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Your search keyword '"Crossman, Neville"' showing total 4 results
Start Over Author "Crossman, Neville" Journal global change biology
4 results on '"Crossman, Neville"'

3. Species vulnerability to climate change: impacts on spatial conservation priorities and species representation

Author

Waynes S Meyer, Neville D. Crossman, Brett A. Bryan, David M. Summers, Summers, David M, Bryan, Brett A, Crossman, Neville D, and Meyer, Andwayne S

Subjects
Range (biology), Biodiversity & Conservation, Species distribution, Vulnerability, Climate change, Zonation, Climate change scenario, Environmental Chemistry, conservation planning, complementarity, General Environmental Science, Global and Planetary Change, Adaptive capacity, Ecology, business.industry, Environmental resource management, Native plant, sensitivity, adaptive capacity, climate change, Geography, exposure, Biodiversity Conservation, Biological dispersal, niche modelling, sense organs, triage, business, Environmental Sciences
Abstract

Climate change may shrink and/or shift plant species ranges thereby increasing their vulnerability and requiring targeted conservation to facilitate adaptation. We quantified the vulnerability to climate change of plant species based on exposure, sensitivity and adaptive capacity and assessed the effects of including these components in complementarity-based spatial conservation prioritisation. We modelled the vulnerability of 584 native plant species under three climate change scenarios in an 11.9 million hectare fragmented agricultural region in southern Australia. We represented exposure as species' geographical range under each climate change scenario as quantified using species distribution models. We calculated sensitivity as a function of the impact of climate change on species' geographical ranges. Using a dispersal kernel, we quantified adaptive capacity as species' ability to migrate to new geographical ranges under each climate change scenario. Using Zonation, we assessed the impact of individual components of vulnerability (exposure, sensitivity and adaptive capacity) on spatial conservation priorities and levels of species representation in priority areas under each climate change scenario. The full vulnerability framework proved an effective basis for identifying spatial conservation priorities under climate change. Including different dimensions of vulnerability had significant implications for spatial conservation priorities. Incorporating adaptive capacity increased the level of representation of most species. However, prioritising sensitive species reduced the representation of other species. We conclude that whilst taking an integrated approach to mitigating species vulnerability to climate change can ensure sensitive species are well-represented in a conservation network, this can come at the cost of reduced representation of other species. Conservation planning decisions aimed at reducing species vulnerability to climate change need to be made in full cognisance of the sensitivity of spatial conservation priorities to individual components of vulnerability, and the trade-offs associated with focussing on sensitive species. Refereed/Peer-reviewed

Published
2012

4. Land use efficiency: anticipating future demand for land-sector greenhouse gas emissions abatement and managing trade-offs with agriculture, water, and biodiversity

Author

Martin Nolan, Brett A. Bryan, Jing Li, Jeffery D. Connor, Javier Navarro, Neville D. Crossman, Bryan, Brett A, Crossman, Neville D, Nolan, Martin, Li, Jing, Navarro, Javier, and Connor, Jeffery D

Subjects
land use change, Productive efficiency, Greenhouse Effect, Conservation of Natural Resources, Natural resource economics, Biodiversity & Conservation, Land management, water resources, Ecosystem services, Agricultural land, Air Pollution, Environmental Chemistry, Land use, land-use change and forestry, Agricultural productivity, Ecosystem, General Environmental Science, Global and Planetary Change, Ecology, Land use, business.industry, scenarios, Environmental resource management, Australia, Commerce, Water, Agriculture, food security, Biodiversity, Models, Theoretical, carbon sequestration, Carbon, ComputingMilieux_GENERAL, climate change, trade-offs, Greenhouse gas, Biodiversity Conservation, ecosystem services, business, Environmental Sciences
Abstract

Competition for land is increasing, and policy needs to ensure the efficient supply of multiple ecosystem services from land systems. We modelled the spatially explicit potential future supply of ecosystem services in Australia's intensive agricultural land in response to carbon markets under four global outlooks from 2013 to 2050. We assessed the productive efficiency of greenhouse gas emissions abatement, agricultural production, water resources, and biodiversity services and compared these to production possibility frontiers (PPFs). While interacting commodity markets and carbon markets produced efficient outcomes for agricultural production and emissions abatement, more efficient outcomes were possible for water resources and biodiversity services due to weak price signals. However, when only two objectives were considered as per typical efficiency assessments, efficiency improvements involved significant unintended trade-offs for the other objectives and incurred substantial opportunity costs. Considering multiple objectives simultaneously enabled the identification of land use arrangements that were efficient over multiple ecosystem services. Efficient land use arrangements could be selected that meet society's preferences for ecosystem service provision from land by adjusting the metric used to combine multiple services. To effectively manage competition for land via land use efficiency, market incentives are needed that effectively price multiple ecosystem services. Refereed/Peer-reviewed

Published
2015

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