The local extinction or large fluctuation in abundance of a species may seriously affect other species in the community. The effects spread through the community by direct and indirect interactions. The network perspective on ecology can help map the pathways of these effects, for food webs, the pathways of indirect trophic interactions. Indirect interactions typically decay in intensity as they spread. Therefore, there is a conceptual maximum range in topological space beyond which interactions have no effects, even though all species remain connected. Neither the local characteristics of species, nor the global characteristics of entire webs, suitably quantify this range. We therefore apply intermediate scale indices that reflect the limitations imposed by effect damping in networks. We present a complex analysis of the topological positional importance of species in the Chesapeake Bay web. This web is a carbon-flow network that represents trophic interactions. We present several different indices reflecting different properties and discuss which questions the different indices best answer. We look for the best indices for identifying the key players in ecosystem functioning. Our study contributes to the quantification of relative species importance and provides an exact and a priori determination of a class of candidate keystone species that can inform applied and conservation ecology as well as theoretical concerns. Copyright © Oikos 2006.

Topological keystone species: Measures of positional importance in food webs / Jordan, F.; Liu, W. -C.; Davis, A. J.. - In: OIKOS. - ISSN 0030-1299. - 112:3(2006), pp. 535-546. [10.1111/j.0030-1299.2006.13724.x]

Topological keystone species: Measures of positional importance in food webs

Jordan F.;
2006-01-01

Abstract

The local extinction or large fluctuation in abundance of a species may seriously affect other species in the community. The effects spread through the community by direct and indirect interactions. The network perspective on ecology can help map the pathways of these effects, for food webs, the pathways of indirect trophic interactions. Indirect interactions typically decay in intensity as they spread. Therefore, there is a conceptual maximum range in topological space beyond which interactions have no effects, even though all species remain connected. Neither the local characteristics of species, nor the global characteristics of entire webs, suitably quantify this range. We therefore apply intermediate scale indices that reflect the limitations imposed by effect damping in networks. We present a complex analysis of the topological positional importance of species in the Chesapeake Bay web. This web is a carbon-flow network that represents trophic interactions. We present several different indices reflecting different properties and discuss which questions the different indices best answer. We look for the best indices for identifying the key players in ecosystem functioning. Our study contributes to the quantification of relative species importance and provides an exact and a priori determination of a class of candidate keystone species that can inform applied and conservation ecology as well as theoretical concerns. Copyright © Oikos 2006.
2006
Topological keystone species: Measures of positional importance in food webs / Jordan, F.; Liu, W. -C.; Davis, A. J.. - In: OIKOS. - ISSN 0030-1299. - 112:3(2006), pp. 535-546. [10.1111/j.0030-1299.2006.13724.x]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/2915844
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