Details of Award

NERC Reference : NE/P015379/1

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From mangrove to milpa: what determines resilience to extreme weather events in the Yucatan Peninsula, Mexico?

Grant Award

Principal Investigator:: Professor S Metcalfe, University of Nottingham, Sch of Geography
Co-Investigator:: Professor D Boyd, University of Nottingham, Sch of Geography
Co-Investigator:: Professor GH Endfield, University of Liverpool, Sch of History
Co-Investigator:: Professor MT Munguia, Yucatan Autonomous University UADY, Anthropological Sciences
Co-Investigator:: Dr F Bautista Zuniga, National Autonomous Univ of Mexico UNAM, Institute of Geography
Co-Investigator:: Dr BI Schmook, College of the Southern Frontier, Conservation of Biodiversity
Grant held at:: University of Nottingham, Sch of Geography

Science Area:: Freshwater; Marine; Terrestrial
Overall Classification:: Unknown

Science Classification details

ENRIs:: Biodiversity; Environmental Risks and Hazards; Global Change; Natural Resource Management
Science Topics:: Ecosystem impacts; Regional climate; Climate & Climate Change; Communication of uncertainty; Poverty alleviation; Risk management; Storm risk; Tropical cyclones; Regional & Extreme Weather; Gender and Anthropology; Indigenous people and cultures; Participant observation; Rural and Pastoral development; Agricultural development; Anthropology and Development; Cultural identity in LICs; Food (access, production, preference, security); Agriculture, agricultural policy; Climate change in LICs; Fisheries in LICs; Food security, food supply; Forestry & development; Natural disasters; Natural hazards; Plant production, crops; Rural areas, rural development; Rural Livelihoods; Sustainable development; Nat Resources, Env & Rural Dev; Agriculture; Biodiversity; Catchment management; Conservation; Deforestation; Ecosystem management; Ecosystem services; Food security; Freshwater ecosystems; Terrestrial ecosystems; Tropical ecosystems; Vegetation change; Ecosystem Scale Processes

Abstract:: Available meteorological records show that the world's weather is becoming more variable and more extreme and that these extremes are becoming more costly in terms of both insured and uninsured losses to infrastructure, crops, housing and natural ecosystems. The relative impact of, and vulnerability to, these events is highest in developing economies. In Mexico the economic cost of extreme events increased 30x between 1980-99 and 2000-2012 and climate change projections indicate that the country will experience more extreme weather, as well as more intense droughts. Within Mexico, the Yucatan peninsula has been identified as being unusually vulnerable to climate change in part because of its low rainfall, high temperatures and frequent tropical storms (including the most intense hurricanes), but also because of the continuing importance of small scale, near subsistence farming and fishing and a high indigenous (Maya) population who are economically disadvantaged. Better understanding of what makes communities, and particular sectors of communities, more or less resilient in the face of extreme weather events will help in the development of effective adaptation strategies at local, regional and national scales in a context of a changing climate. Achieving this means drawing together researchers from a range of disciplinary backgrounds (spanning the natural and social sciences and humanities) to develop a common research methodology. For this research to be relevant and practical in terms of real world problems, it also needs to be developed with input from the potential users and/or beneficiaries of the work. This project brings together a team of experts from UK and Mexican research institutions, all of whom have experience of working in the Yucatan on different aspects of weather and climate (especially drought) but largely with a particular focus (e.g. the role of gender in understanding and coping with extreme weather, ecosystem sensitivity to drought). Here, they will work together and with our existing networks of federal and state government agencies (such as the Secretariat for the Environment and Natural Resources (SEMARNAT), the Gender and Environment Network (RGMA), the Secretariat for Urban Development and Environment Yucatan (SEDUMA) and the National Protected Areas Commission (CONANP)) and community groups (e.g U'yool'che a sustainable agriculture collective). This work will be focused on three specific study regions, one on the north coast of the peninsula where hurricanes are a particular problem and two further south, where drought is more of a concern, one where subsistence farming dominates and one where commercial agriculture is more important. These geographically specific studies will be complemented by work to exploit the availability of new, high resolution satellite imagery from the ESA's Sentinel-2 and -3 platforms to track landuse and vegetation change and work on the data available from the region's network of meteorological stations. Taken together these approaches will allow a fuller assessment of which parts of the peninsula are most vulnerable to extreme events and the impacts these have on the natural and managed environment, of what makes communities more or less vulnerable and their strategies for adaptation. The specific goal will be to develop a protocol for determining resilience which will support policy makers and communities in making decisions about how to cope more effectively with the negative impacts of a changing climate on economic development and quality of life through better understanding and improved communication.

Period of Award:: 1 Nov 2016 - 31 Jul 2017
Value:: £84,284

(FY details)

Authorised funds only

NERC Reference:: NE/P015379/1
Grant Stage:: Completed
Scheme:: Directed - International
Grant Status:: Closed
Programme:: GCRF-Resilience

This grant award has a total value of £84,284

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FDAB - Financial Details (Award breakdown by headings)

Exception - Other Costs	Indirect - Indirect Costs	DA - Investigators	DI - Staff	DA - Estate Costs	Exception - T&S	DI - T&S
£10,711	£21,789	£10,075	£17,572	£3,880	£5,958	£14,299

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