FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3202221214> ?p ?o ?g. }

• W3202221214 endingPage "801" @default.
• W3202221214 startingPage "790" @default.
• W3202221214 abstract "Alternative food sources could sustain predator populations by influencing their performances including predation, development, and reproduction in periods of shortage or scarcity of prey under laboratory or fields conditions. The aim of this study was to explore suitability of cattail pollen (Typha orientalis) as an alternative food source for different stages of Amblyseius herbicolus (Chant) (Acari: Phytoseiidae) on their predation capacity against the eggs of whitefly Trialeurodes vaporariorum (Westwood) (Hemiptera: Aleyrodidae), and the developmental and reproductive responses of the predators to different diet switching regimes under laboratory conditions (T1: nymphs and early adults fed pollen; T2: nymphs fed pollen but early adults fed whitefly eggs; T3: nymphs fed whitefly eggs but early adults fed pollen; T4: nymphs and early adults fed whitefly eggs). Results in the diet switching experiment revealed that although A. herbicolus could prey on whitefly eggs in all the treatment groups, the predatory mites obviously differed in their capacity to prey on the target pest whitefly eggs when fed on cattail pollen and whitefly eggs during different developmental stages. A. herbicolus in group T2 revealed the highest average predation rate, being 1.31, 1.17, and 1.49 times those in groups T1, T3, and T4, respectively. Our results indicated that food sources including cattail pollen and whitefly eggs were suitable for A. herbicolus, because it was able to develop from egg to adult females in all the treatment groups. The mixed diets (T2 and T3 groups) revealed positive effects on the developmental and reproductive parameters of A. herbicolus females, leading to higher oviposition rates and shorter developmental durations when compared with those of groups T1 and T4. A. herbicolus in group T2 revealed the highest average oviposition rates (1.32, 1.26, and 1.81 times those in groups T1, T3 and T4, respectively); however, no significant differences were observed between the T1 and T3 groups. All the eggs of A. herbicolus succeeded in reaching adulthood, but the duration of egg to adult developmental time of A. herbicolus was different among the four treatment groups. The longest and shortest developmental times were obtained in groups T4 and T3, respectively. All the results in the present study demonstrated that A. herbicolus adult females can prey on T. vaporariorum eggs, and cattail pollen was suitable as an alternative or additional food source with high nutritional value for this predatory mite to enhance the predation capacity towards whitefly eggs because A. herbicolus can successfully complete its immature development as well as reproduction." @default.
• W3202221214 created "2021-10-11" @default.
• W3202221214 creator A5024567228 @default.
• W3202221214 creator A5075052298 @default.
• W3202221214 date "2021-10-01" @default.
• W3202221214 modified "2023-10-01" @default.
• W3202221214 title "Suitability of pollen as an alternative food source for different developmental stages of Amblyseius herbicolus (Chant) (Acari: Phytoseiidae) to facilitate predation on whitefly eggs" @default.
• W3202221214 cites W1551359082 @default.
• W3202221214 cites W1553862775 @default.
• W3202221214 cites W1574340857 @default.
• W3202221214 cites W1963629227 @default.
• W3202221214 cites W1983136628 @default.
• W3202221214 cites W1997698055 @default.
• W3202221214 cites W2009193392 @default.
• W3202221214 cites W2023851134 @default.
• W3202221214 cites W2026343064 @default.
• W3202221214 cites W2042248105 @default.
• W3202221214 cites W2049562474 @default.
• W3202221214 cites W2052602482 @default.
• W3202221214 cites W2080214275 @default.
• W3202221214 cites W2080933865 @default.
• W3202221214 cites W2092036694 @default.
• W3202221214 cites W2104596887 @default.
• W3202221214 cites W2105050038 @default.
• W3202221214 cites W2105319682 @default.
• W3202221214 cites W2129251843 @default.
• W3202221214 cites W2153726024 @default.
• W3202221214 cites W2179776560 @default.
• W3202221214 cites W2219679661 @default.
• W3202221214 cites W2324119764 @default.
• W3202221214 cites W2342898497 @default.
• W3202221214 cites W2344692031 @default.
• W3202221214 cites W2474700474 @default.
• W3202221214 cites W2516894686 @default.
• W3202221214 cites W2526013225 @default.
• W3202221214 cites W2579034936 @default.
• W3202221214 cites W2612651926 @default.
• W3202221214 cites W2738451056 @default.
• W3202221214 cites W2751391689 @default.
• W3202221214 cites W2810001335 @default.
• W3202221214 cites W2810865945 @default.
• W3202221214 cites W2886519180 @default.
• W3202221214 cites W2901201147 @default.
• W3202221214 cites W2913866448 @default.
• W3202221214 cites W2925320084 @default.
• W3202221214 cites W2933693216 @default.
• W3202221214 cites W2937844793 @default.
• W3202221214 cites W2944386665 @default.
• W3202221214 cites W2969588546 @default.
• W3202221214 cites W2979250834 @default.
• W3202221214 cites W2996054191 @default.
• W3202221214 cites W3000405423 @default.
• W3202221214 cites W3005489451 @default.
• W3202221214 cites W3008619380 @default.
• W3202221214 cites W3027261890 @default.
• W3202221214 cites W3047932529 @default.
• W3202221214 cites W3111604943 @default.
• W3202221214 cites W3119428667 @default.
• W3202221214 cites W3167171353 @default.
• W3202221214 doi "https://doi.org/10.24349/biv1-2hen" @default.
• W3202221214 hasPublicationYear "2021" @default.
• W3202221214 type Work @default.
• W3202221214 sameAs 3202221214 @default.
• W3202221214 citedByCount "3" @default.
• W3202221214 countsByYear W32022212142021 @default.
• W3202221214 countsByYear W32022212142022 @default.
• W3202221214 countsByYear W32022212142023 @default.
• W3202221214 crossrefType "journal-article" @default.
• W3202221214 hasAuthorship W3202221214A5024567228 @default.
• W3202221214 hasAuthorship W3202221214A5075052298 @default.
• W3202221214 hasBestOaLocation W32022212141 @default.
• W3202221214 hasConcept C144027150 @default.
• W3202221214 hasConcept C188382862 @default.
• W3202221214 hasConcept C18903297 @default.
• W3202221214 hasConcept C22508944 @default.
• W3202221214 hasConcept C2776988988 @default.
• W3202221214 hasConcept C2777201841 @default.
• W3202221214 hasConcept C2777943290 @default.
• W3202221214 hasConcept C2778043781 @default.
• W3202221214 hasConcept C2779283209 @default.
• W3202221214 hasConcept C2780618852 @default.
• W3202221214 hasConcept C2780755047 @default.
• W3202221214 hasConcept C2781436638 @default.
• W3202221214 hasConcept C33070731 @default.
• W3202221214 hasConcept C59822182 @default.
• W3202221214 hasConcept C85323577 @default.
• W3202221214 hasConcept C86803240 @default.
• W3202221214 hasConcept C90856448 @default.
• W3202221214 hasConcept C96857902 @default.
• W3202221214 hasConceptScore W3202221214C144027150 @default.
• W3202221214 hasConceptScore W3202221214C188382862 @default.
• W3202221214 hasConceptScore W3202221214C18903297 @default.
• W3202221214 hasConceptScore W3202221214C22508944 @default.
• W3202221214 hasConceptScore W3202221214C2776988988 @default.
• W3202221214 hasConceptScore W3202221214C2777201841 @default.
• W3202221214 hasConceptScore W3202221214C2777943290 @default.
• W3202221214 hasConceptScore W3202221214C2778043781 @default.
• W3202221214 hasConceptScore W3202221214C2779283209 @default.

• next