Morrow P A, Fox Laurel R
Department of Ecology and Behavioural Biology, University of Minnesota, 318 Church St SE, 55455, Minneapolis, MN, USA.
Department of Environmental Biology, Research School of Biological Sciences, Australian National University, 2601, Canberra, A.C.T., Australia.
Oecologia. 1980 May;45(2):209-219. doi: 10.1007/BF00346462.
Levels of insect attack and yields of leaf essential oils in Eucalyptus vary widely within and among species. We tested the hypotheses that 1) metabolic cost of oil detoxification increases with increasing oil yield, resulting in lower herbivore growth rates and, consequently, 2) in lower herbivore damage to plants. Distribution of insect damage, eggs, immature insects and adults and feeding rates, growth and survivorship of insects do not support the hypotheses, although a threshold level of oil may be necessary to influence herbivorous insects. Herbivorous beetles tested do not detoxify essential oils. Levels of leaf nitrogen, rather than oil content, explained differences in insect feeding and growth.
桉树中昆虫侵害水平和叶片精油产量在种内和种间差异很大。我们检验了以下假设:1)精油解毒的代谢成本随精油产量增加而增加,导致食草动物生长速率降低,因此,2)对植物的食草动物损害也降低。昆虫损害、卵、未成熟昆虫和成虫的分布以及昆虫的取食速率、生长和存活率并不支持这些假设,尽管可能需要一定的精油阈值水平才能影响食草昆虫。所测试的食草甲虫不会对精油进行解毒。叶片氮含量而非含油量解释了昆虫取食和生长的差异。