^ШХР: *https://onlinelibrary.wiley.com/loi/15707458
(https://onlinelibrary.wiley.com/loi/15707458)
^АВТ: Duy Long Pham; Ito Y.; Okada R.; Ikeno H. ; Kazama H.; Mori N.; Yamasaki M.
^ЗГЛ: Platypus quercivorus ambrosia beetles use leaf volatiles
in host selection [Изучение ольфакторной реакции имаго
долгоносика Platypus quercivorus (Coleoptera: Curculionidae)
на летучие вещества, выделяемые листьями кормовых растений
(виды дуба); опыты в Y-образном ольфактометре. (Япония)]
^ВЫХ: Entomologia Experimentalis et Applicata, 2020; Vol.168,N
12. - P. 928-939
^ДАТ: 2020
^ПРМ: Bibliogr.:p.937-939
+Реферат:
^РЕФ: Although chemical volatiles emitted from host and non-host trees have been suggested as important cues for bark and ambrosia beetles, their responses to leaf volatiles is poorly understood. The oak ambrosia beetle, Platypus quercivorus (Murayama) (Coleoptera: Curculionidae), is a vector for the fungus that causes Japanese oak wilt. Using a Y-tube olfactometer, we tested the behavioral response of P. quercivorus to leaf volatiles emitted from four host trees - Quercus crispula Blume, Quercus serrata Murray, Quercus salicina Blume, and Castanea crenata Sieb. & Zucc. (all Fagaceae) - and two non-host trees, Fagus crenata Blume (Fagaceae) and Cryptomeria japonica D. Don (Cupressaceae). A flight mill was used to evaluate the effect of flight on the behavioral response to leaf volatiles. The bioassays were repeated 10× before and 10× after flight in the flight mill for each of the 54 individual beetles. Leaf volatile components were analyzed using gas chromatography-mass spectrometry. The bioassay results supported our hypothesis: P. quercivorus was attracted by the leaf volatiles of hosts and was deterred by the leaf volatiles of non-hosts. The behavioral response of P. quercivorus to the leaf volatiles was stronger after flight. Males had a stronger behavioral response than females to leaf volatiles. The leaf volatile chemical profile of the non-host C. japonica differed from the profile of the host plants. However, the chemical profile of the non-host F. crenata was similar to the profile of the hosts. Our findings provide insight into the functions of leaf chemical volatiles in the interaction of P. quercivorus with its hosts and non-hosts and may help improve the control of P. quercivorus and Japanese oak wilt.
aref1
^TRN: 1919133
^ВИД: Статья из книги
^ЯЗК: Английский
+Индексирование:
^РУБ: 68_47_37_29
^УДК: 630*453; 630*17:582.623.2
^ТЕР: ДУБ (Oak (tree)). QUERCUS. ВРЕДИТЕЛИ ЛЕСА (Forest pests).
НАСЕКОМЫЕ-ВРЕДИТЕЛИ (Pest insects) [ВРЕДНЫЕ НАСЕКОМЫЕ].
PLATYPUS QUERCIVORUS. ЛЕТУЧИЕ СОЕДИНЕНИЯ (Volatile
compounds). ИМАГО. ОБОНЯНИЕ (Olfaction). КОРМОВЫЕ
РАСТЕНИЯ (Pasture plants). ЛИСТЬЯ (Leaves). ХИМИЧЕСКИЙ
СОСТАВ (Chemical composition). ОЛЬФАКТОМЕТРЫ. ЯПОНИЯ
(Japan).
^РТЗ: COLEOPTERA [ЖЕСТКОКРЫЛЫЕ]. FAGACEAE [БУКОВЫЕ].
PLATYPODIDAE [ПЛОСКОХОДЫ]. PLATYPUS. АЗИЯ (Asia).
БИОЛОГИЧЕСКОЕ РАЗВИТИЕ (Biological development). БИОЛОГИЯ
(Biology). ВОСТОЧНАЯ АЗИЯ (East Asia). ВРЕДИТЕЛИ РАСТЕНИЙ
(Pests of plants). ВРЕДНЫЕ БЕСПОЗВОНОЧНЫЕ. ВРЕДНЫЕ
ОРГАНИЗМЫ. ВРЕДНЫЕ ЧЛЕНИСТОНОГИЕ. ЕВРАЗИЯ (Eurasia).
ЛЕСНЫЕ ПОРОДЫ (Forest trees) [ПОРОДЫ ДЕРЕВЬЕВ].
ЛИСТВЕННЫЕ ПОРОДЫ (broadleaved species). НАСЕКОМЫЕ
(Insects) [INSECTA]. НАУКИ (science). ОНТОГЕНЕЗ
(Ontogenesis; Ontogeny) [ИНДИВИДУАЛЬНОЕ РАЗВИТИЕ].
ПЕРИОДЫ ОНТОГЕНЕЗА. ПРИБОРЫ. СТАДИИ РАЗВИТИЯ ЖИВОТНЫХ
(Animal developmental stages) [ФАЗЫ РАЗВИТИЯ ЖИВОТНЫХ].
СТРАНЫ АТЭС. СТРАНЫ МИРА. ФИЗИОЛОГИЯ ЖИВОТНЫХ (Animal
physiology). ФИЗИОЛОГИЯ (Physiology). ХАРАКТЕРИСТИКИ.
ХИМИЧЕСКИЕ СОЕДИНЕНИЯ (Chemical compounds). ЧЛЕНИСТОНОГИЕ
(Arthropods) [ARTHROPODA].