Academic literature on the topic 'Urban and regional planning, n.e.c'

- It is now a few years since the enactment of the Lombard Regional Law n. 12/2005 «for urban and regional governance of the area» and many municipalities have commenced procedures (but not many have completed them, despite the threat of Art 25, letter C.1, according to which «municipal urban planning regulations in force remain valid [...] for not longer than four years following the entry into force of this law)» to replace the now old municipal general plans which nevertheless represented «the only true form of planning in Italy for almost 40 years» (Oliva, 2005). The time has now come to examine the value in practice of this ‘consolidated law', enacted by the Lombard legislature in 2005, in order to understand if it has succeeded, according to the aspirations of the initial intentions, in governing the urban complexity of such a complex region. The Giussano (a large municipality located in the Brianza Milanese area) general plan and its environmental assessment is set in this context and both were completed by the Department of Planning and Architecture of the Polytechnic of Milan well ahead of the deadlines set by the Regional Law n. 12/2005.

To contribute to the prediction of rainfall-related disasters, specific concentration factors that indicate the suspended solid (SS), total nitrogen (TN), and total phosphorus (TP) load intensities to river water for each land-use type were calculated using a simple watershed land-use model across Japan by applying the following multiple regression equation, according to the land-use ratios and published SS, TN and TP data. C=i=14aixi C: SS, TN and TP concentrations (mg L-1); ai: SS, TN and TP specific concentration factor for land use i; xi: ratio of land use i; land use: 1 paddy fields, 2 upland fields, 3 forests, 4 urban areas. The land-use ratios for watersheds, whose lower ends were observation points of river water quality, were determined by the GIS technique using a published database of DEM and LULC mesh data. The SS specific concentration factor was 15.4 (from a 95% lower limit value of 12.0 to a 95% upper limit value of 18.8), 11.5 (7.4 to 15.6), 3.9 (2.6 to 5.1), and 11.2 (9.2 to 13.2) for paddy fields, upland fields, forests and urban areas, respectively (n=5103). The TN specific concentration factor was 1.67 (from a 95% lower limit value of 1.34 to a 95% upper limit value of 2.01), 4.08 (3.64 to 4.51), 0.76 (0.67 to 0.90), and 3.57 (3.38 to 3.76) for paddy fields, upland fields, forests and urban areas, respectively (n=3256). The TP specific concentration factor was 0.146 (from a 95% lower limit value of 0.119 to a 95% upper limit value of 0.172), 0.172 (0.138 to 0.206), 0.044 (0.033 to 0.055), and 0.267 (0.253 to 0.282) for paddy fields, upland fields, forests and urban areas, respectively (n=3256). These specific concentration factors had regional tendencies, such as suburban or rural, intensive or extensive agriculture, and so on.

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. 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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. 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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). 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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 purpose of research to determine and contribute in more efficient services to geoinformation stakeholders, as well as to give positive impact on increasing income in geo business sector, voluntary based web system for online usage of geoinformation in Kosovo has been developed. The method used was puting in to one place many sourcec via WMS and WFS services, by creating thematic SDI, in order to have online system with dynamic data comming from official databases with update from last day on 5 pm. System is open for usage by all interested parts, however official registration is required. It contains geoinformation from many databases such as cadastral, orthophoto, municipal, and basemaps from open layers. The results show that the system is extendable and it is permanently including new datasets based on the user requirements. All available data is linked via web services, which gives an opportunity to users to use the updated version of datasets as they are published by responsible institution via www (world wide web). Keywords: web map, geoportal, geoinformation, web services, Kosovo References Alameh. N, (2010). Service chaining of interoperable Geographic Information Web Services. Global Science and Technology. Greenbelt, USA. Brimicombe, A.J. (2002). GIS-where are the frontiers now. GIS 2002. Bahrain. Bryukhanova, E. A., Krupochkin, Y. P., & Rygalova, M. V. (2018). Geoinformation technologies in the reconstruction of the social space of siberian cities at the turn of the 19–20th centuries (case study of the city of tobolsk). Journal of Siberian Federal University - Humanities and Social Sciences, 11(8), 1229-1242. doi:10.17516/1997-1370-0303 Chaudhuri, S. (2015). Application of Web Based Geographical Information Systems in e-business. Maldives. Davis, C.A. and Alves L.L. (2007). Geospatial web services, Vicosa, Brazil. ESRI. (2003). Spatial Data Standards and GIS interoperability. White paper. ESRI. CA. USA. Ferdousi, . and Al-Faisal, A. (2018). Urban and regional planning. Rajshahi University of Engineering and Technology. Rajshahi. Bangladesh. Gitis, V., Derendyaev, A., & Weinstock, A. (2016). Web-based GIS technologies for monitoring and analysis of spatio-temporal processes. International Journal of Web Information Systems, 12(1), 102-124. doi:10.1108/IJWIS-10-2015-0032 Glasze, G., & Perkins, C. (2015). Social and political dimensions of the OpenStreetMap project: Towards a critical geographical research agenda doi:10.1007/978-3-319-14280-7_8 Henzen, C. (2018). Building a framework of usability patterns for web applications in spatial data infrastructures. ISPRS International Journal of Geo-Information, 7(11) doi:10.3390/ijgi7110446 Idrizi, B. (2009). Developing of National Spatial Data Infrastructure of Macedonia according to global standardization (GSDI and INSPIRE) and local status. Conference of Nikodinovski. Skopje. Macedonia. Idrizi, B. (2018). General Conditions of Spatial Data Infrastructure. International Journal on Natural and Engineering Sciences. Turkey. Idrizi, B. Sulejmani, V. Zimeri, Z. (2018). Multi-scale map for three levels of spatial planning data sets for the municipality of Vitia in Kosova. 7th ICC&GIS conference. Sozopol. Bulgaria. Mwange, C., Mulaku, G. C., & Siriba, D. N. (2018). Reviewing the status of national spatial data infrastructures in africa. Survey Review, 50(360), 191-200. doi:10.1080/00396265.2016.1259720 Nikolov, B. P., Zharkikh, J. I., Soloviev, A. A., Krasnoperov, R. I., & Agayan, S. M. (2015). Integration of data mining methods for earth science data analysis in GIS environment. Russian Journal of Earth Sciences, 15(4) doi:10.2205/2015ES000559 Sahin, K. and Gumusay, M.U. (2008). Service oriented architecture based web services for geographic information systems. The international archives of the remote sensing, photogrammetry and spatial information sciences. Vol XXXVII. Beijing. China. Sayar, A. (2008). GIS service oriented architecture. Community grids laboratory. IN, USA. Shi, S. (2015). Design and development of an online geoinformation service delivery of geospatial models in the united kingdom. Environmental Earth Sciences, 74(10), 7069-7080. doi:10.1007/s12665-015-4243-8 Siles, G., Charland, A., Voirin, Y., & Bénié, G. B. (2019). Integration of landscape and structure indicators into a web-based geoinformation system for assessing wetlands status. Ecological Informatics, 52, 166-176. doi:10.1016/j.ecoinf.2019.05.011 Ummadi, P. (2008). Standards and Interoperability in GIS, Michigan State University. MI, USA. Vorobev, A. V., & Shakirova, G. R. (2016). Web-based geoinformation system for exploring geomagnetic field, its variations and anomalies doi:10.1007/978-3-319-29589-3_2 Walter, V., & Sörgel, U. (2018). Implementation, results, and problems of paid crowd-based geospatial data collection. PFG - Journal of Photogrammetry, Remote Sensing and Geoinformation Science, 86(3-4), 187-197. doi:10.1007/s41064-018-0058-z 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

Carmen Díez Medina y Javier Monclús (eds.)Urban visions: from urban planning culture to landscape urbanismSpringer International Publishing, Cham (Suiza), 2018. Pág. xxiv, 354. 93 ilustraciones b/n, 192 ilustraciones color. Tapa dura. $129.00 ($99.00 ebook). ISBN: 978-3-319- 59046-2. eBook ISBN: 978-3-319-59047-9.DOI: 10.1007/978-3-319-59047-9. (versión española: Visiones Urbanas. De la cultura del plan al urbanismo paisajístico, Madrid, Abada Editores, 2017, 304 p. Tapa blanda. 49 €.)

While climate change has global causations and impacts, there is growing consensus on addressing the 2 °C challenge through local actions. However, at the local level, there is disintegrated knowledge on the following: (a) short-, mid- and long-term climate vulnerability, (b) economy and GHG structures and their future pathways, and (c) useful mitigation and adaptation undertaken elsewhere. We evaluate these gaps through a comprehensive review of scientific literature and policy approaches of urban-climate studies in the Asia-Pacific Region. Based on the research findings, we develop a collaborative research framework of an integrated climate action planning (ICLAP) model for evidence-based decision-making tool. It adopts an innovative methodology integrating knowledge and data from diverse analytics, as follows: (a) spatial: downscaling global/regional climate scenarios to forecast local climate variability (50 km × 50 km) for 2030 (SDG target) and 2050; (b) statistical: a meta-analysis of 49 five-million-plus cities to forecast economic, energy and GHG scenarios; (c) bibliometric: a systematic review of global urban climate interventions from Google Scholar that collectively aid cities on policy inputs for mid-term climate variability, GHG profiles and available solutions at their disposal. We conclude with a discussion on scientific and policy relevance of such a tool in fostering overall urban, regional and global sustainability.

Urban landscaping conversions can alter decomposition processes and soil respiration, making it difficult to forecast regional CO2 emissions. Here we explore rates of initial mass loss and net nitrogen (N) mineralization in natural and four common urban land covers (waterwise, waterwise with mulch, shrub, and lawn) from sites across seven colleges in southern California. We found that rates of decomposition and net N mineralization were faster for high-N leaf substrates, and natural habitats exhibited slower rates of decomposition and mineralization than managed urban landcovers, especially lawns and areas with added mulch. These results were consistent across college campuses, suggesting that our findings are robust and can predict decomposition rates across southern California. While mechanisms driving differences in decomposition rates among habitats in the cool-wet spring were difficult to identify, elevated decomposition in urban habitats highlights that conversion of natural areas to urban landscapes enhances greenhouse gas emissions. While perceived as sustainable, elevated decomposition rates in areas with added mulch mean that while these transformations may reduce water inputs, they increase soil carbon (C) flux. Mimicking natural landscapes by reducing water and nutrient (mulch) inputs and planting drought-tolerant native vegetation with recalcitrant litter can slow decomposition and reduce regional C emissions.

Establishing of built heritage preservation and town and regional planning on scientific bases lasted most of 20th century. The two scientific disciplines had early application in Serbia aligned with the development in wider Eurocentric area, until the political and economic turmoil in 1990s. The role of built heritage in town and city planning has essentially changed in that time worldwide. That is partly explained by developing of scientific methodology of each of the disciplines, and partly by global changes and subsequently emerging challenges. In this paper we focused on development in Serbia, which partly reflected changes in both East and West of Eurocentric area.

This dissertation resituates C. A. Doxiadis in Post-War urban design history with a detailed examination of how urban growth and change was addressed by urban design strategies as applied in the master plan for Riyadh Saudi Arabia, undertaken between 1968 and 1972. The Riyadh master plan commission is important within Doxiadis' career, occurring in the midst of his prolific writing projects and approximately eight years after he completed the Islamabad master plan, his most renowned project. Most Post-War architects focused on the socio-spatial components of urban life, elaborating architectural projects that intertwined transportation, infrastructure, and concentrated on mass housing strategies. This dissertation argues that Doxiadis' contribution to urban design theory and practice during the Post-War period was to define a rational scientific methodology for urban design that would restructure settlements to enable urban expansion and change while addressing issues of community building, governance and processes of development. The applied urban design for Riyadh Saudi Arabia strongly exemplifies Doxiadis' rational strategy and methodology as outlined in Ekistics theory and the conceptual model of Dynapolis. The comparative analysis examines how Doxiadis applies the Dynapolis model in the urban spatial planning of Riyadh to organize urban territory at the macro and local urban scales, define neighborhood communities, and connect the new master plan to the existing spatial territory of the city. The longitudinal analysis contrasts the Doxiadis master plan, Riyadh's first urban development strategy, to the most recent comprehensive approach MEDSTAR to understand how the Doxaidis' urban design has sustained its spatial continuity over time. This dissertation makes two significant contributions. The first is to broaden knowledge of Post-War urban design specific to the spatial problem of urban expansion and change, and second to resituate Doxiadis within the Post-War history of urban design specifically revealing his previously unrecognized project of the Riyadh master plan undertaken from 1968-1972.

A cidade de Curitiba já foi tida como sinônimo de vanguarda em desenvolvimento urbano e equilíbrio ecológico. Porém, como na maioria das grandes cidades brasileiras, ela enfrenta problemas sociais, sobretudo, na área da propriedade urbana e da própria preservação ambiental diante das invasões urbanas. Entretanto, a Constituição Federal garantiu aos administradores municipais um elemento essencial para a gestão de suas cidades, o Plano Diretor. Este instrumento, regulamentado pelo Estatuto da Cidade, suscita um planejamento estratégico do município, do seu desenvolvimento e uma maior gestão democrática dos próprios interesses dos cidadãos habitantes da cidade. Esta dissertação de Mestrado tem como objetivo analisar a eficácia jurídica da lei do Plano Diretor de Curitiba 2015 (Lei nº 14.771/2015), no tratamento dado por seus idealizadores (Sociedade, Poder Executivo municipal e Poder Legislativo municipal) à função social da propriedade, sob a perspectiva dos direitos Urbanístico e Ambiental. Por meio de pesquisa em bases de dados acadêmicos, na literatura especializada e na jurisprudência nacional, estabeleceu-se parâmetros para a classificação da eficácia dos ordenamentos contidos no plano diretor de Curitiba em plena (aplicável de imediato), contida (apenas parte pode ser aplicada) e limitado (necessita de uma regulamentação futura para ter eficácia). Entre os principais resultados da pesquisa, tem-se que de 96 artigos da lei do Plano Diretor de Curitiba, diretamente ligados à área do direito urbanístico, direito ambiental e à propriedade, 40% dos mesmos possuem eficácia limitada, 16% dos artigos possuem eficácia contida e 44% possuem a sua eficácia plena. Ou seja, 56% dos artigos, voltados ao tema da pesquisa, não possuem uma aplicabilidade plena de suas diretivas. Isto significa que a lei responsável pelo planejamento do desenvolvimento urbano da cidade, nos próximos 10 anos, não possui eficácia imediata e suficiente para transformar o aspecto nebuloso da distribuição justa e correta da propriedade e de sua função social dentro do território do município de Curitiba.
The city of Curitiba has been regarded as a forefront synonymous of urban development and ecological balance. However, as in most large Brazilian cities, Curitiba faces social problems, especially in the area of urban property and its own environmental preservation facing urban invasions motivated by that. However, the Federal Constitution guaranteed the municipal administrators an essential element for the management of their cities, the Master Plan. This instrument, the Master Plan, which was regulated by the City Statute, provided a strategic planning for the municipality, in its development and a greater democratic management of its own citizens interests, the townspeople. This Master's dissertation aims to analyze the legal force of Curitiba’s Master Plan 2015 (Law No. 14,771 / 2015) in the treatment given by its creators (Society, Municipal Administration and Municipal Legislature) to the social function of property. It was elected as a paradigm for analysis of this work the Urban Law and Environmental Law and their determinations that guide the use, exploitation of urban land and the preservation of the natural and urban environment within the legal orders generated by the approval of the project law update of the master plan of the city of Curitiba. Through research in academic databases, in specific literature and in national jurisprudence, parameters were established for ranking the effectiveness of the orders contained in the full master plan of Curitiba (immediately applicable) contained (only part can be applied) and limited (it needs a future regulation to be effective). The results obtained throughout this work are posted at the end of this paper and they express that from the 96 articles directly related to the urban law area, environmental law and the property contained in the new law of Curitiba’s Master Plan, 40% of them have limited effectiveness, 16% of the articles have contained efficiency and 44% have their full effect, that is, 56% of the articles focused on the theme’s work does not have full applicability of their policies, which imposes thinking to the external observer that the law responsible for the urban development of the city for the next 10 years, at this moment, does not have sufficient efficacy to transform the nebulous aspect of the fair and correct distribution of property and its social function in the municipality of Curitiba.

'66°N' is the design for a large-scale ecotourism hotel that takes advantage of dynamic and shifting environmental conditions of Greenland to visually and physically register the changes in the fragile arctic environment. Located on the Western coast of Greenland near one of the largest potential sources of direct sea-level rise, the Ilulissat Ice-Fjord, the design explores the intersection of two global trends: the effects of global climate change and the increase in popularity of ecotourism in the arctic. The techniques of building in an extreme and remote environment to provide infrastructure for ecotourist activities result in a permanent structure that is subjected to the continuously shifting site conditions of water and landscape. The relationship between rigid and responsive forms is used as an architectural register to these conditions that change the patterns and use of the hotel over time.

Making the most of daylight in town planning is one of the important ingredients in the attempts for the sustainable city. Exactly 150 years ago Ildefons Cerdà presented his great work “Teoría General de la Urbanización” including methods for taking care of sunlight. However, with modern software, the possibilities to do comprehensive preparations are much better. This paper presents an urban typology considering daylight with basic geometric forms, shapes and patterns. Later this will be elaborated more in detail. The research includes three steps; choosing typical alternatives for settlements and designing some new principle urban solutions, calculations and evaluations of the alternatives considering especially energy saving. The quality and the quantity of daylight are dependent of the geometry of the urban spaces. That means the volumes for the buildings as well as the empty spaces in between. The accessibility for diffuse daylight from the sky and for direct rays from the sun is measurable by computer calculations where the sun angles and the skylight from the hemisphere are simulated. Relevant parameters are height, width and length. In a settlement with a high urban density it is more difficult to distribute daylight than in a settlement with low density. However the economy for exploitations is also worse with lower density. Therefore the comparisons between different settlements are with the same density. The orientation of the settlements according to the compass is of crucial importance looking to the direct sunlight and the shadows. How the local environment with parks, water, mountains and specific landmarks in the surroundings also affects the daylight distribution is included.References (100 words) Dubois, M.-C., Gentile, N., Amorim, C., Osterhaus, W., Stoffer, S.,Jakobiak, R., Geisler-Moroder, D., Matusiak, B., Onarheim, F. M., Tetri, E. (2016) Performance Evaluation of Lighting and Daylighting Retrofits: Results from IEA SHC Task 50. (Energy Procedia. vol. 91). Littefair, P. J. (2011) Site layout planning for daylight and sunlight: a guide to good practice (BRE, Building Research Establishment, IHS BRE Press, Watford). Rode, P., Keim, C., Robazza, G., Viejo, P. and Schofield, J. (2014) Cities and energy: urban morphology and heat energy demand (LSE, London School of Economics, Cities and EIFER, European Institute for Energy Research, Karlsruhe Institute of Technology, London).

The Regional Urban Development Plan (UDRP) for the Araucanía Region was prepared using methods taken from ecology-based physical planning and from the integrated analysis of natural systems. In this way, a series of processes for aggregation, extraction, map algebra and logic operators was produced, making the best use of the analytical potential of ArcView(c) and its Spatial Analyst extension, in order to develop a GIS model to determine the optimum multi-purpose use of the territory, which was the basis used for the proposed zoning of this regional planning instrument

Urban planners, politicians and citizens need comprehensive and clear information in order to conduct or get involved into successful evidence based planning and policy making. The objective to improve the quality of planning outcomes both at the local and regional level necessitates in creation of design mechanisms which could help planners verify and support their approach with quantitative analyses and simulation tools. While this sort of problems has already been explored for a while, with an abundant literature on the topic, there still remains a lot to say, especially when it comes to evaluation of plans, such as local plans of urban development, general plans, studies for the municipalities or larger, inter-municipal associations. Along with the implementation of INSPIRE Directive in Europe, data for these analyses, so far patchy and incomplete, becomes slowly but progressively available. The use of quantitative analyses may refer to several aspects of physical form, such as connectivity, continuity of ecological systems, conciseness of built structures and urban boundary, analyses of the morphology of urban tissue, etc. Completed with the qualitative description and enriched with the socio-cultural preconditions assessment they may give a comprehensive picture both of the current and the planned state. The current paper presents an experience of mapping typologies of residential structures in the settlements neighbouring Lodz, Poland, with the objective to assess the existing densities and planned development capacities against the backdrop of demographic dynamics in these region.References Berghauser-Pont, M. and Haupt, P. (2010) Space, Density and Urban Form (Technische Universiteit Delft, Delft). Faludi, A. and Waterhout, B. (2006) ‘Introducing Evidence-Based Planning’, disP Plan. Rev. 165, pp.4–13. Laconte, P. (2016) ‘Introduction: assessing the assessments’, in Laconte, P. and Gossop, C. (eds.) Sustainable Cities. Assessing the Performance and Practice of Urban Environments. (I.B. Tauris, London, New York) 1–14. Newman, P. and Kenworthy, J. (1999) Sustainability and cities: overcoming automobile dependence (University of Chicago Press, Chicago). Rapoport, A. (1975) ‘Toward a Redefinition of Density’, Environment and Behavior 7(2), 133–158.

Transformative Urban Railway: Ankara Commuter Line and Lost LandscapeFunda Baş Bütüner¹, Ela Alanyalı Aral¹, Selin Çavdar² ¹Middle East Technical University. Department of Architecture. Ankara. Dumlupınar Bulvarı no:1 06800 Ankara Turkey ² Middle East Technical University. Department of City and Regional Planning. Ankara. Dumlupınar Bulvarı no:1 06800 Ankara Turkey E-mail: fbutuner@metu.edu.tr, earal@metu.edu.tr, selin.cavdar@gmail.com Keywords (3-5): urban railway, urban landscape, Ankara, commuter line, landscape infrastructure Conference topics and scale: Urban green space Being major transportation infrastructure of the 19th and early 20th centuries, the impacts of railways on cities have highly directed urban discourses; deforming material edge of cities, encouraging urban extension, formation of new territories, and speeding up urban development. However, in recent decades, with newly emerging discussions on landscape infrastructure, a new idea for a more integrated infrastructure and urban system has started to be formulated. Railway strips, occurring as terrains where solid-void morphology of cities becomes illegible, emerge as generators in the formation of new urban green network. Within this framework, Ankara commuter line that mark outs a route approximately 37 kilometers in length in the city, is a remarkable case for a motivating discussion on railway and landscape confrontation. Penetrating the city in east-west direction, the commuter line integrated with a rural landscape –covering vegetable gardens and creeks- that was serving as a recreational field for citizens until 1950s. However, the transformative nature of the railway, encouraged the development of new urban lands, industrial areas and neighborhoods along its route, and erased the characteristic landscape along the railway. The continuous landscape integrated with green, water and railway infrastructure became fragmented covering only some splits of green and water. In this respect, this study dwells on the lost landscape of the commuter line by mapping the fragmented continuity of the railway, green and water infrastructure from 1950’s until today to show the limited, but potential interaction of these three systems in the current urban fabric. References Allen, S. (1999). Infrastructural Urbanism, in Allen, S. (ed.) Points and Lines: Diagrams and Projects for The City (Princeton Architectural Press, New York) 40-89. Bertolini, L., Spit, T. (1998). Cities on Rails (Routledge, London). Hung, Y. (2013). Landscape Infrastructure: Systems of Contingency, Flexibility, and Adaptability, in Hung, Y., Aquino, G., Waldheim, C., Czerniak, J., Geuze, A., Robinson, A., Skjonsberg, M. (ed.) Landscape Infrastructure (Birkhauser, Basel) 14-19. Tatom, J. (2006). Urban Highways and the Reluctant Urban Realm. C. Waldheim (Ed.). The Landscape Urbanism Reader (Princeton Architectural Press, New York) 179-196. Waldheim, C. (2016). Landscape as Urbanism: A General Theory (Princeton University Press).

The Hybrid Block as Urban Form Javier Pérez Igualada Escuela Técnica Superior de Arquitectura, Universitat Politécnica de València. Camino de Vera, s/n. 46022 Valencia. E-mail: jperezi@urb.pv.es Keywords: Hybrid Block, Urban Form, Mixed Use Buildings, Open Planning Conference topics and scale: Urban form and social use of space In this paper we analyze the hybrid block as an urban form of synthesis, in which the open order of modern urbanism is superimposed on the closed order of traditional urbanism. In this model, proposed for the first time by Hilberseimer in his 1927 Vertical City, housing and work are not separated but overlapping on mixed-use buildings, where the dwellings are located in slabs or towers shaped as isolated volumes, whose design responds to its own internal logic, based on functional criteria (rational distribution of rooms, orientation, ventilation, sunshine, views...). Those volumes emerge from a compact built-up podium for commercial or office uses, aligned with the perimeter streets and responding to the external logic of the urban fabric. This configures an urban form in which both hybridization of architectural forms and hybridization of uses are obtained, recovering the multifunctional character of the traditional urban block, which had disappeared in functionalist urbanism. The paper examines the reasons that can explain the exclusion of this urban form from the repertoire of elements of modern urbanism, and analyzes the validity of the hybrid block, as an strategy to recompose or reinterpret the urban block, assuming high density and collective housing as a basic typology for the construction of the city. References Martí Arís, C. (1991): Las formas de residencia en la ciudad moderna (UPC, Barcelona). Pérez Igualada, J. (2005): Manzanas, bloques y casas. Formas construidas y formas del suelo en la ciudad contemporánea (Universidad Politécnica de Valencia, Valencia). Pérez Igualada, J. (2008): ‘Si cambia la vivienda, cambia la ciudad. La vivienda pequeña y sus formas de agrupación en la Valencia de posguerra’, en AA.VV., Renta limitada. Los grupos de viviendas baratas construidos en la Valencia de posguerra (1939-1964) (Universidad Politécnica de Valencia, Valencia) 40-48. Pérez Igualada, Javier (2014): ‘Ecos del norte: la manzana híbrida en el Proyecto para la Avenida de Valencia al Mar de Fernando Moreno Barberá (1959-60)’, ACE: Architecture, City and Environment = Arquitectura, Ciudad y Entorno, 9, 29-52.

En la actualidad la mayor parte de la población vive en grandes urbes o megalópolis, las cuales son de gran interés para hacer estudios de ciudades empleando métodos de percepción remota. La ciudad de México es una metrópoli con una gran dinámica socio-económica, cultural y de servicios. Esta gran dinámica es una de las principales causas que ocasionan cambios en el uso de suelo urbano. En este trabajo, la investigación se centra en la detección de las estructuras urbanas de la ciudad de México, empleando imágenes ópticas Terra/Aster y Spot-5, mediante el análisis de las siguientes metodologías: a) Un modelo de textura-relieve con imágenes Terra/Aster de las bandas 3B y 3N (Lira, 2009; Cuartero et al. 2005). b) Segmentación y clasificación urbano-regional de estructuras urbanas tales como: edificios, zonas residenciales, zonas industriales, así como áreas agrícolas y áreas verdes de la ciudad de México usando operadores de texturas (Lira and Rodríguez, 2006). c) Generación de un Modelo Digital de Elevaciones empleando pares estereoscópicos del sensor SPOT-5, para la ciudad de México de fechas 2003-2006. Identificación de objetos texturales en la ciudad de México asociados a diferentes estructuras urbanas. De lo anterior, el impacto de estudios de áreas urbanas empleando imágenes de los sensores Terra/Aster con una resolución espacial en las bandas 3B y 3N de 15m2 y Spot-5 con imágenes pancromáticas a 2.5m2 , 5m2 y 10m2 en imágenes multiespectrales, es debido a que tienen diferente resolución espacial y pueden resultar de gran interés para los urbanistas, y los arquitectos, haciendo propuestas de planeación urbano-regional y así complementar los estudios del sitio, los estudios en el cambio de uso de suelo de rural a urbano, estudios en manifestaciones de impacto ambiental, así como una segmentación precisa de las estructuras urbanas inmersas en cualquier ciudad del mundo. Nowadays most of the population lives in large cities or megalopolis, which are of great interest to perform studies of cities using remote sensing methods. Mexico City is a metropolis with a large dynamic socio-economic, cultural, and services. This great dynamics is one of the main reasons that cause changes in the use of urban land. In this work, research should focus on the detection of the urban structures in Mexico City, using optical images Terra/Aster and Spot-5, by analyzing the following methodologies: (a) A model of texture-relief Terra/Aster images of bands 3B and 3N (Lira, 2009; Cuartero et al. 2005). (b) Segmentation and urban classification of urban structures such as: buildings, residential areas, industrial areas, as well as agricultural areas and green areas of Mexico City using textures operators (Lira and Rodríguez, 2006). (c) Generation of a Digital Elevation Model using stereoscopic pairs of sensor SPOT-5, to Mexico City from 2003-2006 dates. Identification of textural objects in Mexico City associated with different urban structures. Further, the impact of urban studies using image sensors Terra/Aster with spectral bands 3B and 3N, 15m2 and Spot-5 panchromatic 2.5m2, 5m2 and 10m2 in multispectral images. This diverse resolution can be of great interest to planners, and architects, making proposals for urban planning and thus complement studies site, studies in rural land-use change to urban, manifestations of environmental impact studies as well as a precise urban structures in any city worldwide segmentation.

Rethinking Urban Design Problems through Morphological Regions Ezgi Küçük¹, Ayşe Sema Kubat² ¹Urban Planning Coordinator, Marmara Municipalities Union ²Prof., Dr., Istanbul Technical Univercity, Faculty of Architecture, Department of City and Regional Planning E-mail: ezgikucuk89@gmail.com, kubat@itu.edu.tr Keywords: the Historical Peninsula, morphological regions, urban blocks, urban design, Beyazıt Square Conference topics and scale: Urban form and social use of space The concept of urban square is a debated issue in the context of urban design practices in Islamic cities. Recognizing the relation between urban morphology and urban design studies in city planning and urban design practices is highly vital. Beyazıt Square, which is the center of the city of Istanbul, could not be integrated to the other parts of the city either configurationally or socially although many design projects have been previously planned and discussed. In this study, the Historical Peninsula of Istanbul is observed as an essential unit of the traditional path reflecting each civilization, namely Roman, Byzantium, Ottoman and Republic of Turkey that have been settled in the region. Transformations in urban blocks in Beyazıt region are elaborated through a series of morphological analyses based on the Conzenian approach of urban morphology. Morphological regions of the Historical Peninsula are identified and Beyazıt region is addressed in detail in terms of the transformations in urban block components, that are; street, plot and buildings. The effects of surrounding units which are the mosque, university buildings, booksellers and Grandbazaar on Beyazıt Square are discussed according to the morphological analyses that are applied to the region. Previous design practices and the existing plan of the area are observed through the analyses including town plan, building block, and land use and ownership patterns. It is revealed that existing design problems in Beyazıt Square come from the absence of urban morphological analyses in all planning and design practices. Through morphological regions as well as the conservation plans, urban design projects can be reconsidered. References Baş, Y. (2010) ‘Production of Urbanism as the Reproduction of Property Relations: Morphologenesis of Yenişehir-Ankara’, PhD thesis, Middle East Technical University. Barret, H.J. (1996) ‘Townscape changes and local planning management in city conservation areas: the example of Birmingham and Bristol’, PhD thesis, University of Birmingham. Bienstman, H. (2007) ‘Morphological Concepts and Landscape Management: The Cases of Alkmaar and Bromsgrove’, PhD thesis, University of Birmingham. Conzen, M.R.G. (1960) Alnwick Northumberland: a study in town-plan analysis, Institute of British Geographers, London. Conzen, M.R.G. (2004) Thinking About Urban Form: papers on urban morphology 1932-1998, Peter Lang, Bern. Çelik, Z. (1993) The Remaking of Istanbul: Portrait of an Ottoman City in the Nineteenth Century, University of California Press, Berkeley. Günay, B. (1999) Property Relations and Urban Space, METU Faculty of Architecture Press, Ankara. Kubat, A.S. (1999) ‘The morphological history of Istanbul’, Urban Morphology 3.1, 28-41. Noziet, H. (2008) ‘Fabrique urbaine: a new concept in urban history and morphology’, Urban Morphology, 13.1, 55-56. Panerai, P., Castex, J., Depaule, J. C. and Samuels, I. (2004) Urban Forms: The Death and Life of the Urban Block, Architectural Press, Oxford. Tekeli, İ. (2010) Türkiye’nin Kent Planlama ve Kent Araştırmaları Tarihi Yazıları, (Articles of Turkey’s History of Urban Planning and Urban Studies), Tarih Vakfı Yurt Yayınları, Istanbul. Whitehand, J.W.R. (2001) ‘British urban morphology: the Conzenian tradition’, Urban Morphology 5.2, 3-10. Whitehand, J.W.R. (2009) ‘The structure of urban landscapes: strengthening research and practice’, Urban Morphology 13.1, 5-22.

Roberta Gironi Departamento de Proyectos Arquitectónicos, UPV. Camino de Vera, s/n. 46022 Valencia Joint Doctorate Dipartimento di Architettura – Teorie e Progetto. “Sapienza” Università degli Studi di Roma. Via Gramsci, 53. 00100 Roma E-mail: roberta.gironi@gmail.com Keywords (3-5): Informal processes, dynamic transformation, new planning approach, flexible space, self-organization Conference topics and scale: Reading and regenerating the informal city Contemporary cities are affected by transformations that put in discussion the claim of control and stability to which the urban project aspires. All those gradual adjustments are manifested according to the demand, bring toward a less formal and more flexible spatial order, for which the traditional forms of the "static" city become the background of the "kinetic" landscape of informal cities. On the contrary of the formal processes of urban planning, informality process is configured as an organic development model and a flexible dynamic system opened to changes. The informal space is produced according to principles of spontaneity and self-organization. A consideration on the possibility to assume different approaches can be proposed. Those approaches should integrate in the design reasoning all the dynamics usually excluded by the discourse on the urban project, which processes can become catalysts to enrich the methods of planning and design of the urban space. Through the analysis of the case-study Previ Lima and the Living Room at the Border of St. Ysidro, the aim is to delineate in which way the contemporary architecture can absorb and metabolize these processes, triggering a different approach to a different method to intervene in the spaces of relationship among formal and informal. It is believed that the informal urban qualities cannot be eliminated and is impossible to ignore the inhabitants' practices, but rather to work on the intersection between collective and individual actions. References Brillembourg A., Feireiss K., Klumpner H. (2005), Informal City (Prestel Publishing, Munich) Cruz T. (2008), "De la frontière globale au quartier de frontière: pratiques d'empiètement", Multitudes, 31(1). Davis M. (2006), Planet of Slums (Verso, London). Hernandez F., Kellett P., Allen L.K. (2010), Rethinking the informal city: critical perspectives from Latin America (Berghahn books, New York, Oxford). McFarlane C., Waibel M., (2012), Urban Informalities: Reflections on the Formal and Informal (Ashgate, Farnham). Jacobs J. (1961), The death and life of great American cities(Random House, New York- Toronto). Roy A., Alsayyad N., (2004) Urban Informality: Transnational Perspectives from the Middle East, Latin America, and South Asia (Lexington Books, Lanham)

Sustainability, ecological modernization, citizen participation, public space and rights are concepts that have acquired great importance in international political discourses and that have figured in indicators, guidelines, programs and policies, at national level, giving rise to a urban planning from administrative units or “zoning”, which instead of showing the different structures, forms and functions of cities as a whole, what has generated is a fragmentation of urban space. In a certain way, the implosion of these themes shows the success of capitalism in a period of neoliberal hegemony, since it becomes a smokescreen to hide the class differences superimposed on global discourses of modernization and development, as well as the transformation of natural resources in products, the capitalization of nature and the transformation of politics into management. The text seeks to reflect on the territorial configuration of public space in the light of emerging urban policies and programs in a neoliberal geopolitical context based on two axes of analysis: in the first analyze the neoliberal imposition models on how to construct public space and in the second will analyze the institutional bases, programs and policies of intervention highlighting their objectives, limitations and contradictions that help to understand the material and immaterial forms that the public space adopts at different scales in Mexico City through of the socio-territorial relations that are constructed in a process of mutual reciprocity. References Brenner, N.; Peck, J.; Theodore, N. (2009).Urbanismo neoliberal: La ciudad y el imperio de los mercados. SUR Corporación de Estudios Sociales y Educación, Temas sociales, n.66. Capel, H. (2002). La morfología de las ciudades. I. Sociedad, cultura y paisaje urbano (Ediciones del Serbal, Barcelona). Harvey, D. (2007) Espacios del capital. Hacia una geografía crítica (Akal, Madrid). Narciso, C.; Ramírez, B. (2016). Discursos, política y poder: el espacio público en cuestión. Territorios 35, Bogotá, pp.37-57. Pradilla, E. (2009) Los territorios del neoliberalismo en América Latina (Universidad Autónoma de México/Miguel Ángel Porrúa, México).