Paddy fields located in water storage zones could take over the wetland plant community

Land use change could affect not only local species richness but also community assemblies. Essentially, the possible patterns of plant community assemblies are nonrandom species loss (nestedness) and species turnover. Plant community assemblies in human-mediated land use have a combination of both...

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Veröffentlicht in:	Scientific reports 2020-09, Vol.10 (1), Article 14806
Hauptverfasser:	Osawa, Takeshi, Nishida, Takaaki, Oka, Takashi
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Sprache:	eng
Schlagworte:	631/158/4016 631/158/670 631/158/672 631/158/853 Agricultural land Aquatic habitats Deoxyribonucleic acid DNA DNA damage DNA-directed DNA polymerase Environmental quality Humanities and Social Sciences Land management Land use Mitochondria Monsoons multidisciplinary Plant communities Primase Primers Replicase Replication protein A Science Science (multidisciplinary) Species richness Water storage Wetlands
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description	Land use change could affect not only local species richness but also community assemblies. Essentially, the possible patterns of plant community assemblies are nonrandom species loss (nestedness) and species turnover. Plant community assemblies in human-mediated land use have a combination of both nestedness and turnover. This is because of historical effects that cause nonrandom species loss due to previous and/or original habitat quality and because of direct effects of human activities that cause species turnover. We investigated the complexity of the process of plant community assemblage in a paddy field, which is a typical agricultural land use in the monsoon season in central Japan. Using multi-temporal plant monitoring records, we tested the relationship between the ratio of species nestedness/turnover through multi-temporal and both the original habitat conditions and the extent of human modification. The findings revealed that paddy fields that originated from wetland habitat had a high nestedness ratio, whereas paddy fields that were largely consolidated had a high turnover ratio. Thus, we could divide the community assembly processes in human-mediated land use based on original habitat conditions and human activities. This concept could help land managers establish conservation and/or restoration plans that take into account community assembly.
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subjects	631/158/4016 631/158/670 631/158/672 631/158/853 Agricultural land Aquatic habitats Deoxyribonucleic acid DNA DNA damage DNA-directed DNA polymerase Environmental quality Humanities and Social Sciences Land management Land use Mitochondria Monsoons multidisciplinary Plant communities Primase Primers Replicase Replication protein A Science Science (multidisciplinary) Species richness Water storage Wetlands
title	Paddy fields located in water storage zones could take over the wetland plant community
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