近期发表论文
2022年
[1] Zhou W, Munawar A, Zhang R, Gao Y*. Chapter 20 - China and Central Asia. Editors: Alyokhin A, Rondon S, Gao Y, Insect Pests of Potato (Second Edition), Academic Press, 2022, 361-369.
[2] Qian P, Quais M, Zhou WW, Ye J, Wang G, Wu M, Zhong J, Chen M, Yuan X, Zhu J, Feng J, Zhu ZR*. Effects of integrated rice-duck farming on weed pressure, herbivore-predator interactions and economic benefits.Biocontrol Science and Technology, 2022, 10.1080/09583157.2022.2044016.
[3] Wyckhuys K*, Zou Y, Wanger T, Zhou WW, Ge Y, Lu Y. Agro-ecology science relates to economic development but not global pesticide pollution. Journal of Environmental Management, 2022, 307, 114529.
[4] Ge Y, Chen X, Mao Z, Zhou W*. The parasite in the Ancient Tea Trees--Wireworm. Chinatea, 2022, 44, 32-35. (古茶树体内的寄生虫——金针虫, 中国茶叶)
[5] Wang Y, Ge Y, Zhang Y, Munawar A, Zhang Y, Mao L, Zhu Z, Zhou W*. Cloning and functional analysis of geranyllinalool synthase gene from the Brassica oleracea. Journal of Zhejiang University (Agric. & Life Sci.), 2022, accept. (结球甘蓝香叶基芳樟醇合酶基因的克隆及功能分析, 浙江大学学报)
[6] Mao Z, Ge Y, Zhang Y, Zhong J, Munawar A, Zhu Z, Zhou W*. Disentangling the potato tuber moth-induced early defense response by simulated herbivory in potato plants.Frontiers in Plant Science, 2022, 13, 902342.
[7] Ge Y, Zhong J, Zhang Y, He X, Liu L, Munawar A, Mao L, Zhu Z, Xu Y, Zhou W*. Changes in phytohormone levels and gene expression in potato plants in response to Potato virus Y and a nonvector insect. Journal of Zhejiang University (Agric. & Life Sci.), 2022, accept. (马铃薯应对马铃薯Y病毒与非介体昆虫胁迫的激素和基因表达变化, 浙江大学学报)
[8] He Y, Ma L, Pu Q, Mao Z, Wang S, Wang T, Pu J, Ning J, Abou El-Ela A, Zhou W*, Zhu Z*. Greenhouse trapping assessment and population dynamics of leaf miner Tuta absoluta (Meyrick) in E-shan, Southwest China. International Journal of Pest Management, 2022, doi.org/10.1080/09670874.2022.2084177.
[9] Munawar A, Zhang Y, Ge Y, Abou El-Ela A S, Mao Z, Ntiri E, Mao L, Zhu Z, Zhou W*. Heat stress affects potato's volatile emissions that mediate agronomically important trophic interactions. Plant, Cell & Environment, 2022, 45, 3036-3051.
[10] Bai Y, Zhou W, Zhu Z*. Effects of global warming on insect natural enemies. Journal of Zhejiang University (Agric. & Life Sci.), 2022, 48, 269-278 (气候变暖对天敌昆虫的影响, 浙江大学学报)
[11] Wang N, Zhang C, Chen M, Shi Z, Zhou Y, Shi X, Zhou W, Zhu Z*. Characterization of MicroRNAs associated with reproduction in the Brown Planthopper, Nilaparvata lugens. International Journal of Molecular Sciences, 2022, accepted.
[12] Zhang J, Zhang Y, Munawar A, Zheng Y, Zhu Z, Zhou W*. Progress in the biological control of Tuta absoluta. Journal of Zhejiang University (Agric. & Life Sci.), 2022, accepted (番茄潜夜蛾生物防治研究进展, 浙江大学学报)
[13] He Y, Mao Z, Wang T, Wang S, Ma L, Pu J, Ning J, Pu Q, Zhou W*, El-Ela A, Zhu Z*. Damage patterns of Tuta absoluta (Meyrick) and isolation effects of 14 Mesh Insect-proof net. Acta Agriculturae Boreali-occidentalis Sinica, 2022, accepted (番茄潜叶蛾危害特征及14目防虫网的隔离效果, 西北农业学报)
[14] Li Y, Liu Z, Liu C, Shi Z, Pang L, Chen C, Chen Y, Pan R, Zhou W, Chen X, Rokas A*, Huang J*, Shen X*. HGT is widespread in insects and contributes to male courtship in lepidopterans. Cell, 2022, 185, 1-3.
[15] Nawaz A, Sufyan M, Tayyab M, Ejaz A, Qayyum MA, Waseem M, Gogi MD, Arif MJ, Munawar A, Zhou W. Roles of protease inhibitors in recent trends of insect pest management. in Tanda AS ed. Advances in Integrated Pest Management Technology, Springer, 2022.
[16] Nawaz A, Gogi D, Sufyan M, Arshad MG, Ali Q, Tayyib M, Shahid R, Razzaq F, Zhou W. Advances in nanobiotechnology as sustainable solutions for insect pest management. in Tanda AS ed. Advances in Integrated Pest Management Technology, Springer, 2022.
[17] Pilianto J, Hu X, Hadiatullah H, Tsheko T, Munawar A, Abou El-Ela AS, Zhou W, Zhu Z*. Consumer perception of insect-based foods in the community of Zhejiang University. Berkala Penelitian Hayati, 2022, 28, 51-56.
2021年
[1] He XL, Cai YJ, Zhu JL, Zhang MD, Zhang YD, Ge Y, Zhu ZR, Zhou WW*, Wang GR*, Gao YL*. Identification and functional characterization of two putative pheromone receptors in the potato tuber moth, Phthorimaea operculella. Frontiers in Physiology, 2021, 11:618983.
[2] Shi XX, Zhu MF, Wang N, Huang YJ, Zhang MJ, Zhang C, Ali SA, Zhou WW, Zhang CX, Mao CG*, Zhu ZR*. Neutral ceramidase is required for reproduction of brown planthopper, Nilaparvata lugens (Stal). Frontiers in Physiology, 2021, 12:629532.
[3] Burra, DD; Pretty, J; Neuenschwander, P.; Liu, Z; Zhu, ZR*; Wyckhuys, KAG*. 2021. Human health outcomes of a restored ecological balance in African agro-landscapes. Science of The Total Environment 775. 145872. DOI10.1016/j.scitotenv.2021.145872.
[4] Wang N, Shi XX, Zhang C, Zhou WW*, Zhu ZR*. Extraction and quantification of Sphingolipids from hemiptera insects by Ultra-performance liquid chromatography coupled to tandem mass spectrometry. Bio-protocol, 2021, 11:e3923.
[5] Sun J, Pang S, Wang X, Wang GH, Zhu ZR, Cheng JA & Bai YY. 2021. Correction to: Molecular quantification of spider preying on springtails in winter-spring fallow waterlogged paddy fields. Appl Entomol Zool (2021). https://doi.org/10.1007/s13355-021-00724-y.
[6] Zhang MJ, Shi XX, Wang N, Zhang C, Zhang CH, Quais MK, Ali SA, Zhou WW, Mao CG*, Zhu ZR*. Transcriptional changes revealed genes and pathways involved in the deficient testis caused by the inhibition of alkaline ceramidase (Dacer) in Drosophila melanogaster. Archives of Insect Biochemistry & Physiology, 2021, doi.org/10.1002/arch.21765.
[7] Du X, Liu X, Zhou WW, Yang YL, Hu XQ, Gao YL*. The research progress and prospect of biological control of potato tuber moth, Phthorimaea operculella (Zeller). Chinese Journal of Biological Control, 2021, 37:60-69. (马铃薯块茎蛾生物防治研究进展与展望,中国生物防治学报)
[8]Heong K. L., Z. R. Zhu, Z. X. Lu, M. Escalada, H. V. Chien, L. Q. Cuong and J. Cheng. 2021.Area-wide management of rice planthopper pests in Asia through integration of ecological engineering and communications strategies. in: J. Hendrichs, R. Pereira and M. J. B. Vreysen (eds.), Area-Wide Integrated Pest Management: Development and Field Application, pp. 617–631. CRC Press, Boca Raton, Florida, USA. © 2021 IAEA
[9]Heong, Kong-Luen, Zhong-Xian Lu, Ho-Van Chien, Monina Escalada, Josef Settele, Zeng-Rong Zhu, and Jia-An Cheng. 2021. Ecological Engineering for Rice Insect Pest Management: The Need to Communicate Widely, Improve Farmers’ Ecological Literacy and Policy Reforms to Sustain Adoption. Agronomy 11, no. 11: 2208.
[10] Qian P, Bai YL, Zhou WW, Yu H, Zhu ZJ, Wang GY, Quais MK, Li FQ, Chen Y, Tan Y, Shi XX, Wang XQ, Zhong XM, Zhu ZR*. Diversified bund vegetation coupled with flowering plants enhances predator population and early-season pest control. Environmental Entomology, 2021, doi: 10.1093/ee/nvab027.
[11] Zhang MJ*, Shi XX, Bai YL*, Zhou WW*, Zhu ZR*. Sphingolipid composition and metabolism differ in three auchenorrhynchous pests of rice. Journal of Asia-Pacific Entomology, https://doi.org/10.1016/j.aspen.2021.06.013.
[12] Bai YL, Quais MK, Zhou WW, Zhu ZR*. Consequences of elevated temperature on the biology, predation, and competitiveness of two mirid predators in the rice ecosystem. Journal of Pest Sciences, 2021, doi.org/10.1007/s10340-021-01414-y.
[13] Pozsgai G, Lövei G, Vasseur L, Gurr G, Batáry P, Korponai J, Littlewood N, Liu J, Móra A, Obrycki J, Reynolds O, Stockan J, VanVolkenburg H, Zhang J, Zhou W, You M*. Irreproducibility in searches of scientific literature: a comparative analysis. Ecology and Evolution, 2021, 11:14658-14668.
[14] Bai YL, Shi ZM, Zhou WW, Wang GY, Shi XX, He K*, Li F, Zhu ZR*. Chromosome-level genome assembly of the mirid predator Cyrtorhinus lividipennis Reuter (Hemiptera: Miridae), an important natural enemy in the rice ecosystem. Molecular Ecology Resources, 2021, 10.1111/1755-0998.13516.
[15] Wang N, Shi XX, Zhang C, Zhou WW, Zhu ZR*. Progress in Research on the regulatory role of microRNA in the metamorphosis and reproduction of hemimetabolous insects. Chinese Journal of Applied Entomology, 2021, 58(MicroRNA对不完全变态昆虫变态及生殖调控作用的研究进展, 应用昆虫学报)