Investigating the role of soil mesofauna abundance and biodiversity for organic matter breakdown in arable fields

Investigating the role of soil mesofauna abundance and biodiversity for organic matter breakdown in arable fields

Intact soil food webs are pivotal to maintaining essential soil functions, such as carbon recycling, sequestering, and biomass production. Although the functional role of micro‐ (e.g., bacteria and fungi) and macrofauna (e.g., earthworms) is comparatively well established, the importance of the meso...

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Veröffentlicht in:Integrated environmental assessment and management 2022-09, Vol.18 (5), p.1423-1433
Hauptverfasser: Pamminger, Tobias, Bottoms, Melanie, Cunningham, Heidi, Ellis, Sian, Kabouw, Patrick, Kimmel, Stefan, Loutseti, Stefania, Marx, Michael Thomas, Nopper, Joachim Harald, Schimera, Agnes, Schulz, Lennart, Sharples, Amanda, Staab, Frank, Ernst, Gregor
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Sprache:eng
Schlagworte:
Abundance
Acari
Aquatic insects
Arable land
Biodiversity
Breakdown
Collembola
Environmental assessment
Environmental Impact Assessment
Environmental management
Estimates
Food chains
Food webs
Functionals
Fungi
Insecticides
Integrated environmental assessment
Lindane
Macrofauna
Methamidophos
Microorganisms
Oligochaeta
Organic matter
Pesticides
Risk assessment
Sequestering
Soil
Soil function
Soils
Toxicology
Trophic levels
Worms
Zoobenthos
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container_end_page 1433
container_issue 5
container_start_page 1423
container_title Integrated environmental assessment and management
container_volume 18
creator Pamminger, Tobias
Bottoms, Melanie
Cunningham, Heidi
Ellis, Sian
Kabouw, Patrick
Kimmel, Stefan
Loutseti, Stefania
Marx, Michael Thomas
Nopper, Joachim Harald
Schimera, Agnes
Schulz, Lennart
Sharples, Amanda
Staab, Frank
Ernst, Gregor
description Intact soil food webs are pivotal to maintaining essential soil functions, such as carbon recycling, sequestering, and biomass production. Although the functional role of micro‐ (e.g., bacteria and fungi) and macrofauna (e.g., earthworms) is comparatively well established, the importance of the mesofauna community (e.g., abundance and diversity of Acari and Collembola) in maintaining soil functionality is less clear. We investigated this question in a six‐month field experiment in arable soil by actively manipulating mesofauna abundance and biodiversity through the application of two legacy insecticides (lindane and methamidophos) at sufficiently high doses to reduce mesofauna abundance (well above previously registered application rates; 2.5 and 7.5 kg a.s./ha for lindane, and 0.6 and 3 kg a.s./ha for methamidophos) and measure the impact on organic matter degradation. Our results demonstrate that both insecticides had reduced Collembola and Acari abundances by up to 80% over the study's six‐month duration. In addition, we observed less pronounced and more complex changes in mesofauna biodiversity over time. These included insecticide‐dependent temporal fluctuations (both reduction and increase) for different estimates (indices) of local (alpha)‐diversity over time and no lasting impact for most estimates after six months. Even at these exceptionally high field rates, Collembola and Acari diversity was observed to generally recover by six months. In contrast, considering organic matter breakdown, we found no evidence of a treatment‐related effect. These results suggest that organic matter breakdown in arable soils is likely driven by other trophic levels (e.g., microorganisms or earthworms) with only a limited influence of the mesofauna community. We discuss these findings with regard to their implications for our current understanding of soil food web function and future European soil risk assessments. Integr Environ Assess Manag 2022;18:1423–1433. © 2021 The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC). Key Points The insecticide treatments heavily reduced the Collembola and Acari abundances but showed a less pronounced effect on soil mesofauna diversity. The contribution of soil mesofauna to soil organic matter breakdown is limited in arable field soils and is mainly driven by soil microorganisms. The mini‐container test can represent
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Although the functional role of micro‐ (e.g., bacteria and fungi) and macrofauna (e.g., earthworms) is comparatively well established, the importance of the mesofauna community (e.g., abundance and diversity of Acari and Collembola) in maintaining soil functionality is less clear. We investigated this question in a six‐month field experiment in arable soil by actively manipulating mesofauna abundance and biodiversity through the application of two legacy insecticides (lindane and methamidophos) at sufficiently high doses to reduce mesofauna abundance (well above previously registered application rates; 2.5 and 7.5 kg a.s./ha for lindane, and 0.6 and 3 kg a.s./ha for methamidophos) and measure the impact on organic matter degradation. Our results demonstrate that both insecticides had reduced Collembola and Acari abundances by up to 80% over the study's six‐month duration. In addition, we observed less pronounced and more complex changes in mesofauna biodiversity over time. These included insecticide‐dependent temporal fluctuations (both reduction and increase) for different estimates (indices) of local (alpha)‐diversity over time and no lasting impact for most estimates after six months. Even at these exceptionally high field rates, Collembola and Acari diversity was observed to generally recover by six months. In contrast, considering organic matter breakdown, we found no evidence of a treatment‐related effect. These results suggest that organic matter breakdown in arable soils is likely driven by other trophic levels (e.g., microorganisms or earthworms) with only a limited influence of the mesofauna community. We discuss these findings with regard to their implications for our current understanding of soil food web function and future European soil risk assessments. Integr Environ Assess Manag 2022;18:1423–1433. © 2021 The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology &amp; Chemistry (SETAC). Key Points The insecticide treatments heavily reduced the Collembola and Acari abundances but showed a less pronounced effect on soil mesofauna diversity. The contribution of soil mesofauna to soil organic matter breakdown is limited in arable field soils and is mainly driven by soil microorganisms. The mini‐container test can represent a flexible supplemental tool in the risk assessment of pesticides, which could be used to directly address functional soil endpoints such as decomposition by soil microorganisms and/or mesofauna, and their interactions, if needed. 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Although the functional role of micro‐ (e.g., bacteria and fungi) and macrofauna (e.g., earthworms) is comparatively well established, the importance of the mesofauna community (e.g., abundance and diversity of Acari and Collembola) in maintaining soil functionality is less clear. We investigated this question in a six‐month field experiment in arable soil by actively manipulating mesofauna abundance and biodiversity through the application of two legacy insecticides (lindane and methamidophos) at sufficiently high doses to reduce mesofauna abundance (well above previously registered application rates; 2.5 and 7.5 kg a.s./ha for lindane, and 0.6 and 3 kg a.s./ha for methamidophos) and measure the impact on organic matter degradation. Our results demonstrate that both insecticides had reduced Collembola and Acari abundances by up to 80% over the study's six‐month duration. In addition, we observed less pronounced and more complex changes in mesofauna biodiversity over time. These included insecticide‐dependent temporal fluctuations (both reduction and increase) for different estimates (indices) of local (alpha)‐diversity over time and no lasting impact for most estimates after six months. Even at these exceptionally high field rates, Collembola and Acari diversity was observed to generally recover by six months. In contrast, considering organic matter breakdown, we found no evidence of a treatment‐related effect. These results suggest that organic matter breakdown in arable soils is likely driven by other trophic levels (e.g., microorganisms or earthworms) with only a limited influence of the mesofauna community. We discuss these findings with regard to their implications for our current understanding of soil food web function and future European soil risk assessments. Integr Environ Assess Manag 2022;18:1423–1433. © 2021 The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology &amp; Chemistry (SETAC). Key Points The insecticide treatments heavily reduced the Collembola and Acari abundances but showed a less pronounced effect on soil mesofauna diversity. The contribution of soil mesofauna to soil organic matter breakdown is limited in arable field soils and is mainly driven by soil microorganisms. The mini‐container test can represent a flexible supplemental tool in the risk assessment of pesticides, which could be used to directly address functional soil endpoints such as decomposition by soil microorganisms and/or mesofauna, and their interactions, if needed. 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source Wiley Online Library Journals Frontfile Complete
subjects Abundance
Acari
Aquatic insects
Arable land
Biodiversity
Breakdown
Collembola
Environmental assessment
Environmental Impact Assessment
Environmental management
Estimates
Food chains
Food webs
Functionals
Fungi
Insecticides
Integrated environmental assessment
Lindane
Macrofauna
Methamidophos
Microorganisms
Oligochaeta
Organic matter
Pesticides
Risk assessment
Sequestering
Soil
Soil function
Soils
Toxicology
Trophic levels
Worms
Zoobenthos
title Investigating the role of soil mesofauna abundance and biodiversity for organic matter breakdown in arable fields
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