Your search keyword '"Tom H Oliver"' showing total 2 results

1. A national-scale assessment of climate change impacts on species: Assessing the balance of risks and opportunities for multiple taxa

Author

Matthew J. Carroll, Helen E. Roy, Olly Watts, Joanne Savage, Simon J. Duffield, Chris D. Thomas, James W. Pearce-Higgins, Bjorn Beckmann, Malcolm Ausden, Colin M. Beale, Humphrey Q. P. Crick, Nancy Ockendon, Tom H. Oliver, Christopher J. Wheatley, Dario Massimino, Peter G. Sutton, Tom August, Michael D. Morecroft, Richard B. Bradbury, Nicholas A. Macgregor, Colin J. McClean, Richard Fox, and Kevin J. Walker

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Range (biology), business.industry, Ecology, Environmental resource management, Climate change, 010603 evolutionary biology, 01 natural sciences, Geography, Habitat, Climate change scenario, Temperate climate, Biological dispersal, sense organs, skin and connective tissue diseases, Risk assessment, business, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Nature and Landscape Conservation, Global biodiversity

Abstract

It is important for conservationists to be able to assess the risks that climate change poses to species, in order to inform decision making. Using standardised and repeatable methods, we present a national-scale assessment of the risks of range loss and opportunities for range expansion that climate change could pose for over 3000 plants and animals. Species were selected by their occurrence in England, the primary focus of the study, but climate change impacts were assessed across Great Britain, widening their geographical relevance. A basic risk assessment that compared projected future changes in potential range with recently observed changes classified 21% of species as being at high risk and 6% at medium risk of range loss under a B1 climate change scenario. A greater number of species were classified as having a medium (16%) or high (38%) opportunity to potentially expand their distribution. A more comprehensive assessment, incorporating additional ecological information, including potentially confounding and exacerbating factors (e.g. dispersal, habitat availability and other constraints), was applied to 402 species, of which 35% were at risk of range loss and 42% may expand their range extent. This study covers a temperate region with a significant proportion of species at their poleward range limit; the balance of risks and opportunities from climate change may be different elsewhere. The outcome of both risk assessments varied between taxonomic groups, with bryophytes and vascular plants containing the greatest proportion of species at risk from climate change. Upland habitats contained more species at risk than other habitats. Whilst the overall pattern was clear, confidence was generally low for individual assessments, with the exception of well-studied taxa such as birds. In response to climate change, nature conservation needs to plan for changing species distributions and an uncertain future.

Published

2017

2. Are existing biodiversity conservation strategies appropriate in a changing climate?

Author

Kevin Watts, Tom H. Oliver, Colin M. Beale, and Richard J. Smithers

Subjects

0106 biological sciences, Adaptive capacity, 010504 meteorology & atmospheric sciences, business.industry, Environmental resource management, Vulnerability, Climate change, Woodland, 010603 evolutionary biology, 01 natural sciences, Geography, Habitat, Threatened species, Umbrella species, Taxonomic rank, business, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Nature and Landscape Conservation

Abstract

Many countries have conservation plans for threatened species, but such plans have generally been developed without taking into account the potential impacts of climate change. Here, we apply a decision framework, specifically developed to identify and prioritise climate change adaptation actions and demonstrate its use for 30 species threatened in the UK. Our aim is to assess whether government conservation recommendations remain appropriate under a changing climate. The species, associated with three different habitats (lowland heath, broadleaved woodland and calcareous grassland), were selected from a range of taxonomic groups (primarily moths and vascular plants, but also including bees, bryophytes, carabid beetles and spiders). We compare the actions identified for these threatened species by the decision framework with those included in existing conservation plans, as developed by the UK Government’s statutory adviser on nature conservation. We find that many existing conservation recommendations are also identified by the decision framework. However, there are large differences in the spatial prioritisation of actions when explicitly considering projected climate change impacts. This includes recommendations for actions to be carried out in areas where species do not currently occur, in order to allow them to track movement of suitable conditions for their survival. Uncertainties in climate change projections are not a reason to ignore them. Our results suggest that existing conservation plans, which do not take into account potential changes in suitable climatic conditions for species, may fail to maximise species persistence. Comparisons across species also suggest a more habitat-focused approach could be adopted to enable climate change adaptation for multiple species.

Published

2016