Crop rotation and tillage affect nematode communities more than biocides in monoculture soybean

Long-term monoculture of susceptible soybeans naturally develops suppressiveness to soybean cyst nematode (SCN) Heterodera glycines if fields are not tilled or biocides applied. Nematode community indices, that integrate the responses of different taxa and trophic groups to perturbation, provide a t...

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Vydáno v:	Applied soil ecology : a section of Agriculture, ecosystems & environment Ročník 140; s. 89 - 97
Hlavní autoři:	Neher, Deborah A., Nishanthan, Tharshani, Grabau, Zane J., Chen, Senyu Y.
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Elsevier B.V 01.08.2019
Témata:	biocides Biological control community structure crop rotation Disease suppression ecological succession Free-living nematodes Heterodera glycines Maturity index nitrogen no-tillage Organic matter population ecology Principal response curves salinity soil ecology soybeans suppressive soils trophic levels Organic matter Principal response curves Maturity index Biological control Disease suppression Free-living nematodes
ISSN:	0929-1393
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Abstract	Long-term monoculture of susceptible soybeans naturally develops suppressiveness to soybean cyst nematode (SCN) Heterodera glycines if fields are not tilled or biocides applied. Nematode community indices, that integrate the responses of different taxa and trophic groups to perturbation, provide a tool to monitor the ecological status of soil communities. We tested the hypothesis that soil suppressiveness to Heterodera glycines is correlated positively to management practices that favor both greater trophic diversity (food web complexity) and a later stage ecological succession (less disturbance) within free-living nematode communities. A factorial combination of cultivation, crop rotation, and biocide application treatments were monitored for four years in a field with a history of no-till and monoculture of susceptible soybean for 15 years. Crop rotation had the greatest impact on nematode community index values followed by descending order of cultivation and biocides. Suppressive soils did have greater food web complexity, but not necessarily ecological succession. Nematode community composition was influenced by covariables nitrogen and organic matter content (mean 6.6%), but not pH or salinity. The study is novel by using a food web approach that includes multiple trophic levels rather than simply population ecology. •Relatively complex food webs correspond with suppressive soils.•Free-living nematode communities change when disease suppression is disrupted.•Suppressive soil contained a common core of bacterivores and omnivore-predators.•Crop rotation affected soil food web complexity more than cultivation and biocides.
AbstractList	Long-term monoculture of susceptible soybeans naturally develops suppressiveness to soybean cyst nematode (SCN) Heterodera glycines if fields are not tilled or biocides applied. Nematode community indices, that integrate the responses of different taxa and trophic groups to perturbation, provide a tool to monitor the ecological status of soil communities. We tested the hypothesis that soil suppressiveness to Heterodera glycines is correlated positively to management practices that favor both greater trophic diversity (food web complexity) and a later stage ecological succession (less disturbance) within free-living nematode communities. A factorial combination of cultivation, crop rotation, and biocide application treatments were monitored for four years in a field with a history of no-till and monoculture of susceptible soybean for 15 years. Crop rotation had the greatest impact on nematode community index values followed by descending order of cultivation and biocides. Suppressive soils did have greater food web complexity, but not necessarily ecological succession. Nematode community composition was influenced by covariables nitrogen and organic matter content (mean 6.6%), but not pH or salinity. The study is novel by using a food web approach that includes multiple trophic levels rather than simply population ecology. •Relatively complex food webs correspond with suppressive soils.•Free-living nematode communities change when disease suppression is disrupted.•Suppressive soil contained a common core of bacterivores and omnivore-predators.•Crop rotation affected soil food web complexity more than cultivation and biocides. Long-term monoculture of susceptible soybeans naturally develops suppressiveness to soybean cyst nematode (SCN) Heterodera glycines if fields are not tilled or biocides applied. Nematode community indices, that integrate the responses of different taxa and trophic groups to perturbation, provide a tool to monitor the ecological status of soil communities. We tested the hypothesis that soil suppressiveness to Heterodera glycines is correlated positively to management practices that favor both greater trophic diversity (food web complexity) and a later stage ecological succession (less disturbance) within free-living nematode communities. A factorial combination of cultivation, crop rotation, and biocide application treatments were monitored for four years in a field with a history of no-till and monoculture of susceptible soybean for 15 years. Crop rotation had the greatest impact on nematode community index values followed by descending order of cultivation and biocides. Suppressive soils did have greater food web complexity, but not necessarily ecological succession. Nematode community composition was influenced by covariables nitrogen and organic matter content (mean 6.6%), but not pH or salinity. The study is novel by using a food web approach that includes multiple trophic levels rather than simply population ecology.
Author	Nishanthan, Tharshani Grabau, Zane J. Neher, Deborah A. Chen, Senyu Y.
Author_xml	– sequence: 1 givenname: Deborah A. surname: Neher fullname: Neher, Deborah A. email: dneher@uvm.edu organization: Department of Plant and Soil Science, University of Vermont, 63 Carrigan Drive, Burlington, VT 05405, USA – sequence: 2 givenname: Tharshani surname: Nishanthan fullname: Nishanthan, Tharshani organization: Department of Plant and Soil Science, University of Vermont, 63 Carrigan Drive, Burlington, VT 05405, USA – sequence: 3 givenname: Zane J. surname: Grabau fullname: Grabau, Zane J. organization: Department of Entomology and Nematology, University of Florida, 1881 Natural Area Drive, Gainesville, FL 32611, USA – sequence: 4 givenname: Senyu Y. surname: Chen fullname: Chen, Senyu Y. organization: University of Minnesota Southern Research and Outreach Center, 35838 120th Street, Waseca, MN 56093, USA
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Snippet	Long-term monoculture of susceptible soybeans naturally develops suppressiveness to soybean cyst nematode (SCN) Heterodera glycines if fields are not tilled or...
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SubjectTerms	biocides Biological control community structure crop rotation Disease suppression ecological succession Free-living nematodes Heterodera glycines Maturity index nitrogen no-tillage Organic matter population ecology Principal response curves salinity soil ecology soybeans suppressive soils trophic levels
Title	Crop rotation and tillage affect nematode communities more than biocides in monoculture soybean
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