Cold tolerance of the mealybug parasitoid Anagyrus vladimiri

We investigated the lower thermal limits of Anagyrus vladimiri Triapitsyn (Hymenoptera: Encyrtidae), a natural enemy of mealybugs. Parasitoids were cooled to measure supercooling points and the lower lethal temperature LLT 50 . To investigate survival after long-term cold exposure, parasitoid adults...

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Veröffentlicht in:	BioControl (Dordrecht, Netherlands) Netherlands), 2024-04, Vol.69 (2), p.129-143
Hauptverfasser:	Gilliéron, Florence, Romeis, Jörg, Collatz, Jana
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Sprache:	eng
Schlagworte:	Adults Agriculture Animal Biochemistry Animal Ecology Behavioral Sciences Biomedical and Life Sciences Cold tolerance Cooling Developmental stages Eggs Entomology Experiments Exposure Greenhouses Insects Larvae Life Sciences Parasitoids Plant Pathology Pupae Supercooling Survival Temperature Thermocouples Winter
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description	We investigated the lower thermal limits of Anagyrus vladimiri Triapitsyn (Hymenoptera: Encyrtidae), a natural enemy of mealybugs. Parasitoids were cooled to measure supercooling points and the lower lethal temperature LLT 50 . To investigate survival after long-term cold exposure, parasitoid adults and eggs, larvae, and pupae within their host mummy were gradually acclimated. Adults were then exposed for three days to 7 °C, 5 °C, 3 °C, and 1 °C, and immatures for varying durations to 5, 1, and − 4 °C. Parasitoids were investigated for survival and reproduction. To assess the impact of fluctuating temperature, parasitoid pupae were subjected to daily warming to 10 °C from baseline temperatures of 5 °C, 1 °C, and − 4 °C during four-day-cold exposure. Finally, eggs, pupae and adults were exposed to winter conditions in Switzerland in a semi-field setup. The LLT 50 was − 17.24 °C for adults and 0.94 °C for pupae. Both values were above the supercooling points. No adult survived three days at 3 °C and lower. Likewise, no emergence occurred from eggs or larvae exposed for four days and longer to 1 °C or seven days to 5 °C. Pupae were cold-hardier surviving seven days at 5 °C and three days at 1 °C. Parasitoids surviving cold exposure were still able to reproduce. Daily warming decreased emergence of cold exposed pupae at a baseline temperature of 1 °C but not at 5 °C and − 4 °C. No eggs, pupae and adults survived winter conditions in the semi-field experiment. We thus consider A. vladimiri a chill-susceptible species with very limited cold-tolerance of the investigated population and low chances of survival during winter in Northern Switzerland.
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Parasitoids were cooled to measure supercooling points and the lower lethal temperature LLT 50 . To investigate survival after long-term cold exposure, parasitoid adults and eggs, larvae, and pupae within their host mummy were gradually acclimated. Adults were then exposed for three days to 7 °C, 5 °C, 3 °C, and 1 °C, and immatures for varying durations to 5, 1, and − 4 °C. Parasitoids were investigated for survival and reproduction. To assess the impact of fluctuating temperature, parasitoid pupae were subjected to daily warming to 10 °C from baseline temperatures of 5 °C, 1 °C, and − 4 °C during four-day-cold exposure. Finally, eggs, pupae and adults were exposed to winter conditions in Switzerland in a semi-field setup. The LLT 50 was − 17.24 °C for adults and 0.94 °C for pupae. Both values were above the supercooling points. No adult survived three days at 3 °C and lower. Likewise, no emergence occurred from eggs or larvae exposed for four days and longer to 1 °C or seven days to 5 °C. Pupae were cold-hardier surviving seven days at 5 °C and three days at 1 °C. Parasitoids surviving cold exposure were still able to reproduce. Daily warming decreased emergence of cold exposed pupae at a baseline temperature of 1 °C but not at 5 °C and − 4 °C. No eggs, pupae and adults survived winter conditions in the semi-field experiment. 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Parasitoids were cooled to measure supercooling points and the lower lethal temperature LLT 50 . To investigate survival after long-term cold exposure, parasitoid adults and eggs, larvae, and pupae within their host mummy were gradually acclimated. Adults were then exposed for three days to 7 °C, 5 °C, 3 °C, and 1 °C, and immatures for varying durations to 5, 1, and − 4 °C. Parasitoids were investigated for survival and reproduction. To assess the impact of fluctuating temperature, parasitoid pupae were subjected to daily warming to 10 °C from baseline temperatures of 5 °C, 1 °C, and − 4 °C during four-day-cold exposure. Finally, eggs, pupae and adults were exposed to winter conditions in Switzerland in a semi-field setup. The LLT 50 was − 17.24 °C for adults and 0.94 °C for pupae. Both values were above the supercooling points. No adult survived three days at 3 °C and lower. Likewise, no emergence occurred from eggs or larvae exposed for four days and longer to 1 °C or seven days to 5 °C. Pupae were cold-hardier surviving seven days at 5 °C and three days at 1 °C. Parasitoids surviving cold exposure were still able to reproduce. Daily warming decreased emergence of cold exposed pupae at a baseline temperature of 1 °C but not at 5 °C and − 4 °C. No eggs, pupae and adults survived winter conditions in the semi-field experiment. We thus consider A. vladimiri a chill-susceptible species with very limited cold-tolerance of the investigated population and low chances of survival during winter in Northern Switzerland.</description><subject>Adults</subject><subject>Agriculture</subject><subject>Animal Biochemistry</subject><subject>Animal Ecology</subject><subject>Behavioral Sciences</subject><subject>Biomedical and Life Sciences</subject><subject>Cold tolerance</subject><subject>Cooling</subject><subject>Developmental stages</subject><subject>Eggs</subject><subject>Entomology</subject><subject>Experiments</subject><subject>Exposure</subject><subject>Greenhouses</subject><subject>Insects</subject><subject>Larvae</subject><subject>Life Sciences</subject><subject>Parasitoids</subject><subject>Plant Pathology</subject><subject>Pupae</subject><subject>Supercooling</subject><subject>Survival</subject><subject>Temperature</subject><subject>Thermocouples</subject><subject>Winter</subject><issn>1386-6141</issn><issn>1573-8248</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><sourceid>C6C</sourceid><recordid>eNp9kE1LAzEQhoMoWKt_wFPAczSTj90seClFq1Dwoucw3SR1y3a3JrtC_73RFbx5mZnD-7wDDyHXwG-B8_IuAdeiYFwoBnmUTJ2QGehSMiOUOc23NAUrQME5uUhpxzOktZmR-2XfOjr0rY_Y1Z72gQ7vnu49tsfNuKUHjJiaoW8cXXS4PcYx0c8WXbNvYnNJzgK2yV_97jl5e3x4XT6x9cvqeblYs1qCGlhR6aJCEbDCoI3TUiAUXhrlValD6RxH5VwQgHU-Sgeh3nhvAExV-yCNnJObqfcQ-4_Rp8Hu-jF2-aWVXINQ2nDIKTGl6tinFH2wh9jsMR4tcPttyU6WbBZkfyxZlSE5QSmHu62Pf9X_UF-Fb2qG</recordid><startdate>20240401</startdate><enddate>20240401</enddate><creator>Gilliéron, Florence</creator><creator>Romeis, Jörg</creator><creator>Collatz, Jana</creator><general>Springer Netherlands</general><general>Springer Nature B.V</general><scope>C6C</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QG</scope><scope>7QL</scope><scope>7SN</scope><scope>7SS</scope><scope>7T7</scope><scope>7U9</scope><scope>8FD</scope><scope>C1K</scope><scope>FR3</scope><scope>H94</scope><scope>M7N</scope><scope>P64</scope><orcidid>https://orcid.org/0000-0002-8412-3790</orcidid><orcidid>https://orcid.org/0000-0003-3652-8360</orcidid></search><sort><creationdate>20240401</creationdate><title>Cold tolerance of the mealybug parasitoid Anagyrus vladimiri</title><author>Gilliéron, Florence ; 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subjects	Adults Agriculture Animal Biochemistry Animal Ecology Behavioral Sciences Biomedical and Life Sciences Cold tolerance Cooling Developmental stages Eggs Entomology Experiments Exposure Greenhouses Insects Larvae Life Sciences Parasitoids Plant Pathology Pupae Supercooling Survival Temperature Thermocouples Winter
title	Cold tolerance of the mealybug parasitoid Anagyrus vladimiri
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