TY - JOUR
T1 - The effects of water pollution on the phylogenetic community structure of aquatic plants in the East Tiaoxi River, China
AU - Toyama, Hironori
AU - Bessho, Kazuhiro
AU - Huang, Liangliang
AU - Hirota, Shun K.
AU - Kano, Yuichi
AU - Mase, Keiko
AU - Sato, Tatsuro
AU - Naiki, Akiyo
AU - Li, Jianhua
AU - Shimatani, Yukihiro
AU - Yahara, Tetsukazu
N1 - Funding Information:
We thank all colleagues of the ecological laboratory of Kyushu University who provided helpful discussion. The present study was supported by a JSPS grant for Global Center of Excellence Program “Asian Conservation Ecology as a basis of human-nature mutualism” and the Ministry of science and technology of the people's Republic of China (Project No. 2016yfe0115800), and partially supported by the Environment Research and Technology Development Fund (S-9 & 4-1601) of the Ministry of the Environment, Japan, University of the Ryukyus Research Project Promotion Grant (Strategic Research Grant) (No. 17SP01302) and JSPS KAKENHI (15H02640 and 17K15175).
Funding Information:
We thank all colleagues of the ecological laboratory of Kyushu University who provided helpful discussion. The present study was supported by a JSPS grant for Global Center of Excellence Program “Asian Conservation Ecology as a basis of human‐nature mutualism” and the Ministry of science and technology of the people's Republic of China (Project No. 2016yfe0115800), and partially supported by the Environment Research and Technology Development Fund (S‐9 & 4‐1601) of the Ministry of the Environment, Japan, University of the Ryukyus Research Project Promotion Grant (Strategic Research Grant) (No. 17SP01302) and JSPS KAKENHI (15H02640 and 17K15175).
Publisher Copyright:
© 2019 John Wiley & Sons Ltd
PY - 2020/4/1
Y1 - 2020/4/1
N2 - Water pollution is one of the most serious aquatic environmental problems worldwide. In China, recent agricultural and industrial development has resulted in rapid changes in aquatic ecosystems. Here, we reveal the effects of water pollution on the phylogenetic community structure of aquatic macrophytes in the Tiaoxi River, China. We placed a rectangular plot at 47 sites within the Tiaoxi River from the mouth of the river to 88.5 km upstream, in which we recorded species abundance and measured 22 physico-chemical variables. Bayesian phylogeny using the rbcL and matK gene sequences was employed to quantify phylogenetic α- and β-diversity, and test the phylogenetic signal in four growth forms: emergent, floating-leaved, free-floating, and submerged. Within communities, water contamination and phytoplankton abundance decreased species richness and phylogenetic diversity, which resulted in phylogenetic clustering; species within communities were more closely related to each other than expected. Between communities, differences in geographical distance and phytoplankton abundance resulted in phylogenetic dissimilarity among plots. Aquatic macrophytes showed phylogenetic signals in which related species responded more similarly to disturbance. Thus, the observed patterns could be explained by environmental filtering and suggested that water pollution by human activity has added more filters to the existing environmental filters that drive the species assembly of macrophyte communities.
AB - Water pollution is one of the most serious aquatic environmental problems worldwide. In China, recent agricultural and industrial development has resulted in rapid changes in aquatic ecosystems. Here, we reveal the effects of water pollution on the phylogenetic community structure of aquatic macrophytes in the Tiaoxi River, China. We placed a rectangular plot at 47 sites within the Tiaoxi River from the mouth of the river to 88.5 km upstream, in which we recorded species abundance and measured 22 physico-chemical variables. Bayesian phylogeny using the rbcL and matK gene sequences was employed to quantify phylogenetic α- and β-diversity, and test the phylogenetic signal in four growth forms: emergent, floating-leaved, free-floating, and submerged. Within communities, water contamination and phytoplankton abundance decreased species richness and phylogenetic diversity, which resulted in phylogenetic clustering; species within communities were more closely related to each other than expected. Between communities, differences in geographical distance and phytoplankton abundance resulted in phylogenetic dissimilarity among plots. Aquatic macrophytes showed phylogenetic signals in which related species responded more similarly to disturbance. Thus, the observed patterns could be explained by environmental filtering and suggested that water pollution by human activity has added more filters to the existing environmental filters that drive the species assembly of macrophyte communities.
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U2 - 10.1111/fwb.13451
DO - 10.1111/fwb.13451
M3 - Article
AN - SCOPUS:85076731825
SN - 0046-5070
VL - 65
SP - 632
EP - 645
JO - Freshwater Biology
JF - Freshwater Biology
IS - 4
ER -