Hector, A. and Joshi, J. and Lawler, S. and Spehn, E. M. and Wilby, Andrew (2001) Conservation implications of the link between biodiversity and ecosystem functioning. Oecologia, 129 (4). pp. 624-628. ISSN 0029-8549Full text not available from this repository.
The relationship between biodiversity and individual ecosystem processes is often asymptotic, saturating at relatively low levels, with some species contributing more strongly than others. This has cast doubt on arguments for conservation based on maintenance of the functioning of ecosystems. However, we argue that the link between biodiversity and ecosystem functioning is an important additional argument for conservation for several reasons. (1) Although species differ in importance to ecosystem processes, we do not believe that this argues for preservation of just a few species for two reasons: first, it is nearly impossible to identify all species important to the numerous systems and processes on which humans depend; second, the important species themselves may depend on an unknown number of other species in their communities. (2) Arguments for conservation based on ecosystem functioning are complementary to other utilitarian, ethical and aesthetic justifications. No single reason will convince all people or protect all species, however the combination produces a strong case for conservation of biodiversity. (3) Even if the relationship between biodiversity and ecosystem functioning is asymptotic at local spatial scales and in the short term, effects of biodiversity loss are likely to be important at larger temporal and spatial scales. (4) Initial arguments for the importance of biodiversity for ecosystem functioning were largely based on a precautionary approach (points 1-3). However, we are now moving to a scientific position based on accumulating experimental evidence. The future challenge is the integration of this scientific research with policy.
|Journal or Publication Title:||Oecologia|
|Uncontrolled Keywords:||Diversity ; Species richness ; Ecosystem processes ; Precautionary principle ; Conservation ecology|
|Subjects:||Q Science > QH Natural history > QH301 Biology|
|Departments:||Faculty of Arts & Social Sciences > Educational Research|
Faculty of Science and Technology > Lancaster Environment Centre
|Deposited By:||Dr Andrew Wilby|
|Deposited On:||16 Jun 2008 16:04|
|Last Modified:||20 Jan 2017 01:58|
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