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9 J. Mgmt. & Sustainability 1 (2019)

handle is hein.journals/jms9 and id is 1 raw text is: Journal of Management and Sustainability; Vol. 9, No. 1; 2019 ISSN 1925-4725 E-ISSN 1925-4733 Published by Canadian Center of Science and Education Mangrove Spatial Distribution in the Indian Sundarbans: Predicting Salinity-Induced Migration in a Changing Climate Anirban Mukhopadhyay1, David Wheeler2, Susmita Dasgupta3, Ajanta Dey4 & Istiak Sobhan3 1School of Oceanographic Studies, Jadavpur University, Kolkata, West Bengal, India 2World Resources Institute, Washington, DC, USA 3 World Bank, Washington, DC, USA 'Nature Environment & Wildlife Society, Kolkata, West Bengal, India Correspondence: Susmita Dasgupta, Development Research Group, World Bank, Washington, DC, USA. E-mail: sdasgupta ttworldbank.org Received: November 12, 2018 Accepted: December 6, 2018 Online Published: January 24, 2019 doi: 10.5539/jms.v9nlp1 URL: https://doi.org/10.5539/jms.v9nlpl Abstract This study contributes to understanding the physical and economic impacts of progressive, climate-driven aquatic salinization on the spatial distribution of mangrove species in the Indian Sundarbans, which accounts for about two-fifths of the 10,200 km2 tidal-wetland forest delta. To estimate future mangrove distribution, a five-step analysis was undertaken, using high-resolution spatial assessments. A current (2015) basemap and overlays of salinity tolerance for major mangrove species and their assemblages and projected location-specific aquatic salinity for 2050 were used to predict salinity-induced migration. The results show gain-and-loss patterns, with salt-tolerant species predominating at the expense of freshwater species. These changes are likely to reduce the flow of ecosystem services, adversely affecting the livelihood options of poor people in adjacent areas. Effective management will require establishing baseline data for monitoring system changes over time, protocols for maintaining species health, and support for mangrove regeneration and restoration. Resources should also be directed to alternative livelihoods for mangrove-dependent households. The study recommends an integrated policy approach, focused on rising salinity, changes in mangrove dynamics, and the welfare of mangrove-dependent communities. Keywords: aquatic salinization, climate change, high-resolution assessment, mangrove-dependent livelihood, mangrove migration, spatial distribution, Sundarbans 1. Introduction The mangrove ecosystems of the Sundarbans-the world's largest remaining contiguous mangrove forest situated along coastal segments of Bangladesh (60 percent) and India (40 percent) in the Bay of Bengal-are at increasing risk from the impacts of climate-driven sea-level rise. In this 10,200 km2 tidal-wetland forest delta, as in other globally important mangrove forests, sea-level rise may even threaten the survival of mangrove species. In the past, mangroves have shown considerable resilience to sea-level fluctuations (Alongi, 2002, 2008; Gilman et al., 2006; Erwin, 2009); however, their future rate of adaptation and migration may not keep pace (Ellison & Stoddart, 1991; Semeniuk, 1994; United Nations Environment Programme, 1994; McLeod & Salm, 2006; Lange et al., 2010). In the case of the Sundarbans, the extent of permanent inundation is uncertain since sedimentation is still occurring in the active Ganges-Brahmaputmra Delta. That said, climate-driven sea-level rise will inevitably have significant implications for the many poor people who depend on the mangrove forest for their livelihoods. (Note 1) 1.] Challenges to Healthy Mangroves in the Sundarbans In the Sundarbans, the two greatest threats to the health of mangroves in a changing climate are progressive aquatic salinization and shortage of nutrients from freshwater flows (Dasgupta, Kamal, Khan, Choudhury, & Nishat, 2015a; Dasgupta, Hossain, Huq, & Wheeler, 2015b; Institute of Water Modeling, 2003; Peterson & Shireen, 2001; Soil Resources Development Institute, 2000, 2010; United Kingdom Department of Environment, Food & Rural Affairs, 2007). It is expected that alteration of riverine flows from the Himalayas, combined with sea-level rise, will intensify salinity intrusion as climate change continues (Dasgupta et al., 2015a, b; Dasgupta et

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