|
董美林. 农药污染及环境保护措施研究. 山西农经, 2018. (21): 117.
|
|
Dong M L . Research on pesticide pollution and environmental protection measures. Shanxi Agricultural Economics, 2018. (21): 117.
|
|
杜顺堂, 朱明军, 梁世中. 生物农药多杀菌素的研究进展. 农药, 2005. (10): 441- 444, 451.
|
|
Du S T , Zhu M J , Liang S Z . Research progress of biopesticide spinosad. Agrochemicals, 2005. (10): 441- 444, 451.
|
|
范仁俊, 董晋明, 曹满, 等. 山西省沙棘病虫草害及相关天敌的调查. 沙棘, 1994. (3): 10- 13.
|
|
Fan R J , Dong J M , Cao M , et al. Investigation on the disease and related natural enemies of seabuckthorn in Shanxi Province. Hippophae, 1994. (3): 10- 13.
|
|
冯建国, 徐妍, 罗湘仁, 等. 浅谈溶剂蒸发法制备微胶囊与农药微胶囊的开发. 农药学学报, 2011. 13 (6): 568- 575.
|
|
Feng J G , Xu Y , Luo X R , et al. Development of microcapsules and pesticide microcapsules prepared by solvent evaporation method. Chin J Pestic Sci, 2011. 13 (6): 568- 575.
|
|
葛葆蔚, 李桂和, 张玉伟, 等. 沙棘果实蝇的初步研究. 辽宁林业科技, 1988. (3): 45- 46.
|
|
Ge B W , Li G H , Zhang Y W , et al. Preliminary study on fruit flies of seabuckthorn. Journal of Liaoning Forestry Science and Technology, 1988. (3): 45- 46.
|
|
华乃震. 农药微胶囊剂的加工和进展Ⅰ. 现代农药, 2010. 9 (3): 10- 14, 18.
|
|
Hua N Z . Processing and progress of pesticide microcapsules Ⅰ. Modern Agriculturals, 2010. 9 (3): 10- 14, 18.
|
|
贾艳梅, 叶永成, 郭中华, 等. 沙棘绕实蝇幼虫空间格局及其应用的初步研究. 陕西林业科技, 1998. (3): 78- 81.
|
|
Jia Y M , Ye Y C , Guo Z H , et al. Preliminary study on the spatial pattern of Rhagoletis batava obseuriosa larvae and its application. Journal of Shaanxi Forestry Science and Technology, 1998. (3): 78- 81.
|
|
李姮, 汪清民, 黄润秋. 多杀菌素的研究进展. 农药学学报, 2003. (2): 1- 12.
|
|
Li H , Wang Q M , Huang R Q . Research progress of spinosad. Chin J Pestic Sci, 2003. (2): 1- 12.
|
|
李宏梁, 高洁. 凯氏定氮法测定牛乳中酪蛋白含量. 食品科技, 2012. 37 (1): 243- 245.
|
|
Li H L , Gao J . Determination of casein content in milk by Kjeldahl method. Food Science and Technology, 2012. 37 (1): 243- 245.
|
|
柳玉红, 杜汉君. 黑龙江省东部地区沙棘主要病虫草害及综防技术. 农业科技通讯, 2008. (5): 153- 154.
|
|
Liu Y H , Du H J . Main diseases of seabuckthorn, cordyceps and integrated control technology in Eastern Heilongjiang Province. Journal of Agricultural Science and Technology, 2008. (5): 153- 154.
|
|
苏建亚, 沈晋良. 多杀菌素的生物合成. 中国生物工程杂志, (5):55-59, 2003. (5): 55- 59, 73.
|
|
Su J Y , Shen J L . Biosynthesis of spinosad. Journal of Chinese Biotechnology, 2003. (5): 55- 59, 73.
|
|
唐辉, 陈文, 姚新成, 等. 用均匀设计优选阿维菌素明胶微球的制备工艺. 石河子大学学报:自然科学版, 2002. (1): 15- 17.
|
|
Tang H , Chen W , Yao X C , et al. Preparation of avermectin gelatin microspheres by uniform design. Journal of Shihezi University:Natural Science Edition, 2002. (1): 15- 17.
|
|
王娅, 王宁, 齐麟, 等. 嘧菌酯-苯醚甲环唑PBS/PLA微球的结构表征与释放性能. 植物保护, 2017. 43 (4): 56- 60.
|
|
Wang Y , Wang N , Qi L , et al. Structural characterization and release properties of azoxystrobin and difenoconazole PBS/PLA microspheres. Plant Protection, 2017. 43 (4): 56- 60.
|
|
魏建荣, 苏智, 刘明虎, 等. 沙棘果实的重要检疫害虫——沙棘绕实蝇的发生与危害. 内蒙古林业科技, 2012. 38 (4): 55- 57.
|
|
Wei J R , Su Z , Liu M H , et al. Investigation on occurance and damage caused by Rhagoletis batava obseuriosa, a quarantine fruit fly of Hippophae rhamnoides. Journal of Inner Mongolia Forestry Science and Technology, 2012. 38 (4): 55- 57.
|
|
徐永昶, 张有生, 童成金, 等. 青海省中国沙棘人工园试验研究的分析. 沙棘, 1995. 8 (1): 14- 19.
|
|
Xu Y C , Zhang Y S , Tong C J , et al. Analysis of experimental research on Chinese seabuckthorn artificial garden in Qinghai Province. Seabuckthorn Hippophae,, 1995. 8 (1): 14- 19.
|
|
袁善奎, 王以燕, 师丽红, 等. 我国生物源农药标准制定现状及展望. 中国生物防治学报, 2018. 34 (1): 1- 7.
|
|
Yuan S K , Wang Y Y , Shi L H , et al. Current status and prospects of bio-based pesticide standards in China. Chinese Journal of Biological Control, 2018. 34 (1): 1- 7.
|
|
张苑, 金志华, 林建平, 等. 多杀菌素的高效液相色谱法测定. 农药, 2003. 42 (10): 27- 28.
|
|
Zhang Y , Jin Z H , Lin J P , et al. Determination of spinosad by high performance liquid chromatography. Agricultural, 2003. 42 (10): 27- 28.
|
|
赵斌, 苏智, 李莎莎, 等. 沙棘绕实蝇的生物学习性. 林业科学研究, 2017. 30 (4): 576- 581.
|
|
Zhao B , Su Z , Li S S , et al. Biological characteristics of Rhagoletis batava obseuriosa(Diptera:Tephritidae). Forest Research, 2017. 30 (4): 576- 581.
|
|
Asrar J , Ding Y , La Monica R E , et al. Controlled release of tebuconazole from a polymer matrix microparticle:Release kinetics and length of efficacy. Journal of Agricultural and Food Chemistry, 2004. 52 (15): 4814- 4820.
|
|
Baker D R, Fenyes J G, Steffens J J. 1992. Synthesis and chemistry of agrochemicals Ⅲ. ACS Symposium Series, 504. Washington D C: American Chemical Society, 214-225.
|
|
Chuang Y Y , Hou R F . Effectiveness of attract-and-kill systems using methyl eugenol incorporated with neonicotinoid insecticides against the oriental fruit fly(Diptera:Tephritidae). Journal of Economic Entomology, 2008. 101 (2): 352- 359.
|
|
Freitas S , Merkle H P , Gander B . Microencapsulation by solvent extraction/evaporation:reviewing the state of the art of microsphere preparation process technology. Journal of Controlled Release, 2005. 102 (2): 313- 332.
|
|
Ghormade V , Deshpande M V , Paknikar M . Perspectives for nano-biotechnology enabled protection and nutrition of plants. Biotechnology Advances, 2011. 29 (6): 792- 803.
|
|
Jégat C , Taverdet L J . Stirring speed influence study on the microencapsulation process and on the drug release from microcapsules. Polymer Bulletin, 2000. 44 (3): 345- 351.
|
|
Narahashi T . Nerve membrane ion channels as the target site of insecticides. Mini Reviews in Medicinal Chemistry, 2002. 2 (4): 419- 432.
|
|
Park J , Ye M , Park K . Biodegradable polymers for microencapsulation of drugs. Molecules, 2005. 10 (1): 146- 161.
|
|
Pelz K S , Isaacs R , Wise J C , et al. Protection of fruit against infestation by apple maggot and blueberry maggot(Diptera:Tephritidae) using compounds containing spinosad. Journal of Economic Entomology, 2005. 98 (2): 432- 437.
|
|
Salgado V L . Studies on the mode of action of spinosad:insect symptoms and physiological correlates. Pesticide Biochemistry and Physiology, 1998. (60): 91- 102.
|
|
Stalažs A . New records of Tephritoidea(Diptera:Brachycera) for the fauna of Latvia. Zoology and Ecology, 2014. 24 (4): 347- 351.
|
|
Takei T , Yoshida M , Hatate Y , et al. Preparation of polylactide/poly(ε-caprolactone) microspheres enclosing acetamiprid and evaluation of release behavior. Polymer Bulletin, 2008. 61 (3): 391- 397.
|
|
Thompson G D , Dutton R , Sparks T C . Spinosad-a case study:an example from a natural products discovery programme. Pest Management Science, 2000. 56 (8): 696- 702.
|
|
Tóth M , Lerche S , Holz U , et al. Addition of synthetic feeding attractant increases catches of Rhagoletis batava Hering and Carpomyia schineri Loew. in fluorescent yellow sticky traps. Acta Phytopathologica et Entomologica Hungarica, 2016. 51 (1): 69- 76.
|
|
Vayssieres J F , Sinzogan A , Korie S , et al. Effectiveness of spinosad bait sprays(GF-120) in controlling mango-infesting fruit flies(Diptera:Tephritidae) in Benin. Journal of Economic Entomology, 2009. 102 (2): 515- 521.
|
|
Wang A Q , Wang Y , Sun C J , et al. Fabrication, characterization, and biological activity of avermectin nano-delivery systems with different particle sizes. Nanoscale Research Letters, 2018. 13 (1): 2.
|
|
Yee W L , Chapman P S . Effects of GF-120 fruit fly bait concentrations on attraction, feeding, mortality, and control of Rhagoletis indifferens(Diptera:Tephritidae). Journal of Economic Entomology, 2005. 98 (5): 1654- 1663.
|
|
Zhang S F , Chen P H , Zhang F , et al. Preparation and physicochemical characteristics of polylactide microspheres of emamectin benzoate by modified solvent evaporation/extraction method. Journal of Agricultural and Food Chemistry, 2013. 61 (50): 12219- 12225.
|
|
Zhao B, Cheng T M, Li S S, et al. 2018. Attractants for Rhagoletis batava obseuriosa, a fruit fly pest of sea buckthorn. International Journal of Pest Management, doi: 10.1080/09670874.2018.1515446.
|