Identifying Molecular-Based Trophic Interactions as a Resource for Advanced Integrated Pest Management

Identifying Molecular-Based Trophic Interactions as a Resource for Advanced Integrated Pest Management

Biodiversity is an essential attribute of sustainable agroecosystems. Diverse arthropod communities deliver multiple ecosystem services, such as biological control, which are the core of integrated pest management programs. The molecular analysis of arthropod diets has emerged as a new tool to monit...

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Main Authors: Jason M. Schmidt, Angelita Acebes-Doria, Brett Blaauw, Arash Kheirodin, Swikriti Pandey, Kylie Lennon, Amos D. Kaldor, Pedro F. S. Toledo, Erin E. Grabarczyk
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:Insects
Subjects:
agricultural communities
ELISA
food-webs
gut content analysis
metabarcoding
molecular trophic interactions
Online Access:https://www.mdpi.com/2075-4450/12/4/358
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spelling doaj-173d88cc4ec841ec96720ba324db39972021-04-16T23:02:54ZengMDPI AGInsects2075-44502021-04-011235835810.3390/insects12040358Identifying Molecular-Based Trophic Interactions as a Resource for Advanced Integrated Pest ManagementJason M. Schmidt0Angelita Acebes-Doria1Brett Blaauw2Arash Kheirodin3Swikriti Pandey4Kylie Lennon5Amos D. Kaldor6Pedro F. S. Toledo7Erin E. Grabarczyk8Department of Entomology, Tifton Campus, University of Georgia, Tifton, GA 31794, USADepartment of Entomology, Tifton Campus, University of Georgia, Tifton, GA 31794, USADepartment of Entomology, Athens Campus, University of Georgia, Athens, GA 30602, USADepartment of Entomology, Tifton Campus, University of Georgia, Tifton, GA 31794, USADepartment of Entomology, Tifton Campus, University of Georgia, Tifton, GA 31794, USADepartment of Entomology, Tifton Campus, University of Georgia, Tifton, GA 31794, USADepartment of Entomology, Athens Campus, University of Georgia, Athens, GA 30602, USADepartment of Entomology, Tifton Campus, University of Georgia, Tifton, GA 31794, USASoutheast Watershed Research, USDA, Tifton, GA 31793, USABiodiversity is an essential attribute of sustainable agroecosystems. Diverse arthropod communities deliver multiple ecosystem services, such as biological control, which are the core of integrated pest management programs. The molecular analysis of arthropod diets has emerged as a new tool to monitor and help predict the outcomes of management on the functioning of arthropod communities. Here, we briefly review the recent molecular analysis of predators and parasitoids in agricultural environments. We focus on the developments of molecular gut content analysis (MGCA) implemented to unravel the function of community members, and their roles in biological control. We examine the agricultural systems in which this tool has been applied, and at what ecological scales. Additionally, we review the use of MGCA to uncover vertebrate roles in pest management, which commonly receives less attention. Applying MGCA to understand agricultural food webs is likely to provide an indicator of how management strategies either improve food web properties (i.e., enhanced biological control), or adversely impact them.https://www.mdpi.com/2075-4450/12/4/358agricultural communitiesELISAfood-websgut content analysismetabarcodingmolecular trophic interactions
collection DOAJ
language English
format Article
sources DOAJ
author Jason M. Schmidt
Angelita Acebes-Doria
Brett Blaauw
Arash Kheirodin
Swikriti Pandey
Kylie Lennon
Amos D. Kaldor
Pedro F. S. Toledo
Erin E. Grabarczyk
spellingShingle Jason M. Schmidt
Angelita Acebes-Doria
Brett Blaauw
Arash Kheirodin
Swikriti Pandey
Kylie Lennon
Amos D. Kaldor
Pedro F. S. Toledo
Erin E. Grabarczyk
Identifying Molecular-Based Trophic Interactions as a Resource for Advanced Integrated Pest Management
Insects
agricultural communities
ELISA
food-webs
gut content analysis
metabarcoding
molecular trophic interactions
author_facet Jason M. Schmidt
Angelita Acebes-Doria
Brett Blaauw
Arash Kheirodin
Swikriti Pandey
Kylie Lennon
Amos D. Kaldor
Pedro F. S. Toledo
Erin E. Grabarczyk
author_sort Jason M. Schmidt
title Identifying Molecular-Based Trophic Interactions as a Resource for Advanced Integrated Pest Management
title_short Identifying Molecular-Based Trophic Interactions as a Resource for Advanced Integrated Pest Management
title_full Identifying Molecular-Based Trophic Interactions as a Resource for Advanced Integrated Pest Management
title_fullStr Identifying Molecular-Based Trophic Interactions as a Resource for Advanced Integrated Pest Management
title_full_unstemmed Identifying Molecular-Based Trophic Interactions as a Resource for Advanced Integrated Pest Management
title_sort identifying molecular-based trophic interactions as a resource for advanced integrated pest management
publisher MDPI AG
series Insects
issn 2075-4450
publishDate 2021-04-01
description Biodiversity is an essential attribute of sustainable agroecosystems. Diverse arthropod communities deliver multiple ecosystem services, such as biological control, which are the core of integrated pest management programs. The molecular analysis of arthropod diets has emerged as a new tool to monitor and help predict the outcomes of management on the functioning of arthropod communities. Here, we briefly review the recent molecular analysis of predators and parasitoids in agricultural environments. We focus on the developments of molecular gut content analysis (MGCA) implemented to unravel the function of community members, and their roles in biological control. We examine the agricultural systems in which this tool has been applied, and at what ecological scales. Additionally, we review the use of MGCA to uncover vertebrate roles in pest management, which commonly receives less attention. Applying MGCA to understand agricultural food webs is likely to provide an indicator of how management strategies either improve food web properties (i.e., enhanced biological control), or adversely impact them.
topic agricultural communities
ELISA
food-webs
gut content analysis
metabarcoding
molecular trophic interactions
url https://www.mdpi.com/2075-4450/12/4/358
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