芒果主要病虫害研究进展

[1] 司若彤, 刘维, 林电.有机肥部分替代化肥对台农芒果产量和品质的影响[J]. 中国土壤与肥料,2020(4):107-114.
[2] 韩冬银,邢楚明,李磊,等.广西芒果病虫害发生情况和防治现状调查与分析[J].热带作物学报,2020,41(5):994-1000.
[3] Arauz L F.Mango anthracnose:economic impact and current options for integrated management[J].Plant Disease,2000,84(6):600-611.
[4] Lima N B, Lima W G, Tovar-Pedraza J M, et al. Comparative epidemiology of Colletotrichum species from mango in northeastern Brazil[J]. European Journal of Plant Pathology,2015,141(4):679-688.
[5] 张贺,韦运谢,漆艳香,等.温湿度对芒果炭疽病病原菌分生孢子萌发及附着胞形成的影响[J].中国植保导刊,2015(1):10-13.
[6] 贺军虎,陈业渊,魏守兴.中国杧果产业的现状、存在问题与发展对策[J].热带农业科学,2006,26(6):59-62.
[7] 刘清国,龚德勇,王晓敏,等. 贵州芒果炭疽病药剂防治试验[J].广东农业科学,2013,40(6):80-82.
[8] Thakur S V,Shirke V S.Adoption of plant protection measures for control of mango pests and diseases[J].International Journal of Scientific Research,2016,5(5):2277-8179.
[9] 柳凤,何红,詹儒林.拮抗芒果炭疽病菌的红树内生细菌筛选及AiL3菌株抗菌物质研究[J].中国生物防治,2010,26(3):293-299.
[10] 李娇,顾晓军,张燕宁,等.芒果炭疽病发生特点及果实品质影响因素研究进展[J].安徽农业科学,2015,43(31):97-100.
[11] 李其利,卜俊燕, 唐利华,等.芒果炭疽菌研究进展[J].微生物学杂志, 2020,40(1):117-124.
[12] 胡美姣,李敏,杨凤珍,等.两种杧果炭疽病菌生物学特性的比较[J].西南农业学报,2005,18(3):306-310.
[13] Bautista-rosales P U,Calderon-santoyo M,Servín-villegas R,et al. Action mechanisms of the yeast Meyerozyma caribbica for the control of the phytopathogen Colletotrichum gloeosporioides in mangoes[J].Biological Control,2013,65:293-301.
[14] Damm U,Cannon P F,Woudenberg J H C, et al. The Colletotrichum acutatum species complex[J]. Studies in Mycology, 2012(73):37-113.
[15] Lima N B,Batista M,De Morais M A, et al. Five Colleto-trichum species are responsible for mango anthracnose in north-eastern Brazil[J]. Fungal Diversity,2013,61(1):75-88.
[16] Li Q L,Bu J Y,Shu J,et al.Colletotrichum species associated with mango in southern China[J]. Scientific Reports,2019,9(1):1-10.
[17] 李林书. 试析芒果的几种主要病虫害及防治措施[J].南方农业,2018,12(14):35-38.
[18] Patil P,Dalvi M B,Salvi B R.Bio-efficacy and phyto toxicity of azoxystrobin 23% SC against oidium mangiferae and Colletotrichum gloeosporiode on controlling powdery mildew and anthracnose of mango[J]. Environment & Ecology,2016,34(1):22-26.
[19] 叶潇潇. 芒果主要病虫害的发生与防治[J].农业灾害研究,2015,5(9): 7-10.
[20] 周又生,沈发荣,赵焕萍.芒果白粉病(Oidium mangiferae Berthet)发生流行规律及其综合防治研究[J].西南农业大学学报,1997(2):157-160.
[21] 甄鹏,赵晓美.反季节芒果生产技术[M].北京:化学工业出版社,2021.
[22] Bana J K,Choudhary J S,Ghoghari P D,et al.Influence of weather parameters on powdery mildew of mango inflorescence in humid tropics of South Gujarat[J].Journal of Agrometeorology,2021,22(4):488-493.
[23] 詹儒林. 芒果主要病虫害诊断与防治[M].北京:中国农业出版社,2011.
[24] 向小花,蒙秋花.芒果栽培管理技术探析[J].南方农业,2018,12(9):20-23.
[25] Dalvi M B,Agrawal R,Salvi B R,et al.Forewarning of powdery mildew of mango(Mangifera indica L.) caused by oidium mangifereae berthet[J]. CISH Lucknow,2021.
[26] 黄德炎,陈延玲.芒果早结丰产栽培技术[J].北京:中国盲文出版社,1999.
[27] 杨永生. 芒果白粉病的系统防治[J].广西农业科学,2000(4):187-190.
[28] 尹平发. 海南芒果病虫害防治技术[J].特种经济动植物,2021,24(7): 47-48.
[29] 陆英. 浅析百色芒果主要病虫害的识别与防治[J].南方农业,2018,12(35):40-41,43.
[30] 喻群芳,漆艳香,张辉强,等.3种诱抗剂防治芒果细菌性黑斑病试验初报[J].中国热带农业,2020,97(6):63-66.
[31] Gagnevin L,Pruvost O.Epidemiology and control of mango bacterial black spot[J]. Plant Disease,2001,85(9):928-935.
[32] 姚全胜,郑磊,柳凤,等.芒果细菌性角斑病病菌侵染对芒果内源激素含量的影响[J].中国植保导刊,2020,40(11):19-27.
[33] Aubert B.Phytosanitary problems on mango in reunion island[J]. Fruits,1981,36(2):87-95.
[34] 董春,何汉生.芒果细菌性黑斑病研究进展[J].果树科学,1999(S1):47-51.
[35] Ploetz R C.Diseases of Mango. In diseases of tropical fruit crops[J]. Wallingford Oxon UK: CABI International,2003.
[36] Crane J H, Gazis R. Bacterial black spot (BBS) of mango in florida[J]. EDIS,2020(5).
[37] 李桂珍,黄丹,朱俐遐,等.芒果细菌性黑斑病防治技术[J].农村百事通,2017(15):34.
[38] Doidge E.A bacterial disease of the mango Bacillus mangiferaen. Sp[J]. Annala of Applie Biology,1915,2(1):1-45.
[39] Dye D W,Bradbury J F,Goto M,et al.International standards for naming pathovars of phytopathogenic bacteria and a list of pathpvar anmes and pathotype strains[J]. Review of Plant Pathology,1980,59(4):153-168.
[40] Ah-You N,Gagnevin L,Grimont P A D, et al. Polyphasic characterization of Xanthomonads pathogenic to members of the anacardiaceae and their relate to species of Xanthomonas[J].International Journal of Systematic and Evolutionary Microbiology,2009,59:306-318.
[41] 张大智,詹儒林,柳凤,等.杧果细菌性角斑病菌细胞壁降解酶的致病作用[J].果树学报,2016,33(5):585-593.
[42] 李顺康,梁军.芒果细菌性角斑病绿色防控技术[J].四川农业科技,2019(3):32-34.
[43] 林长河. 三亚杧果蓟马的为害特点及防治策略[J].中国南方果树,2004,33(1):26-28.
[44] 韩冬银,邢楚明,李磊,等.海南芒果蓟马种群的活动及消长规律[J].热带作物学报,2015,36(7):1297-1301.
[45] 邢楚明,韩冬银,李磊,等.蓟马在芒果园田间的时空动态[J].环境昆虫学报,2017,39(6):1258-1265.
[46] 黄华,牛黎明,韩冬银,等.海南岛芒果蓟马种类调查研究[J].生态科学,2010,29(4):385-389.
[47] 罗永明,彭正强,金启安.海南岛芒果树害虫种类与分布[J].热带作物学报,1996,17(2):52-62.
[48] 黄丽莉,何海敏,阙海勇,等.茶黄蓟马的生物学特性[J].生物灾害科学,2013,36(3):247-250.
[49] 陈泽坦. 我国芒果树蓟马种类记述[J].植物保护,2004(4):88-89.
[50] 夏红军. 黄胸蓟马的生物学特性及物理诱控技术研究[D].武汉:华中农业大学,2011.
[51] 张中润,高燕,黄建峰,等.不同芒果品种对蓟马的抗虫性评价[J].南方农业学报,2020,51(7):1591-1597.
[52] Reyes C P,Cayabyab B F,Copuyoc M.The Abundance and diversity of thrips(Insecta: Thysanoptera) in conventional mango ‘Carabao’ orchard in Piat,Cagayan[J]. Philippine Journal of Science,2020, 149(3-b):1019-1028.
[53] 张正学,李向勇,黄国全,等.贵州芒果蓟马发生规律及防治对策[J].农技服务,2020,37(6):39-40.
[54] 郑重禄,陈国庆.橘小实蝇生物学特性研究[J].浙江柑橘,2010,27(1):26-31.
[55] 杨子祥,沙毓沧,何璐,等.干热河谷区台湾青枣主要病虫害无公害综合防控技术[J].热带农业科学,2011,31(10):78-80,86.
[56] 刘建宏,叶辉.光照、温度和湿度对桔小实蝇飞翔活动的影响[J].昆虫知识,2006(2):211-214.
[57] 杨丽英,李之洪.桔小实蝇的形态特征、影响因素和防治措施[J].湖北农机化,2020(1):58.
[58] 梁广勤. 桔小实蝇形态特征及其生活习性[J].江西农业大学学报,1985(1):7-15.
[59] Verghese A,Uma S,Jayanthi P D,et al.Evidence of a random ovipositional strategy by female fruit fly bactrocera dorsalis (Tephritidae: Diptera) with reference to host quantum[J]. Current Science, 2011,100(2):246-248.
[60] Jothi D B, Tandon P L, Verghese A.Hot water immersion as a quarantine treatment for Indian mangoes infested with the oriental fruit fly, Bactrocera dorsalis(Diptera:Tephritidae)[J]. FAO. Plant Prot Bull, 1994,42(3):158-159.
[61] 李红旭,叶辉,吕军.桔小实蝇在云南的危害与分布[J].云南大学学报(自然科学版),2000(6):473-475.
[62] Reddy P,Gundappa B,Chakravarthy A K.Pests of mango[M]. Pests and Their Management,2018.
[63] 于诗如,赵兴东,杨丽华,等.芒果害虫防治技术[J].农业科技通讯,2019(12):315-318.
[64] Rashid M H,Taj H E,Jung C.Life-table study of mango leaf cutting weevil, Deporaus marginatus Pascoe(Coleoptera:Curculionidae)feeding on four mango cultivars[J].Journal of Asia-Pacific Entomology, 2017,20(2):353-357.
[65] 钟赞华,赖瑞云.芒果切叶象甲生存率与土壤类型及其含水量的关系[J].福建热作科技,2002(1):6-7.
[66] 钱庭玉,林恒琛.芒果切叶象甲的初步研究[J].植物保护,1982(4):25-26.
[67] 柏天琦,解德宏,陈于福,等.芒果切叶象甲虫体大小和形状的两性异形分析[J].植物保护,2022,48(2):188-195,200.
[68] Kumar K,Ghosh S M.Seasonal incidence,development and larval diapause of mango leaf cutting weevi[J].Uttar Pradesh Journal of Zoology,2020,41(20):8-17.
[69] 李勇. 芒果象甲病防治方法[J].农村实用技术,2007(11):41.
[70] 朱杰. 芒果主要病虫害及其防治措施[J].北京农业,2011(18):90-91.
[71] 佚名. 芒果横线尾夜蛾[J].世界热带农业信息,2010(2):27.
[72] 王世伟. 芒果横线尾夜蛾的发生和防治[J].农村实用技术, 2005(7):25.
[73] 冯荣扬. 粤西地区芒果横纹尾夜蛾的发生规律及其防治研究[J].湛江海洋大学学报,1997(2):71-74.
[74] 王立新,蒋泽修,黄家改,等.贵州芒果横纹尾夜蛾防治技术[J].农技服务,2017,34(3):62.
[75] 何林. 芒果横线尾夜蛾的生活习性及防治[J].昆虫知识,2003(1):83-84.
[76] 田厚军,陈艺欣,魏辉,等.芒果不同部位挥发物及横线尾夜蛾对其触角电位反应[J].生物安全学报,2012,21(2):142-147.
[77] Handa S.Seasonal incidence of mango shoot borer in different cultivars of mango and efficacy of different insecticides and neem oil for its control[J]. Agricultural Science Digest,2006, 26(4): 306-308.
[78] 岑艳喜. 芒果主要病虫害的发生及防治初探[J].南方农业,2019,13(9):11-12.
[79] 黄应忠.无公害芒果病虫综合防治技术[J].中国园艺文摘, 2013,29(7):207,219.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 0

No Suggested Reading articles found!

PDF (PC)

Abstract

Cite this article

share this article

References

Related Articles 0

Metrics

Comments

Recommended 0