Details of Award

NERC Reference : NE/T000759/1

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How do global change and functional traits influence savanna woody plant encroachment?

Grant Award

Principal Investigator:: Professor C Osborne, University of Sheffield, School of Biosciences
Co-Investigator:: Dr C Lehmann, Royal Botanic Garden Edinburgh, Tropical Biology
Grant held at:: University of Sheffield, School of Biosciences

Science Area:: Terrestrial
Overall Classification:: Panel C

Science Classification details

ENRIs:: Global Change
Science Topics:: Community Ecology; Environmental Physiology; Plant responses to environment; Ecosystem Scale Processes

Abstract:: The degradation of tropical ecosystems by deforestation and global environmental change is a major global issue that harms biodiversity and people's livelihoods. Degradation can be defined as the erosion of ecosystem functions and services. In tropical forests, it arises largely from deforestation. However, the situation is different in tropical savannas because many of the services they provide depend on the grassy vegetation growing between scattered trees. In these ecosystems, degradation can therefore be caused by tree planting or natural tree invasion. Increasing tree densities in savannas lead to degradation because they shade out the grasses. In the iconic savannas of Africa, satellite data shows that, all across the continent, savannas are being naturally invaded by trees, excluding grasses to make dense thorny thickets. This is a process of degradation because people need grasses to graze their animals, trees use more water than grasses and deplete drinking water supplies, and dense thickets are bad for the savanna wildlife that thrives in open grassy vegetation. Our project will study how global environmental change is causing the invasion of trees into African savannas. It focuses on the root cause of this continental transformation of iconic ecosystems, aiming to resolve fundamental unknowns about global change drivers, especially how rising atmospheric CO2 interacts with water availability. We will carry out a large-scale field experiment, investigating how global change causes tree encroachment into savannas, and particularly evaluating two observations. First, satellite data and field surveys have shown that tree encroachment is accelerating in wet savannas but is slow in dry savannas. We will test a possible explanation for this observation, by looking at how rising CO2 interacts with rainfall, and testing the idea that rising CO2 benefits grasses more than trees in dry conditions, causing grasses to out-compete trees. Secondly, field surveys have shown that only particular tree species are responsible for encroachment into savannas. We will test the idea that rising CO2 enhances the growth characteristics of these trees that enable them to escape burning by fires, recover after being eaten by herbivores, and compete effectively with grasses. Conversely, we don't expect to see the same level of enhancement in trees that don't encroach into savannas. We will run the experiment in a unique South African facility that uses 3-metre open-top chambers to enrich the atmosphere in CO2 to a level expected in the near future. Our experiment will compare savanna tree and grass growth under current and near-future CO2 concentrations, under competition when rooted in large pots filled with a savanna soil. To test our ideas about the interactions between trees, grasses, CO2 and water, we will grow the trees with and without grass competition, and with a high or low soil water availability. The idea that rising CO2 benefits grasses more than trees in dry conditions is new and we do not yet appreciate its broad significance. Therefore, in parallel with the experiment, we will set up a field monitoring programme to look at when and where savanna grasses and trees are limited by water. We will use this information to interpret our experimental results. How widespread and frequent is water-limitation, and where / when is the interaction between water-limitation and rising CO2 most likely to become important? Because CO2 has already risen from historical levels, any effects on grasses should also be evident in long-term savanna management experiments where the same fire regime has been applied for decades. We will therefore analyse data from these experiments to look for changes in grass production. Overall, our work will bring an important advance in understanding of how global change causes savanna tree encroachment, and the ecological mechanisms involved.

Period of Award:: 1 Jan 2020 - 31 May 2025
Value:: £591,159

(FY details)

Authorised funds only

NERC Reference:: NE/T000759/1
Grant Stage:: Awaiting Event/Action
Scheme:: Standard Grant FEC
Grant Status:: Active
Programme:: Standard Grant

This grant award has a total value of £591,159

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FDAB - Financial Details (Award breakdown by headings)

DI - Other Costs	Indirect - Indirect Costs	DA - Investigators	DI - Staff	DA - Estate Costs	DA - Other Directly Allocated	DI - T&S
£233,510	£139,497	£31,152	£119,248	£35,003	£3,012	£29,736

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