journal of Recent Technology and Engineering, 8(2), 4614-4621. doi:10.35940/ijrte.B3386.078219 Nicolson, L.D. (1987). The Greening of the cities; Routledge and Kegan Paul, London Nong, D., Fox, J., Miura, T., & Saksena, S. (2015). Built-up Area Change Analysis in Hanoi Using Support Vector Machine Classification of Landsat Multi-Temporal Image Stacks and Population Data. Land, 4(4), 1213–1231. doi:10.3390/land4041213 Park, H., Fan, P., John, R., Ouyang, Z., & Chen, J. (2019). Spatiotemporal changes of informal settlements: Ger districts in ulaanbaatar, mongolia. Landscape and Urban Planning, 191 doi:10.1016/j.landurbplan.2019.103630 Rajeshwari D. (2006). Management of the Urban Environment Using Remote Sensing and Geographic Information Systems.J. Hum. Ecol., 20(4), 269-277. Retrieved from http://www.krepublishers.com/02_journals/JHE/ Rasul, A., Balzter, H., Ibrahim, G., Hameed, H., Wheeler, J., Adamu, B., … Najmaddin, P. (2018). Applying Built-Up and Bare-Soil Indices from Landsat 8 to Cities in Dry Climates. Land, 7(3), 81. doi:10.3390/land7030081 Risma, Zubair, H., & Paharuddin. (2019). Prediction of land use and land cover (LULC) changes using CA-Markov model in Mamuju Subdistrict. Journal of Physics: Conference Series, 1341, 082033. doi:10.1088/1742-6596/1341/8/082033 Schilling, K. E., Jha, M. K., Zhang, Y.-K., Gassman, P. W., & Wolter, C. F. (2008). Impact of land use and land cover change on the water balance of a large agricultural watershed: Historical effects and future directions. Water Resources Research, 44(7). doi:10.1029/2007wr006644 Copyright (c) 2019 Geosfera Indonesia Journal and Department of Geography Education, University of Jember This work is licensed under a Creative Commons Attribution-Share A like 4.0 International License

The study aims to improve the learning outcomes in the field of knowledge and inquiry skill in class VIII 5 SMP Negeri 14 Kendari on the subject matter of light in atmosphere as the effect of applying the guided inquiry learning model assisted by science KIT. The method of the study used a classroom action research with research design is cycle model. The research subject is the students of class VIII 5 SMP Negeri 14 Kendari in the academic year 2016/2017 which consist of 26 students. The learning data achievements of the learners' realm were obtained through the learning result test (cycle test), the skill data of the learners were obtained through the inquiry sheet, and then was analyzed used the descriptive statistics. Results of data analysis are: 1) learning outcomes increased from 60,31 in cycle I to 75 in cycle II; 2) the students group inquiry skill increased form average value 2.68 (enough category) in the cycle I to 3.15 (good category) in cycle II; 3) the students mastery learning percentage increase from 42.31% (11 students) in cycle I to 77% (20 students) in cycle II. It could be concluded that the implementation of guided inquiry learning model assisted by science KIT could improve the learning outcomes of knowledge and inquiry skill domain on Class VIII 5 SMP Negeri 14 Kendari in the subject matter of light in atmosphere. Keywords: guided inquiry, inquiry skills, learning outcomes,science KIT. References Ahmadi, L. (2015). Pemanfaatan Alat KIT pada Pembelajaran.Gorontalo: Universitas Negeri Gorontalo. Aksa, F.I., Utaya, S., & Bachri, S. (2019). Geografi dalam Perspektif Filsafat Ilmu. Majalah Geografi Indonesia,33(1), 43-37. Amaliana, I. (2017). Teacher-centered or Student-centered Learning Approach to Promote Learning?. Jurnal Sosial Humaniora, 10(2), 59-70. Anderson, L.W., & Krathwohl, D.R. (2015). Kerangka Landasan untuk Pembelajaran, Pengajaran, dan Asesmen Revisi Taksonomi Pendidikan Bloom (A. Priantoro, Trans.). Yogyakarta: Pustaka Pelajar. Arikunto, S. (2016). Prosedur Penelitian Suatu Pendekatan Praktik. Jakarta: Rineka Cipta. Depdiknas. (2004). Kurikulum Mata PelajaranSains SMP danMTs.Jakarta: Depdiknas. Greenwald, R.R.,&Quitadamo, I.J. (2014). A Mind of Their Own: Using Inquiry-based Teaching to Build Critical Thinking Skills and Intellectual Engagement in an Undergraduate Neuroanatomy Course. The Journal of Undergraduate Neuroscience Education, 12(2), 100-106. Hardianti, T., & Kuswanto, H. (2017). Difference among Levels of Inquiry: Process Skills Improvement at Senior High School in Indonesia. International Journal of Instruction, 10(2), 119-130. Hidayati, D.N., Amaluddin, L.O., & Surdin. (2016). The Effect Guided Inquiry to Critical Thinking Ability to Build Student Character in Geography Subject. Social Science, Education and Humanities Research,9(1), 367-371. Kuhlthau, C.C., Maniotes, L.K., & Caspari, A.K. (2015). Guided Inquiry: Learning In The 21st Century(2nd ed.). California: Libraries Unlimeted. Mulyana, S., Rusdi, & Vivanti, D. (2018). The Effect of Guided Inquiry Learning Model and Scientific Performance on Student Learning Outcome. Indonesian Journal of Science and Education, 2(1), 105-109. Niana, R., Sarwanto, & Ekawati, E.Y. (2016). The Application of Guided Inquiry Model on Physic Learning to Improve Scientific Attitude and Students Analysis Ability. Proceedings of the 2nd International Conference on Teacher Training and Education Sebelas Maret University,2(1), 605-615. Piaget, J. (1970). Science of Education and the Psychology of The Child. New York: Wiley. Putra, M.I.S., Widodo, W., & Jatmiko, B. (2016). The Development of Guided Inquiry Science Learning Materials to Improve Science Literacy Skill of Prospective MI Teachers.JPII, 5(1), 83-93. Riduwan. (2015). Dasar-Dasar Statistika. Bandung: Tarsito. Sanjaya, W. (2014). Strategi Pembelajaran. Jakarta: Kencana Prenada Media Group. Sapriya. (2014). Pendidikan IPS. Bandung: RemajaRosdaKarya. Sarwi, S.,& Prayitno, W.W. (2016). Implementation of Guided Inquiry Physics Instruction to Increase An Understanding Concept and to Develop The Students Character Conservation. JurnalPendidikanFisika Indonesia,12(1), 1-7. Sitorus, H.H., Hasruddin, & Edi, S. (2017). The Influence of Inquiry Learning Model on Student’s Scientific Attitudes in Ecosystem Topic at MTs. Daarul Hikmah Sei Alim (Islamic Junior High School) Asahan. International Journal of Humanities Social Sciences and Education (IJHSSE), 4(11), 170-175. Sohibun. (2014). Penerapan Strategi Belajar Dengar Lihat Kerjakan (Delikan) Berbasis Laboratorium Mini terhadap Ketrampilan Proses Sains (KPS) Siswa SMA Kelas X MIA. Jurnal Imliah Edu Research, 3(1), 53-67. Sudjana, N. (2014). Penelitian Hasil Proses Belajar Mengajar. Bandung: Remaja Rosdakarya. Sugiyono. (2014). Metode Penelitian Pendidikan Pendekatan Kuantitatif, Kualitatif, dan R&D. Bandung: Alfabeta. Tim Direktorat Pembinaan SMP. (2017). Panduan Penilaian oleh Pendidik dan Satuan Pendidikan Sekolah Menengah Pertama. Jakarta: Kementerian Pendidikan dan Kebudayaan Direktorat Jenderal Pendidikan Dasar dan Menengah Direktorat Pembinaan Sekolah Menengah Pertama. Wardani, S., Nurhayati, S., & Safitri, A. (2015). The Effectiveness of the Guided Inquiry Learning Module towards Students’ Character and Concept Understanding. International Journal of Science and Research (IJSR), 5(6), 1589-1594. Yewang, M.U.K., Degeng, I.N.S., Setyosari, P., & Sulton. (2016). The Effect of Guided Inquiry Learning Method VS Free Inquiry Against Learning Outcomes. International Conference on EducationUM, 561-568. Zaini, M. (2016). Guided Inquiry Based Learning on the Concept of Ecosystem Toward Learning Outcomes and Critical Thinking Skills of High School Student. IOSR Journal of Research & Method in Education (IOSR-JRME), 6(6), 50-55. Copyright (c) 2019 Geosfera Indonesia Journal and Department of Geography Education, University of Jember This work is licensed under a Creative Commons Attribution-Share A like 4.0 International License

Climate change induced sea-level rise (SLR) is on its increase globally. Regionally the lowlands of China, Vietnam, Bangladesh, and islands of the Malaysian, Indonesian and Philippine archipelagos are among the world’s most threatened regions. Sea-level rise has major impacts on the ecosystems and society. It threatens coastal populations, economic activities, and fragile ecosystems as mangroves, coastal salt-marches and wetlands. This paper provides a summary of the current state of knowledge of sea level-rise and its effects on both human and natural ecosystems. The focus is on coastal urban areas and low lying deltas in South-East Asia and Vietnam, as one of the most threatened areas in the world. About 3 mm per year reflects the growing consensus on the average SLR worldwide. The trend speeds up during recent decades. The figures are subject to local, temporal and methodological variation. In Vietnam the average values of 3.3 mm per year during the 1993-2014 period are above the worldwide average. Although a basic conceptual understanding exists that the increasing global frequency of the strongest tropical cyclones is related with the increasing temperature and SLR, this relationship is insufficiently understood. Moreover the precise, complex environmental, economic, social, and health impacts are currently unclear. SLR, storms and changing precipitation patterns increase flood risks, in particular in urban areas. Part of the current scientific debate is on how urban agglomeration can be made more resilient to flood risks. Where originally mainly technical interventions dominated this discussion, it becomes increasingly clear that proactive special planning, flood defense, flood risk mitigation, flood preparation, and flood recovery are important, but costly instruments. Next to the main focus on SLR and its effects on resilience, the paper reviews main SLR associated impacts: Floods and inundation, salinization, shoreline change, and effects on mangroves and wetlands. The hazards of SLR related floods increase fastest in urban areas. This is related with both the increasing surface major cities are expected to occupy during the decades to come and the increasing coastal population. In particular Asia and its megacities in the southern part of the continent are increasingly at risk. The discussion points to complexity, inter-disciplinarity, and the related uncertainty, as core characteristics. An integrated combination of mitigation, adaptation and resilience measures is currently considered as the most indicated way to resist SLR today and in the near future.References Aerts J.C.J.H., Hassan A., Savenije H.H.G., Khan M.F., 2000. Using GIS tools and rapid assessment techniques for determining salt intrusion: Stream a river basin management instrument. Physics and Chemistry of the Earth, Part B: Hydrology, Oceans and Atmosphere, 25, 265-273. Doi: 10.1016/S1464-1909(00)00014-9. Alongi D.M., 2002. Present state and future of the world’s mangrove forests. Environmental Conservation, 29, 331-349. Doi: 10.1017/S0376892902000231 Alongi D.M., 2015. The impact of climate change on mangrove forests. Curr. Clim. Change Rep., 1, 30-39. Doi: 10.1007/s404641-015-0002-x. Anderson F., Al-Thani N., 2016. Effect of sea level rise and groundwater withdrawal on seawater intrusion in the Gulf Coast aquifer: Implications for agriculture. Journal of Geoscience and Environment Protection, 4, 116-124. Doi: 10.4236/gep.2016.44015. Anguelovski I., Chu E., Carmin J., 2014. Variations in approaches to urban climate adaptation: Experiences and experimentation from the global South. Global Environmental Change, 27, 156-167. Doi: 10.1016/j.gloenvcha.2014.05.010. Arustienè J., Kriukaitè J., Satkunas J., Gregorauskas M., 2013. Climate change and groundwater - From modelling to some adaptation means in example of Klaipèda region, Lithuania. In: Climate change adaptation in practice. P. Schmidt-Thomé, J. Klein Eds. John Wiley and Sons Ltd., Chichester, UK., 157-169. Bamber J.L., Aspinall W.P., Cooke R.M., 2016. A commentary on “how to interpret expert judgement assessments of twenty-first century sea-level rise” by Hylke de Vries and Roderik S.W. Van de Wal. Climatic Change, 137, 321-328. Doi: 10.1007/s10584-016-1672-7. Barnes C., 2014. Coastal population vulnerability to sea level rise and tropical cyclone intensification under global warming. BSc-thesis. Department of Geography, University of Lethbridge, Alberta Canada. Be T.T., Sinh B.T., Miller F., 2007. Challenges to sustainable development in the Mekong Delta: Regional and national policy issues and research needs. The Sustainable Mekong Research Network, Bangkok, Thailand, 1-210. Bellard C., Leclerc C., Courchamp F., 2014. Impact of sea level rise on 10 insular biodiversity hotspots. Global Ecology and Biogeography, 23, 203-212. Doi: 10.1111/geb.12093. Berg H., Söderholm A.E., Sönderström A.S., Nguyen Thanh Tam, 2017. Recognizing wetland ecosystem services for sustainable rice farming in the Mekong delta, Vietnam. Sustainability Science, 12, 137-154. Doi: 10.1007/s11625-016-0409-x. Bilskie M.V., Hagen S.C., Medeiros S.C., Passeri D.L., 2014. Dynamics of sea level rise and coastal flooding on a changing landscape. Geophysical Research Letters, 41, 927-934. Doi: 10.1002/2013GL058759. Binh T.N.K.D., Vromant N., Hung N.T., Hens L., Boon E.K., 2005. Land cover changes between 1968 and 2003 in Cai Nuoc, Ca Mau penisula, Vietnam. Environment, Development and Sustainability, 7, 519-536. Doi: 10.1007/s10668-004-6001-z. Blankespoor B., Dasgupta S., Laplante B., 2014. Sea-level rise and coastal wetlands. Ambio, 43, 996- 005.Doi: 10.1007/s13280-014-0500-4. Brockway R., Bowers D., Hoguane A., Dove V., Vassele V., 2006. A note on salt intrusion in funnel shaped estuaries: Application to the Incomati estuary, Mozambique.Estuarine, Coastal and Shelf Science, 66, 1-5. Doi: 10.1016/j.ecss.2005.07.014. Cannaby H., Palmer M.D., Howard T., Bricheno L., Calvert D., Krijnen J., Wood R., Tinker J., Bunney C., Harle J., Saulter A., O’Neill C., Bellingham C., Lowe J., 2015. Projected sea level rise and changes in extreme storm surge and wave events during the 21st century in the region of Singapore. Ocean Sci. Discuss, 12, 2955-3001. Doi: 10.5194/osd-12-2955-2015. Carraro C., Favero A., Massetti E., 2012. Investment in public finance in a green, low carbon economy. Energy Economics, 34, S15-S18. Castan-Broto V., Bulkeley H., 2013. A survey ofurban climate change experiments in 100 cities. Global Environmental Change, 23, 92-102. Doi: 10.1016/j.gloenvcha.2012.07.005. Cazenave A., Le Cozannet G., 2014. Sea level rise and its coastal impacts. GeoHealth, 2, 15-34. Doi: 10.1002/2013EF000188. Chu M.L., Guzman J.A., Munoz-Carpena R., Kiker G.A., Linkov I., 2014. A simplified approach for simulating changes in beach habitat due to the combined effects of long-term sea level rise, storm erosion and nourishment. Environmental modelling and software, 52, 111-120. Doi.org/10.1016/j.envcsoft.2013.10.020. Church J.A. et al., 2013. Sea level change. In: Climate change 2013: The physical science basis. Contribution of working group I to the fifth assessment report of Intergovernmental Panel on Climate Change. Eds: Stocker T.F., Qin D., Plattner G.-K., Tignor M., Allen S.K., Boschung J., Nauels A., Xia Y., Bex V., Midgley P.M., Cambridge University Press, Cambridge, UK. Connell J., 2016. Last days of the Carteret Islands? Climate change, livelihoods and migration on coral atolls. Asia Pacific Viewpoint, 57, 3-15. Doi: 10.1111/apv.12118. Dasgupta S., Laplante B., Meisner C., Wheeler, Yan J., 2009. The impact of sea level rise on developing countries: A comparative analysis. Climatic Change, 93, 379-388. Doi: 10.1007/s 10584-008-9499-5. Delbeke J., Vis P., 2015. EU climate policy explained, 136p. Routledge, Oxon, UK. DiGeorgio M., 2015. Bargaining with disaster: Flooding, climate change, and urban growth ambitions in QuyNhon, Vietnam. Public Affairs, 88, 577-597. Doi: 10.5509/2015883577. Do Minh Duc, Yasuhara K., Nguyen Manh Hieu, 2015. Enhancement of coastal protection under the context of climate change: A case study of Hai Hau coast, Vietnam. Proceedings of the 10th Asian Regional Conference of IAEG, 1-8. Do Minh Duc, Yasuhara K., Nguyen Manh Hieu, Lan Nguyen Chau, 2017. Climate change impacts on a large-scale erosion coast of Hai Hau district, Vietnam and the adaptation. Journal of Coastal Conservation, 21, 47-62. Donner S.D., Webber S., 2014. Obstacles to climate change adaptation decisions: A case study of sea level rise; and coastal protection measures in Kiribati. Sustainability Science, 9, 331-345. Doi: 10.1007/s11625-014-0242-z. Driessen P.P.J., Hegger D.L.T., Bakker M.H.N., Van Renswick H.F.M.W., Kundzewicz Z.W., 2016. Toward more resilient flood risk governance. Ecology and Society, 21, 53-61. Doi: 10.5751/ES-08921-210453. Duangyiwa C., Yu D., Wilby R., Aobpaet A., 2015. Coastal flood risks in the Bangkok Metropolitan region, Thailand: Combined impacts on land subsidence, sea level rise and storm surge. American Geophysical Union, Fall meeting 2015, abstract#NH33C-1927. Duarte C.M., Losada I.J., Hendriks I.E., Mazarrasa I., Marba N., 2013. The role of coastal plant communities for climate change mitigation and adaptation. Nature Climate Change, 3, 961-968. Doi: 10.1038/nclimate1970. Erban L.E., Gorelick S.M., Zebker H.A., 2014. Groundwater extraction, land subsidence, and sea-level rise in the Mekong Delta, Vietnam. Environmental Research Letters, 9, 1-20. Doi: 10.1088/1748-9326/9/8/084010. FAO - Food and Agriculture Organisation, 2007.The world’s mangroves 1980-2005. FAO Forestry Paper, 153, Rome, Italy. Farbotko C., 2010. Wishful sinking: Disappearing islands, climate refugees and cosmopolitan experimentation. Asia Pacific Viewpoint, 51, 47-60. Doi: 10.1111/j.1467-8373.2010.001413.x. Goltermann D., Ujeyl G., Pasche E., 2008. Making coastal cities flood resilient in the era of climate change. Proceedings of the 4th International Symposium on flood defense: Managing flood risk, reliability and vulnerability, 148-1-148-11. Toronto, Canada. Gong W., Shen J., 2011. The response of salt intrusion to changes in river discharge and tidal mixing during the dry season in the Modaomen Estuary, China.Continental Shelf Research, 31, 769-788. Doi: 10.1016/j.csr.2011.01.011. Gosian L., 2014. Protect the world’s deltas. Nature, 516, 31-34. Graham S., Barnett J., Fincher R., Mortreux C., Hurlimann A., 2015. Towards fair outcomes in adaptation to sea-level rise. Climatic Change, 130, 411-424. Doi: 10.1007/s10584-014-1171-7. COASTRES-D-12-00175.1. Güneralp B., Güneralp I., Liu Y., 2015. Changing global patterns of urban expoàsure to flood and drought hazards. Global Environmental Change, 31, 217-225. Doi: 10.1016/j.gloenvcha.2015.01.002. Hallegatte S., Green C., Nicholls R.J., Corfee-Morlot J., 2013. Future flood losses in major coastal cities. Nature Climate Change, 3, 802-806. Doi: 10.1038/nclimate1979. Hamlington B.D., Strassburg M.W., Leben R.R., Han W., Nerem R.S., Kim K.-Y., 2014. Uncovering an anthropogenic sea-level rise signal in the Pacific Ocean. Nature Climate Change, 4, 782-785. Doi: 10.1038/nclimate2307. Hashimoto T.R., 2001. Environmental issues and recent infrastructure development in the Mekong Delta: Review, analysis and recommendations with particular reference to large-scale water control projects and the development of coastal areas. Working paper series (Working paper No. 4). Australian Mekong Resource Centre, University of Sydney, Australia, 1-70. Hibbert F.D., Rohling E.J., Dutton A., Williams F.H., Chutcharavan P.M., Zhao C., Tamisiea M.E., 2016. Coral indicators of past sea-level change: A global repository of U-series dated benchmarks. Quaternary Science Reviews, 145, 1-56. Doi: 10.1016/j.quascirev.2016.04.019. Hinkel J., Lincke D., Vafeidis A., Perrette M., Nicholls R.J., Tol R.S.J., Mazeion B., Fettweis X., Ionescu C., Levermann A., 2014. Coastal flood damage and adaptation costs under 21st century sea-level rise. Proceedings of the National Academy of Sciences, 111, 3292-3297. Doi: 10.1073/pnas.1222469111. Hinkel J., Nicholls R.J., Tol R.S.J., Wang Z.B., Hamilton J.M., Boot G., Vafeidis A.T., McFadden L., Ganapolski A., Klei R.J.Y., 2013. A global analysis of erosion of sandy beaches and sea level rise: An application of DIVA. Global and Planetary Change, 111, 150-158. Doi: 10.1016/j.gloplacha.2013.09.002. Huong H.T.L., Pathirana A., 2013. Urbanization and climate change impacts on future urban flooding in Can Tho city, Vietnam. Hydrol. Earth Syst. Sci., 17, 379-394. Doi: 10.5194/hess-17-379-2013. Hurlimann A., Barnett J., Fincher R., Osbaldiston N., Montreux C., Graham S., 2014. Urban planning and sustainable adaptation to sea-level rise. Landscape and Urban Planning, 126, 84-93. Doi: 10.1016/j.landurbplan.2013.12.013. IMHEN-Vietnam Institute of Meteorology, Hydrology and Environment, 2011. Climate change vulnerability and risk assessment study for Ca Mau and KienGiang provinces, Vietnam. Hanoi, Vietnam Institute of Meteorology, Hydrology and Environment (IMHEN), 250p. IMHEN-Vietnam Institute of Meteorology, Hydrology and Environment, Ca Mau PPC, 2011. Climate change impact and adaptation study in The Mekong Delta - Part A: Ca Mau Atlas. Hanoi, Vietnam: Institute of Meteorology, Hydrology and Environment (IMHEN), 48p. IPCC-Intergovernmental Panel on Climate Change, 2014. Fifth assessment report. Cambridge University Press, Cambridge, UK. Jevrejeva S., Jackson L.P., Riva R.E.M., Grinsted A., Moore J.C., 2016. Coastal sea level rise with warming above 2°C. Proceedings of the National Academy of Sciences, 113, 13342-13347. Doi: 10.1073/pnas.1605312113. Junk W.J., AN S., Finlayson C.M., Gopal B., Kvet J., Mitchell S.A., Mitsch W.J., Robarts R.D., 2013. Current state of knowledge regarding the world’s wetlands and their future under global climate change: A synthesis. Aquatic Science, 75, 151-167. Doi: 10.1007/s00027-012-0278-z. Jordan A., Rayner T., Schroeder H., Adger N., Anderson K., Bows A., Le Quéré C., Joshi M., Mander S., Vaughan N., Whitmarsh L., 2013. Going beyond two degrees? The risks and opportunities of alternative options. Climate Policy, 13, 751-769. Doi: 10.1080/14693062.2013.835705. Kelly P.M., Adger W.N., 2000. Theory and practice in assessing vulnerability to climate change and facilitating adaptation. Climatic Change, 47, 325-352. Doi: 10.1023/A:1005627828199. Kirwan M.L., Megonigal J.P., 2013. Tidal wetland stability in the face of human impacts and sea-level rice. Nature, 504, 53-60. Doi: 10.1038/nature12856. Koerth J., Vafeidis A.T., Hinkel J., Sterr H., 2013. What motivates coastal households to adapt pro actively to sea-level rise and increased flood risk? Regional Environmental Change, 13, 879-909. Doi: 10.1007/s10113-12-399-x. Kontgis K., Schneider A., Fox J;,Saksena S., Spencer J.H., Castrence M., 2014. Monitoring peri urbanization in the greater Ho Chi Minh City metropolitan area. Applied Geography, 53, 377-388. Doi: 10.1016/j.apgeogr.2014.06.029. Kopp R.E., Horton R.M., Little C.M., Mitrovica J.X., Oppenheimer M., Rasmussen D.J., Strauss B.H., Tebaldi C., 2014. Probabilistic 21st and 22nd century sea-level projections at a global network of tide-gauge sites. Earth’s Future, 2, 383-406. Doi: 10.1002/2014EF000239. Kuenzer C., Bluemel A., Gebhardt S., Quoc T., Dech S., 2011. Remote sensing of mangrove ecosystems: A review.Remote Sensing, 3, 878-928. Doi: 10.3390/rs3050878. Lacerda G.B.M., Silva C., Pimenteira C.A.P., Kopp Jr. R.V., Grumback R., Rosa L.P., de Freitas M.A.V., 2013. Guidelines for the strategic management of flood risks in industrial plant oil in the Brazilian coast: Adaptive measures to the impacts of sea level rise. Mitigation and Adaptation Strategies for Global Change, 19, 104-1062. Doi: 10.1007/s11027-013-09459-x. Lam Dao Nguyen, Pham Van Bach, Nguyen Thanh Minh, Pham Thi Mai Thy, Hoang Phi Hung, 2011. Change detection of land use and river bank in Mekong Delta, Vietnam using time series remotely sensed data. Journal of Resources and Ecology, 2, 370-374. Doi: 10.3969/j.issn.1674-764x.2011.04.011. Lang N.T., Ky B.X., Kobayashi H., Buu B.C., 2004. Development of salt tolerant varieties in the Mekong delta. JIRCAS Project, Can Tho University, Can Tho, Vietnam, 152. Le Cozannet G., Rohmer J., Cazenave A., Idier D., Van de Wal R., de Winter R., Pedreros R., Balouin Y., Vinchon C., Oliveros C., 2015. Evaluating uncertainties of future marine flooding occurrence as sea-level rises. Environmental Modelling and Software, 73, 44-56. Doi: 10.1016/j.envsoft.2015.07.021. Le Cozannet G., Manceau J.-C., Rohmer J., 2017. Bounding probabilistic sea-level projections with the framework of the possible theory. Environmental Letters Research, 12, 12-14. Doi.org/10.1088/1748-9326/aa5528.Chikamoto Y., 2014. Recent Walker circulation strengthening and Pacific cooling amplified by Atlantic warming. Nature Climate Change, 4, 888-892. Doi: 10.1038/nclimate2330. Lovelock C.E., Cahoon D.R., Friess D.A., Gutenspergen G.R., Krauss K.W., Reef R., Rogers K., Saunders M.L., Sidik F., Swales A., Saintilan N., Le Xuan Tuyen, Tran Triet, 2015. The vulnerability of Indo-Pacific mangrove forests to sea-level rise. Nature, 526, 559-563. Doi: 10.1038/nature15538. MA Millennium Ecosystem Assessment, 2005. Ecosystems and human well-being: Current state and trends. Island Press, Washington DC, 266p. Masterson J.P., Fienen M.N., Thieler E.R., Gesch D.B., Gutierrez B.T., Plant N.G., 2014. Effects of sea level rise on barrier island groundwater system dynamics - ecohydrological implications. Ecohydrology, 7, 1064-1071. Doi: 10.1002/eco.1442. McGanahan G., Balk D., Anderson B., 2007. The rising tide: Assessing the risks of climate changes and human settlements in low elevation coastal zones.Environment and urbanization, 19, 17-37. Doi: 10.1177/095624780707960. McIvor A., Möller I., Spencer T., Spalding M., 2012. Reduction of wind and swell waves by mangroves. The Nature Conservancy and Wetlands International, 1-27. Merryn T., Pidgeon N., Whitmarsh L., Ballenger R., 2016. Expert judgements of sea-level rise at the local scale. Journal of Risk Research, 19, 664-685. Doi.org/10.1080/13669877.2015.1043568. Monioudi I.N., Velegrakis A.F., Chatzipavlis A.E., Rigos A., Karambas T., Vousdoukas M.I., Hasiotis T., Koukourouvli N., Peduzzi P., Manoutsoglou E., Poulos S.E., Collins M.B., 2017. Assessment of island beach erosion due to sea level rise: The case of the Aegean archipelago (Eastern Mediterranean). Nat. Hazards Earth Syst. Sci., 17, 449-466. Doi: 10.5194/nhess-17-449-2017. MONRE - Ministry of Natural Resources and Environment, 2016. Scenarios of climate change and sea level rise for Vietnam. Publishing House of Environmental Resources and Maps Vietnam, Hanoi, 188p. Montz B.E., Tobin G.A., Hagelman III R.R., 2017. Natural hazards. Explanation and integration. The Guilford Press, NY, 445p. Morgan L.K., Werner A.D., 2014. Water intrusion vulnerability for freshwater lenses near islands. Journal of Hydrology, 508, 322-327. Doi: 10.1016/j.jhydrol.2013.11.002. Muis S., Güneralp B., Jongman B., Aerts J.C.H.J., Ward P.J., 2015. Science of the Total Environment, 538, 445-457. Doi: 10.1016/j.scitotenv.2015.08.068. Murray N.J., Clemens R.S., Phinn S.R., Possingham H.P., Fuller R.A., 2014. Tracking the rapid loss of tidal wetlands in the Yellow Sea. Frontiers in Ecology and Environment, 12, 267-272. Doi: 10.1890/130260. Neumann B., Vafeidis A.T., Zimmermann J., Nicholls R.J., 2015a. Future coastal population growth and exposure to sea-level rise and coastal flooding. A global assessment. Plos One, 10, 1-22. Doi: 10.1371/journal.pone.0118571. Nguyen A. Duoc, Savenije H. H., 2006. Salt intrusion in multi-channel estuaries: a case study in the Mekong Delta, Vietnam. Hydrology and Earth System Sciences Discussions, European Geosciences Union, 10, 743-754. Doi: 10.5194/hess-10-743-2006. Nguyen An Thinh, Nguyen Ngoc Thanh, Luong Thi Tuyen, Luc Hens, 2017. Tourism and beach erosion: Valuing the damage of beach erosion for tourism in the Hoi An, World Heritage site. Journal of Environment, Development and Sustainability. Nguyen An Thinh, Luc Hens (Eds.), 2018. Human ecology of climate change associated disasters in Vietnam: Risks for nature and humans in lowland and upland areas. Springer Verlag, Berlin.Nguyen An Thinh, Vu Anh Dung, Vu Van Phai, Nguyen Ngoc Thanh, Pham Minh Tam, Nguyen Thi Thuy Hang, Le Trinh Hai, Nguyen Viet Thanh, Hoang Khac Lich, Vu Duc Thanh, Nguyen Song Tung, Luong Thi Tuyen, Trinh Phuong Ngoc, Luc Hens, 2017. Human ecological effects of tropical storms in the coastal area of Ky Anh (Ha Tinh, Vietnam). Environ Dev Sustain, 19, 745-767. Doi: 10.1007/s/10668-016-9761-3. Nguyen Van Hoang, 2017. Potential for desalinization of brackish groundwater aquifer under a background of rising sea level via salt-intrusion prevention river gates in the coastal area of the Red River delta, Vietnam. Environment, Development and Sustainability. Nguyen Tho, Vromant N., Nguyen Thanh Hung, Hens L., 2008. Soil salinity and sodicity in a shrimp farming coastal area of the Mekong Delta, Vietnam. Environmental Geology, 54, 1739-1746. Doi: 10.1007/s00254-007-0951-z. Nguyen Thang T.X., Woodroffe C.D., 2016. Assessing relative vulnerability to sea-level rise in the western part of the Mekong River delta. Sustainability Science, 11, 645-659. Doi: 10.1007/s11625-015-0336-2. Nicholls N.N., Hoozemans F.M.J., Marchand M., Analyzing flood risk and wetland losses due to the global sea-level rise: Regional and global analyses.Global Environmental Change, 9, S69-S87. Doi: 10.1016/s0959-3780(99)00019-9. Phan Minh Thu, 2006. Application of remote sensing and GIS tools for recognizing changes of mangrove forests in Ca Mau province. In Proceedings of the International Symposium on Geoinformatics for Spatial Infrastructure Development in Earth and Allied Sciences, Ho Chi Minh City, Vietnam, 9-11 November, 1-17. Reise K., 2017. Facing the third dimension in coastal flatlands.Global sea level rise and the need for coastal transformations. Gaia, 26, 89-93. Renaud F.G., Le Thi Thu Huong, Lindener C., Vo Thi Guong, Sebesvari Z., 2015. Resilience and shifts in agro-ecosystems facing increasing sea-level rise and salinity intrusion in Ben Tre province, Mekong Delta. Climatic Change, 133, 69-84. Doi: 10.1007/s10584-014-1113-4. Serra P., Pons X., Sauri D., 2008. Land cover and land use in a Mediterranean landscape. Applied Geography, 28, 189-209. Shearman P., Bryan J., Walsh J.P., 2013.Trends in deltaic change over three decades in the Asia-Pacific Region. Journal of Coastal Research, 29, 1169-1183. Doi: 10.2112/JCOASTRES-D-12-00120.1. SIWRR-Southern Institute of Water Resources Research, 2016. Annual Report. Ministry of Agriculture and Rural Development, Ho Chi Minh City, 1-19. Slangen A.B.A., Katsman C.A., Van de Wal R.S.W., Vermeersen L.L.A., Riva R.E.M., 2012. Towards regional projections of twenty-first century sea-level change based on IPCC RES scenarios. Climate Dynamics, 38, 1191-1209. Doi: 10.1007/s00382-011-1057-6. Spencer T., Schuerch M., Nicholls R.J., Hinkel J., Lincke D., Vafeidis A.T., Reef R., McFadden L., Brown S., 2016. Global coastal wetland change under sea-level rise and related stresses: The DIVA wetland change model. Global and Planetary Change, 139, 15-30. Doi:10.1016/j.gloplacha.2015.12.018. Stammer D., Cazenave A., Ponte R.M., Tamisiea M.E., 2013. Causes of contemporary regional sea level changes. Annual Review of Marine Science, 5, 21-46. Doi: 10.1146/annurev-marine-121211-172406. Tett P., Mee L., 2015. Scenarios explored with Delphi. In: Coastal zones ecosystems services. Eds., Springer, Berlin, Germany, 127-144. Tran Hong Hanh, 2017. Land use dynamics, its drivers and consequences in the Ca Mau province, Mekong delta, Vietnam. PhD dissertation, 191p. VUBPRESS Brussels University Press, ISBN 9789057186226, Brussels, Belgium. Tran Thuc, Nguyen Van Thang, Huynh Thi Lan Huong, Mai Van Khiem, Nguyen Xuan Hien, Doan Ha Phong, 2016. Climate change and sea level rise scenarios for Vietnam. Ministry of Natural resources and Environment. Hanoi, Vietnam. Tran Hong Hanh, Tran Thuc, Kervyn M., 2015. Dynamics of land cover/land use changes in the Mekong Delta, 1973-2011: A remote sensing analysis of the Tran Van Thoi District, Ca Mau province, Vietnam. Remote Sensing, 7, 2899-2925. Doi: 10.1007/s00254-007-0951-z Van Lavieren H., Spalding M., Alongi D., Kainuma M., Clüsener-Godt M., Adeel Z., 2012. Securing the future of Mangroves. The United Nations University, Okinawa, Japan, 53, 1-56. Water Resources Directorate. Ministry of Agriculture and Rural Development, 2016. Available online: http://www.tongcucthuyloi.gov.vn/Tin-tuc-Su-kien/Tin-tuc-su-kien-tong-hop/catid/12/item/2670/xam-nhap-man-vung-dong-bang-song-cuu-long--2015---2016---han-han-o-mien-trung--tay-nguyen-va-giai-phap-khac-phuc. Last accessed on: 30/9/2016. Webster P.J., Holland G.J., Curry J.A., Chang H.-R., 2005. Changes in tropical cyclone number, duration, and intensity in a warming environment. Science, 309, 1844-1846. Doi: 10.1126/science.1116448. Were K.O., Dick O.B., Singh B.R., 2013. Remotely sensing the spatial and temporal land cover changes in Eastern Mau forest reserve and Lake Nakuru drainage Basin, Kenya. Applied Geography, 41, 75-86. Williams G.A., Helmuth B., Russel B.D., Dong W.-Y., Thiyagarajan V., Seuront L., 2016. Meeting the climate change challenge: Pressing issues in southern China an SE Asian coastal ecosystems. Regional Studies in Marine Science, 8, 373-381. Doi: 10.1016/j.rsma.2016.07.002. Woodroffe C.D., Rogers K., McKee K.L., Lovdelock C.E., Mendelssohn I.A., Saintilan N., 2016. Mangrove sedimentation and response to relative sea-level rise. Annual Review of Marine Science, 8, 243-266. Doi: 10.1146/annurev-marine-122414-034025.

A change in teaching delivery at a large Australian university, from two semesters to three trimesters, was the occasion for using more formative assessment in a core first-year mathematics unit. This study compared evidence about learning outcomes for two cohorts in adjacent years. Cohort 1 was the last taught over a semester, and Cohort 2 the first taught over a trimester. There was no change in overall workload, and no change in the unit's total teaching hours, syllabus or materials. Assessments were changed for class tests during the teaching period by giving Cohort 2 access to unlimited practice and computer-assisted feedback on the questions in the test database, followed by doing the tests under examination conditions. For Cohort 2, a written assignment was also added, focused on giving a clear solution to a mathematics problem, and awareness of the need for appropriate evidence, both background and internal to the problem. Learning outcomes were compared using closely comparable tasks from the final examinations, and examining students' answers in the examination scripts. Outcomes were assessed by a method derived from the solo taxonomy, which afforded a common scale to measure the quality of learning outcomes observable in final examination scripts. Results on separate tasks, plus those for a composite score, favoured Cohort 2. The effect size for the composite score was 0.457. This indicates that the unlimited practice with computer feedback for class tests, and the writing assignment, were functioning as intended in promoting learning with understanding. References S. Bengmark, H. Thunberg, and T. M. Winberg. Success-factors in transition to university mathematics. Int. J. Math. Ed. Sci. Tech., 48(7):988–1001, 2017. doi:10.1080/0020739X.2017.1310311. J. B. Biggs and K. F. Collis. Evaluating the quality of learning: The SOLO taxonomy. Academic Press, New York, 1981. URL https://www.elsevier.com/books/evaluating-the-quality-of-learning/biggs/978-0-12-097552-5. A. Bowen-James. Perceptions of learning environments among tertiary mathematics students. Sc.Ed.D. Thesis. Curtin University of Technology, 2002. H. Chick, J. M. Watson, and K. F. Collis. Using the solo taxonomy for error analysis in mathematics. Res. Math. Ed. Aust., 1(1):34–47, 1988. M. R. Freislich. A comparison between the effects of Keller Plan instruction and traditional teaching methods on the structure of learning outcomes among tertiary mathematics students. Sc.Ed.D. Thesis. Curtin University of Technology, 1997. M. R. Freislich. The effects of Keller Plan instruction on the achievement and attitudes of tertiary mathematics students. Proc. Int. Conf. Teach. Math., Istanbul. 2006. M. Gill and M. Greenow. How effective is feedback in computer-aided assessment? Learn. Media Tech., 33(3):207–220, 2008. doi:10.1080/17439880802324145. J. Hannah, A. James, and P. Williams. Does computer-aided formative assessment improve learning outcomes? Int. J. Math. Ed. Sci. Tech., 45(2):269–281, 2014. doi:10.1080/0020739X.2013.822583. D. Harris and M. Pampaka. \T1\textquoteleft they [the lecturers] have to get through a certain amount in an hour\T1\textquoteright : first year students\T1\textquoteright problems with service mathematics lectures. Teach. Math. App., 35(3):144–158, 2016. doi:10.1093/teamat/hrw013. S. Higgins and M. Katsipataki. Communicating comparative findings from meta-analysis in educational research: some examples and suggestions. Int. J. Math.. Res. Meth. Ed., 39(3):237–254, 2016. doi:10.1080/1743727X.2016.1166486. P. W. Hillock and R. N. Khan. A support learning programme for first-year mathematics. Int. J. Math. Ed. Sci. Tech., 50(7):24–29, 2019. doi:10.1080/0020739X.2019.1656830. A. Hodge, J. C. Richardson, and C. S. York. The impact of a web-based homework tool in university algebra courses on student learning and strategies. J. Online Learn. Teach., 5(4):618–629, 2009. URL https://jolt.merlot.org/vol5no4/hodge_1209.htm. D. Holton and D. Clarke. Scaffolding and metacognition. Int. J. Math. Ed. Sci. Tech., 37(2):127–143, 2006. doi:10.1080/00207390500285818. A. H. Jonsdottir, A. Bjornsdottir, and G. Stefansson. Difference in learning among students doing pen-and-paper homework compared to web-based homework in an introductory statistics course. J. Stat. Ed., 25(1):12–20, 2017. doi:10.1080/10691898.2017.1291289. M. McAlinden and A. Noyes. Mathematics in the disciplines at the transition to university. Teach. Math. App., 38(2):61–73, 2019. doi:10.1093/teamat/hry004. J. Nicholas, L. Poladian, J. Mack, and R. Wilson. Mathematics preparation for university: entry pathways and their effect on performance in first year mathematics and science subjects. Int. J. Innov. Sci. Math. Ed., 23(1):37–51, 2015. https://openjournals.library.sydney.edu.au/index.php/CAL/article/view/8488. M. I. Nunez-Pena, R. Bono, and M. Suarez-Pellicioni. Feedback on students' performance: a possible way of reducing the negative effect of math anxiety in higher education. Int. J. Ed. Res., 70(1):80–87, 2015. doi:10.1016/j.ijer.2015.02.005. J. T. E. Richardson. Student learning in higher education: a commentary. Ed. Psych. Rev., 29(1):353–362, 2017. doi:10.1007/s10648-017-9410-x. L. J. Rylands and D. Shearman. Mathematics learning support and engagement in first year engineering. Int. J. Math. Ed. Sci. Tech., 49(8):1133–1147, 2018. doi:10.1080/0020739X.2018.1447699. K. A. Seaton. Efficacy and efficiency in formative assessment: an informed reflection on the value of partial marking. Int. J. Math. Ed. Sci. Tech., 44(7):963–971, 2013. doi:10.1080/0020739X.2013.831490. D. Wood, J. S. Bruner, and G. Ross. The role of tutoring in problem solving. J. Child Psychol. Psych., 17(1):89–100, 1976. doi:10.1111/j.1469-7610.1976.tb00381.x. L. Zetterqvist. Applied problems and use of technology in an aligned way in basic courses in probability and statistics for engineering students—a way to enhance understanding and increase motivation. Teach. Math. App., 36(2):108–122, 2017. doi:10.1093/teamat/hrx004.

Infrastructure Development Jalur Jalan Lintas Selatan (JJLS) is a National program that passes through 5 provinces in Java, which is one of the provinces passed through the Special Region of Yogyakarta. One of the villages passed by the JJLS development in the Special Province of Yogyakarta is Gadingsari Village, Sanden District, Bantul Regency. In this study, it will be seen how changes in land use in Gadingsari village before and after JJLS. The purpose of this study was to analyze changes in land use that occurred in Gadingsari Village. The analytical method used is a qualitative descriptive analysis method. Changes in land use were obtained from the Satellite Image Overlay Analysis in the span of time, namely before JJLS was built in 2013 and after JJLS was built in 2017 and strengthened with field surveys and in-depth interviews. From the results of the research, it was found that the land area for settlements in Gadingsari Village before and after the JJLS had changed. Before the existence of JJLS residential area was 78.90 hectare and it expanded to 104.93 hectare after the construction of JJLS, there was an increase of around 32.99% . Key words: Infrastructure, Overlay, JJLS, Land References Ahardi Muhammad A., Sawitri S. & Abdi S. (2015). Pengaruh Perubahan Penggunaan Lahan Terhadap Perubahan Zona Nilai Tanah di Kecamatan Gayamsari Kota Semarang Tahun 2004 dan 2014Jurnal Geodesi Undip, 4(4), 316–324. Beatus M. Laka, Uca Sideng & Amal (2017). Perubahan Penggunaan Lahan di Kecamatan Sirimau Kota Ambon .Jurnal Geocelebes, 1(2), 43–52. Fadilla Restu , Sudarsono B. & Bashit N.(2018). Analisis Kesesuaian Perubahan Penggunaan Lahan Terhadap Rencana Tata Ruang/wilayah di Kecamatan Penjaringan kota Administratif Jakarta Utara Menggunakan Sistem informasi Geografis. Jurnal Geodesi Undip, 7(1), 109–119. Kubangun Siti Hadjar, Haridjaja O.&Gandasasmita K. (2016). Model Perubahan Penutupan / Penggunaan Lahan untuk Identifikasi Lahan Kritis di Kabupaten Bogor , Kabupaten Cianjur dan Kabupaten Sukabumi Majalah Ilmiah Globe, 18(1), 21–32. Kusumaningrat Merpati D., Sawitri Subiyanto&Yuwono B. D. (2017) Analisis Perubahan Penggunaan dan Pemanfaatan Lahan Terhadap Rencana Tata Ruang Wilayah tahun 2009 dan 2017 (Studi kasus : Kabupaten Boyolali). Jurnal Geodesi Undip, 3, 28–43. Murdaningsih, Widiatmaka, Munibah, L. & Ambarwulan, W. (2017). Analisis Spasial Perubahan Penggunaan Lahan Pertanian Di Kabupaten Indramayu. Majalah Ilmiah Globe, 19(2), 175–184. Nuraeni, R., Sitorus, S.R P. & Panuju, D.R. (2017). Analisis Perubahan Penggunaan Lahan dan Arahan Penggunaan Lahan Wilayah di Kabupaten Bandung. Buletin Tanah Dan Lahan, 1(1), 79–85. Sadewo M Nur, Imam B. (2018). Simulasi Perubahan Penggunaan Lahan Akibat Pembangunan Kawasan Industri Kendal (KIK) Berbasis Cellular Automata. Majalah Geografi Indonesia, 32(2), 115–122. https://doi.org/10.22146/mgi.33755 Wahyuni, S., Guchi, H., & Hidayat, B. (2014). Analisis Perubahan Penggunaan Lahan dan Penutupan Lahan Tahun 2003 dan 2013 di Kabupaten Dairi. Jurnal Online Agroekoteknologi, 2, 1310–1315. Wahyunto, M.Z. Abidin, A. Priyono &Sunaryo (2001). Studi Perubahan Penggunaan Lahan di Sub DAS Citarik, Jawa Barat dan DAS Kaligarang, Jawa Tengah. In Prosiding Seminar Nasional Multifungsi Lahan Sawah (pp. 39–40). Copyright (c) 2019 Geosfera Indonesia Journal and Department of Geography Education, University of Jember This work is licensed under a Creative Commons Attribution-Share A like 4.0 International License

Seismic status in Bangladesh has been investigated using earthquake data recorded by the global network of USGS during 1980 to 2016. Seismicity parameters such as magnitude completeness Mc, b-value and a-value are being estimated. It has observed that the overall b-value in and around Bangladesh is of 0.84 which is seemed to be seismically active zone. As, reliable b-value assessment can lead to better seismic hazard analysis, reliable magnitude of completeness Mc can lead to b-value assessment of an area, this work has dealt and estimated magnitude of completeness Mc using various techniques for the whole region for a reliable estimation. Estimated Mc is obtained to be around 3.9-4.7, which lead to b-value of 0.93. Spatial variations of Mc and b-value have been investigated for 1ox1o horizontal and vertical rectangular regions for the study area between 18-29°N and 84-95°E. Estimated Mc and b-value along with b-value are then averaged for the common regions in the pair of horizontal and vertical regions. Results are then being presented in the form of maps. The findings resemble as, the Mc is low at the border line of N-W Bangladesh, and a line from Cox’s bazaar to Sylhet through Hill tracts. Remain parts belong to the Mc value of 4.1-4.2, thus the b-value obtained is varying from 0.68 to 1.2, where, the value is higher at region in Chittagong and Barisal division that extends toward north through part of Dhaka to Sylhet and lower at Rajshahi, Rangpur and part of Khulna division, while a-value is varying from 5.0 to 7.2 mostly from west to east.ReferencesAbercrombie R.E., and Brune J.N., 1994. Evidence for a constant b-value above magnitude 0 in the southern San Andreas, San Jacinto, and San Miguel fault zones and at the Long Valley caldera, California. Geophys. Res. Lett., 21(15), 1647-1650.Aki K., 1965. Maximum likelihood estimate of b in the formula log N=a-b M and its confidence limits. Bull. Earthquake Res Inst., Tokyo Univ., 43, 237-239.Aki S., 1987. On nonparametric tests for symmetry. Ann. Inst. Statist. Math., 39, 457-472.Al-Hussaini T.M., 2006. Seismicity and Seismic Hazard Assessment in Bangladesh: Reference to Code Provisions. Meeting on Seismic Hazard in Asia ICTP, Trieste, Dec. 4-8.Amorese D., 2007. Applying a change-point detection method on frequency-magnitude distributions. Bull. Seismol. Soc. Am., 97(5), 1742-1749. Doi:10.1785/0120060181.Banglapedia, 2012. The National Encyclopedia of Bangladesh. http://en.banglapedia.org/index.php?title=Tectonic_Framework, retrieved on 31 Aug 2017.Cao A.M., and Gao S.S., 2002. Temporal variations of seismic b-values beneath northeastern Japan island arc. Geophys. Res. Lett., 29(9), 481-483. Doi:10.1029/2001GL013775.Das R., Wason H.R., and Sharma M.L., 2012. Temporal and spatial variations in the magnitude of completeness for homogenized moment magnitude catalogue for northeast India. J. Earth Syst. Sci., 121(1), 19-28.Felzer K.R., 2008. Simulated aftershock sequences for a M 7.8 earthquake on the southern San Andreas fault. Seismol. Res. Lett., 80, 21-25.GSB, 2018. Seismic Zone Map of Bangladesh. http://gsb.portal.gov.bd/sites/default/files/files/gsb.portal.gov.bd/common_document/a6e75ad2_5acd_4fe3_911d_c9d25a7e349e/BD_Sciesmic-zonemap(NBC).pdf, retrieved on 31 March 2018.Gutenberg B., and Richter C.F., 1944. Frequency of earthquakes in California, Bull. Seismol. Soc. Am., 34, 184-188.Gutenberg B., and Richter C.F., 1956. Earthquake magnitude, intensity, energy and acceleration (second paper). Bull. Seismol Soc. Am., 46(2), 105-145.Hafiez H.E.A., 2015. Estimating the magnitude of completeness for assessing the quality of earthquake catalogue of the ENSN. Egypt. Arab J. Geosci., 8(1), 9315-9323. Doi:10.1007/s12517-015-1929-x.Hunting Geology and Geophysics Ltd., (1981), Interpretation and Operations report on an aeromagnetic survey in Bangladesh, Borehamwood, Hertfordshire, England.Iwata T., 2008. Low detection capability of global earthquakes after the occurrence of large earthquakes: investigation of the Harvard cmt catalogue. Geophys. J. Int., 174(3), 849-856. Doi:10.1111/j.1365-246X.2008.03864.x.Kagan Y.Y., 2002. Seismic moment distribution revisited: I. statistical results. Geophys. J. Int., 148(3), 520-541. Doi: 10.1046/j.1365-246x.2002.01594.x.Khan P.K., Ghosh M., Chakraborty P.P., and Mukherjee D., 2011. Seismic b-Value and the Assessment of Ambient Stress in Northeast India. Pure Appl. Geophys., 168(10), 1693-1706. Doi:10.1007/s00024-010-0194-x.Kolathayar S., Sitharam T.G., and Vipin K.S., 2012. Spatial variation of seismicity parameters across India and adjoining areas. Nat Hazards, 60(3), 1365-1379. Doi:10.1007/s11069-011-9898-1.Lomnitz-Adler J., and Lomnitz C., 1979. A modified form of the Gutenberg-Richter magnitude-frequency relation. Bull. Seism. Soc. Am., 69(4), 1209-1214.Marsan D., 2003. Triggering of seismicity at short timescales following Californian earthquakes. J. Geophys. Res., 108, B5, 2266. Doi:10.1029/2002JB001946.Mignan A., 2011. Retrospective on the Accelerating Seismic Release (ASR) hypothesis: Controversy and new horizons. Tectonophysics, 505(1), 1-16. Doi:10.1016/j.tecto.2011.03.010.Mignan A., and Woessner J., 2012. Estimating the magnitude of completeness for earthquake catalogs, Community Online Resource for Statistical Seismicity Analysis. Swiss Seismological Service, ETH Zurich, 145p. Doi:10.5078/corssa-00180805. Available at http://www.corssa.org.Naylor M., Orfanogiannaki, K., and Harte D., 2010. Exploratory data analysis: magnitude, space, and time. Community Online Resource for Statistical Seismicity Analysis, 42p. Doi:10.5078/corssa-92330203. Available at http://www.corssa.org.Ogata Y., and Katsura K., 1993. Analysis of temporal and spatial heterogeneity of magnitude frequency distribution inferred from earthquake catalogues. Geophys. J. Int., 113(3), 727-738. Doi:10.1111/j.1365-246X.1993.tb04663.x.Ogata Y., and Katsura K., 2006. Immediate and updated forecasting of aftershock hazard. Geophys. Res. Lett., 33, 10, L10305. Doi:10.1029/2006GL025888.Rashid H., 1991. Geography of Bangladesh, University Press Ltd, Bangladesh; 2nd edition, 545p.Reimann K.U., 1993. Geology of Bangladesh. Gerbruder Bornt Ramerg, Berlin, Germany, 160p.Siddique S., 2015. Gutenberg-Richter recurrence law to seismicity analysis of Bangladesh. IABSE-JSCE Joint Conference on Advances in Bridge Engineering-III, August 21-22, Dhaka, Bangladesh.Shi Y., and Bolt B.A., 1982. The standard error of the magnitude-frequency b-value. Bull. Seismol. Soc. Am., 72(5), 1667-1687.USGS, 2012. Earthquake Hazards Program. https://earthquake.usgs.gov/earthquakes/search/, USA, retrieved on 20 April 2017.Utsu T., 1999. Representation and analysis of the earthquake size distribution: a historical review and some new approaches. Pure Appl. Geophys., 155(2), 509-535.Wiemer S., and Wyss M., 2000. Minimum magnitude of complete reporting in earthquake catalogs: examples from Alaska, the western United States, and Japan. Bull. Seismol. Soc. Am., 90, 859-869. Doi:10.1785/0119990114.Woessner J., and Wiemer S., 2005. Assessing the quality of earthquake catalogues: Estimating the magnitude of completeness and its uncertainty. Bull. Seismol. Soc. Am., 95(2), 684-698. Doi:10.1785/012040007.Wyss M., Hasegawa A., Wiemer S., and Umino N., 1999. Quantitative mapping of precursory seismic quiescence before the 1989, M7.1 off-Sanriku earthquake, Japan. Annali Di Geoflsica, 42(5), 851-869.Zuniga F.R., and Wyss M., 1995. Inadvertent changes in magnitude reported in earthquake catalogs: Their evaluation through b-value estimates. Bull. Seismol. Soc. Am., 85, 1858-1866..Zuniga F.R., and Wiemer S., 1999. Seismicity patterns: Are they always related to natural causes? Pure Appl. Geophys., 155(2), 713-726.

Akbar, A., Ma'rif, S. (2014). Arah Perkembangan Kawasan Perumahan Pasca Bencana Tsunami di Kota Banda Aceh. Teknik PWK (Perencanaan Wilayah Kota), 3(2), 274-284.Bandrova, T., Zlatanova, S., Konecny, M. (2012). Three-dimensional maps for disaster management. In ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume I-2, XXII ISPRS Congress, August-September 2012, pp. 19-24. International Society for Photogrammetry and Remote Sensing.BNPB. (2012). Menuju Indonesia Tangguh Tsunami. Jakarta: Badan Nasional Penanggulangan Bencana.BNPB. (2016). Kebijakan dan Strategi Penanggulangan Bencana 2015-2019 (Jakstra PB).BPBA. (2015). Kajian Risiko Bencana Aceh 2016-2020.BPBD. (2017). Rencana Pengurangan Bencana. Banda Aceh.BRR. (2005). Program Blueprint Aceh.Carreño, M. L., Cardona, O. D., Barbat, A. H. (2007). A Disaster Risk Management Performance Index. Natural Hazards, 41(1), 1-20.Danugroho, A., Umamah, N., Pratama, A. R. (2020). Aceh Tsunami and Government Policy in Handling It: A Historical Study. In IOP Conference Series: Earth and Environmental Science (Vol. 485, No. 1, p. 012140). IOP Publishing.Febriana, D. S., Abubakar, Y. (2015). Kesiapsiagaan Masyarakat Desa Siaga Bencana dalam Menghadapi Bencana Gempa Bumi di Kecamatan Meuraxa Kota Banda Aceh. Jurnal Ilmu Kebencanaan: Program Pascasarjana Unsyiah, 2(3).Gadeng, A. N., Furqan, M. H. (2019). The Development of Settlement in the Tsunami Red Zone Area of Banda Aceh City. KnE Social Sciences, 1-13.Godschalk, D., Bohl, C. C., Beatley, T., Berke, P., Brower, D., Kaiser, E. J. (1999). Natural Hazard Mitigation: Recasting Disaster Policy and Planning. Island press.Goltz, J., Yamori, K. (2020). Tsunami Preparedness and Mitigation Strategies. In Oxford Research Encyclopedia of Natural Hazard Science.Herrmann, G. (2013). Regulation of Coastal Zones and Natural Disasters: Mitigating the Impact of Tsunamis in Chile Through Urban and Regional Planning. Issues in Legal Scholarship, 11(1), 29-44.Jain, Garima., Singh, Chandni and Malani, T. (2017). Rethinking Post-disaster Relocation in Urban India. International Institute for Environment and Development.Kafle, S. K. (2006). Rapid Disaster Risk Assessment of Coastal Communities: A Case Study of Mutiara Village, Banda Aceh, Indonesia. In Proceedings of the International Conference on Environment and Disaster Management Held in Jakarta, Indonesia on December (pp. 5-8).Mardiatno, D., Malawani, M. N., Annisa, D. N., Wacano, D. (2017). Review on Tsunami Risk Reduction in Indonesia Based on Coastal and Settlement Typology. The Indonesian Journal of Geography, 49(2), 186-197.Marlyono, S. G. (2017). Peranan Literasi Informasi Bencana terhadap Kesiapsiagaan Bencana Masyarakat Jawa Barat. Jurnal Geografi Gea, 16(2), 116-123.Oktari, R. S., Nugroho, A., Fahmi, M., Suppasri, A., Munadi, K., Amra, R. (2021). Fifteen years of the 2004 Indian Ocean Tsunami in Aceh-Indonesia: Mitigation, preparedness and challenges for a long-term disaster recovery process. International Journal of Disaster Risk Reduction, 54, 102052.Peacock, W. G. and H. R. (2011). The Adoption and Implementation of Hazard Mitigation Policies and Strategies by Coastal Jurisdictions in Texas: The Planning Survey Results. Retrieved from http/TheAdoptionandImplementationofHazardMitigationPoliciesandStrategiesbyCoastalJurisdictionsinTexasDec2011.pdfPemerintah Kota Banda Aceh. (2009).Rencana Tata Ruang dan Wilayah (RTRW) Kota Banda Aceh 2009-2029.Priyowidodo, G., Luik, J. E. (2013). Literasi mitigasi bencana tsunami untuk masyarakat pesisir di Kabupaten Pacitan Jawa Timur. Ekotrans, 13(1), 47-61.PU, K. (2015). Rancangan Pembangunan Infrastruktur dan Inventaris Jangka Menengah (RPI-2JM) Bidang Cipta Karya 2015-2019.Sambah, A. B., Miura, F. (2019). Geo Spatial Analysis for Tsunami Risk Mapping. In Advanced Remote Sensing Technology for Synthetic Aperture Radar Applications, Tsunami Disasters, and Infrastructure. IntechOpen.Schwab, A. K., Sandler, D., Brower, D. J. (2016). Hazard Mitigation and Preparedness: An Introductory Text For Emergency Management and Planning Professionals. CRC Press.Shigenobu, T., Istiyanto, D., Kuribayashi, D. (2009). Sustainable Tsunami Risk Reduction and Utilization of Tsunami Hazard Map (THM).Strunz, G., Post, J., Zosseder, K., Wegscheider, S., Mück, M., Riedlinger, T., ... Muhari, A. (2011). Tsunami Risk Assessment in Indonesia. Natural Hazards and Earth System Sciences, 11(1), 67-82.Sugiyono. (2015). Metode penelitian pendidikan:(pendekatan kuantitatif, kualitatif dan R D). Bandung: Alfabeta.Sunarto, S., Marfai, M. A. (2012). Potensi Bencana Tsunami dan Kesiapsiagaan Masyarakat Menghadapi Bencana Studi Kasus Desa Sumberagung Banyuwangi Jawa Timur. In Forum Geografi (Vol. 26, No. 1, pp. 17-28).Syamsidik, Nugroho, A., Suryani, R., Fahmi., M. (2019). Aceh Pasca 15 Tahun Bencana Tsunami: Kilas Balik dan Proses Pemulihan. Banda Aceh: Tsunami and Disaster Mitigation Research Center (TDMRC).Torani, S., Majd, P. M., Maroufi, S. S., Dowlati, M., Sheikhi, R. A. (2019). The Importance of Education on Disasters and Emergencies: A review article. Journal of Education and Health promotion, 8.Triatmadja, R. (2011). Tsunami: Kejadian, Penjalaran, Daya Rusak, dan Mitigasinya. Gadjah Mada University Press.Widianto, A., Damen, M. (2014). Determination of Coastal Belt in the Disaster Prone Area: A Case Study in The Coastal Area of Bantul Regency, Yogyakarta, Indonesia. The Indonesian Journal of Geography, 46(2), 125.

The coronavirus (COVID-19) is considered a global pandemic with several respiratory syndrome caused by coronavirus 2 (SARS-CoV-2). The main symptoms of COVID-19 are fever, cough, and fatigue, while other symptoms include sputum production, diarrhea and alterations on the gastrointestinal system. The COVID-19 was recently identified in the saliva of infected patients and the transmission through of droplets and aerosols generated during clinical dental care is possible among dentists, oral health assistants and/or oral health technicians and others around the social cycle of the friendship of these health professionals, such as families and colleagues. Thus, there is very necessary to improve the several types of prevention to healthcare professionals that realize the liberation of aerosol during oral assistance. It’s important to mention that these precautions are important to prevent human-to-human transmission and protect the global system of health. In addition, this care is essential to decrease the spread of COVID-19 in this moment. Descriptors: Coronavirus Infections; Dentistry; Occupational Diseases.ReferencesLi LY, Wu W, Chen S, Gu JW, Li XL, Song HJ et al. Digestive system involvement of novel coronavirus infection: Prevention and control infection from a gastroenterology perspective. J Dig Dis. 2020;21(4):199-204. Zhu N, Zhang D, Wang W, Li X, Yang B, Song J et al. A Novel Coronavirus from Patients with Pneumonia in China, 2019. N Engl J Med. 2020;382(8):727-33.Pan L, Mu M, Yang P, Sun Y, Wang R, Yan J et al. Clinical Characteristics of COVID-19 Patients With Digestive Symptoms in Hubei, China: A Descriptive, Cross-Sectional, Multicenter Study. Am J Gastroenterol. 2020;115(5):766-73.Gabutti G, d'Anchera E, Sandri F, Savio M, Stefanati A. Coronavirus: update related to the current outbreak of COVID-19. Infect Dis Ther. 2020;9(2):1-13.Liu L, Wei Q, Alvarez X, Wang H, Du Y, Zhu H et al. Epithelial cells lining salivary gland ducts are early target cells of severe acute respiratory syndrome coronavirus infection in the upper respiratory tracts of rhesus macaques. J Virol. 2011;85(8):4025-30.To KK, Tsang OT, Yip CC, Chan KH, Wu TC, Chan JMC et al. Consistent Detection of 2019 Novel Coronavirus in Saliva. Clin Infect Dis. 2020;71(15):841-43.Sabino-Silva R, Jardim ACG, Siqueira WL. Coronavirus COVID-19 impacts to dentistry and potential salivary diagnosis. Clin Oral Investig. 2020;24(4):1619-21.Wang D, Hu B, Hu C, Zhu F, Liu X, Zhang J et al. Clinical Characteristics of 138 Hospitalized Patients With 2019 Novel Coronavirus-Infected Pneumonia in Wuhan, China. JAMA. 2020;323(11):1061-69.Brazilian Ministry of Health. https://saude.gov.br/Brazilian Institute of Geography and Statistic. https://www.ibge.gov.br/Lauc G, Sinclair D. Biomarkers of biological age as predictors of COVID-19 disease severity. Aging (Albany NY). 2020;12(8):6490-91.Federal Council of Dentistry from Brazil. http://website.cfo.org.br/dados-estatisticos-de-profissionais-e-entidades-ativas-por-ano/Regional Dentistry Council of the State of São Paulo. http://www.crosp.org.br/intranet/estatisticas/estMunicipios.phpThompson RN. Novel Coronavirus Outbreak in Wuhan, China, 2020: Intense Surveillance Is Vital for Preventing Sustained Transmission in New Locations. J Clin Med. 2020;9(2):498.

With globalization, the university-work transition has become increasingly challenging for graduates and employers. In the new context, the mission of university has shifted, and knowledge is no longer considered as singular [1]. The traditional role of universities in producing knowledge has changed to give more focus on the demands of society. The “codified knowledge” acquired from didactic teaching in universities can be at odds with the often “informal and tacit” knowledge required in the workplace. The development of information technology makes the nature of work changing very fast; graduates need to achieve attributes that help them not only do the work corresponding with their disciplines, but be able to learn new skills and new knowledge. This paper presents the primary results of a questionnaire survey among 25 employers of VNU School of Law’s graduates to explore employers’ evaluation of the employability of graduates from Vietnam National University Hanoi. Applying theories of graduate attributes [2], employability [3] and graduate transferable skills [4], [5], the survey explores the gap between university study and the requirements at the work market of graduates. This paper argues that there is considerable distance between university knowledge and skills and the nature of the work. Graduates lack transferable skills, those that allow them to acquire the necessary skills, to satisfy the requirements of the morden workplace, to transfer abstract cognitive skills. These skills are needed before the graduates enter the work market as the employers expect them to practice these skills competently at work. Although these skills can be generated through work, the employers do emphasise their importance for univesrity graduates. Therefore the university teaching and learning process should be reviewed and revised (if necessary) to develop these transferable skills during the time at the university. Keywords Graduate attributes, employability, Vietnam, general competences, transferable skills References [1] Bennett, N., Dunne, E., Carré, C. (2000). Skills development in higher education and employment, (Buckingham; Philadelphia, PA :, Society for Research into Higher Education & Open University Press).[2] Barrie, S. (2006). Understanding What We Mean by the Generic Attributes of Graduates. Higher Education, 51(2), 215-241. [3] Knight, P. T., & Yorke, M. (2002). Employability through the curriculum. Tertiary Education & Management, 8(4), 261-276.[4] Bennett, R. (2002). Employers' Demands for Personal Transferable Skills in Graduates: a content analysis of 1000 job advertisements and an associated empirical study, Journal of Vocational Education and Training, 54:4, 457-476, DOI: 10.1080/13636820200200209[5] Harvey, L. (2005). Embedding and integrating employability. New Directions for Institutional Research. (128), 13-26. doi:10.1002/ir.160[6] Sen, A. (2002). How to judge globalism. The American Prospect Online. Online resource. http://www.prospect.org/print/V13/1/sen-a.html. Accessed on 30 March 2013.[7] Giddens, A. (1990). The consequences of modernity. Stanford, Calif.: Stanford University Press.[8] Marginson, S., & van der Wende, M. (2009). The new global landscape of nations and institutions. Organization for Economic Cooperation and Development Higher education to 2030, 2(Globalization), 17-62.[9] Altbach, P. G. (2010). The realities of mass higher education in a globalized world. In D. B. Johnstone, M. d'Ambrosio & P. J. Yakoboski (Eds.), Higher education in a global society (pp. 25-41). Cheltenham: Edward Elgar Publishing.[10] Marginson, S. (2008). Global field and global imagining: Bourdieu and worldwide higher education. British Journal of Sociology of Education, 29(3), 303 - 315.[11] Douglass, J., Thomson, G., & Zhao, C.-M. (2012). The learning outcomes race: the value of self-reported gains in large research universities. Higher Education, 64(3), 317-335.[12] Eraut, M. (2004). Transfer of knowledge between education and workplace settings. In H. Rainbird, A. Fuller & A. Munro (Eds.), Workplace learning in context (pp. 201-221). London ; New York: Routledge.[13] Hernández-March, J., Martín del Peso, M., & Leguey, S. (2009). Graduates’ Skills and Higher Education: The employers’ perspective. Tertiary Education and Management, 15(1), 1-16. http://dx.doi.org/10.1080/13583880802699978[14] Harvey, L., Moon, S., Geall, V., & Bower, R. (1997). Graduates' Work: Organisational Change and Students' Attributes. Centre for Research into Quality, 90 Aldridge Road, Perry Barr, Birmingham B42 2TP, England, United Kingdom (5 British pounds).[15] Holden, R., & Jameson, S. (2002). Employing graduates in SMEs: towards a research agenda. Journal of Small Business and Enterprise Development, 9(3), 271-284.[16] Fallows, S., & Steven, C. (2013). Integrating key skills in higher education: Employability, transferable skills and learning for life. Routledge.[17] Haigh, M. J., & Kilmartin, M. P. (1999). Student perceptions of the development of personal transferable skills. Journal of Geography in Higher Education, 23(2), 195-206. Retrieved from https://search.proquest.com/docview/214735353?accountid=39811[18] Lowden, K., Hall, S., Elliot, D., & Lewin, J. (2011). Employers’ perceptions of the employability skills of new graduates. London: Edge Foundation.[19] Suleman, F. (2016). Employability skills of higher education graduates: Little consensus on a much-discussed subject. Procedia-Social and Behavioral Sciences, 228, 169-174. Paper presented in the Proceedings of 2nd International Conference on Higher Education Advances, HEAd´16, 21-23 June 2016, València, Spain.[20] Little, B. (2006). Employability and work-based learning. York: Higher Education Academy, 2006.[21] Stephenson, J. (2013). “The Concept of Capability and Its Importance in Higher Education,” in Capability and quality in higher educationJ. Stephenson and M. Yorke, Eds. Routledge, pp. 1-13.[22] Yorke, M., & Harvey, L. (2005). Graduate Attributes and Their Development. In R. A. Voorhees & L. Harvey (Eds.), Workforce development and higher education: a strategic role for institutional research (pp. 41-58). San Francisco: Jossey-Bass.[23] Maclean, R., & Ordonez, V. (2007). Work, skills development for employability and education for sustainable development. Educational Research for Policy and Practice, 6(2), 123-140.[24] De Weert, E. (2007). Graduate Employment in Europe: The Employers' Perspective. In U. Teichler (Ed.), Careers of University Graduates (Vol. 17, pp. 225-246): Springer Netherlands.[25] Tran Quang Trung, & Swierczek, F. W. (2009). Skills development in higher education in Vietnam. Asia Pacific Business Review, 15(4), 565-586.[26] Nguyen Thi Thanh Hong. (2008). “Factors influencing the self-study quality for education theory subject of the students at Universities of Education”. Vietnamese Education Review, vol. 182, no.2, pp. 22-24.[27] World Bank. (2008). Vietnam - Higher education and skills for growth. Washington, DC: World Bank, 2008.[28] Mai Thi Quynh Lan (2017). The ‘person-in-between’ role of young graduates at INGOs in Vietnam. Journal of Teaching and Learning for Graduate Employability, 8(1), 137-151. http://dx.doi.org/10.21153/jtlge2017vol8no1art626[29] World Bank. (2013). Vietnam development report: preparing the work force for a modern market economy: Main report. Washington DC; World Bank, vol. 2.

In the 2019 documentary Chasing Happiness, recording artist/musician Joe Jonas tells audiences that the band was “living the dream”. Similarly, in the 2012 documentary Artifact, lead singer Jared Leto remarks that at the height of Thirty Seconds to Mars’s success, they “were living the dream”. However, for both the Jonas Brothers and Thirty Seconds to Mars, their experiences of the music industry (much like other commercially successful recording artists) soon transformed into nightmares. Similar to other commercially successful recording artists, the Jonas Brothers and Thirty Seconds to Mars, came up against the constraints of the industry which inevitably led to a forfeiting of authenticity, a loss of creative control, increased exploitation, and unequal remuneration. This work will consider how working in the music industry is not always a dream come true and can instead be viewed as a proverbial nightmare. Living the DreamIn his book Dreams, Carl Gustav Jung discusses how that which is experienced in sleep, speaks of a person’s wishes: that which might be desired in reality but may not actually happen. In his earlier work, The Interpretation of Dreams, Freud argued that the dream is representative of fulfilling a repressed wish. However, the creative industries suggest that a dream need not be a repressed wish; it can become a reality. Jon Bon Jovi believes that his success in the music industry has surpassed his wildest dreams (Atkinson). Jennifer Lopez considers the fact that she held big dreams, had a focussed passion, and strong aspirations the reason why she pursued a creative career that took her out of the Bronx (Thomas). In a Twitter post from 23 April 2018, Bruno Mars declared that he “use [sic] to dream of this shit,” in referring to a picture of him performing for a sold out arena, while in 2019 Shawn Mendes informed his 24.4 million Twitter followers that his “life is a dream”. These are but a few examples of successful music industry artists who are seeing their ‘wishes’ come true and living the American Dream.Endemic to the American culture (and a characteristic of the identity of the country) is the “American Dream”. It centres on “a land in which life should be better and richer and fuller for every man, with opportunity for each according to his ability and achievement” (Adams, 404). Although initially used to describe having a nice house, money, stability and a reasonable standard of living, the American Dream has since evolved to what the scholar Florida believes is the new ‘aspiration of people’: doing work that is enjoyable and relies on human creativity. At its core, the original American Dream required striving to meet individual goals, and was promoted as possible for anyone regardless of their cultural, socio-economic and political background (Samuel), because it encourages the celebrating of the self and personal uniqueness (Gamson). Florida’s conceptualisation of the New American dream, however, tends to emphasise obtaining success, fame and fortune in what Neff, Wissinger, and Zukin (310) consider “hot”, “creative” industries where “the jobs are cool”.Whether old or new, the American Dream has perpetuated and reinforced celebrity culture, with many of the young generation reporting that fame and fortune were their priorities, as they sought to emulate the success of their famous role models (Florida). The rag to riches stories of iconic recording artists can inevitably glorify and make appealing the struggle that permits achieving one’s dream, with celebrities offering young, aspiring creative people a means of identification for helping them to aspire to meet their dreams (Florida; Samuel). For example, a young Demi Lovato spoke of how she idolised and looked up to singer Beyonce Knowles, describing Knowles as a role model because of the way she carries herself (Tishgart). Similarly, American Idol winner Kelly Clarkson cited Aretha Franklin as her musical inspiration and the reason that she sings from a place deep within (Nilles). It is unsurprising then, that popular media has tended to portray artists working in the creative industries and being paid to follow their passions as “a much-vaunted career dream” (Duffy and Wissinger, 4656). Movies such as A Star Is Born (2018), The Coal Miner’s Daughter (1980), Dreamgirls (2006), Begin Again (2013) and La La Land (2016) exalt the perception that creativity, talent, sacrifice and determination will mean dreams come true (Nicolaou). In concert with the American dream is the drive among creative people pursuing creative success to achieve their dreams because of the perceived autonomy they will gain, the chance of self-actualisation and social rewards, and the opportunity to fulfil intrinsic motivations (Amabile; Auger and Woodman; Cohen). For these workers, the love of creation and the happiness that accompanies new discoveries (Csikszentmihalyi) can offset the tight budgets and timelines, precarious labour (Blair, Grey, and Randle; Hesmondhalgh and Baker), uncertain demand (Caves; Shultz), sacrifice of personal relationships (Eikhof and Haunschild), the demand for high quality products (Gil & Spiller), and the tense relationships with administrators (Bilton) which are known to plague these industries. In some cases, young, up and coming creative people overlook these pitfalls, instead romanticising creative careers as ideal and worthwhile. They willingly take on roles and cede control to big corporations to “realize their passions [and] uncover their personal talent” (Bill, 50). Of course, as Ursell argues in discussing television employees, such idealisation can mean creatives, especially those who are young and unfamiliar with the constraints of the industry, end up immersed in and victims of the “vampiric” industry that exploits workers (816). They are socialised towards believing, in this case, that the record label is a necessary component to obtain fame and fortune and whether willing or unwilling, creative workers become complicit in their own exploitation (Cohen). Loss of Control and No CompensationThe music industry itself has been considered by some to typify the cultural industries (Chambers). Popular music has potency in that it is perceived as speaking a universal language (Burnett), engaging the emotions and thoughts of listeners, and assisting in their identity construction (Burnett; Gardikiotis and Baltzis). Given the place of music within society, it is not surprising that in 2018, the global music industry was worth US$19.1billion (IFPI). The music industry is necessarily underpinned by a commercial agenda. At present, six major recording companies exist and between them, they own between 70-80 per cent of the recordings produced globally (Konsor). They also act as gatekeepers, setting trends by defining what and who is worth following and listening to (Csikszentmihalyi; Jones, Anand, and Alvarez). In essence, to be successful in the music industry is to be affiliated with a record label. This is because the highly competitive nature and cluttered environment makes it harder to gain traction in the market without worthwhile representation (Moiso and Rockman). In the 2012 documentary about Thirty Seconds to Mars, Artifact, front man Jared Leto even questions whether it is possible to have “success without a label”. The recording company, he determines, “deal with the crappy jobs”. In a financially uncertain industry that makes money from subjective or experience-based goods (Caves), having a label affords an artist access to “economic capital for production and promotion” that enables “wider recognition” of creative work (Scott, 239). With the support of a record label, creative entrepreneurs are given the chance to be promoted and distributed in the creative marketplace (Scott; Shultz). To have a record label, then, is to be perceived as legitimate and credible (Shultz).However, the commercial music industry is just that, commercial. Accordingly, the desire to make money can see the intrinsic desires of musicians forfeited in favour of standardised products and a lack of remuneration for artists (Negus). To see this standardisation in practice, one need not look further than those contestants appearing on shows such as American Idol or The Voice. Nowhere is the standardisation of the music industry more evident than in Holmes’s 2004 article on Pop Idol. Pop Idol first aired in Britain from 2001-2003 and paved the way for a slew of similar shows around the world such as Australia’s Popstars Live in 2004 and the global Idol phenomena. According to Holmes, audiences are divested of the illusion of talent and stardom when they witness the obvious manufacturing of musical talent. The contestants receive training, are dressed according to a prescribed image, and the show emphasises those melodramatic moments that are commercially enticing to audiences. Her sentiments suggest these shows emphasise the artifice of the music industry by undermining artistic authenticity in favour of generating celebrities. The standardisation is typified in the post Idol careers of Kelly Clarkson and Adam Lambert. Kelly Clarkson parted with the recording company RCA when her manager and producer Clive Davis told her that her album My December (2007) was “not commercial enough” and that Clarkson, who had written most of the songs, was a “shitty writer… who should just shut up and sing” (Nied). Adam Lambert left RCA because they wanted him to make a full length 80s album comprised of covers. Lambert commented that, “while there are lots of great songs from that decade, my heart is simply not in doing a covers album” (Lee). In these instances, winning the show and signing contracts led to both Clarkson and Lambert forfeiting a degree of creative control over their work in favour of formulaic songs that ultimately left both artists unsatisfied. The standardisation and lack of remuneration is notable when signing recording artists to 360° contracts. These 360° contracts have become commonplace in the music industry (Gulchardaz, Bach, and Penin) and see both the material and immaterial labour (such as personal identities) of recording artists become controlled by record labels (Stahl and Meier). These labels determine the aesthetics of the musicians as well as where and how frequently they tour. Furthermore, the labels become owners of any intellectual property generated by an artist during the tenure of the contract (Sanders; Stahl and Meier). For example, in their documentary Show Em What You’re Made Of (2015), the Backstreet Boys lament their affiliation with manager Lou Pearlman. Not only did Pearlman manufacture the group in a way that prevented creative exploration by the members (Sanders), but he withheld profits to the point that the Backstreet Boys had to sue Pearlman in order to gain access to money they deserved. In 2002 the members of the Backstreet Boys had stated that “it wasn’t our destinies that we had to worry about in the past, it was our souls” (Sanders, 541). They were not writing their own music, which came across in the documentary Show Em What You’re Made Of when singer Howie Dorough demanded that if they were to collaborate as a group again in 2013, that everything was to be produced, managed and created by the five group members. Such a demand speaks to creative individuals being tied to their work both personally and emotionally (Bain). The angst encountered by music artists also signals the identity dissonance and conflict felt when they are betraying their true or authentic creative selves (Ashforth and Mael; Ashforth and Humphrey). Performing and abiding by the rules and regulations of others led to frustration because the members felt they were “being passed off as something we aren’t” (Sanders 539). The Backstreet Boys were not the only musicians who were intensely controlled and not adequately compensated by Pearlman. In the documentary The Boy Band Con: The Lou Pearlman Story 2019, Lance Bass of N*Sync and recording artist Aaron Carter admitted that the experience of working with Pearlman became a nightmare when they too, were receiving cheques that were so small that Bass describes them as making his heart sink. For these groups, the dream of making music was undone by contracts that stifled creativity and paid a pittance.In a similar vein, Thirty Seconds to Mars sought to cut ties with their record label when they felt that they were not being adequately compensated for their work. In retaliation EMI issued Mars with a US$30 million lawsuit for breach of contract. The tense renegotiations that followed took a toll on the creative drive of the group. At one point in the documentary Artifact (2012), Leto claims “I can’t sing it right now… You couldn’t pay me all the money in the world to sing this song the way it needs to be sung right now. I’m not ready”. The contract subordination (Phillips; Stahl and Meier) that had led to the need to renegotiate financial terms came at not only a financial cost to the band, but also a physical and emotional one. The negativity impacted the development of the songs for the new album. To make music requires evoking necessary and appropriate emotions in the recording studio (Wood, Duffy, and Smith), so Leto being unable to deliver the song proved problematic. Essentially, the stress of the lawsuit and negotiations damaged the motivation of the band (Amabile; Elsbach and Hargadon; Hallowell) and interfered with their creative approach, which could have produced standardised and poor quality work (Farr and Ford). The dream of making music was almost lost because of the EMI lawsuit. Young creatives often lack bargaining power when entering into contracts with corporations, which can prove disadvantaging when it comes to retaining control over their lives (Phillips; Stahl and Meier). Singer Demi Lovato’s big break came in the 2008 Disney film Camp Rock. As her then manager Phil McIntyre states in the documentary Simply Complicated (2017), Camp Rock was “perceived as the vehicle to becoming a superstar … overnight she became a household name”. However, as “authentic and believable” as Lovato’s edginess appeared, the speed with which her success came took a toll on Lovato. The pressure she experienced having to tour, write songs that were approved by others, star in Disney channel shows and movies, and look a certain way, became too much and to compensate, Lovato engaged in regular drug use to feel free. Accordingly, she developed a hybrid identity to ensure that the squeaky clean image required by the moral clauses of her contract, was not tarnished by her out-of-control lifestyle. The nightmare came from becoming famous at a young age and not being able to handle the expectations that accompanied it, coupled with a stringent contract that exploited her creative talent. Lovato’s is not a unique story. Research has found that musicians are more inclined than those in other workforces to use psychotherapy and psychotropic drugs (Vaag, Bjørngaard, and Bjerkeset) and that fame and money can provide musicians more opportunities to take risks, including drug-use that leads to mortality (Bellis, Hughes, Sharples, Hennell, and Hardcastle). For Lovato, living the dream at a young age ultimately became overwhelming with drugs her only means of escape. AuthenticityThe challenges then for music artists is that the dream of pursuing music can come at the cost of a musician’s authentic self. According to Hughes, “to be authentic is to be in some sense real and true to something ... It is not simply an imitation, but it is sincere, real, true, and original expression of its creator, and is believable or credible representations or example of what it appears to be” (190). For Nick Jonas of the Jonas Brothers, being in the spotlight and abiding by the demands of Disney was “non-stop” and prevented his personal and musical growth (Chasing Happiness). As Kevin Jonas put it, Nick “wanted the Jonas Brothers to be no more”. The extensive promotion that accompanies success and fame, which is designed to drive celebrity culture and financial motivations (Currid-Halkett and Scott; King), can lead to cynical performances and dissatisfaction (Hughes) if the identity work of the creative creates a disjoin between their perceived self and aspirational self (Beech, Gilmore, Cochrane, and Greig). Promoting the band (and having to film a television show and movies he was not invested in all because of contractual obligations) impacted on Nick’s authentic self to the point that the Jonas Brothers made him feel deeply upset and anxious. For Nick, being stifled creatively led to feeling inauthentic, thereby resulting in the demise of the band as his only recourse.In her documentary Gaga: Five Foot Two (2017), Lady Gaga discusses the extent she had to go to maintain a sense of authenticity in response to producer control. As she puts it, “when producers wanted me to be sexy, I always put some absurd spin on it, that made me feel like I was still in control”. Her words reaffirm the perception amongst scholars (Currid-Halkett and Scott; King; Meyers) that in playing the information game, industry leaders will construct an artist’s persona in ways that are most beneficial for, in this case, the record label. That will mean, for example, establishing a coherent life story for musicians that endears them to audiences and engaging recording artists in co-branding opportunities to raise their profile and to legitimise them in the marketplace. Such behaviour can potentially influence the preferences and purchases of audiences and fans, can create favourability, originality and clarity around artists (Loroz and Braig), and can establish competitive advantage that leads to producers being able to charge higher prices for the artists’ work (Hernando and Campo). But what impact does that have on the musician? Lady Gaga could not continue living someone else’s dream. She found herself needing to make changes in order to avoid quitting music altogether. As Gaga told a class of university students at the Emotion Revolution Summit hosted by Yale University:I don’t like being used to make people money. It feels sad when I am overworked and that I have just become a money-making machine and that my passion and creativity take a backseat. That makes me unhappy.According to Eikof and Haunschild, economic necessity can threaten creative motivation. Gaga’s reaction to the commercial demands of the music industry signal an identity conflict because her desire to create, clashed with the need to be commercial, with the outcome imposing “inconsistent demands upon” her (Ashforth and Mael, 29). Therefore, to reduce what could be considered feelings of dissonance and inconsistency (Ashforth and Mael; Ashforth and Humphrey) Gaga started saying “no” to prevent further loss of her identity and sense of authentic self. Taking back control could be seen as a means of reorienting her dream and overcoming what had become dissatisfaction with the commercial processes of the music industry. ConclusionsFor many creatives working in the creative industries – and specifically the music industry – is constructed as a dream come true; the working conditions and expectations experienced by recording artists are far from liberating and instead can become nightmares to which they want to escape. The case studies above, although likely ‘constructed’ retellings of the unfortunate circumstances encountered working in the music industry, nevertheless offer an inside account that contradicts the prevailing ideology that pursuing creative passions leads to a dream career (Florida; Samuel). If anything, the case studies explored above involving 30 Seconds to Mars, the Jonas Brothers, Lady Gaga, Kelly Clarkson, Adam Lambert and the Backstreet Boys, acknowledge what many scholars writing in the creative industries have already identified; that exploitation, subordination, identity conflict and loss of control are the unspoken or lesser known consequences of pursuing the creative dream. That said, the conundrum for creatives is that for success in the industry big “creative” businesses, such as recording labels, are still considered necessary in order to break into the market and to have prolonged success. This is simply because their resources far exceed those at the disposal of independent and up-and-coming creative entrepreneurs. Therefore, it can be argued that this friction of need between creative industry business versus artists will be on-going leading to more of these ‘dream to nightmare’ stories. The struggle will continue manifesting in the relationship between business and artist for long as the recording artists fight for greater equality, independence of creativity and respect for their work, image and identities. References@BrunoMars. “I use to dream about this shit!! #stilldreamin.” Twitter, 23 Apr. 2018, 00:31. <https://twitter.com/brunomars/status/988319530698059776?lang=en>.@ShawnMendes. “My life is a dream.” Twitter, 21 July 2019, 12:46. <https://twitter.com/shawnmendes/status/1153028603573145601?lang=en>.Adams, James Truslow. The Epic of America. New Brunswick: Transaction Publishers, 2012 [1931].Amabile, Teresa M. “Motivating Creativity in Organizations: On Doing What You Love and Loving What You Do.” California Management Review 40.1 (1997): 39-58.Artifact. Dir. J. Leto. Paradox, 2012.Ashforth, Blake E., and Ronald H. Humphrey. “Emotional Labor in Service Roles: The Influence of Identity.” The Academy of Management Review 18.1 (1993): 88-115.Ashforth, Blake E., and Fred Mael. “Social Identity Theory and the Organization.” Academy of Management Review 14.1 (1989): 20-39.Atkinson, Brian T. “Jon Bon Jovi Talks about Sambora, Songwriting and Living the Dream.” Statesman 8 Apr. 2013. 15 Sep. 2019 <https://www.statesman.com/article/20130408/NEWS/304089715>.Auger, Pascale, and Richard W. Woodman. “Creativity and Intrinsic Motivation: Exploring a Complex Relationship.” The Journal of Applied Behavioral Science 52.3 (2016): 342-366.Backstreet Boys: Show ‘Em What You’re Made Of. Dir. S. Kijak. Pulse Films, 2015.Bain, Alison. “Constructing an Artistic Identity.” Work, Employment and Society 19.1 (2005): 25-46.Beech, Nic, Charlotte Gilmore, Eilidh Cochrane, and Gail Greig. “Identity Work as a Response to Tensions: A Re-Narration in Opera Rehearsals.” Scandinavian Journal of Management 28.1 (2012): 39-47.Bellis, Mark A, Karen Hughes, Olivia Sharples, Tom Hennell, and Katherine A. Hardcastle. “Dying to Be Famous: Retrospective Cohort of Rock and Pop Star Mortality and Its Association with Adverse Childhood Experiences.” BMJ 2.6 (2012): 1-8. Bill, Amanda. “’Blood, Sweat and Shears’: Happiness, Creativity, and Fashion Education.” Fashion Theory 16.1 (2012): 49-66. Bilton, Chris. Management and Creativity: From Creative Industries to Creative Management. Malden: Blackwell, 2007.Blair, Helen, Susan Grey, and Keith Randle. “Working in Film: Employment in a Project Based Industry.” Personnel Review 30.2 (2001): 170-185.Burnett, Robert. The Global Jukebox: The International Music Industry. London: Routledge, 1996.Caves, Richard, E. Creative Industries: Contracts between Art and Commerce. Massachusetts: Harvard University Press, 2001. Chambers, Iain. “Some Critical Tracks.” Popular Music 2 (1982): 19-36.Chasing Happiness. Dir. J. Taylor. Amazon, 2019. Cohen, Nicole, S. “Cultural Work as a Site of Struggle: Freelancers and Exploitation.” TripleC 10.2 (2012): 141-155.Currid-Halkett, Elizabet, and Allen J. Scott. “The Geography of Celebrity and Glamour: Reflections on Economy, Culture, and Desire in the City.” City, Culture and Society 4.1 (2013): 2-11.Duffy, Brooke Erin, and Elizabeth Wissinger. “Mythologies of Creative Work in the Social Media Age: Fun, Free, and ‘Just Being Me’.” International Journal of Communication 11 (2017): 4652-4671.Eikof, Doris Ruth, and Axel Haunschild. “Lifestyle Meets Market: Bohemian Entrepreneurs in Creative Industries.” Creativity and Innovation Management 15.3 (2006): 234-241.Elsbach, Kimberly D. and Andrew B. Hargadon. “Enhancing Creativity through ‘Mindless’ Work: A Framework of Workday Design.” Organization Science 17.4 (2006): 470-483.Farr, James L., and Cameron M. Ford. “Individual Innovation.” Innovation and Creativity at Work: Psychological and Organizational Strategies. Eds. Michael A. West and James L. Farr. London: Wiley, 1990. 63-80.Florida, Richard. “The New American Dream.” The Washington Monthly 35.3 (2003): 26-33Freud, Sigmund. The Interpretation of Dreams. Trans. A.A. Brill. Dover Publications, 2015.Gaga: Five Foot Two. Dir. C. Moukarbel, Netflix, 2017.Gamson, Joshua. Claims to Fame: Celebrity in Contemporary America. Berkeley: University of California Press, 1992.Gardikiotis, Antonis, and Alexandros Baltzis. “’Rock Music for Myself and Justice to the World!’ Musical Identity, Values, and Music Preferences.” Psychology of Music 40.2 (2011): 143-163.Guichardaz, Rémy, Laurent Bach, and Julien Penin. “Music Industry Intermediation in the Digital Era and the Resilience of the Majors’ Oligopoly: The Role of Transactional Capability.” Industry and Innovation 26.7 (2019): 843-869.Hallowell, Edward M. “Overloaded Circuits: Why Smart People Underperform.” Harvard Business Review Jan. 2005. 17 Sep. 2019 <https://addmindfulness.com/wp-content/uploads/2013/08/Hallowell-HBR-Overloaded-Circuits.pdf>.Hesmondhalgh, David, and Sarah Baker. “A Very Complicated Version of Freedom: Conditions and Experiences of Creative Labour in Three Cultural Industries.” Poetics 38 (2010): 4-20.Hernando, Elisa, and Sara Campo. “Does the Artist’s Name Influence the Perceived Value of an Art Work?” International Journal of Arts Management 19.2 (2017): 46-58.Holmes, Su. “’Reality Goes Pop!’ Reality TV, Popular Music, and Narratives of Stardom in Pop Idol.” Television & New Media 5.2 (2004) 147-172.Hughes, Michael. “Country Music as Impression Management: A Meditation on Fabricating Authenticity.” Poetics 28 (2000): 185-205.IFPI. “Global Recorded Music Sales.” 18 Oct. 2019 <https://www.ifpi.org/global-statistics.php>.Jones, Candace, N. Anand, and Josè Luis Alvarez. “Manufactured Authenticity and Creative Voice in Cultural Industries.” Journal of Management Studies 42.5 (2005): 893-899.Jung, Carl Gustav. Dreams. Trans. Richard Francis Carrington Hull. Routledge, 2002.King, Barry. “Stardom, Celebrity, and the Money Form.” The Velvet Light Trap 65.1 (2010): 7-19.Konsor, Kellie J. Essays on the Industrial Organization of the Modern Music Industry. PhD dissertation. Purdue University, 2017. Lee, Christina. “Adam Lambert Parts Ways with RCA, Says ‘My Heart Is Simply Not in Doing a Covers Album.” Idolator 13 July 2013. 15 Sep. 2019 <https://www.idolator.com/7470764/adam-lambert-covers-album-parts-ways-with-rca?chrome=1>.Loroz, Peggy Sue, and Bridgette M. Braig. “Consumer Attachments to Human Brands: The ‘Oprah Effect.’” Connections 32.7 (2015): 751-763.Meyers, Erin. “’Can You Handle My Truth?’: Authenticity and the Celebrity Star Image.” Journal of Popular Culture 42.5 (2009): 890-907. Moisio, Laura, and Maija Rökman. “Musician’s Fans’ and Record Company’s Value Co-Creation in Internet.” Paper presented at The 2011 Naples Forum on Service. University Federico II, Capri, Italy, 14-17 June 2011.Neff, Gina, Elizabeth Wissing, and Sharon Zukin. “Entrepreneurial Labor among Cultural Producers: ‘Cool’ Jobs in ‘Hot’ Industries.” Social Semiotics 15.3 (2005): 307-334.Negus, Keith. “Where the Mystical Meets the Market: Creativity and Commerce in the Production of Popular Music.” The Sociological Review 43.2 (1995): 316-341.Nicolaou, Elena. “Fallen in Love with A Star Is Born? Watch These Movies Next.” Refinery29 17 Oct. 2018. 14 Sep. 2019 <https://www.refinery29.com/en-gb/2018/10/214287/movies-about-hollywood-showbiz#slide-13>.Nied, Michael. “Kelly Clarkson Freed from American Idol Contract.” PPCORN. 15 Sep. 2019 <http://ppcorn.com/us/kelly-clarkson-freed-from-american-idol-contract/>.Nilles, Billy. “How Aretha Franklin Inspired Kelly Clarkson, Jennifer Hudson and More Stars.” ENews 16 Aug. 2018. 19 Sep. 2019 <https://www.eonline.com/news/960776/how-aretha-franklin-inspired-kelly-clarkson-jennifer-hudson-and-more-stars>.Phillips, Ronnie J. Rock and Roll Fantasy? The Reality of Going from Garage Band to Superstardom. Colorado: Springer, 2013. Samuel, Lawrence, R. The American Dream: A Cultural History. New York: Syracuse UP, 2012.Sanders, Maria A. “Singing Machines: Boy Bands and the Struggle for Artistic Legitimacy.” 20 Cardozo Arts & Entertainment Law Journal 3 (2002): 525-588Scott, Michael. “Cultural Entrepreneurs, Cultural Entrepreneurship: Music Producers Mobilising and Converting Bourdieu’s Alternative Capitals.” Poetics 40 (2012): 237-255Shultz, Benjamin. “The Work behind the Scenes: The New Intermediaries of the Indie Crafts Business.” Regional Studies 49.3 (2015): 451-460.Simply Complicated. Dir. H.L. Davis. Philymack Productions, 2017,Stahl, Matt, and Leslie Meier. “The Firm Foundation of Organizational Flexibility: The 360 Contract in the Digitalizing Music Industry.” Canadian Journal of Communication 37.3 (2012): 441-458.The Boy Band Con: The Lou Pearlman Story. Dir. A. Kunkel. 1620 Media, 2019.Thomas, George M. “’Maid’ for Fame: J. Lo Living a Dream.” Chicago Tribune 12 Dec. 2002. 15 Sep. 2019 <https://www.chicagotribune.com/news/ct-xpm-2002-12-12-0212120189-story.html>.Tishgart, Sierra. “Demi Lovato on Launching Secret’s Anti-Bullying Campaign.” TeenVogue 17 Oct. 2012. 19 Sep. 2019 <https://www.teenvogue.com/story/demi-lovato-secret-anti-bullying>.Ursell, Gillian. “Television Production: Issues of Exploitation, Commodification and Subjectivity in UK Television Labour Markets.” Media, Culture & Society 22.6 (2000): 805-825.Vaag, Jonas, Johan Håkon Bjørngaard, and Ottar Bjerkeset. “Use of Psychotherapy and Psychotropic Medication among Norwegian Musicians Compared to the General Workforce.” Psychology of Music 44.6 (2016): 1439-1453. Wood, Nichola, Michelle Duffy, and Susan J. Smith. “The Art of Doing (Geographies of) Music.” Environment and Planning D: Society and Space 25.5 (2007): 867-889.Yale University. “Lady Gaga Emotion Revolution Summit 2015.” YouTube, 12 Nov. 2015. <https://www.youtube.com/watch?v=so2nDTZQmCo>.