Molecular ecology of insect pests of agricultural importance: the case of aphids

Morales‐Hojas, Ramiro

doi:10.1111/een.12445

Cited by 6 publications

(5 citation statements)

References 120 publications

(145 reference statements)

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“…Individuals of S. avenae were collected using the network of 12.2 m high suction traps that is run by Rothamsted Insect Survey (RIS). The RIS suction traps are continuously collecting flying insects, and during the aphid season, aphid samples are identified daily to species level (Morales‐Hojas, 2017; Storkey et al., 2016); of the identified aphids, 10 individuals of S. avenae collected during June–July 2018 with suction traps located in 12 sites across England (Starcross, Wye, Writtle, Broom's Barn, Kirton, Rothamsted, Silwood Park, Wellesbourne, Hereford, Preston, York, and Newcastle; see Table 1 and Figure 1) were used for this study. Individuals of S. miscanthi were collected in 10 sites (Kunming, Mianyang, Wuhan, Qingdao, Tai'an, Pingliang, Yinchuan, Langfang, Taigu, and Suzhou) across the cereal growing areas of China between February and June of 2017 (Table 1, Figure 1).…”

Section: Methodsmentioning

confidence: 99%

Contrasting population structure and demographic history of cereal aphids in different environmental and agricultural landscapes

Morales‐Hojas

Sun

Alvira-Iraizoz

et al. 2020

Ecology and Evolution

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Section: Methodsmentioning

confidence: 99%

Contrasting population structure and demographic history of cereal aphids in different environmental and agricultural landscapes

Morales‐Hojas

Sun

Alvira-Iraizoz

et al. 2020

Ecology and Evolution

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“…DNA metabarcoding has great potential for monitoring insect pests in agriculture (Evans et al ., ; Morales‐Hojas, ) and will be greatly aided by expanding reference sequence databases for conclusive detection of pest species (Piper et al ., ). In addition, DNA metabarcoding has been tested as an effective alternative for vector and arbovirus surveillance, which is an issue that concerns public health (Schneider et al ., ).…”

Section: Future Research and Challengesmentioning

confidence: 99%

A practical guide to DNA metabarcoding for entomological ecologists

Liu

Clarke

Baker

et al. 2019

Ecological Entomology

106

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1. DNA metabarcoding is a cost-effective species identification approach with great potential to assist entomological ecologists. This review presents a practical guide to help entomological ecologists design their own DNA metabarcoding studies and ensure that sound ecological conclusions can be obtained.2. The review considers approaches to field sampling, laboratory work, and bioinformatic analyses, with the aim of providing the background knowledge needed to make decisions at each step of a DNA metabarcoding workflow.3. Although most conventional sampling methods can be adapted to DNA metabarcoding, this review highlights techniques that will ensure suitable DNA preservation during field sampling and laboratory storage. The review also calls for a greater understanding of the occurrence, transportation, and deposition of environmental DNA when applying DNA metabarcoding approaches for different ecosystems.4. Accurate species detection with DNA metabarcoding needs to consider biases introduced during DNA extraction and PCR amplification, cross-contamination resulting from inappropriate amplicon library preparation, and downstream bioinformatic analyses. Quantifying species abundance with DNA metabarcoding is in its infancy, yet recent studies demonstrate promise for estimating relative species abundance from DNA sequencing reads. 5. Given that bioinformatics is one of the biggest hurdles for researchers new to DNA metabarcoding, several useful graphical user interface programs are recommended for sequence data processing, and the application of emerging sequencing technologies is discussed.

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“…The population genetics of insect pests is currently based on molecular marker techniques (MacDonald & Loxdale, ; Behura, ; Morales‐Hojas, ) and provides valuable information for management strategies (Porretta et al ., ; Karsten et al ., ). With this information, the genetic data and the distribution pattern of pest insects can be accessed and used in the development of suitable control methods (Rollins et al ., ).…”

Section: Introductionmentioning

confidence: 99%

Population genetic structure of Zeugodacus tau species complex in Thailand

Kitthawee

Julsirikul

2019

Agri and Forest Entomology

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1 The tephritid fruit fly Zeugodacus tau is a serious agriculture pest, especially of cucurbits in Thailand, where it is classified as a complex species of nine siblings (Z. tau A, B, C, D, E, F, G, I and J). 2 Based on single-strand conformation polymorphism (SSCP) analysis, 33 distinct mitochondrial cytochrome c oxidase subunit I (mtCOI) haplotypes were found in three sibling species, Z. tau A, C and J, in Thailand. Genetic structure analysis of the population revealed relatively large genetic differences among these sibling species, reflecting a tendency toward speciation. 3 The maximum likelihood tree and median-joining network reconstructed from the mtCOI sequences of 33 haplotypes supported the separation of these three sibling species within the Z. tau complex. 4 The three-level hierarchical analysis of molecular variance based on geographical regions and the Mantel test for isolation-by-distance showed significant genetic structuring of the Z. tau complex in Thailand. 5 However, the genetic differentiation among geographical groups was rather low, which may be reasonably explained by natural and human mediated dispersal, as well as host associated differentiation. 6 The SSCP analysis on the population genetic structure of Z. tau species complex in the present study should benefit pest management.

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Molecular ecology of insect pests of agricultural importance: the case of aphids

Cited by 6 publications

References 120 publications

Contrasting population structure and demographic history of cereal aphids in different environmental and agricultural landscapes

Contrasting population structure and demographic history of cereal aphids in different environmental and agricultural landscapes

A practical guide to DNA metabarcoding for entomological ecologists

Population genetic structure of Zeugodacus tau species complex in Thailand

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