XU Chenwei,YUAN Yujuan,ZHU Jiashuang,et al.Effects of Reductive Soil Disinfestation on Nematode Community in Continuous Cropping Soil of Hypericum[J].HEILONGJIANG AGRICULTURAL SCIENCES,2023,(10):22-29.[doi:10.11942/j.issn1002-2767.2023.10.0022]
强还原土壤灭菌法(RSD)对火龙珠连作土壤线虫群落的影响
- Title:
- Effects of Reductive Soil Disinfestation on Nematode Community in Continuous Cropping Soil of Hypericum
- 文章编号:
- 5
- 文献标志码:
- A
- 摘要:
- 为寻求一种有效、快速、经济、环保的防治观赏植物线虫病害的技术方法,以强还原土壤灭菌法(Reductive soil disinfestation,RSD)为技术手段,以云南省火龙珠连作线虫病害高发土壤为研究对象,设置4个处理,即添加液体糖蜜的RSD处理(6 t·hm-2,MO)、可溶性糖粉的RSD处理(3 t·hm-2,SS)、甘蔗渣的RSD处理(15 t·hm-2,SB)和不做任何处理的对照(CK),研究RSD处理对土壤线虫数量及线虫群落的影响。结果表明,与CK相比,RSD处理均可以有效杀灭土壤中根结线虫和螺旋线虫,对螺旋线虫和根结线虫的抑制率分别为75.5%~84.4%和89.1%~93.1%。同时,RSD处理后食细菌线虫相对丰度显著上升,植食性线虫数量及相对丰度显著降低,自由生活线虫成熟指数和瓦斯乐斯卡指数显著提高,植食性线虫成熟指数显著降低,且SB处理的效果最为明显。此外,相关性分析表明RSD处理介导的土壤pH和硝态氮含量变化是影响线虫群落多样性的主要环境因子。RSD处理能够有效缓解土壤酸化、次生盐渍化,改善土壤线虫群落结构,是防治土壤线虫病害的有效农业措施。
- Abstract:
- Plant-parasites nematodes are one of the most important diseases threatening crop growth. In order to seek an effective, fast, economical, and environmentally friendly technical method for controlling nematode diseases in ornamental plants, reductive soil disinfestation(RSD) as a technology of soil treatment, the soil with high incidence of nematode disease after continuous cultivation of Hypericum in Yunnan Province were taken as the research object, the effects of RSD treatments on soil nematode abundance and nematode community were studied. Four treatments were set up in the experiment including RSD incorporated with liquid molasses (6 t·ha-1,MO), soluble sugar powder (3 t·ha-1, SS), solid bagasse (15 t·ha-1, SB) and control without any treatment(CK). Results showed that, RSD treatments could effectively reduced both Meloidogyne spp. and Helicotylenchus spp., the inhibition rates were 89.1%-93.1% and 75.5%-84.4%, respectively. RSD treatments effectively increased the relative abundance of bacterivores and decreased the relative abundance of fungivores. The values of MI and WI increased significantly, while the PPI decreased significantly, and the effect of SB treatment was the most obvious. In addition, the results of correlation analysis showed that the changes of soil pH and nitrate content mediated by RSD treatments were the main environmental factors affecting the diversity of nematode communities. Therefore, it can be concluded that RSD can effectively relieve soil acidification and secondary salinization, improve the nematode community structure, which is an effective agricultural measure to control soil nematode disease.
参考文献/References:
[1]杨世先,张军云,李晓亮,等.云南滇中地区火龙珠扦插育苗技术[J].农业科技通讯,2021(2):255-257.[2]李卫芬,黄新动,胡先奇,等.云南花卉寄生线虫初步调查[J].云南农业大学学报(自然科学版),2005,20(2):196-200.[3]CHITWOOD D J.Research on plant-parasitic nematode bio-logy conducted by the United States Department of Agriculture-Agricultural Research Service[J].Pest Management Science,2003,59(6-7):748-753.[4]谢辉,冯志新.植物线虫的分类现状[J].植物病理学报,2000,30(1):1-6.[5]罗宁,焦阳,茆振川,等.木霉菌对根结线虫和孢囊线虫防治机理研究进展[J].生物技术通报,2023,39(2):35-50.[6]VERMA A,LEE C,MORRISS S,et al.The novel cyst nematode effector protein 30D08 targets host nuclear functions to alter gene expression in feeding sites[J].New Phytologist,2018,219(2):697-713.[7]SASSER J N,EISENBACK J D,CARTER C C,et al.The international meloidogyne project-its goals and accomplishments[J].Annual Review of Phytopathology,1983,21(1):271-288.[8]刘唐玉,吴慧平,胡培,等.安徽省合肥市大蜀山风景区植物根际螺旋线虫种类记述[J].植物保护,2017,43(4):97-103.[9]江春,张谨华,杨艳君,等.不同植物秸秆对番茄及南方根结线虫的影响[J].植物保护,2015,41(4):165-170.[10]蔡祖聪,张金波,黄新琦,等.强还原土壤灭菌防控作物土传病的应用研究[J].土壤学报,2015,52(3):469-476.[11]夏青,罗晨,曾粮斌,等.强还原土壤处理对再植龙牙百合生长不利因子的消减作用[J].土壤学报,2022,59(1):183-193.[12]王宝英,李金泽,黄新琦,等.土壤强还原处理对连作芥蓝产量、微生物数量及活性的影响[J].土壤,2019,51(2):316-323.[13]ZHAO J,NI T,LI J,et al.Effects of organic-inorganic compound fertilizer with reduced chemical fertilizer application on crop yields,soil biological activity and bacterial community structure in a rice-wheat cropping system[J].Applied Soil Ecology,2016,99(18):1-12.[14]DORSCH M,LANE D,STACKEBRANDT E.Towards a phylogenyof the genus Vibrio based on 16S rRNA sequences[J].International Journal of Systematic Bacteriology,1992,42(1):58-63.[15]MUYZER G,de WAAL E C,UITTERLINDEN A G.Profiling of complex microbial populations by denaturing gradient gelelectrophoresis analysis of polymerase chain reaction-amplified genes coding for 16S rRNA[J].Applied and Environmental Microbiology,1993,59(3):695-700.[16]DURN P,THIERGART T,GARRIDO-OTER R,et al.Microbial interkingdom interactions in roots promote Arabidopsis survival[J].Cell,2018,175(4):973-983.[17]毛小芳,李辉信,陈小云,等.土壤线虫三种分离方法效率比较[J].生态学杂志,2004,23(3):149-151.[18]尹文英.中国土壤动物学研究10年进展[J].中国科学基金,1997,11(1):48-51.[19]李玉娟,吴纪华,陈慧丽,等.线虫作为土壤健康指示生物的方法及应用[J].应用生态学报,2005,16(8):1541-1546.[20]SIMPSON E H.Measurement of diversity[J].Nature,1949,163(4148):688.[21]BONGERS T.The maturity index:an ecological measure of environmental disturbance based on nematode species composition[J].Oecologia,1990,83(1):14-19.[22]WASILEWSKA L.The effect of age of meadows on succession and diversity in soil nematode communities[J].Pedobiologia,1994,38:1-11.[23]YEATES G W.Nematodes as soil indicators:functional and biodiversity aspects [J].Biology and Fertility of Soils,2003,37(4):199-210.[24]SINGH S,SINGH B,SINGH A P.Nematodes:a threat to sustainability of agriculture[J].Procedia Environmental Sciences,2015,29:215-216.[25]陈志杰,张淑莲,张锋.设施蔬菜根结线虫防治基础与技术[M].北京:科学出版社,2013.[26]郭晨曦,周桂芳,陈碧华,等.强还原土壤灭菌法(RSD)对大棚连续三茬蔬菜生长、产量和病虫害的影响[J].河南农业科学,2020,49(11):98-109.[27]石磊,赵洪海,李明亮,等.土壤强还原处理对根结线虫数量、番茄生长及土壤性质的影响[J].生态学杂志,2018,37(6):1865-1870.[28]魏光钰,陈芳,胡勇,等.不同有机物料强还原处理对植烟土壤微生物群落的影响[J].土壤通报,2022,53(5):1056-1066.[29]赵军,张晶清,林于蓝,等.强还原土壤处理驱动的微生物群落稳定性与功能的关联性[J/OL].土壤学报:1-15(2022-10-11)[2023-01-02].http://kns.cnki.net/kcms/detail/32.1119.P.20221010.1447.002.html.
备注/Memo
收稿日期:2023-06-14