Abundance, diversity and connectance of soil food web channels along environmental gradients in an agricultural landscape

Abundance, diversity and connectance of soil food web channels along environmental gradients in an agricultural landscape

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Soil food webs respond to anthropogenic and natural environmental variables and gradients. We studied abundance, connectance (a measure of the trophic interactions within each channel), and diversity in three different channels of the soil food web, each comprised of a resource-consumer pair the microbivore channel (microbes and their nematode grazers), the plant-herbivore channel (plants and plant-feeding nematodes), and the predator-prey channel (predatory nematodes and their nematode prey), and their associations with different gradients in a heterogeneous agricultural landscape that consisted of intensive row crop agriculture and grazed non-irrigated grasslands in central California. Samples were taken at three positions in relation to water channels water's edge, bench above waterway, and the adjacent arable or grazed field. Nematode communities, phospholipid fatty acid (PLFA) biomarkers, and soil properties (NH4 +-N, NO3 --N, total N, total C, pH, P, bulk density and soil texture) were measured, and riparian health ratings were scored. Environmental variables were obtained from publicly-available data sources (slope, elevation, available water capacity, erodability, hydraulic conductivity, exchangeable cation capacity, organic matter, clay and sand content and pH).The abundance and richness in most food web components were higher in grazed grasslands than in intensive agricultural fields. Consumers contributed less than their resources to the abundance and richness of the community in all channels. The association between richness and abundance for each component was strongest for the lowest trophic links (microbes, as inferred by PLFA) and weakest for the highest (predatory nematodes). The trophic interactions for the predator-prey and plant-herbivore channels were greater in the grassland than in the cropland. Fields for crops or grazing supported more interactions than the water's edge in the plant-herbivore and microbivore channels. Connectance increased with the total richness of each community. Higher connectance within the microbivore and predator-prey soil food web channels were associated with soil NO3 --N and elevation respectively, which served as surrogate indicators of high and low agricultural intensification. © 2011 Elsevier Ltd.

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Main Authors: Sánchez Moreno, Sara, Ferris, H., Young-Mathews, A., Culman, S. W., Jackson, L. E.
Format: journal article biblioteca
Language:English
Published: Elsevier 2011
Subjects:Nematodes, Plants, PLFA, Soil properties, Trophic relationships, Agroecosystem,
Online Access:http://hdl.handle.net/20.500.12792/4111
http://hdl.handle.net/10261/294555
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spelling dig-inia-es-10261-2945552023-02-20T10:39:49Z Abundance, diversity and connectance of soil food web channels along environmental gradients in an agricultural landscape Sánchez Moreno, Sara Ferris, H. Young-Mathews, A. Culman, S. W. Jackson, L. E. Nematodes Plants PLFA Soil properties Trophic relationships Agroecosystem Soil food webs respond to anthropogenic and natural environmental variables and gradients. We studied abundance, connectance (a measure of the trophic interactions within each channel), and diversity in three different channels of the soil food web, each comprised of a resource-consumer pair the microbivore channel (microbes and their nematode grazers), the plant-herbivore channel (plants and plant-feeding nematodes), and the predator-prey channel (predatory nematodes and their nematode prey), and their associations with different gradients in a heterogeneous agricultural landscape that consisted of intensive row crop agriculture and grazed non-irrigated grasslands in central California. Samples were taken at three positions in relation to water channels water's edge, bench above waterway, and the adjacent arable or grazed field. Nematode communities, phospholipid fatty acid (PLFA) biomarkers, and soil properties (NH4 +-N, NO3 --N, total N, total C, pH, P, bulk density and soil texture) were measured, and riparian health ratings were scored. Environmental variables were obtained from publicly-available data sources (slope, elevation, available water capacity, erodability, hydraulic conductivity, exchangeable cation capacity, organic matter, clay and sand content and pH).The abundance and richness in most food web components were higher in grazed grasslands than in intensive agricultural fields. Consumers contributed less than their resources to the abundance and richness of the community in all channels. The association between richness and abundance for each component was strongest for the lowest trophic links (microbes, as inferred by PLFA) and weakest for the highest (predatory nematodes). The trophic interactions for the predator-prey and plant-herbivore channels were greater in the grassland than in the cropland. Fields for crops or grazing supported more interactions than the water's edge in the plant-herbivore and microbivore channels. Connectance increased with the total richness of each community. Higher connectance within the microbivore and predator-prey soil food web channels were associated with soil NO3 --N and elevation respectively, which served as surrogate indicators of high and low agricultural intensification. © 2011 Elsevier Ltd. 2023-02-20T10:39:49Z 2023-02-20T10:39:49Z 2011 journal article Soil Biology and Biochemistry 43: 2374-2383 (2011) 0038-0717 http://hdl.handle.net/20.500.12792/4111 http://hdl.handle.net/10261/294555 10.1016/j.soilbio.2011.07.016 en none Elsevier
institution INIA ES
collection DSpace
country España
countrycode ES
component Bibliográfico
access En linea
databasecode dig-inia-es
tag biblioteca
region Europa del Sur
libraryname Biblioteca del INIA España
language English
topic Nematodes
Plants
PLFA
Soil properties
Trophic relationships
Agroecosystem
Nematodes
Plants
PLFA
Soil properties
Trophic relationships
Agroecosystem
spellingShingle Nematodes
Plants
PLFA
Soil properties
Trophic relationships
Agroecosystem
Nematodes
Plants
PLFA
Soil properties
Trophic relationships
Agroecosystem
Sánchez Moreno, Sara
Ferris, H.
Young-Mathews, A.
Culman, S. W.
Jackson, L. E.
Abundance, diversity and connectance of soil food web channels along environmental gradients in an agricultural landscape
description Soil food webs respond to anthropogenic and natural environmental variables and gradients. We studied abundance, connectance (a measure of the trophic interactions within each channel), and diversity in three different channels of the soil food web, each comprised of a resource-consumer pair the microbivore channel (microbes and their nematode grazers), the plant-herbivore channel (plants and plant-feeding nematodes), and the predator-prey channel (predatory nematodes and their nematode prey), and their associations with different gradients in a heterogeneous agricultural landscape that consisted of intensive row crop agriculture and grazed non-irrigated grasslands in central California. Samples were taken at three positions in relation to water channels water's edge, bench above waterway, and the adjacent arable or grazed field. Nematode communities, phospholipid fatty acid (PLFA) biomarkers, and soil properties (NH4 +-N, NO3 --N, total N, total C, pH, P, bulk density and soil texture) were measured, and riparian health ratings were scored. Environmental variables were obtained from publicly-available data sources (slope, elevation, available water capacity, erodability, hydraulic conductivity, exchangeable cation capacity, organic matter, clay and sand content and pH).The abundance and richness in most food web components were higher in grazed grasslands than in intensive agricultural fields. Consumers contributed less than their resources to the abundance and richness of the community in all channels. The association between richness and abundance for each component was strongest for the lowest trophic links (microbes, as inferred by PLFA) and weakest for the highest (predatory nematodes). The trophic interactions for the predator-prey and plant-herbivore channels were greater in the grassland than in the cropland. Fields for crops or grazing supported more interactions than the water's edge in the plant-herbivore and microbivore channels. Connectance increased with the total richness of each community. Higher connectance within the microbivore and predator-prey soil food web channels were associated with soil NO3 --N and elevation respectively, which served as surrogate indicators of high and low agricultural intensification. © 2011 Elsevier Ltd.
format journal article
topic_facet Nematodes
Plants
PLFA
Soil properties
Trophic relationships
Agroecosystem
author Sánchez Moreno, Sara
Ferris, H.
Young-Mathews, A.
Culman, S. W.
Jackson, L. E.
author_facet Sánchez Moreno, Sara
Ferris, H.
Young-Mathews, A.
Culman, S. W.
Jackson, L. E.
author_sort Sánchez Moreno, Sara
title Abundance, diversity and connectance of soil food web channels along environmental gradients in an agricultural landscape
title_short Abundance, diversity and connectance of soil food web channels along environmental gradients in an agricultural landscape
title_full Abundance, diversity and connectance of soil food web channels along environmental gradients in an agricultural landscape
title_fullStr Abundance, diversity and connectance of soil food web channels along environmental gradients in an agricultural landscape
title_full_unstemmed Abundance, diversity and connectance of soil food web channels along environmental gradients in an agricultural landscape
title_sort abundance, diversity and connectance of soil food web channels along environmental gradients in an agricultural landscape
publisher Elsevier
publishDate 2011
url http://hdl.handle.net/20.500.12792/4111
http://hdl.handle.net/10261/294555
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AT ferrish abundancediversityandconnectanceofsoilfoodwebchannelsalongenvironmentalgradientsinanagriculturallandscape
AT youngmathewsa abundancediversityandconnectanceofsoilfoodwebchannelsalongenvironmentalgradientsinanagriculturallandscape
AT culmansw abundancediversityandconnectanceofsoilfoodwebchannelsalongenvironmentalgradientsinanagriculturallandscape
AT jacksonle abundancediversityandconnectanceofsoilfoodwebchannelsalongenvironmentalgradientsinanagriculturallandscape
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