参考文献/References:
[1]CHAKRABORTY S, NEWTON A C. Climate change, plant diseases and food security: an overview[J]. Plant Pathology, 2011, 60(1):2-14.
[2]向梅梅. 植物病原真菌分子生物学研究进展[J]. 仲恺农业工程学院学报,2001,14(4):52-58.
[3]FISHER M C, HENK D A, BRIGGS C J, et al. Emerging fungal threats to animal, plant and ecosystem health[J]. Nature, 2012, 484 (7393): 186-194.
[4]彭炜. 植物细菌性病害和病原细菌分类研究进展[C]//中国植物保护学会. 2010年中国植物保护学会学术年会论文集. 鹤壁:中国植物保护学会,2010:166-175.
[5]何晨阳,陈功友. 我国植物病原细菌学的研究现状和发展策略[J]. 植物保护,2010,36(3):12-14.
[6]王佳新,李媛,王秀东,等. 中国农药使用现状及展望[J]. 农业展望,2017,13(2):56-60.
[7]陈晓明,王程龙,薄瑞. 中国农药使用现状及对策建议[J]. 农药科学与管理,2016,37(2):4-8.
[8]袁瑞. 微生物农药在植物病虫害防治中的应用策略探讨[J]. 农业与技术,2017,37(10):17.
[9]李俊峰,韩晓红,段效辉. 海洋微生物活性物质研究进展[J]. 氨基酸和生物资源,2014,36(4):12-16.
[10]赵成英,刘海珊,朱伟明. 海洋曲霉来源的新天然产物[J]. 微生物学报,2016,56(3):331-362.
[11]NUMATA A, TAKAHASHI C, MATSUSHITA T, et al. Fumiquinazolines, novel metabolites of a fungus isolated from a saltfish[J]. Tetrahedron Letters, 1992, 33 (12): 1621-1624.
[12]CARROLL A R, COPP B R, DAVIS R A, et al. Marine natural products[J]. Natural Product Reports, 2020, 37(2):175-233.
[13]CARROLL A R, COPP B R, DAVIS R A, et al. Marine natural products[J]. Natural Product Reports, 2019, 36(1): 122-173.
[14]BLUNT J W, CARROLL A R, COPP B R, et al. Marine natural products[J]. Natural Product Reports, 2018, 35(1): 8-53.
[15]BLUNT J W, COPP B R, KEYZERS R A, et al. Marine natural products[J]. Natural Product Reports, 2017, 34(3): 235-294.
[16]宋银平. 海洋藻栖木霉次生代谢调控的研究[D]. 烟台:中国科学院烟台海岸带研究所,2016.
[17]朱统汉,陈正波,王文玲,等. 非曲霉和青霉来源的海洋真菌新天然产物研究进展[C]//中国药学会. 中国药学大会暨第十四届中国药师周论文集. 石家庄:中国药学会,2014:3222-3225.
[18]王丹,芶剑渝,韩小斌,等. 海洋真菌次级代谢产物在植物保护中的研究与应用[J].中国生物防治学报,2019,35(1):146-158.
[19]沈硕. 活性海洋真菌的鉴定及其次级代谢产物的研究[D]. 福州:福建农林大学,2009.
[20]黄庶识,许兰兰,黄曦,等. 3株抗水稻和荔枝病原菌的海洋真菌的分离鉴定[J]. 基因组学与应用生物学,2010,29(4):63-70.
[21]许兰兰,黄曦,李昆志,等. 海洋真菌的筛选及其对离体荔枝果霜霉病和炭疽病的防效[J]. 中国生物防治学报,2011,27(2):214-220.
[22]祝耀华. 红树林沉积物的真菌多样性及其代谢产物的生物活性研究[D]. 汕头:汕头大学,2013.
[23]王丹. 海洋真菌农用生物活性筛选及木贼镰刀菌D39次级代谢产物研究[D]. 北京:中国农业科学院,2019.
[24]孙好芬. 两株热带马尾藻内生真菌次生代谢产物研究[D]. 青岛:中国科学院海洋研究所,2012.
[25]COHEN E, KOCH L, THU K M, et al. Novel terpenoids of the fungus Aspergillus insuetus isolated from the mediterranean sponge Psammocinia sp. collected along the coast of Israel[J]. Bioorganic & Medicinal Chemistry, 2011,19(22):6587-6593.
[26]陈卓. 高通量抗菌活性筛选模型的构建及两株海洋真菌次级代谢产物的研究[D]. 厦门:厦门大学,2014.
[27]LI X D, LI X M, LI X, et al. Aspewentins D-H, 20-nor-isopimarane derivatives from the deep sea sediment-derived fungus Aspergillus wentii SD-310[J]. Journal of Natural Products, 2016, 79(5): 1347.
[28]WANG J F, HE W J, HUANG X L, et al. Antifungal new oxepine-containing alkaloids and xanthones from the deep-sea-derived fungus Aspergillus versicolor SCSIO 05879[J]. Journal of Agricultural and Food Chemistry, 2016, 64(14): 2910-2916.
[29]LI W S, XIONG P, ZHENG W X, et al. Identification and antifungal activity of compounds from the mangrove endophytic fungus Aspergillus clavatus R7[J]. Marine Drugs, 2017, 15(8): 259.
[30]罗寒,李晓栋,李晓明,等. 红树林来源内生真菌杂色曲霉Aspergillus versicolor MA-229 次级代谢产物研究[J]. 中国抗生素杂志,2017,42(4):334-340.
[31]LI Z X, WANG X F, REN G W, et al. Prenylated diphenyl ethers from the marine algal-derived endophytic fungus Aspergillus tennesseensis[J]. Molecules, 2018, 23(9): 2368.
[32]杨遂群. 五株海藻及红树林来源真菌次级代谢产物的分子多样性挖掘与生物活性研究[D]. 北京:中国科学院大学,2018.
[33]SWATHI J, SOWJANYA K M, NARENDRA K, et al. Isolation, identification & production of bioactive metabolites from marine fungi collected from coastal area of Andhra Pradesh, India[J]. Journal of Pharmacy Research, 2013, 6(6): 663-666.
[34]WANG R, GUO Z K, LI X M, et al. Spiculisporic acid analogues of the marine-derived fungus, Aspergillus candidus strain HDf2, and their antibacterial activity[J]. Antonie van Leeuwenhoek: Journal of Microbiology and Serology, 2015, 108(1): 215-219.
[35]解树涛,宋晓妍,石梅,等. 康宁木霉(Trichoderma koningii)SMF2分泌的Peptaibols类抗菌肽Trichokonins抑菌活性研究[J]. 山东大学学报(理学版),2006,41(6):140-144.
[36]GAL H I, ATANASOVA L, KOMON Z M, et al. Marine isolates of Trichoderma spp. as potential halotolerant agents of biological control for arid-zone agriculture[J]. Applied and Environmental Microbiology, 2011, 77(15):5100-5109.
[37]陶晶晶. 几株海洋生境芽孢杆菌和木霉菌农药潜力的研究[D]. 青岛:青岛科技大学,2011.
[38]贾炜,田黎,陶晶晶,等. 一株南极生境来源木霉菌株抗菌及诱导植物抗盐抗寒作用的初步研究[J]. 极地研究,2011,23(3):189-195.
[39]孙健健. 海洋生境木霉与芽孢杆菌的生防应用潜力研究[D]. 青岛:青岛科技大学,2013.
[40]何海兵. 两株禾谷镰刀菌拮抗真菌的次级代谢产物研究[D]. 杭州:浙江大学,2016.
[41]李闯. 3株海洋生境木霉与农药相关性状的研究[D]. 青岛:青岛科技大学,2017.
[42]黄瑞环,芶剑渝,韩小斌,等. 烟草主要病害拮抗菌的筛选鉴定及除草活性分析[J]. 烟草科技,2019,52(12):17-22.
[43]REN J W, XUE C M, TIAN L, et al. Asperelines A-F, peptaibols from the marine-derived fungus Trichoderma asperellum[J]. Journal of Natural Products, 2009,72(6):1036-1044.
[44]刘旭. 蒲枝凹顶藻、鸭毛藻及鸭毛藻共生真菌次生代谢产物研究[D]. 青岛:中国科学院研究生院(海洋研究所),2010.
[45]邹积雪,季乃云. 松节藻来源长枝木霉DL5-4化学成分及其生物活性研究[J]. 化学与生物工程,2019,36(3):18-22.
[46]HUANG R H, GOU J Y, ZHAO D L, et al. Phytotoxicity and anti-phytopathogenic activities of marine-derived fungi and their secondary metabolites[J]. RSC Advances, 2018, 8(66):37573-37580 .
[47]ZHAO D L, WANG D, TIAN X Y, et al. Anti-phytopathogenic and cytotoxic activities of crude extracts and secondary metabolites of marine-derived fungi[J]. Marine Drugs, 2018, 16 (1):36.
[48]吉沐祥,王晓琳,黄洁雪,等.草莓枯萎病菌拮抗细菌JX-13的鉴定及生防效果评价[J].江苏农业学报,2019,35(3):586-593.