Multiple choice of Aphalara itadori for oviposition among three knotweed species
Data files
Jan 02, 2024 version files 17.16 KB
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EcolEvol_DATA.xlsx
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README.md
Abstract
Intraspecific hybridization between distinct populations could increase fitness and adaptive potential of biological control agents that often have low genetic diversity and can be inbred due to long-term laboratory rearing often at small population sizes. Hybridization can also alter host preference and performance when the parental insect populations are adapted to different host plants. We investigated the effects of hybridization between two populations (Northern and Southern) of the psyllid, Aphalara itadori, that have different fitness on three invasive knotweed species (Japanese, giant, and Bohemian). Fecundity, host choice, and developmental success of second-generation reciprocal hybrids and the parental psyllid populations were compared on the three knotweed species in multiple choice tests. Hybridization did not increase fecundity. All three knotweed species were accepted for oviposition without preference by the Southern and the two hybrid psyllid populations. The northern psyllid population laid the most eggs on Bohemian knotweeds but those were maladaptive choices since almost all eggs failed to develop. Developmental success of the parental psyllid populations was highest on the knotweed species they were originally collected from, on Japanese knotweed of the Southern psyllids and on giant knotweed of the Northern psyllids. Hybrids had intermediate or higher survival on given knotweed hosts compared to their parents. These results can inform release tactics of A. itadori in different regions especially where there appears to be climatic and/or host mismatches such as in Michigan. In southern Michigan, based on climate the Northern psyllid population should be released. However, the most common knotweed species in the region are Bohemian and Japanese knotweeds that do not support development of the Northern psyllids. In this case, hybrids that may carry cold adaptations of the Northern psyllids but have better developmental success on the prevailing knotweed species may be considered for release to increase establishment success.
README: Multiple choice cage experiment
https://doi.org/10.5061/dryad.bvq83bkgs
Give a brief summary of dataset contents, contextualized in experimental procedures and results.
Description of the data and file structure
Strain | refers to the four different populations of Aphalara itadori used in the experiments. The two parental strains are Kyushu and Hok (Hokkaido), and their reciprocal hybrids are FemKYU and FemHok with the names indicated where the female originated in the crosses. |
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Cage | in each cage there were 3 different knotweed plants |
Plant spp. | the three knotweed species within each cage: Japanese (Jap), Bohemian (Boh) or Giant knotweed |
Egg count | the number of eggs laid on each knotweed species within each cage by certain strains of psyllids |
Adult count | the number of adult psyllids emerging from each knotweed plant |
Mortality | the number of eggs that did not develop into adults |
Dev. Success | developmental success. The proportion of eggs that yielded adults. Calculated by dividing the number of adults that emerged (adult count) by the number of eggs laid on each plant (egg count). |
Methods
Data were collected in a laboratory/greenhouse experiment using potted plants that were caged in mesh cages. Plants were kept at ambient temperatures.