Cai X M, Li Z Q, Pan H S, Lv Y H. 2018. Research and application of food-based attractants of herbivorous insect pests. Chinese Journal of Biological Control, 34, 8–35. (in Chinese)
Cheng S Y, Xie Y, Feng X L, Huang L F. 2012. Study of the volatile constituents in radix Flemingiae macrophyllae and a substitute by gas chromatography-mass spectrometry and chemometric methods. Molecules, 17, 14111–14125.
Cook S M, Khan Z R, Pickett J A. 2007. The use of push-pull strategies in integrated pest management. Annual Review of Entomology, 52, 375–400.
Gregg P C, Del Socorrol A P, Hawes A J, Binns M R. 2016. Developing bisexual attract-and-kill for polyphagous insects. Journal of Chemical Ecology, 42, 666–675.
Han B Y, Chen Z M. 2002. Composition of the volatiles from intact and mechanically pierced tea aphid-tea shoot complexes and their attraction to natural enemies of the tea aphid. Journal of Agricultural and Food Chemistry, 50, 2571–2575.
Han S J, Pan C, Han B Y. 2016. Changes in volatiles of tea shoots damaged by tea green leafhoppers and their attraction to Schizophragma parvula Ogloblin. Chinese Journal of Biological Control, 32, 142–148. (in Chinese)
Jiang L R, Liu S A, Han B Y, Ouyang L M. 2010. Effect of odours from seven species of host and non-host plants on the adult behaviour of the tea geometrid, Ectropis obliqua (Prout). Acta Ecologica Sinica, 30, 4993–5000. (in Chinese)
Liu J H, Gao L X, Gao Y Q, Huo X. 2003. Study on the chemical constituents of volatile oil from radix Flemingiae Philippinensis. Chinese Traditional Patent Medicine, 25, 485–487. (in Chinese)
Miyazaki H, Otake J, Mitsuno H, Ozaki K, Kanzaki R, Chieng A C T, Hee A K W, Nishida R, Ono H. 2018. Functional characterization of olfactory receptors in the Oriental fruit fly Bactrocera dorsalis that respond to plant volatiles. Insect Biochemistry and Molecular Biology, 101, 32–46.
Mu D, Cui L, Ge J, Wang M X, Liu L F, Yu X P, Zhang Q H, Han B Y. 2012. Behavioral responses for evaluating the attractiveness of specific tea shoot volatiles to the tea green leafhopper Empoasca vitis. Insect Science, 19, 229–238.
Navarro-Llopis V, Primo J, Vacas S. 2013. Efficacy of attract-and-kill devices for the control of Ceratitis capitata. Pest Management Science, 69, 478–482.
Njuguna P K, Murungi L K, Fombong A, Teal P E A, Beck J J, Torto B. 2018. Cucumber and tomato volatiles: Influence on attraction in the melon fly Zeugodacus cucurbitate (Diptera: Tephritidae). Journal of Agricultural and Food Chemistry, 66, 8504–8513.
Pan C. 2015. Efficacity of infochemicals of tea and lavender plant regulating behaviour of Empoasca vitis and Stethynium empoascae. MSc thesis, China Jiliang University, China. (in Chinese)
Piesik D, Pañka D, Delaney K J, Skoczek A, Lamparski R, Weaver D K. 2011. Cereal crop volatile organic compound induction after mechanical injury, beetle herbivory (Oulema spp.), or fungal infection (Fusarium spp.). Journal of Plant Physiology, 168, 878–886.
Pinto-Zevallos D M, Strapasson P, Zarbin P H G. 2016. Herbivore-induced volatile organic compounds emitted by maize: Electrophysiological responses in Spodoptera frugiperda females. Phytochemistry Letters, 16, 70–74.
Pu X Y, Feng M G. 2004. Efficacy of emulsifiable formulations of two entomopathogenic fungi against small green leafhoppers on tea plant. Chinese Journal of Applied Ecology, 15, 619–622. (in Chinese)
Reher T, Van Kerckvoorde V, Loes Verheyden, Wenseleers T, Beliën T, Bylemans D, Martens J A. 2019. Evaluation of hop (Humulus lupulus) as a repellent for the management of Drosophila suzukii. Crop Protection, 124, 1–6.
Sun H N, Zhang F, Chen S M, Guan Z Y, Jiang J F, Fang W M, Chen F D. 2015. Effects of aphid herbivory on volatile organic compounds of Artemisia annua and Chrysanthemum morifolium. Biochemical Systematics and Ecology, 60, 225–233.
Wang M X, Li H X, Wu W Z, Sun H C, Shi S P, Ding Y, Cao C H, Han B Y. 2016. Behavioral responses of Empoasca vitis Gothe to volatiles from tea shoots. Chinese Journal of Applied Entomology, 53, 507–515. (in Chinese)
Xu Q X, Hatt S, Lopes T, Zhang Y, Bodson B, Chen J, Francis F. 2017. A push-pull strategy to control aphids combines intercropping with semiochemical releases. Journal of Pest Science, 91, 93–103.
Yan D, Xia H B, Li C, Liu S, Li Y M, Liao D F, Lin L M, Wu P. 2016. Research progress on medicinal plants of Flemingia Roxb. ex W. T. Ait. Chinese Traditional and Herbal Drugs, 47, 4456–4471. (in Chinese)
Zhang S. 2016. Studies on effect of intercropping of Flemingia macrophylla in tea plantation on community diversity of arthropod and foliage damaged percentage by insects. MSc thesis, University of Chinese Academy of Sciences, China. (in Chinese)
Zhang Z Q, Luo Z X, Gao Y, Bian L, Sun X L, Chen Z M. 2014. Volatiles from non-host aromatic plants repel tea green leafhopper Empoasca vitis. Entomologia Experimentalis et Applicata, 153, 156–169.
Zheng Y C, Niu Y Q, Cui G L, Zhou N N, Zhang X T, Wang M X, Cui L, Zheng Y T, Han B Y. 2013. Community composition and phototaxis of insects in tea plantations in southern Jiangsu Province during late fall. Acta Ecologica Sinica, 33, 5017–5025. (in Chinese)
Zhu D H, Wang Y L, Huang L F. 2012. Analysis of the volatile chemical constituents in Moghania Macrophylla by gas chromatography-mass spectrometry. Chemical Production and Technology, 19, 37–39. (in Chinese)
Zhuang J X, Fu J W, Su Q Q, Li J Y, Zhan Z X. 2009. The regional diversity of resistance of tea green leafhopper, Empoasca vitis (Göthe), to insecticides in Fujian Province. Journal of Tea Science, 29, 154–158. (in Chinese) |