1. Evaluation of three molecular markers for identification of European primary parasitoids of cereal aphids and their hyperparasitoids
- Author
-
Ye, Zhengpei, Vollhardt, Ines M. G., Tomanovic, Zeljko, Traugott, Michael, and Desneux, Nicolas
- Subjects
Computer and Information Sciences ,Cell biology ,Evolutionary Processes ,Cellular structures and organelles ,Arthropoda ,Bioinformatics ,Speciation ,Wasps ,Sequence Databases ,lcsh:Medicine ,Artificial Gene Amplification and Extension ,Genes, Insect ,Research and Analysis Methods ,Biochemistry ,Polymerase Chain Reaction ,Host-Parasite Interactions ,Database and Informatics Methods ,RNA, Ribosomal, 16S ,Cryptic Speciation ,RNA, Ribosomal, 18S ,Animals ,Non-coding RNA ,Molecular Biology Techniques ,lcsh:Science ,Molecular Biology ,DNA sequence analysis ,Taxonomy ,Data Management ,Evolutionary Biology ,lcsh:R ,fungi ,Organisms ,Biology and Life Sciences ,food and beverages ,Invertebrates ,Insects ,Nucleic acids ,Biological Databases ,Ribosomal RNA ,Aphids ,RNA ,lcsh:Q ,Sequence databases ,Cryptic speciation ,Sequence alignment ,Polymerase chain reaction ,Edible Grain ,Sequence Analysis ,Sequence Alignment ,Ribosomes ,Biomarkers ,Research Article - Abstract
Aphids are major pests of cereal crops and a suite of hymenopteran primary parasitoids play an important role in regulating their populations. However, hyperparasitoids may disrupt the biocontrol services provided by primary parasitoids. As such, understanding cereal aphid-primary parasitoid-hyperparasitoid interactions is vital for a reliable parasitoid-based control of cereal aphids. For this, the ability to identify the different primary and hyperparasitoid species is necessary. Unfortunately, this is often difficult due to a lack of morphologically diagnostic features. DNA sequence-based species identification of parasitoids can overcome these hurdles. However, comprehensive DNA sequence information is lacking for many of these groups, particularly for hyperparasitoids. Here we evaluate three genes [cytochrome c oxidase subunit I (COI), 16S ribosomal RNA (16S) and 18S ribosomal RNA (18S)] for their suitability to identify 24 species of primary parasitoids and 16 species of hyperparasitoids associated with European cereal aphids. To identify aphelinid primary parasitoid species and hyperparasitoids, we found 16S to be more suitable compared to COI sequences. In contrast, the Aphidiinae are best identified using COI due to better species-level resolution and a more comprehensive DNA sequence database compared to 16S. The 18S gene was better suited for group-specific identification of parasitoids, but did not provide resolution at the species level. Our results provide a DNA sequence database for cereal aphid primary parasitoids and their associated hyperparasitoids in Central Europe, which will allow further improvement of our understanding of cereal aphid-primary parasitoid-hyperparasitoid interactions in relation to aphid biological control. peerReviewed
- Published
- 2017