3[4]Lindroth R.L.Adaptations ofQuaking Aspen for Defense Against Damage by Herbivores and Related Environmental Agents[J].USDA Forest Service Proceedings R/MRS-P-18,2001:273-284.
4[5]Picard S.,Chenault J.,Augustin S et al.Isolation of a new phenolic compound from leaves of Populus deltoides[J].Nat.Prod.,1994(57):808-810.
5[6]Sallè G.C.,Hariri E.B.Andary C.Polyphenoh and resistance of poplar (Populus spp.)to mistletoe(Viscum album L.)[J].Acta Hort.(ISHS),1994(381):756-762.
6[8]Hwang Shaw-Y.& R.L.Lindroth.Clonal variation in foliar chemistry of aspen:effects on gypsy moths and forest tent caterpillars[J].Oecologia,1997(111):99-108.
7[9]Offer T.L.and R.L.Lindroth Effects of genotype,nutrient availability,and defoliation on aspen phytochemistry and insect performance[J].Chem.Ecol.,2001,27(7):1289-1313.
8[10]Osier T.L.,Hwan S-Y and Lindroth R.L.Effects of phytochemical variation in quaking aspen Populus tremuloides clones on gypsy moth Lymantria dispar performance in the field and laboratory[J].Ecol.Entomol,2000(25):197-207.
6Dauterman W C.1988.昆虫的解毒机制.李绍文,王孟淑,曾耀辉,等译昆虫生物化学.北京:科学出版社,367-392.
7Gordon H T. 1961. Nutritional factors in insect resistance to chemicals. Annu Rev Entomol, 6( 1 ) :27 - 54.
8Lozinskaya Y L. 2004. Changes of the antioxidant status and system of generation of free radicals in hemolymph of Galleria mellonella larvae at Mierosporidiosis. Journal of Evolutionary Biochemistry and Physiology, 40 ( 2 ) : 119 - 125.
9Peric-Mataruga V, Blagojevic D, Spasic M. 1997. Effect of the host plant on the antioxidative defence in the midgut of Lymantria dispar L. caterpillars of different population origins. Journal of Insect Physiology, 43(1) :101 - 106.
10van Asperen K. 1962. A study of housefly esterases by means of a sensitive colorimetric method. Journal of Insect Physiology, 8 (4) : 401 -414, 415 -416,.
