Thông tin siêu dữ liệu biểu ghi
Trường DC Giá trịNgôn ngữ
dc.contributor.authorDang, Duc Huy
dc.date.accessioned2023-11-01T10:24:06Z-
dc.date.available2023-11-01T10:24:06Z-
dc.date.issued2019
dc.identifier.isbn1959-0020
dc.identifier.urihttps://dlib.neu.edu.vn/handle/NEU/58677-
dc.descriptionagricultural economy
dc.description.abstractPurpose – Agricultural systems in Mekong Delta have transformed to cope with climate change. Various researches pointed out that integrated agriculture-aquaculture (IAA) farming systems (i.e., rice-shrimp, ricefish. . .) emerged as potential climate adaptive practices. However, limited studies are attempting to assess the sustainability of these agricultural practices. Therefore, it is essential to assess whether or not these systems will be sustainable in the context of climate change and what can be done to make it sustainable. The present study conducted the sustainability assessment of the rice-shrimp system to identify potential areas for improvement as well as policy implication to increase resilience and adaptation of coastal IAA system which could contribute to the understanding of other coastal agricultural deltas around the globe. Design/methodology/approach – This study used a quantitative approach including the assessment protocol of van Asselt et al. (2014), the assessment framework of Vanloon et al. (2005), and the MCA methodology to flexibly and holistically assess the sustainability level of agricultural systems. Findings – Results concluded that rice-shrimp systems have the potential to improve livelihood, food security, and adaptation of coastal farmers. Major improvements should be considered for productivity, efficiency, and equity themes, while minor improvements can be made for stability, durability, and compatibility themes. Originality/value – This research could be used as a guideline for sustainability assessment in a contextspecific case study of IAA, which showed a potential for the application of other climate-smart IAAs in similar contexts around the globe.
dc.description.tableofcontents1. Introduction; 2. Data and methodology; 3. Results and discussion; 4. Conclusion; 5. Policy implications
dc.format.extentKhổ 21 x 29.7
dc.language.isoen
dc.publisherKinh Tế Quốc Dân
dc.subjectSustainability assessment
dc.subjectMultiple criteria analysis
dc.subjectClimate change
dc.subjectIntegrated farming system
dc.titleSustainability of the rice-shrimp farming system in Mekong Delta, Vietnam: a climate adaptive model
dc.typeJournal of Economics and Development
dc.identifier.barcode10-1108_JED-08-2019-0027
dc.relation.referenceAli, A.M.S. (2006), “Rice to shrimp: and use/land cover changes and soil degradation in Southwestern Bangladesh”, Land Use Policy, Vol. 23 No. 4, pp. 421-435, doi: 10.1016/j.landusepol.2005.02.001. Allan, G.L. and Maguire, G.B. (1992), “Effects of pH and salinity on survival, growth and osmoregulation in penaeus monodon fabricius”, Aquaculture, Vol. 107 No. 1, pp. 33-47, doi: 10. 1016/0044-8486(92)90048-P. Binder, C.R., Feola, G. and Steinberger, J.K. (2010), “Considering the normative, systemic and procedural dimensions in indicator-based sustainability assessments in agriculture”, Environmental Impact Assessment Review, Vol. 30 No. 2, pp. 71-81, doi: 10.1016/j.eiar.2009.06.002. Can, N. (2015), “Adaptation to salinity intrusion: an aconomic assessment of diversified farming systems in saline affected area of coastal ben tre province of the Mekong Delta, Vietnam1”, Paper presented at the International Symposium on Current Agricultural Environmental Issues in Pacific Rim Nations and their Countermeasures - II, Saga University, Saga, Japan, https:// www.researchgate.net/publication/275152179_Adaptation_to_Salinity_Intrusion_An_Economic_ Assessment_of_Diversified_Farming_Systems_in_Saline_Affected_Area_of_Coastal_Ben_Tre_ Province_of_the_Mekong_Delta_Vietnam1. CCAFS. (2016), Assessment Report: The Drought and Salinity Intrusion in the Mekong River Delta of Vietnam, CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS), Hanoi, Vietnam, Retrieved from: https://hdl.handle.net/10568/75633. Chen, S.M. and Chen, J.C. (2003), “Effects of pH on survival, growth, molting and feeding of giant freshwater prawn Macrobrachium rosenbergii”, Aquaculture, Vol. 218 No. 1, pp. 613-623. doi: 10.1016/S0044-8486(02)00265-X. De Mey, K., D’Haene, K., Marchand, F., Meul, M. and Lauwers, L. (2011), “Learning through stakeholder involvement in the implementation of MOTIFS: an integrated assessment model for sustainable farming in Flanders”, International Journal of Agricultural Sustainability, Vol. 9 No. 2, pp. 350-363, doi: 10.1080/14735903.2011.582355. Dobermann, A. and Fairhurst, T. (2000), Rice: Nutrient Disorders and Nutrient Management, PPI/PPIC, Singapore and IRRI, Philippines, Retrieved from: http://books.irri.org/9810427425_content.pdf. DWRM. (2016), Khảo s at t ınh h ınh sử dụng n ước của b a con tại vung d ang bị mặn tại hai huyện Thạnh Phu v a Ba Tri tỉnh Bến Tre. Retrieved from: http://dwrm.gov.vn/index.php? language5vi&nv5news&op5Hoat-dong-cua-Cuc-Tin-lien-quan/Nuoc-tu-thuy-dien-Canh-Hongchua-ve-toi-Campuchia-490010/10/2019. FAO. (2014), Sustainability Assessment of Food and Agriculture Systems (SAFA): Guidelines, Version 3.0, Food and Agricultural Organization of the United Nations, Rome. Gasso, V., Oudshoorn, F.W., de Olde, E. and Sørensen, C.A.G. (2015), “Generic sustainability assessment themes and the role of context: the case of Danish maize for German biogas”, Ecological Indicators, Vol. 49, pp. 143-153, doi: 10.1016/j.ecolind.2014.10.008. Grassi, F., Paris, T.R. and Truong, T.N.C. (2017), Rice-rice and Rice-Shrimp Production. A Gender Perspective on Labour, Time Use and Access to Technologies and Services in Southern Viet Nam, FAO, Rome, Retrieved from: http://www.fao.org/3/a-i7277e.pdf. GSO. (2016). Statistical Year Book, Ha Noi, Retrieved from: https://www.gso.gov.vn/default.aspx? tabid5512&idmid55&ItemID518531. GSO. (2017). Statistical Yearbook, Hanoi, Retrieved from: https://www.gso.gov.vn/default.aspx? tabid5512&idmid55&ItemID518940. Hoa, N.M., Guong, V.T., Tung, T.S. and Giang, N.H. (2016), “Salinisation of soil and water on agricultural and aquacultural systems in Binh Dai district, Ben Tre province”, Can Tho University Journal, Vol. 42, pp. 40-49, doi: 10.22144/ctu.jvn.2016.019. JED 22,1 36 IMHEN. (2010), Climate Change and Impact in Vietnam, Science and technology publisher, Hanoi, Retrieved from: http://dcc.gov.vn/kien-thuc/998/Sach:-Bien-doi-khi-hau-va-tac-dong-o-VietNam.html. IRRI. (2015), Steps to Successful Rice Production, IRRI, Philippines, Retrieved from: http:// knowledgebank.irri.org/images/docs/12-Steps-Required-for-Successful-Rice-Production.pdf. Jan, G., Raphael, M., Michael, S., Firesenai, S., Susanne, S., Christian, T. and Rebekka, W. (2016), Rise 3.0 - Manual Sustainability Themes and Indicators, Bern University of Applied Sciences, Zollikofen, Switzerland, Retrieved from: www.rise.hafl.bfh.ch. Kihoro, J., Bosco, N.J. and Murage, H. (2013), “Suitability analysis for rice growing sites using a multicriteria evaluation and GIS approach in great Mwea region, Kenya”, SpringerPlus, Vol. 2 No. 1, pp. 265, doi: 10.1186/2193-1801-2-265. Lan, L.M., Micha, J.C., Long, D.N. and Yen, P.T. (2006), “Effect of densities and culture systems on growth, survival, yield, and economic return of freshwater prawn, Macrobrachium rosenbergii farming in the rice field in the Mekong Delta, Vietnam”, Journal of Applied Aquaculture, Vol. 18 No. 1, pp. 43-62, doi: 10.1300/J028v18n01_03. Leigh, C., Hiep, L.H., Stewart-Koster, B., Vien, D.M., Condon, J., Sang, N.V., Sammut, J. and Burford, M.A. (2017), “Concurrent rice-shrimp-crab farming systems in the Mekong Delta: are conditions (sub) optimal for crop production and survival?”, Aquaculture Research, Vol. 48 No. 10, pp. 5251-5262. Loc, H.H., Diep, N.T.H., Can, N.T., Irvine, K.N. and Shimizu, Y. (2017), “Integrated evaluation of ecosystem services in prawn-rice rotational crops, Vietnam” Ecosystem services, Vol. 26, pp. 377-387, doi: 10.1016/j.ecoser.2016.04.007. Luu, L.T. (2002), Sustainable Aquaculture for Poverty Alleviation (SAPA): A New Rural Development Strategy for Viet Nam. Part II, FAO Aquaculture Newsletter (FAO), Rome, Italy. Marchand, F., Debruyne, L., Triste, L., Gerrard, C., Padel, S. and Lauwers, L. (2014), “Key characteristics for tool choice in indicator-based sustainability assessment at farm level”, Ecology and Society, Vol. 19 No. 3. MARD. (2016), T om Tắt Ð anh Gi a Ðiều Kiện X~a Hội Khu Vực (RSA), The ministry of agriculture and rural development, Ha Noi, Retrieved from: www.bentre.gov.vn. Motoh, H. (1981), Studies on the Fisheries Biology of the Giant Tiger Prawn, Penaeus monodon in the Philippines (0115-4710), Aquaculture Department, Southeast Asian Fisheries Development Center, Philippines, Retrieved from: https://repository.seafdec.org.ph/handle/10862/860. Ness, B., Urbel_Piirsalu, E., Anderberg, S. and Olsson, L. (2007). “Categorising tools for sustainability assessment”, Ecological Economics, 60, 498-508, doi: 10.1016/j.ecolecon.2006.07.023. Nguyen, K.A.T., Jolly, C.M., Bui, C.N.P.T. and Le, T.T.H. (2016), “Aquaculture and poverty alleviation in ben Tre province, Vietnam”, Aquaculture Economics and Management, Vol. 20 No. 1, pp. 82-108, doi: 10.1080/13657305.2016.1124938. Nhan, D.K., Phong, L.T., Verdegem, M.J.C., Duong, L.T., Bosma, R.H. and Little, D.C. (2007), “Integrated freshwater aquaculture, crop and livestock production in the Mekong Delta, Vietnam: determinants and the role of the pond”, Agricultural Systems, Vol. 94 No. 2, pp. 445-458, doi: 10.1016/j.agsy.2006.11.017. Nho, N.T., Khắc Th ường, T. and Diệp, L.M. (2006), Kỹ Thuật Nu^oi Gi ap X ac, NXB N^ong Nghiệp (or Agriculture), Ho Chi Minh. Norman, D., Janke, R., Freyenberger, S., Schurle, B. and Kok, H. (1998), Defining and Implementing Sustainable Agriculture. Kansas Sustainable Agriculture Series, Paper, 1, available at: http:// www.soc.iastate.edu/Sapp/soc235susag.pdf. OECD. (2001), Environmental Indicators for Agriculture – Vol. 3: Methods and Results, OECD, Paris, Retrieved from: https://www.oecd.org/tad/sustainable-agriculture/40680869.pdf. People Committee of Thanh Phu District. (2018), Report on the Integration of Land Use Plan for 2018, Thanh Phu District - Ben Tre Province, People’s Comittee, Ben Tre. Phuong, N.T., Hai, T.N., Hien, T.T.T., Van Bui, T., Son, V.N., Morooka, Y., Fukuda, Y. and Wilder, M.N. (2006), “ Current status of freshwater prawn culture in Vietnam and the development and transfer of seed production technology” , Fisheries Science, Vol. 72 No. 1, pp. 1-12. doi: 10. 1111/j.1444-2906.2006.01109.x. Poelma, T.F. (2018), Transitioning to Rice-Shrimp Farming in Kien Giang, Vietnam Determining Rural Household Resilience to Changing Climatic Conditions. (Master), Utretcht University, Utrecht, Retrieved from https://dspace.library.uu.nl/handle/1874/368049. Quach, A.V., Murray, F. and Morrison-Saunders, A. (2017), “The vulnerability of shrimp farming income to climate change events: a case study in Ca Mau, Vietnam”, International Journal of Climate Change Strategies and Management, Vol. 9 No. 2, pp. 261-280. Renaud, F.G., Le, T.T.H., Lindener, C., Guong, V.T. and Sebesvari, Z. (2015), “Resilience and shifts in agro-ecosystems facing increasing sea-level rise and salinity intrusion in Ben Tre Province, Mekong Delta”, Climatic Change, Vol. 133 No. 1, pp. 69-84, doi: 10.1007/s10584-014-1113-4. Talukder, B., Saifuzzaman, M. and vanLoon, G.W. (2016), “Sustainability of agricultural systems in the coastal zone of Bangladesh”, Renewable Agriculture and Food Systems, Vol. 31 No. 2, pp. 148-165, doi: 10.1017/S1742170515000095. Truong, H.M. (2017), “Evaluating technical and financial aspects of shrimp production in rotation shrimp (Penaeus monodon) farm system in Ca Mau province”, Can Tho University Journal of Science, Vol. 50, pp. 133-139. Van Asselt, E.D., Van Bussel, L.G.J., Van der Voet, H., Van der Heijden, G.W.A.M., Tromp, S.O., Rijgersberg, H., Van Evert, F., Van Wagenberg, C.P.A. and Van der Fels-Klerx, H.J. (2014), “A protocol for evaluating the sustainability of agri-food production systems—a case study on potato production in peri-urban agriculture in the Netherlands”, Ecological Indicators, Vol. 43, pp. 315-321, doi: 10.1016/j.ecolind.2014.02.027. Vanloon, G.W., Patil, S.G. and Hugar, L.B. (2005), Agricultural Sustainability: Strategies for Assessment, Sage Publications, New Delhi. WCED. (1987), Our Common Future. Report of the World Commission on Environment and Development, The United Nations, Oslo, Retrieved from: www.un-documents.net/our-commonfuture.pdf. World Bank. (2010), The Social Dimensions of Adaptation to Climate Change in Vietnam. World Bank, Washington, DC, USA, Retrieved from: http://documents.worldbank.org/curated/en/ 955101468326176513/pdf/589030NWP0EACC10Box353823B01public1.pdf. Zahm, F., Viaux, P., Vilain, L., Girardin, P. and Mouchet, C. (2008), “Assessing farm sustainability with the IDEA method – from the concept of agriculture sustainability to case studies on farms”, Sustainable Development, Vol. 16, pp. 271-281.
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    Thông tin siêu dữ liệu biểu ghi
    Trường DC Giá trịNgôn ngữ
    dc.contributor.authorDang, Duc Huy
    dc.date.accessioned2023-11-01T10:24:06Z-
    dc.date.available2023-11-01T10:24:06Z-
    dc.date.issued2019
    dc.identifier.isbn1959-0020
    dc.identifier.urihttps://dlib.neu.edu.vn/handle/NEU/58677-
    dc.descriptionagricultural economy
    dc.description.abstractPurpose – Agricultural systems in Mekong Delta have transformed to cope with climate change. Various researches pointed out that integrated agriculture-aquaculture (IAA) farming systems (i.e., rice-shrimp, ricefish. . .) emerged as potential climate adaptive practices. However, limited studies are attempting to assess the sustainability of these agricultural practices. Therefore, it is essential to assess whether or not these systems will be sustainable in the context of climate change and what can be done to make it sustainable. The present study conducted the sustainability assessment of the rice-shrimp system to identify potential areas for improvement as well as policy implication to increase resilience and adaptation of coastal IAA system which could contribute to the understanding of other coastal agricultural deltas around the globe. Design/methodology/approach – This study used a quantitative approach including the assessment protocol of van Asselt et al. (2014), the assessment framework of Vanloon et al. (2005), and the MCA methodology to flexibly and holistically assess the sustainability level of agricultural systems. Findings – Results concluded that rice-shrimp systems have the potential to improve livelihood, food security, and adaptation of coastal farmers. Major improvements should be considered for productivity, efficiency, and equity themes, while minor improvements can be made for stability, durability, and compatibility themes. Originality/value – This research could be used as a guideline for sustainability assessment in a contextspecific case study of IAA, which showed a potential for the application of other climate-smart IAAs in similar contexts around the globe.
    dc.description.tableofcontents1. Introduction; 2. Data and methodology; 3. Results and discussion; 4. Conclusion; 5. Policy implications
    dc.format.extentKhổ 21 x 29.7
    dc.language.isoen
    dc.publisherKinh Tế Quốc Dân
    dc.subjectSustainability assessment
    dc.subjectMultiple criteria analysis
    dc.subjectClimate change
    dc.subjectIntegrated farming system
    dc.titleSustainability of the rice-shrimp farming system in Mekong Delta, Vietnam: a climate adaptive model
    dc.typeJournal of Economics and Development
    dc.identifier.barcode10-1108_JED-08-2019-0027
    dc.relation.referenceAli, A.M.S. (2006), “Rice to shrimp: and use/land cover changes and soil degradation in Southwestern Bangladesh”, Land Use Policy, Vol. 23 No. 4, pp. 421-435, doi: 10.1016/j.landusepol.2005.02.001. Allan, G.L. and Maguire, G.B. (1992), “Effects of pH and salinity on survival, growth and osmoregulation in penaeus monodon fabricius”, Aquaculture, Vol. 107 No. 1, pp. 33-47, doi: 10. 1016/0044-8486(92)90048-P. Binder, C.R., Feola, G. and Steinberger, J.K. (2010), “Considering the normative, systemic and procedural dimensions in indicator-based sustainability assessments in agriculture”, Environmental Impact Assessment Review, Vol. 30 No. 2, pp. 71-81, doi: 10.1016/j.eiar.2009.06.002. Can, N. (2015), “Adaptation to salinity intrusion: an aconomic assessment of diversified farming systems in saline affected area of coastal ben tre province of the Mekong Delta, Vietnam1”, Paper presented at the International Symposium on Current Agricultural Environmental Issues in Pacific Rim Nations and their Countermeasures - II, Saga University, Saga, Japan, https:// www.researchgate.net/publication/275152179_Adaptation_to_Salinity_Intrusion_An_Economic_ Assessment_of_Diversified_Farming_Systems_in_Saline_Affected_Area_of_Coastal_Ben_Tre_ Province_of_the_Mekong_Delta_Vietnam1. CCAFS. (2016), Assessment Report: The Drought and Salinity Intrusion in the Mekong River Delta of Vietnam, CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS), Hanoi, Vietnam, Retrieved from: https://hdl.handle.net/10568/75633. Chen, S.M. and Chen, J.C. (2003), “Effects of pH on survival, growth, molting and feeding of giant freshwater prawn Macrobrachium rosenbergii”, Aquaculture, Vol. 218 No. 1, pp. 613-623. doi: 10.1016/S0044-8486(02)00265-X. De Mey, K., D’Haene, K., Marchand, F., Meul, M. and Lauwers, L. (2011), “Learning through stakeholder involvement in the implementation of MOTIFS: an integrated assessment model for sustainable farming in Flanders”, International Journal of Agricultural Sustainability, Vol. 9 No. 2, pp. 350-363, doi: 10.1080/14735903.2011.582355. Dobermann, A. and Fairhurst, T. (2000), Rice: Nutrient Disorders and Nutrient Management, PPI/PPIC, Singapore and IRRI, Philippines, Retrieved from: http://books.irri.org/9810427425_content.pdf. DWRM. (2016), Khảo s at t ınh h ınh sử dụng n ước của b a con tại vung d ang bị mặn tại hai huyện Thạnh Phu v a Ba Tri tỉnh Bến Tre. Retrieved from: http://dwrm.gov.vn/index.php? language5vi&nv5news&op5Hoat-dong-cua-Cuc-Tin-lien-quan/Nuoc-tu-thuy-dien-Canh-Hongchua-ve-toi-Campuchia-490010/10/2019. FAO. (2014), Sustainability Assessment of Food and Agriculture Systems (SAFA): Guidelines, Version 3.0, Food and Agricultural Organization of the United Nations, Rome. Gasso, V., Oudshoorn, F.W., de Olde, E. and Sørensen, C.A.G. (2015), “Generic sustainability assessment themes and the role of context: the case of Danish maize for German biogas”, Ecological Indicators, Vol. 49, pp. 143-153, doi: 10.1016/j.ecolind.2014.10.008. Grassi, F., Paris, T.R. and Truong, T.N.C. (2017), Rice-rice and Rice-Shrimp Production. A Gender Perspective on Labour, Time Use and Access to Technologies and Services in Southern Viet Nam, FAO, Rome, Retrieved from: http://www.fao.org/3/a-i7277e.pdf. GSO. (2016). Statistical Year Book, Ha Noi, Retrieved from: https://www.gso.gov.vn/default.aspx? tabid5512&idmid55&ItemID518531. GSO. (2017). Statistical Yearbook, Hanoi, Retrieved from: https://www.gso.gov.vn/default.aspx? tabid5512&idmid55&ItemID518940. Hoa, N.M., Guong, V.T., Tung, T.S. and Giang, N.H. (2016), “Salinisation of soil and water on agricultural and aquacultural systems in Binh Dai district, Ben Tre province”, Can Tho University Journal, Vol. 42, pp. 40-49, doi: 10.22144/ctu.jvn.2016.019. JED 22,1 36 IMHEN. (2010), Climate Change and Impact in Vietnam, Science and technology publisher, Hanoi, Retrieved from: http://dcc.gov.vn/kien-thuc/998/Sach:-Bien-doi-khi-hau-va-tac-dong-o-VietNam.html. IRRI. (2015), Steps to Successful Rice Production, IRRI, Philippines, Retrieved from: http:// knowledgebank.irri.org/images/docs/12-Steps-Required-for-Successful-Rice-Production.pdf. Jan, G., Raphael, M., Michael, S., Firesenai, S., Susanne, S., Christian, T. and Rebekka, W. (2016), Rise 3.0 - Manual Sustainability Themes and Indicators, Bern University of Applied Sciences, Zollikofen, Switzerland, Retrieved from: www.rise.hafl.bfh.ch. Kihoro, J., Bosco, N.J. and Murage, H. (2013), “Suitability analysis for rice growing sites using a multicriteria evaluation and GIS approach in great Mwea region, Kenya”, SpringerPlus, Vol. 2 No. 1, pp. 265, doi: 10.1186/2193-1801-2-265. Lan, L.M., Micha, J.C., Long, D.N. and Yen, P.T. (2006), “Effect of densities and culture systems on growth, survival, yield, and economic return of freshwater prawn, Macrobrachium rosenbergii farming in the rice field in the Mekong Delta, Vietnam”, Journal of Applied Aquaculture, Vol. 18 No. 1, pp. 43-62, doi: 10.1300/J028v18n01_03. Leigh, C., Hiep, L.H., Stewart-Koster, B., Vien, D.M., Condon, J., Sang, N.V., Sammut, J. and Burford, M.A. (2017), “Concurrent rice-shrimp-crab farming systems in the Mekong Delta: are conditions (sub) optimal for crop production and survival?”, Aquaculture Research, Vol. 48 No. 10, pp. 5251-5262. Loc, H.H., Diep, N.T.H., Can, N.T., Irvine, K.N. and Shimizu, Y. (2017), “Integrated evaluation of ecosystem services in prawn-rice rotational crops, Vietnam” Ecosystem services, Vol. 26, pp. 377-387, doi: 10.1016/j.ecoser.2016.04.007. Luu, L.T. (2002), Sustainable Aquaculture for Poverty Alleviation (SAPA): A New Rural Development Strategy for Viet Nam. Part II, FAO Aquaculture Newsletter (FAO), Rome, Italy. Marchand, F., Debruyne, L., Triste, L., Gerrard, C., Padel, S. and Lauwers, L. (2014), “Key characteristics for tool choice in indicator-based sustainability assessment at farm level”, Ecology and Society, Vol. 19 No. 3. MARD. (2016), T om Tắt Ð anh Gi a Ðiều Kiện X~a Hội Khu Vực (RSA), The ministry of agriculture and rural development, Ha Noi, Retrieved from: www.bentre.gov.vn. Motoh, H. (1981), Studies on the Fisheries Biology of the Giant Tiger Prawn, Penaeus monodon in the Philippines (0115-4710), Aquaculture Department, Southeast Asian Fisheries Development Center, Philippines, Retrieved from: https://repository.seafdec.org.ph/handle/10862/860. Ness, B., Urbel_Piirsalu, E., Anderberg, S. and Olsson, L. (2007). “Categorising tools for sustainability assessment”, Ecological Economics, 60, 498-508, doi: 10.1016/j.ecolecon.2006.07.023. Nguyen, K.A.T., Jolly, C.M., Bui, C.N.P.T. and Le, T.T.H. (2016), “Aquaculture and poverty alleviation in ben Tre province, Vietnam”, Aquaculture Economics and Management, Vol. 20 No. 1, pp. 82-108, doi: 10.1080/13657305.2016.1124938. Nhan, D.K., Phong, L.T., Verdegem, M.J.C., Duong, L.T., Bosma, R.H. and Little, D.C. (2007), “Integrated freshwater aquaculture, crop and livestock production in the Mekong Delta, Vietnam: determinants and the role of the pond”, Agricultural Systems, Vol. 94 No. 2, pp. 445-458, doi: 10.1016/j.agsy.2006.11.017. Nho, N.T., Khắc Th ường, T. and Diệp, L.M. (2006), Kỹ Thuật Nu^oi Gi ap X ac, NXB N^ong Nghiệp (or Agriculture), Ho Chi Minh. Norman, D., Janke, R., Freyenberger, S., Schurle, B. and Kok, H. (1998), Defining and Implementing Sustainable Agriculture. Kansas Sustainable Agriculture Series, Paper, 1, available at: http:// www.soc.iastate.edu/Sapp/soc235susag.pdf. OECD. (2001), Environmental Indicators for Agriculture – Vol. 3: Methods and Results, OECD, Paris, Retrieved from: https://www.oecd.org/tad/sustainable-agriculture/40680869.pdf. People Committee of Thanh Phu District. (2018), Report on the Integration of Land Use Plan for 2018, Thanh Phu District - Ben Tre Province, People’s Comittee, Ben Tre. Phuong, N.T., Hai, T.N., Hien, T.T.T., Van Bui, T., Son, V.N., Morooka, Y., Fukuda, Y. and Wilder, M.N. (2006), “ Current status of freshwater prawn culture in Vietnam and the development and transfer of seed production technology” , Fisheries Science, Vol. 72 No. 1, pp. 1-12. doi: 10. 1111/j.1444-2906.2006.01109.x. Poelma, T.F. (2018), Transitioning to Rice-Shrimp Farming in Kien Giang, Vietnam Determining Rural Household Resilience to Changing Climatic Conditions. (Master), Utretcht University, Utrecht, Retrieved from https://dspace.library.uu.nl/handle/1874/368049. Quach, A.V., Murray, F. and Morrison-Saunders, A. (2017), “The vulnerability of shrimp farming income to climate change events: a case study in Ca Mau, Vietnam”, International Journal of Climate Change Strategies and Management, Vol. 9 No. 2, pp. 261-280. Renaud, F.G., Le, T.T.H., Lindener, C., Guong, V.T. and Sebesvari, Z. 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