Implications of high species turnover on the south-western Australian sandplains

Species turnover and its components related to replacement and nestedness form a significant element of diversity that is historically poorly accounted for in conservation planning. To inform biodiversity conservation and contribute to a broader understanding of patterns in species turnover, we unde...

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Veröffentlicht in:	PloS one 2017-02, Vol.12 (2), p.e0172977-e0172977
Hauptverfasser:	Gibson, Neil, Prober, Suzanne, Meissner, Rachel, van Leeuwen, Stephen
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Arid environments Aridity Australia Biodiversity Biodiversity conservation Biology and Life Sciences Climate Conservation Deserts Dispersal Earth Sciences Ecology and Environmental Sciences Ecosystem biology Eucalyptus Geography Historical account Mallee Marine conservation Oligotrophs Parks & recreation areas People and Places Physical Sciences Sandy soils Science South Australia Species richness Studies Vegetation Western Australia Wildlife conservation
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creator	Gibson, Neil Prober, Suzanne Meissner, Rachel van Leeuwen, Stephen
description	Species turnover and its components related to replacement and nestedness form a significant element of diversity that is historically poorly accounted for in conservation planning. To inform biodiversity conservation and contribute to a broader understanding of patterns in species turnover, we undertook a floristic survey of 160 plots along an 870 km transect across oligotrophic sandplains, extending from the mesic south coast to the arid interior of south-western Australia. A nested survey design was employed to sample distances along the transect as evenly as possible. Species turnover was correlated with geographic distance at both regional and local scales, consistent with dispersal limitation being a significant driver of species turnover. When controlled for species richness, species replacement was found to be the dominant component of species turnover and was uniformly high across the transect, uncorrelated with either climatic or edaphic factors. This high replacement rate, well documented in the mega-diverse south-west, appears to also be a consistent feature of arid zone vegetation systems despite a decrease in overall species richness. Species turnover increased rapidly with increasing extent along the transect reaching an asymptote at ca. 50 km. These findings are consistent with earlier work in sandplain and mallee vegetation in the south-west and suggests reserve based conservation strategies are unlikely to be practicable in the south-western Australia sandplains when communities are defined by species incidence rather than dominance.
doi_str_mv	10.1371/journal.pone.0172977
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To inform biodiversity conservation and contribute to a broader understanding of patterns in species turnover, we undertook a floristic survey of 160 plots along an 870 km transect across oligotrophic sandplains, extending from the mesic south coast to the arid interior of south-western Australia. A nested survey design was employed to sample distances along the transect as evenly as possible. Species turnover was correlated with geographic distance at both regional and local scales, consistent with dispersal limitation being a significant driver of species turnover. When controlled for species richness, species replacement was found to be the dominant component of species turnover and was uniformly high across the transect, uncorrelated with either climatic or edaphic factors. This high replacement rate, well documented in the mega-diverse south-west, appears to also be a consistent feature of arid zone vegetation systems despite a decrease in overall species richness. Species turnover increased rapidly with increasing extent along the transect reaching an asymptote at ca. 50 km. These findings are consistent with earlier work in sandplain and mallee vegetation in the south-west and suggests reserve based conservation strategies are unlikely to be practicable in the south-western Australia sandplains when communities are defined by species incidence rather than dominance.</description><identifier>ISSN: 1932-6203</identifier><identifier>EISSN: 1932-6203</identifier><identifier>DOI: 10.1371/journal.pone.0172977</identifier><identifier>PMID: 28245232</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Analysis ; Arid environments ; Aridity ; Australia ; Biodiversity ; Biodiversity conservation ; Biology and Life Sciences ; Climate ; Conservation ; Deserts ; Dispersal ; Earth Sciences ; Ecology and Environmental Sciences ; Ecosystem biology ; Eucalyptus ; Geography ; Historical account ; Mallee ; Marine conservation ; Oligotrophs ; Parks & recreation areas ; People and Places ; Physical Sciences ; Sandy soils ; Science ; South Australia ; Species richness ; Studies ; Vegetation ; Western Australia ; Wildlife conservation</subject><ispartof>PloS one, 2017-02, Vol.12 (2), p.e0172977-e0172977</ispartof><rights>COPYRIGHT 2017 Public Library of Science</rights><rights>2017 Gibson et al. 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To inform biodiversity conservation and contribute to a broader understanding of patterns in species turnover, we undertook a floristic survey of 160 plots along an 870 km transect across oligotrophic sandplains, extending from the mesic south coast to the arid interior of south-western Australia. A nested survey design was employed to sample distances along the transect as evenly as possible. Species turnover was correlated with geographic distance at both regional and local scales, consistent with dispersal limitation being a significant driver of species turnover. When controlled for species richness, species replacement was found to be the dominant component of species turnover and was uniformly high across the transect, uncorrelated with either climatic or edaphic factors. This high replacement rate, well documented in the mega-diverse south-west, appears to also be a consistent feature of arid zone vegetation systems despite a decrease in overall species richness. Species turnover increased rapidly with increasing extent along the transect reaching an asymptote at ca. 50 km. 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nestedness form a significant element of diversity that is historically poorly accounted for in conservation planning. To inform biodiversity conservation and contribute to a broader understanding of patterns in species turnover, we undertook a floristic survey of 160 plots along an 870 km transect across oligotrophic sandplains, extending from the mesic south coast to the arid interior of south-western Australia. A nested survey design was employed to sample distances along the transect as evenly as possible. Species turnover was correlated with geographic distance at both regional and local scales, consistent with dispersal limitation being a significant driver of species turnover. When controlled for species richness, species replacement was found to be the dominant component of species turnover and was uniformly high across the transect, uncorrelated with either climatic or edaphic factors. This high replacement rate, well documented in the mega-diverse south-west, appears to also be a consistent feature of arid zone vegetation systems despite a decrease in overall species richness. Species turnover increased rapidly with increasing extent along the transect reaching an asymptote at ca. 50 km. These findings are consistent with earlier work in sandplain and mallee vegetation in the south-west and suggests reserve based conservation strategies are unlikely to be practicable in the south-western Australia sandplains when communities are defined by species incidence rather than dominance.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>28245232</pmid><doi>10.1371/journal.pone.0172977</doi><tpages>e0172977</tpages><oa>free_for_read</oa></addata></record>
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subjects	Analysis Arid environments Aridity Australia Biodiversity Biodiversity conservation Biology and Life Sciences Climate Conservation Deserts Dispersal Earth Sciences Ecology and Environmental Sciences Ecosystem biology Eucalyptus Geography Historical account Mallee Marine conservation Oligotrophs Parks & recreation areas People and Places Physical Sciences Sandy soils Science South Australia Species richness Studies Vegetation Western Australia Wildlife conservation
title	Implications of high species turnover on the south-western Australian sandplains
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