Relevant bibliographies by topics / Coastal zone management Thailand

Academic literature on the topic 'Coastal zone management Thailand'

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Published: 10 December 2022
Last updated: 29 January 2023

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Journal articles on the topic "Coastal zone management Thailand"

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Sribuaiam, Kanongnij. "Legal Aspects of the Coastal Zone Management: On-going Process of ICZM in Thailand." Journal of East Asia and International Law 2, no. 2 (November 30, 2009): 2. http://dx.doi.org/10.14330/jeail.2009.2.2.02.

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Sudara, Suraphol. "Who and what is to be involved in successful coastal zone management: a Thailand example." Ocean & Coastal Management 42, no. 1 (January 1999): 39–47. http://dx.doi.org/10.1016/s0964-5691(98)00084-2.

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Meksumpun, Charumas, and Shettapong Meksumpun. "Integration of aquatic ecology and biological oceanographic knowledge for development of area-based eutrophication assessment criteria leading to water resource remediation and utilization management: a case study in Tha Chin, the most eutrophic river of Thailand." Water Science and Technology 58, no. 12 (December 1, 2008): 2303–11. http://dx.doi.org/10.2166/wst.2008.929.

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This research was carried out in Tha Chin Watershed in the central part of Thailand with attempts to apply multidisciplinary knowledge for understanding ecosystem structure and response to anthropogenic pollution and natural impacts leading to a proposal for an appropriate zonation management approach for sustainable utilization of the area. Water quality status of the Tha Chin River and Estuary had been determined by analyzing ecological, hydrological, and coastal oceanographic information from recent field surveys (during March 2006 to November 2007) together with secondary data on irrigation, land utilization, and socio-economic status.Results indicated that the Tha Chin River and Estuary was eutrophic all year round. Almost 100% of the brackish to marine areas reflected strongly hypertrophic water condition during both dry and high-loading periods. High NH4+ and PO43− loads from surrounding agricultural land use, agro-industry, and community continuously flew into the aquatic environment. Deteriorated ecosystem was clearly observed by dramatically low DO levels (ca 1 mg/l) in riverine to coastal areas and Noctiluca and Ceratium red tide outbreaks occurred around tidal front closed to the estuary. Accordingly, fishery resources were significantly decreased. Some riverine benthic habitats became dominated by deposit-feeding worms e.g. Lumbriculus, Branchiura, and Tubifex, while estuarine benthic habitats reflected succession of polychaetes and small bivalves. Results on analysis on integrated ecosystem responses indicated that changing functions were significantly influenced by particulates and nutrients dynamics in the system.Based on the overall results, the Tha Chin River and Estuary should be divided into 4 zones (I: Upper freshwater zone; II: Middle freshwater zone; III Lower freshwater zone; and IV: Lowest brackish to marine zone) for further management schemes on water remediation. In this study, the importance of habitat morphology and water flow regimes was recognized. Moreover, nearshore extensive shrimp culture ponds, irrigation canals, and surrounding mangrove habitats belonging to local households seemed to act as effective natural water treatment system that can yet provide food resources in turns. These remediation-production integrated functions should be deserved depth considerations for water quality development of the Tha Chin areas.
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Chaiwongsaen, Nikhom, Parisa Nimnate, and Montri Choowong. "Morphological Changes of the Lower Ping and Chao Phraya Rivers, North and Central Thailand: Flood and Coastal Equilibrium Analyses." Open Geosciences 11, no. 1 (April 9, 2019): 152–71. http://dx.doi.org/10.1515/geo-2019-0013.

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Abstract The Chao Phraya River flows in the largest river basin of Thailand and represents one of the important agricultural and industrial areas in Southeast Asia. The Ping River is one major upstream branch flowing down slope southwardly, joining the Chao Phraya River in the low-lying central plain and ending its course at the Gulf of Thailand. Surprisingly, the overflow occurs frequently and rapidly at the Lower Ping River where channel slope is high, and in particular area, sand-choked is extensively observed, even in normal rainfall condition. In contrary, at the downstream part, the erosion of river bank and shoreline around the mouth of Chao Phraya River has been spatially increasing in place where there should be a massive sediment supply to form a delta. Here we use Landsat imageries taken in 1987, 1997, 2007 and 2017 to analyze geomorphological changes of rivers. Results show that both rivers have undergone the rapid decreasing of water storage capacity and increasing of sand bar areas in river embayment. The total emerged sand bar area in the Lower Ping River increases from 1987 to 2017 up to 28.8 km2. The excessive trapped bed sediments deposition along the upper reaches is responsible for the shallower of river embankment leading to rapid overflow during flooding. At the Chao Phraya River mouth, a total of 18.8 km2 of the coastal area has been eroded from 1987 to 2017.This is caused by the reducing of sediment supply leading to non-equilibrium in the deltaic zone of the upper Gulf of Thailand. There are several possibility implications from this study involving construction of weir, in-channel sand mining, reservoir sedimentation and coastal erosion management.
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Saengsupavanich, Cherdvong. "The first message from the founding editor." Maritime Technology and Research 1, no. 1 (January 1, 2019): 1. http://dx.doi.org/10.33175/mtr.2019.189719.

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Maritime Technology and Research (MTR) (E-ISSN: 2651-205X) is launched to celebrate the 12th Anniversary of Faculty of International Maritime Studies, Kasetsart University, Thailand. MTR is a peer-reviewed journal covering all areas of Maritime Technology. It provides a forum for discussion of current issues, new idea and developments, as well as breakthroughs in coastal and oceanic arenas. The range of topics extends from coastal zone to deep ocean, including engineering, environment, logistics, as well as other management aspects. In addition to original, full-length contributions presenting new research and developments in the field, the journal also publishes review papers authored by leading authorities. The journal implements a double-blinded review system with at least 2 expert reviewers. Articles are freely available to all readers. MTR’s editorial committee members are academically well-known, ensuring high standard of the journal. I formally invite authors and readers to participate in MTR. Hopefully, MTR can be a venue for us to share our knowledge, advancing maritime technology. I welcome all submissions with great pleasure. Finally, with great pleasure, I would like to introduce our founding team members; Dr. Supawat Chaikasem (Journal Manager), Mr. Kosin Sirirak (Journal Manager) and Miss Risa Fongsaichol (Journal Assistant), who have worked hard for our success.
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PIEKKOONTOD, Tantus, Pumiphat K. PACHANA, Karnjana HRIMPENG, and Kitsanai CHAROENJIT. "Nipa Forest as the Ecological Services in Eastern Coast of Thailand." Journal of Environmental Management and Tourism 11, no. 7 (November 30, 2020): 1683. http://dx.doi.org/10.14505//jemt.v11.6(46).09.

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The objectives aimed to revision the current situation of the Nipa forest area according to land use as well as the direct and indirect value of use from Nipa palm in the Eastern-Coastal Watershed. From the study, the Nipa forest area in the East-Coast Gulf of Rayong, Chanthaburi, and Trat have a total area of 0.295 km2, which covers the basin of Chanthaburi, Prasae, Trat, and Welu Sub-watershed. Interview and group discussion have been collected from 398 households. The result confirms that 53% of total household income is generated from nipa forest productivity such as fishes, crabs and prawn, whereas aquacultural and non-farm incomes were originating to 28% and 19% of total income, respectively. The result succeeds that revenue from the Nipa forest as fish, crab, prawn and nipa product is 36%, 28%, 9% and 27%, respectively. Therefore, the results established that local source of revenue generally relies on the Nipa forest ecosystem. Nypa fruticans (Nipa palm) are significant sources of subsistence to people who living in riparian and coastal zone in the eastern coast basin of Thailand. Local peoples have traditionally managed the Nipa palm service for the sources of food and construction materials. The result show that Income from the gathering of nipa was the foremost income source (53.8 %) as the raw material to make the products. The most important of nipa utilization, 36 % were made of nipa roof, 28% were made of tobacco wrap, 22% of houses were made of dessert and wrapped it by nipa leaves. Only Nipa palm product was 2,425.72 U.S. dollar/year (equal to 75,786 bath/year) Fisheries value from the Nipa forest, fish were the main product (358.48 U.S. dollar/year) which followed by shrimp that the value was 336.08 U.S. dollar/year and the average income from fisheries was 1,009.2 U.S. dollar/year. Therefore, results approved that local source of revenue generally related on the Nipa forest ecosystem. Local people thought that, nipa area have been decreased. (88%) due to the disturbance of Nipa forest. the majority cause of degradation due to capitalist exploitation. Most of respondent (74%) were surveillance and notification to the local government to conservation Nipa forest and the management of Nipa forest resources could be take the awareness to their family (68%). Increased nipa area in the village or community forest (22%) and access to the schedule to collect the natural product from Nipa forest (7%), the respondents are willing to participate in determining the time to harvest Nipa product and require the government to support, promote, and provide training to produce products from Nipa Palm.
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Christensen, Steen, Raquibul Amin, and Ghulam Qadir Shah. "Regional Collaboration Among Countries in the Indian Ocean for Better Coastal and Ocean Governance." Polaris – Journal of Maritime Research 1, no. 1 (December 20, 2019): 1–15. http://dx.doi.org/10.53963/pjmr.2019.003.1.

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The Mangroves for the Future initiative (MFF) has operated since 2006 as a strategic regional and partnership-led programmeworking in response to the continued degradation of coastal ecosystems, which threatens the livelihoods and security of coastal communities and makes them more vulnerable to impacts from climate change. MFF follows the principle that healthy coastal ecosystems (principally mangroves, coral reefs and sea grass beds) can contribute significantly to human well-being and the resilience of man and nature to climate change. In its initial phase to 2010, MFF supported India, Indonesia, Maldives, Seychelles, Sri Lanka and Thailand to deliver a targeted response to the Indian Ocean tsunami in 2004. Since then, country membership has expanded to include Bangladesh, Cambodia, Myanmar, Pakistan and Viet Nam and the initiative has grown towards a wider response to the current and emerging challenges for coastal management in the Indian Ocean and South China Sea regions. MFF is also engaged with Malaysia on an outreach basis; and with the Philippines as a dialogue country. Co-chaired by International Union for Conservation of nature (IUCN) and United Nations Development Programme (UNDP) and with ASEAN Centre for Biodiversity (ACB), Food and Agricultural Organization of the United Nations (FAO), United Nations Environmental Programme (UNEP), and Wetland International (WI) as institutional partners, MFF provides a unique platform for representatives from governments, civil society and private sectors to meet, discuss and take actions together at both regional and national scales. At the regional level, MFF is governed by a Regional Steering Committee that provides strategic leadership for policy change and advocacy and also serves as a forum for country to country information exchange and discussions on emerging issues of regional importance. Within each MFF member country, a National Coordination body has oversight on the programme implementation as guided by its National Strategy and Action Plan and delivery of the small, medium and regional grant facilities1. Through its inclusive partnership approach, MFF has significantly strengthened the collaboration between the key stakeholders from governments, civil society, and private sectors addressing national and regional coastal zone management issues. In particular, the MFF initiative has supported national and local governments in developing and implementing participatory and sustainable resource management strategies, and, through awareness and capacity building activities, empowered coastal communities to participate in the decision making processes relating to the management of the natural resources on which they depend for their livelihoods. The present paper elaborates successful examples of regional collaboration initiated through MFF that have contributed to better coastal governance in India Ocean region. The examples include the transboundary cooperation between Pakistan and Iran in Gawatar Bay, between India and Sri Lanka for in the Gulf of Mannar, and between Guangxi and Quang Ninh Provinces in China and Viet Nam. The paper also highlights the importance of the Sustainable Development Goals, especially the Goal 14 and concepts like Blue Economy for sustainable ocean and coastal management in the light of the rapid development in maritime trade, race for exploration of the ocean bed for mineral resources, unsustainable exploitation of fish resources, and increasing pollution load to ocean waters from rapidly developing coastal urban growth in the Indian Ocean region.
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Kumgumpol, Hathaichanok, Yang Liu, Tanuspong Pokavanich, Irene D. Alabia, Zixu Yin, Sei-Ichi Saitoh, and Yongjun Tian. "Environmental Habitat Mapping of Green Mussel: A GIS-Based Approach for Sustainable Aquaculture in the Inner Gulf of Thailand." Sustainability 12, no. 24 (December 19, 2020): 10643. http://dx.doi.org/10.3390/su122410643.

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The green mussel (Perna viridis) is one of the most commercially-important cultured species along the coast of Thailand. In this study, a suitable aquaculture site-selection model (SASSM) was developed to identify the most suitable areas in the inner part of the Gulf of Thailand (InnerGoT) for green mussel culture. Satellite-derived chlorophyll-a (Chl-a) and hydrodynamic model outputs for sea surface temperature (SST), salinity, maximum water current (MWC), and bathymetry between 2018 and 2019 were used as input to the SASSM. The results show that suitability scores in mussel aquaculture areas were lowest (1–3) during the Southwest (SW) monsoon, rainy season (July–August), and highest (6–7) during the Northeast (NE) monsoon, cold season (November–December). Moderate suitability scores (4–5) were obtained during the monsoon transition from the NE monsoon to the SW monsoon, summer (April–May). The study area was further divided into three zones: the western, central, and eastern regions. The western and eastern parts showed high suitability scores (5–7) while the central zone exhibited low suitability scores (2–4). The model results show a similar pattern to the actual mussel production in the study area. Seasonal events (i.e., flood and dry seasons) were incorporated into the model to examine the seasonal effects on the suitable mussel aquaculture areas. The suitability scores during the SW monsoon in 2018 were more sensitive to changes in SST and salinity relative to 2019. The higher freshwater discharge and lower temperature in 2018 relative to 2019 resulted in the accrual of suitable aquaculture areas. This pattern is consistent with the productions of the green mussel, where higher production was recorded in 2018 (2002.5 t) than in 2019 (410.8 t). However, correlations among atmospheric (air temperature, rainfall, and wind) and oceanographic factors (SST and MWC) were significant in the western and central regions, suggesting that the suitability of green mussel aquaculture in these regions is vulnerable to environmental disturbances. Thus, the SASSM can be a powerful tool in providing useful information on spatial management for marine aquaculture in environmentally-dynamic coastal systems.
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Clark, John R. "Coastal zone management." Land Use Policy 8, no. 4 (October 1991): 324–30. http://dx.doi.org/10.1016/0264-8377(91)90022-b.

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Waldichuk, Michael. "Coastal zone management." Marine Pollution Bulletin 21, no. 3 (March 1990): 159–60. http://dx.doi.org/10.1016/0025-326x(90)90554-l.

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Dissertations / Theses on the topic "Coastal zone management Thailand"

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Wongbusarakum, Supin. "The Urak Lawoi and the complexity of sustainable resource use the political ecology of change in the Adang Archipelago, Andaman Sea, Thailand /." Thesis, University of Hawaii at Manoa, 2002. http://proquest.umi.com/pqdweb?index=0&did=765044611&SrchMode=1&sid=4&Fmt=2&VInst=PROD&VType=PQD&RQT=309&VName=PQD&TS=1208809355&clientId=23440.

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Intatha, Chatchai. "Factors influencing the capacity of communities to respond to coastal erosion in the upper Gulf of Thailand." Thesis, Edith Cowan University, Research Online, Perth, Western Australia, 2013. https://ro.ecu.edu.au/theses/683.

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Local communities must have a capacity to ameliorate coastal erosion impacts. Since coastal erosion operates over long time frames, understanding this capacity, or the abilities of communities to respond to the impacts and recover to maintain community functions, requires analysis of the past and the present. This study explores factors which influence the capacity of communities to respond to coastal erosion and conversely how exposure to coastal erosion itself affects community capacity. Mixed methods research was used to investigate the views of respondents in seven coastal villages in the upper Gulf of Thailand, three from an area that has experienced low erosion, and four from an area that has experienced high erosion. A questionnaire survey was administered 358 respondents to investigate socio-demographic characteristics, opinions about livelihoods in communities and experiences of losing and responding to coastal erosion. Thirty five key informants for semi-structured interviews were selected from villagers who responded to the questionnaire and volunteered as well as officials, scientists and NGOs. Descriptive analyses were applied to examine differences in socio-demography, opinion about livelihood and coastal erosion experience variables between the two areas, and factor analysis was used to investigate the importance of factors that affect and could build community capacity to respond to coastal erosion. The physical characteristics of the high erosion area were significantly different to those of the low erosion area. The former was closer to the Chao Praya Delta River, had many shrimp ponds across villages and residents applied materials which were too fragile to prevent coastal erosion. The low erosion area was far from delta rivers, was surrounded by shrimp ponds and hard structures were applied to protect the coastal area. For socio-demographic characteristics of villagers, residents in the high erosion area had less employment, lower education, lower income and lower levels of land ownership than residents in the low erosion area. Residents in the high erosion area reported more experiences of property loss from coastal erosion in the past 30 years than residents in the low erosion area as would be expected. Across the two erosion areas rock placements were applied as a common method to protect the coast in the past, while embedding thin bamboo stems offshore was also used in the high erosion area. The government and other networks had promoted a combination of methods to protect coastal areas by embedding thick bamboo stems offshore and planting mangrove trees in intertidal areas. This combination of methods was yielding positive results. Residents impacted by coastal erosion migrated landwards from eroded area and those residents lost connection with their neighbours, lacked opportunities for generating their own income or obtaining employment, and spent their savings in mobilising and rebuilding houses. Some residents who felt insecure from erosion sold their land to external landholders and then they moved to live in more secure areas away from their villages, taking their financial resources with them, thereby effectively removing their financial resources from the original communities. The external landholders held increasingly large areas in these villages. Local communities thereby suffered from a lack of finance and power and diminished rights to build infrastructure for coastal erosion prevention and improvement of their quality of life. Five main factors were found from multivariate factor analysis. Firstly, villagers having control over their own land (and therefore control over their destiny) provided more opportunities to build structures to prevent coastal erosion in their own communities. Secondly, higher levels of leadership were central to mobilising resources to address coastal erosion problems provided the leaders had the necessary attributes to deal with this challenge. Thirdly, coastal community resilience was necessary for communities to address existing changes, whereas communities needed to maintain their functions to be ready to respond to unpredictable impacts of coastal erosion and other events without diminishing their potential. Fourthly, enhanced levels of sense of community were important to gain collaboration from residents to cope with coastal erosion. Lastly, a positive household socioeconomic element was necessary for residents to have sufficient resources for building natural hazard protection appropriately. These five issues could be highlighted to coastal communities to improving capacities to respond to coastal erosion effectively, whereas local authorities and other organisations with high capability could facilitate and support the communities to build capacities through those issues.
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Guerinoni, Stephen C., and n/a. "An evaluation of coastal zone management." University of Canberra. Applied Science, 1989. http://erl.canberra.edu.au./public/adt-AUC20060713.130610.

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The coastal zone is a valuable resource which provides a diversity of benefits. The difficulties facing the coastal zone tend to fall into three categories: (1) Pressure and conflict on resources. The beach residence value, an indicator of land use pressure, implies that, of the Australian states, New South Wales' coastal zone is under the greatest pressure. Associated with population is development pressure. Many forms of development are not compatible, hence conflicts of interest can arise. (2) The dynamic nature of the coast. That is, the physical and biological aspects of the coastal zone are in a state of flux. The dynamics make predictions for management controversial. (3) Organisational problems. The lack of direction, lack of coordination and fragmentation of management leads to ad hoc management of this valuable resource. This evaluation identified and confirmed the relevance of coastal issues which led to the enactment of the Coastal Protection Act, 1979. The coastal issues investigated were: coastal erosion and development; coastal erosion and protection works; coastal land degradation; degradation of coastal habitats, fish and wildlife resources; recreation opportunities; pollution; and increasing population pressure and competition betweeen alternative uses. The administrative arrangements for management of the issues were investigated. A broad range of coastal issues were evaluated using a mix of indicators with standards of comparison to measure progress. Management tools, policies and strategies used to address the issues were investigated. Finally prescriptions to further address the issues were made as was how to implement the prescriptions. The evaluation noted: increasing coastal population and development pressure; numerous examples of conflicts of interest; complex and often bewildering administrative arrangements for coastal zone management; widely varying levels of performance by agencies; and a lack of direction and co-ordination from State authorities. The principal conclusion was that strategic planning needed to be undertaken through a lead coastal agency. The lead agency should clarify and improve direction, co-ordination and co-operation in coastal management. This should improve the effectiveness of management and reduce the incidence and duration of conflict among the different and competing coastal values. This evaluation of the effectiveness of coastal management, at a State level, should not only assist New South Wales but also other States in the management of this valuable resource.
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Abbott, Victor James. "A regional coastal zone management system." Thesis, University of Plymouth, 2000. http://hdl.handle.net/10026.1/665.

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Caton, Brian. "The conservation of scenic coasts : an examination of the English heritage system and its possible use in South Australia /." Title page, contents and abstract only, 1991. http://web4.library.adelaide.edu.au/theses/09ENV/09envc366.pdf.

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Gallagher, Anthony W. "Sustainabilty systems appraisal for integrated coastal zone management." Thesis, Southampton Solent University, 2006. http://ssudl.solent.ac.uk/581/.

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Integrated Coastal Zone Management (ICZM) is a process defined in terms of achieving sustainable development. Despite sustainability being accepted by the majority of organizations currently operating on the coast, the integrated approach is seen as the more constructive and benificial alternative to achieve this state. Id 'success' for ICZM means sustainable development, then the question is raised as to how it attempts to achieve this, and, more speficically, how effectively it does so? Put another way, how can the management process be evaluated in terms of achieving its aims? Despite sevaral attempts to produce sustainability indicator sets, there is currently no established or validated way of assessing the effectiveness of ICZM initiatives and consequently there is also no national overview with thish to judge the strategic performance of coastal partnerships (CPs). This study aims to address this failing by developing and critically evaluating a standardised operating mechanism for assessing the ability of ICZM initiatives to achieve sustainable development. In order to develop this 'Coastal Sustainability Standard', a review was made of the current role and treatment of sustainability in coastal planning and management in the UK. Using the electronic database of the company 'Coastal Management for Sustainability' (CMS), a survey of UK coastal practitioners was carried out as to the key theoretical constructs inherent in the concept of sustainability. Textual analysis of the results, using the qualitative software package, Nud*ist 6, revealed six dominant constructs which would form the basis for the development of the standard. These six - planning; participation; communication; integration; responsibility and balance were defined as principles, and a set of criteria developed for each, with which to enable assessment. A scoring system and a set of guidelines were then designed to maximise the level of objectivity in carrying out the assessment, with the scoring system also reflecting the systems thinking inherent in the design. In order to validate the mechanism, three case study CPs were selected against which to carry out a detailed application of the Standard. These were the Exe Estuary Management Partnership (EEMP); Tamar Estuaries Consultative Forum (TECF) and Pembrokeshire Coastal Forum (PCF), all of which scored relatively poorly. That none of the three CPs achieved the pre-requisite standard raised a number of considerations relating to the efficacy of the Standard and its operation, as well as to the nature of ICZM in the UK and its aim of achieving sustainable development. Conclusions drawn from this evaluation identified that the current operation of ICZM in the UK exhibits a disjointed approach to achieving its long-term goals, as a result of its voluntary nature. The voluntary approach employed in the UK can be seen to be at the root of a number of problems facing the successful development of ICZM. In terms of resources, it has implications for the skills, knowledge and training of coastal managers, as well as the funding available to develop and implement effective plans. The voluntary approach also does not necessarily 'encourage' appropriate cultural changes within or between stakeholder organizations, and does not impart joint responsibility or collective liability upon stakeholders to achieve sustainable development.
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Al-Sariri, Thuraiya. "Coastal zone and climate change management in Oman." Thesis, University of Surrey, 2014. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.665466.

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Based on an overwhelming body of evidence, there is scientific consensus that global climate is changing and warming of the climate change is unequivocal. Since the 1950's many of the observed changes are unprecedented over decades to millennia (JPCC, 2013). The concentrations of greenhouse gases have increased, the amounts of snow and ice have diminished, sea level has risen and the climate atmosphere and ocean have warmed (IPCC, 2013). However, climate variability and change are considered as important factors for societal developments where they are affecting societies in many ways. In this trend, today, there is new and robust evidence that increased storminess, accelerated sea level rise and coastal erosion as a consequence of global warming are highly likely to have profound impacts on coastal ecosystems and communities worldwide. The occurrences of such consequences are expected to increase in frequency due to the effects of climate change. Globally, different set of scenarios predicted that sea-level would continue to rise between 0.18 to 0;80 cm by 2100. Consistent with global trends, Oman has warmed by ~ 1.03 °C over the last century. There has also been significant inter -annual variability in tropical cyclone frequency and a decrease in precipitation. Additionally, flooding due to storms and tropical cyclones is one of the most devastating naturally hazards in Oman. During the past seven years, Oman experienced two very severe tropical cyclones (Gonu 2007 and Phet 2010), which have affected local economies and communities along the coastal areas. As a result of these changes, attention and awareness has been raised nationally to climate variability and climate change. The main objective of this research is to identify and assess some of the main vulnerable areas of coastal zone of Oman to the climate change implications with particular emphasis on sea level rise. The aims of the study are to: 1) investigate climate and geophysical trends in Oman over the last few decades; 2) assess vulnerable areas of coastal zones of Oman to sea level rise; and 3) assess the current adaptation measures and point out the urgent need to build up institutional and human capacities to approach problems and to indentify gaps, points of strength and points of weakness, options of adaptation and needs for sustainable coastal management plans. This is important for the creation of an effective coastal zone management development strategy that can respond to Climate Change impacts. Thus there is a need to know what is potentially at risks, which lead to the development of a coastal vulnerability index (CVI). The CVI assesses the relatively physical vulnerability to the coast. The study outlines the broad techniques used to determine the CVI for Oman coastlines, which identified zones at risk to sea level rise and assesses its implications for coastal management in Oman. The study shows that AL Batinah and Muscat Governorates are classified as the most highly vulnerable to the impacts of sea level rise because they are most populated and with higher socio-economic activities along their coastlines. However, the findings of this research will be used to define national strategies and policies for climate change adaptation and mitigation for coastal areas.
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Kun, Ka-yin April. "Coastal management in Hong Kong : individual workshop report /." Hong Kong : University of Hong Kong, 1994. http://sunzi.lib.hku.hk/hkuto/record.jsp?B14014609.

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Clouston, Beth. "Review of coastal vulnerability assessment for coastal zone management in metropolitan Adelaide /." Title page, contents and abstract only, 1995. http://web4.library.adelaide.edu.au/theses/09ENV/09envc647.pdf.

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Wright, Tarah Sharon Alexandra. "Investigating community-based coastal zone management in Queensland, Australia." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1998. http://www.collectionscanada.ca/obj/s4/f2/dsk2/tape17/PQDD_0014/MQ36542.pdf.

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Books on the topic "Coastal zone management Thailand"

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Ludwig, H. F. Environmental guidelines for coastal zone management in Thailand, inner gulf zone. Bangkok, Thailand: The Division, 1988.

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COASTPLAN Workshop (4th? 1997 Hat Yai, Thailand). Integrated coastal zone management for decision makers: COASTPLAN Workshop, Hay[i.e. Hat] Yai, Thailand, 25-26 March, 1997. Bangkok: Coordinating Committee for Coastal and Offshore Geoscience Programmes in East and Southeast Asia, 1998.

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Coastal zone management handbook. Boca Raton, FL: Lewis Publishers, 1996.

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Dept, Sri Lanka Coast Conservation. Coastal zone management plan. Colombo, Sri Lanka: The Dept., 1990.

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Office, Massachusetts Coastal Zone Management. Massachusetts coastal zone management. Boston: Commonwealth of Massachusetts, Executive Office of Environmental Affairs, Massachusetts Coastal Zone Management, 1996.

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Vance, Mary A. Coastal zone management: Monographs. Monticello, Ill: Vance Bibliographies, 1985.

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Moksness, Erlend, Einar Dahl, and Josianne Stttrup, eds. Integrated Coastal Zone Management. Oxford, UK: Wiley-Blackwell, 2009. http://dx.doi.org/10.1002/9781444316285.

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Ahlhorn, Frank. Integrated Coastal Zone Management. Wiesbaden: Springer Fachmedien Wiesbaden, 2018. http://dx.doi.org/10.1007/978-3-658-17052-3.

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Einar, Dahl, Moksness Erlend, and Støttrup Josianne, eds. Integrated coastal zone management. Oxford: Wiley, 2009.

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A, Hughes Steven, American Society of Civil Engineers., and Symposium on Coastal and Ocean Management (8th : 1993 : New Orleans, La.), eds. Coastal engineering considerations in coastal zone management. New York, N.Y: American Society of Civil Engineers, 1993.

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Book chapters on the topic "Coastal zone management Thailand"

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Bauer, Naomi R., Isabell J. Kittel, Eike Schoenig, Sebastian C. A. Ferse, and Christian Wild. "Thailand Case Study." In Challenges in Tropical Coastal Zone Management, 277–302. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-17879-5_16.

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Mohan, Ram K., Andrew D. Short, Gillian Cambers, M. MacLeod, J. A. G. Cooper, David Hopley, Vincent May, et al. "Coastal Zone Management." In Encyclopedia of Coastal Science, 313–19. Dordrecht: Springer Netherlands, 2005. http://dx.doi.org/10.1007/1-4020-3880-1_92.

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Das, Gautam Kumar. "Coastal Zone Management." In Coastal Environments of India, 199–211. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-18846-6_10.

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Dawson, Alastair G. "1 Understanding changes in relative sea level and storminess: views from Earth and space." In Coastal zone management, 1–12. London: Thomas Telford Ltd, 2010. http://dx.doi.org/10.1680/czm.35164.0001.

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Douvere, Fanny, and Frank Maes. "2 The contribution of marine spatial planning to implementing integrated coastal zone management." In Coastal zone management, 13–30. London: Thomas Telford Ltd, 2010. http://dx.doi.org/10.1680/czm.35164.0002.

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Whelan, Mick J., Sue M. White, and Nicholas J. K. Howden. "3 River catchment contributions to the coastal zone." In Coastal zone management, 31–58. London: Thomas Telford Ltd, 2010. http://dx.doi.org/10.1680/czm.35164.0003.

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Collier, Philip A., and Roger W. Fraser. "4 Defining coastal and marine boundaries." In Coastal zone management, 59–91. London: Thomas Telford Ltd, 2010. http://dx.doi.org/10.1680/czm.35164.0004.

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Hicks, Christina C., Jeremy M. Hills, and Martin D. A. LeTissier. "5 Natural capital – valuing the coast." In Coastal zone management, 92–122. London: Thomas Telford Ltd, 2010. http://dx.doi.org/10.1680/czm.35164.0005.

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Bleichner, Barry J. "6 Marine protected areas legislation in the Caribbean Lesser Antilles." In Coastal zone management, 123–56. London: Thomas Telford Ltd, 2010. http://dx.doi.org/10.1680/czm.35164.0006.

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Dickson, Mark E., Peter J. Cowell, and Colin D. Woodroffe. "7 Geomorphological models and their role in coastal management." In Coastal zone management, 157–84. London: Thomas Telford Ltd, 2010. http://dx.doi.org/10.1680/czm.35164.0007.

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Conference papers on the topic "Coastal zone management Thailand"

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Thom, Bruce G. "Coastal Zone Management—A Conundrum." In 27th International Conference on Coastal Engineering (ICCE). Reston, VA: American Society of Civil Engineers, 2001. http://dx.doi.org/10.1061/40549(276)3.

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PAPATHEOCHARI, Dora. "Integrated Coastal Zone Management in Mediterranean Coastal Areas." In Conférence Méditerranéenne Côtière et Maritime - Coastal and Maritime Mediterranean Conference. Editions Paralia, 2009. http://dx.doi.org/10.5150/cmcm.2009.080-1.

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Kovačić, Mirjana, Astrid Zekić, and Srećko Favro. "Holistic Approach in Coastal Zone Management." In 36. mednarodna konferenca o razvoju organizacijskih znanosti, Portorož, Slovenija / 36th International Conference on Organizational Science Development, Portorož, Slovenia. Univerzitetna založba Univerze v Mariboru / University of Maribor Press, 2017. http://dx.doi.org/10.18690/978-961-286-020-2.31.

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Stanley, E. "Coastal Zone Management and Development of the Exclusive Economic Zone." In OCEANS '86. IEEE, 1986. http://dx.doi.org/10.1109/oceans.1986.1160437.

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Mileriene, Rosita, Saulius Gulbinskas, Nerijus Blazauskas, and Inga Dailidiene. "Geological indicators for Integrated Coastal Zone Management." In 2008 IEEE/OES US/EU-Baltic International Symposium (BALTIC). IEEE, 2008. http://dx.doi.org/10.1109/baltic.2008.4625544.

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Carpenter, N., T. Strudwick, and V. Clipsham. "Facilitating Integrated Coastal Zone Management in Trinidad." In Littoral 2010 – Adapting to Global Change at the Coast: Leadership, Innovation, and Investment. Les Ulis, France: EDP Sciences, 2011. http://dx.doi.org/10.1051/litt/201105010.

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Boxall, S. R. "Coastal zone management - technologies, methodologies and solutions." In IEE Colloquium on `Pollution of Land, Sea and Air: An Overview for Engineers'. IEE, 1995. http://dx.doi.org/10.1049/ic:19951014.

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Deronde, B., S. Sterckx, L. Bertels, E. Knaeps, and P. Kempeneers. "Imaging spectroscopy and integrated coastal zone management: a promising marriage." In COASTAL ENVIRONMENT 2006. Southampton, UK: WIT Press, 2006. http://dx.doi.org/10.2495/cenv060311.

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Abou-Ibrahim, A. R., and M. El-Fadel. "Coastal Zone in Lebanon: Characterization, Modeling and Management." In World Water and Environmental Resources Congress 2001. Reston, VA: American Society of Civil Engineers, 2001. http://dx.doi.org/10.1061/40569(2001)51.

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DE ANDRES, MARIA, and JUAN M. BARRAGAN. "URBAN DEVELOPMENT AND INTEGRATED COASTAL ZONE MANAGEMENT IN THE BAY OF CADIZ." In COASTAL CITIES 2017. Southampton UK: WIT Press, 2017. http://dx.doi.org/10.2495/cc170121.

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Reports on the topic "Coastal zone management Thailand"

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Bood, Nadia, Lauretta Burke, Winnie Lau, Gaia Larsen, and Hori Tsuneki. Climate-Resilient Integrated Coastal Zone Management Performance Indicators: Application in Belize. Inter-American Development Bank, March 2021. http://dx.doi.org/10.18235/0003033.

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Coble, Paula, Chuanmin Hu, Richard W. Gould, Chang Jr., Wood Grace, and A. M. Colored Dissolved Organic Matter in the Coastal Ocean: An Optical Tool for Coastal Zone Environmental Assessment & Management. Fort Belvoir, VA: Defense Technical Information Center, June 2004. http://dx.doi.org/10.21236/ada428810.

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Climate-Resilient Integrated Coastal Zone Management Performance Indicators. Inter-American Development Bank, January 2020. http://dx.doi.org/10.18235/0002164.

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Coastal Zone Management Act and related legislation: Revision 3. Environmental Guidance Program Reference Book. Office of Scientific and Technical Information (OSTI), October 1993. http://dx.doi.org/10.2172/10107843.

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