Phylogenetic dependence of plant–soil feedback promotes rare species in a subtropical forest

Negative plant–soil feedback (PSF) has been widely considered to be a primary mechanism maintaining plant diversity. Previous studies have shown that rare species suffer stronger negative conspecific PSF than common species, but it remains unclear how rare species persist if they are more strongly s...

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Published in	The Journal of ecology Vol. 110; no. 6; pp. 1237 - 1246
Main Authors	Jiang, Yuan, Wang, Zihui, Chu, Chengjin, Kembel, Steven W., He, Fangliang
Format	Journal Article
Language	English
Published	Oxford Blackwell Publishing Ltd 01.06.2022
Subjects	Coexistence conspecific plant–soil feedback Conspecifics Feedback Field tests heterospecific plant–soil feedback Neighborhoods phylogenetic conservatism Phylogenetics Phylogeny Plant diversity plant–soil (below‐ground) interactions Rare species Seedlings Soil Soil testing Soils species coexistence subtropical forest the persistence of rare species Tropical forests
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Abstract	Negative plant–soil feedback (PSF) has been widely considered to be a primary mechanism maintaining plant diversity. Previous studies have shown that rare species suffer stronger negative conspecific PSF than common species, but it remains unclear how rare species persist if they are more strongly self‐limited. Here, we used shade‐house and field experiments to test soil feedback effects of phylogenetically related species on seedling growth, with seven species of contrasting local abundance, in a subtropical forest, China. We quantified the PSF of conspecifics and heterospecifics and assessed the phylogenetic dependence of the feedback. Both experiments showed that although rare species suffered strong negative PSF in soils of conspecifics or phylogenetically close heterospecifics, no such feedback was found in the soils of phylogenetically distant heterospecifics. In contrast, common species had no or weak negative conspecific PSF but strong heterospecific soil PSF. Synthesis. The variation in the phylogenetically dependent PSF among rare and common species evidenced in this study ensures that rare species would grow well in the neighbourhood of phylogenetically distant heterospecifics but do poorly under their own or close relatives, while common species perform relatively well in their own neighbourhood but poorly in other's neighbourhood. This phylogenetically dependent PSF facilitates the rare–common species coexistence in communities. The variation in the phylogenetically dependent PSF among rare and common species evidenced in this study ensures that rare species would grow well in the neighbourhood of phylogenetically distant heterospecifics but do poorly under their own or close relatives, while common species perform relatively well in their own neighbourhood but poorly in other's neighbourhood. This phylogenetically dependent PSF facilitates the rare–common species coexistence in communities. Editor's Choice
AbstractList	Abstract Negative plant–soil feedback (PSF) has been widely considered to be a primary mechanism maintaining plant diversity. Previous studies have shown that rare species suffer stronger negative conspecific PSF than common species, but it remains unclear how rare species persist if they are more strongly self‐limited. Here, we used shade‐house and field experiments to test soil feedback effects of phylogenetically related species on seedling growth, with seven species of contrasting local abundance, in a subtropical forest, China. We quantified the PSF of conspecifics and heterospecifics and assessed the phylogenetic dependence of the feedback. Both experiments showed that although rare species suffered strong negative PSF in soils of conspecifics or phylogenetically close heterospecifics, no such feedback was found in the soils of phylogenetically distant heterospecifics. In contrast, common species had no or weak negative conspecific PSF but strong heterospecific soil PSF. Synthesis . The variation in the phylogenetically dependent PSF among rare and common species evidenced in this study ensures that rare species would grow well in the neighbourhood of phylogenetically distant heterospecifics but do poorly under their own or close relatives, while common species perform relatively well in their own neighbourhood but poorly in other's neighbourhood. This phylogenetically dependent PSF facilitates the rare–common species coexistence in communities. Negative plant–soil feedback (PSF) has been widely considered to be a primary mechanism maintaining plant diversity. Previous studies have shown that rare species suffer stronger negative conspecific PSF than common species, but it remains unclear how rare species persist if they are more strongly self‐limited.Here, we used shade‐house and field experiments to test soil feedback effects of phylogenetically related species on seedling growth, with seven species of contrasting local abundance, in a subtropical forest, China. We quantified the PSF of conspecifics and heterospecifics and assessed the phylogenetic dependence of the feedback.Both experiments showed that although rare species suffered strong negative PSF in soils of conspecifics or phylogenetically close heterospecifics, no such feedback was found in the soils of phylogenetically distant heterospecifics. In contrast, common species had no or weak negative conspecific PSF but strong heterospecific soil PSF.Synthesis. The variation in the phylogenetically dependent PSF among rare and common species evidenced in this study ensures that rare species would grow well in the neighbourhood of phylogenetically distant heterospecifics but do poorly under their own or close relatives, while common species perform relatively well in their own neighbourhood but poorly in other's neighbourhood. This phylogenetically dependent PSF facilitates the rare–common species coexistence in communities. Negative plant–soil feedback (PSF) has been widely considered to be a primary mechanism maintaining plant diversity. Previous studies have shown that rare species suffer stronger negative conspecific PSF than common species, but it remains unclear how rare species persist if they are more strongly self‐limited. Here, we used shade‐house and field experiments to test soil feedback effects of phylogenetically related species on seedling growth, with seven species of contrasting local abundance, in a subtropical forest, China. We quantified the PSF of conspecifics and heterospecifics and assessed the phylogenetic dependence of the feedback. Both experiments showed that although rare species suffered strong negative PSF in soils of conspecifics or phylogenetically close heterospecifics, no such feedback was found in the soils of phylogenetically distant heterospecifics. In contrast, common species had no or weak negative conspecific PSF but strong heterospecific soil PSF. Synthesis. The variation in the phylogenetically dependent PSF among rare and common species evidenced in this study ensures that rare species would grow well in the neighbourhood of phylogenetically distant heterospecifics but do poorly under their own or close relatives, while common species perform relatively well in their own neighbourhood but poorly in other's neighbourhood. This phylogenetically dependent PSF facilitates the rare–common species coexistence in communities. The variation in the phylogenetically dependent PSF among rare and common species evidenced in this study ensures that rare species would grow well in the neighbourhood of phylogenetically distant heterospecifics but do poorly under their own or close relatives, while common species perform relatively well in their own neighbourhood but poorly in other's neighbourhood. This phylogenetically dependent PSF facilitates the rare–common species coexistence in communities. Editor's Choice
Author	He, Fangliang Chu, Chengjin Kembel, Steven W. Jiang, Yuan Wang, Zihui
Author_xml	– sequence: 1 givenname: Yuan orcidid: 0000-0001-8704-3676 surname: Jiang fullname: Jiang, Yuan organization: East China Normal University – sequence: 2 givenname: Zihui orcidid: 0000-0002-2512-7361 surname: Wang fullname: Wang, Zihui organization: East China Normal University – sequence: 3 givenname: Chengjin orcidid: 0000-0002-0606-449X surname: Chu fullname: Chu, Chengjin organization: Sun Yat‐sen University – sequence: 4 givenname: Steven W. surname: Kembel fullname: Kembel, Steven W. organization: Université du Québec à Montréal – sequence: 5 givenname: Fangliang orcidid: 0000-0003-0774-4849 surname: He fullname: He, Fangliang email: fhe@des.ecnu.edu.cn organization: University of Alberta
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Snippet	Negative plant–soil feedback (PSF) has been widely considered to be a primary mechanism maintaining plant diversity. Previous studies have shown that rare... Abstract Negative plant–soil feedback (PSF) has been widely considered to be a primary mechanism maintaining plant diversity. Previous studies have shown that...
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SubjectTerms	Coexistence conspecific plant–soil feedback Conspecifics Feedback Field tests heterospecific plant–soil feedback Neighborhoods phylogenetic conservatism Phylogenetics Phylogeny Plant diversity plant–soil (below‐ground) interactions Rare species Seedlings Soil Soil testing Soils species coexistence subtropical forest the persistence of rare species Tropical forests
Title	Phylogenetic dependence of plant–soil feedback promotes rare species in a subtropical forest
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