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Details of Award

NERC Reference : NE/M018660/1

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Developing an integrated framework for investigating biodiversity responses to global environmental change

Fellowship Award

Fellow:
Dr O Razgour, University of Bristol, Biological Sciences
Grant held at:
University of Bristol, Biological Sciences
Science Area:
Atmospheric
Terrestrial
Overall Classification:
Panel D
Science Classification details
ENRIs:
Biodiversity
Global Change
Science Topics:
Climate & Climate Change
Conservation Ecology
Population Genetics/Evolution
Genomics
Abstract:
Biodiversity continues to decline worldwide even though it is widely recognised that human survival and the maintenance of ecological processes rely on its effective conservation. A major challenge is to understand how biodiversity responds to global environmental change so we can predict and prepare for the effects of future conservation threats. Climate change will produce a range of new selection pressures due to rising temperatures and increased frequency of droughts and extreme events, forcing many species to move in search of suitable conditions or adapt. Anthropogenic habitat loss and land use changes are likely to intensify these pressures and limit the movement of individuals and their ability to colonise new areas. Whether species can respond to these threats depends on their sensitivity to change, their ability to adapt or adjust to new environmental conditions, their ability to move away, and the rate and magnitude of change. As species' responses depend on a multitude of factors, studying their responses requires a combination of different tools from different research fields. The aim of this project is to establish a new way of studying the responses of biodiversity to global change by combining genetic tools with ecology, geographical data and computer modelling. This project focuses on several threatened European forest bat species with the aim of providing the evidence base for their conservation under global change. Bats are an important part of ecological systems and contribute to the agricultural economy through suppressing insect pest populations. Because of their high diversity, wide habitat use, role as top predators and sensitivity to land use changes, bats can be good indicators of the state of the environment and other wildlife. As such bats offer a good model system for studying the consequences of global change. Future climate change is predicted to affect the distribution of many European bats and may result in high losses of their genetic diversity. Forest bats may be particularly sensitive to future changes because of the high extent of forest fragmentation across Europe; something that has already been linked to their population declines and is likely to limit their ability to move to climatically suitable areas in the future. Therefore in order to design long-term conservation strategies for this vulnerable group it is crucial to understand how climate and the environment affect their distribution and ability to move across the landscape, and what are their genetic responses to environmental change. The proposed project builds on the research programme developed throughout my independent research career and will benefit from available expertise and state-of-the-art facilities at Bristol and the wide diversity of expertise of project partners. I will first use ecological and mathematical modelling approaches to study how climate change and habitat loss will interact to affect the future distribution of all European forest bats. Focusing on two bat species with different distributions and ecology (Barbastella barbastellus and Myotis escalerai) I will survey populations from across their climatic gradients. To understand what drives evolutionary responses to global change I will use next generation sequencing to study the genes involved in adaptations of populations to current environmental conditions. I will develop new modelling tools to relate these local genetic adaptations to the response of populations to future climate change in face of habitat loss and to predict the consequences of global change. This will allow me to assess the likelihood of long-term population survival and to identify adequate conservation measures. An important aspect of this project is its impact on how we manage our environment, and therefore it includes the development of innovative ways to translate scientific findings and will provide resources for use by policy makers, planners and conservation managers.
Period of Award:
1 Jul 2015 - 30 Apr 2016
Value:
£535,108
(FY details)
Authorised funds only
NERC Reference:
NE/M018660/1
Grant Stage:
Completed
Scheme:
Research Fellowship
Grant Status:
Closed
Programme:
IRF

This fellowship award has a total value of £535,108  

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FDAB - Financial Details (Award breakdown by headings)

DI - Other CostsIndirect - Indirect CostsDI - StaffDA - Estate CostsDA - Other Directly AllocatedDI - T&S
£63,792£163,536£198,543£70,793£2,336£36,106

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