Understanding long-term variations in an elephant piosphere effect to manage impacts

Surface water availability is a key driver of elephant impacts on biological diversity. Thus, understanding the spatio-temporal variations of these impacts in relation to water is critical to their management. However, elephant piosphere effects (i.e. the radial pattern of attenuating impact) are po...

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Veröffentlicht in:	PloS one 2012-09, Vol.7 (9), p.e45334-e45334
Hauptverfasser:	Landman, Marietjie, Schoeman, David S, Hall-Martin, Anthony J, Kerley, Graham I H
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Availability Biodiversity Biological diversity Biology Complexity Drinking Water Ecological effects Ecological function Ecology Ecosystem Ecosystems Elephants Environmental aspects Genetic transformation Habitats Herbivores Heterogeneity Loxodonta africana National parks Population Density Provisioning Quantitative research Surface water Surface water availability Temporal variations Transformation Water availability Water shortages Water Supply Zoology
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creator	Landman, Marietjie Schoeman, David S Hall-Martin, Anthony J Kerley, Graham I H
description	Surface water availability is a key driver of elephant impacts on biological diversity. Thus, understanding the spatio-temporal variations of these impacts in relation to water is critical to their management. However, elephant piosphere effects (i.e. the radial pattern of attenuating impact) are poorly described, with few long-term quantitative studies. Our understanding is further confounded by the complexity of systems with elephant (i.e. fenced, multiple water points, seasonal water availability, varying population densities) that likely limit the use of conceptual models to predict these impacts. Using 31 years of data on shrub structure in the succulent thickets of the Addo Elephant National Park, South Africa, we tested elephant effects at a single water point. Shrub structure showed a clear sigmoid response with distance from water, declining at both the upper and lower limits of sampling. Adjacent to water, this decline caused a roughly 300-m radial expansion of the grass-dominated habitats that replace shrub communities. Despite the clear relationship between shrub structure and ecological functioning in thicket, the extent of elephant effects varied between these features with distance from water. Moreover, these patterns co-varied with other confounding variables (e.g. the location of neighboring water points), which limits our ability to predict such effects in the absence of long-term data. We predict that elephant have the ability to cause severe transformation in succulent thicket habitats with abundant water supply and elevated elephant numbers. However, these piosphere effects are complex, suggesting that a more integrated understanding of elephant impacts on ecological heterogeneity may be required before water availability is used as a tool to manage impacts. We caution against the establishment of water points in novel succulent thicket habitats, and advocate a significant reduction in water provisioning at our study site, albeit with greater impacts at each water point.
doi_str_mv	10.1371/journal.pone.0045334
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elephant impacts on biological diversity. Thus, understanding the spatio-temporal variations of these impacts in relation to water is critical to their management. However, elephant piosphere effects (i.e. the radial pattern of attenuating impact) are poorly described, with few long-term quantitative studies. Our understanding is further confounded by the complexity of systems with elephant (i.e. fenced, multiple water points, seasonal water availability, varying population densities) that likely limit the use of conceptual models to predict these impacts. Using 31 years of data on shrub structure in the succulent thickets of the Addo Elephant National Park, South Africa, we tested elephant effects at a single water point. Shrub structure showed a clear sigmoid response with distance from water, declining at both the upper and lower limits of sampling. Adjacent to water, this decline caused a roughly 300-m radial expansion of the grass-dominated habitats that replace shrub communities. 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We caution against the establishment of water points in novel succulent thicket habitats, and advocate a significant reduction in water provisioning at our study site, albeit with greater impacts at each water point.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>23028942</pmid><doi>10.1371/journal.pone.0045334</doi><tpages>e45334</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Availability Biodiversity Biological diversity Biology Complexity Drinking Water Ecological effects Ecological function Ecology Ecosystem Ecosystems Elephants Environmental aspects Genetic transformation Habitats Herbivores Heterogeneity Loxodonta africana National parks Population Density Provisioning Quantitative research Surface water Surface water availability Temporal variations Transformation Water availability Water shortages Water Supply Zoology
title	Understanding long-term variations in an elephant piosphere effect to manage impacts
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