Bai L,Cui J, Jie W, et al. Analysis of the community compositions of rhizosphere fungi in soybeans continuous cropping fields. Microbiological research , 2015,180: 49-56.
Bak G, Lee G, Kim T. The effects of soybean cultivation on soil microorganism activity. Korean Journal of Environmental Agriculture , 2019,38(2): 76-82.
Beckers B, Op De Beeck M, Weyens N, et al.Structural variability and niche differentiation in the rhizosphere and endosphere bacterial microbiome of field-grown poplar trees. Microbiome , 2017,5(1): 25.
Clare E. Murphy, Deirdre Lemerle. Continuous cropping systems and weed selection. 2006, 148(1-2):61-73.
Chen Mingna,Li Xiao,Yang Qingli, et al. Dynamic succession of soil bacterial community during continuous cropping of peanut (Arachis hypogaea L.).[J]. PloS one,2014,9(7).
Chunfei Zhao,Ziyue Luo,Mingze Li, et al. Wheat protein disulfide isomerase improves bread properties via different mechanisms[J]. Food Chemistry,2020,315.
Chamberlain Lindsay A.,Whitman Thea,Ané Jean-Michel, et al. Corn-soybean rotation, tillage, and foliar fungicides: Impacts on yield and soil fungi[J]. Field Crops Research,2021,262.
Chrost R . Environmental Control of the Synthesis and Activity of Aquatic Microbial Ectoenzymes[J]. Microbial Enzymes in Aquatic Environments, 1991.
DU Wen-Yan,Wang Mei,Yan Zhu-Bing, et al. [Effects of residual apple fermentation products on continuous cropping soil environment and the growth of Malus hupehensis Rehd. Seedlings].[J]. Ying yong sheng tai xue bao = The journal of applied ecology,2020,31(5).
Ding Sheng,Zhou Deping,Wei Huawei, et al. Alleviating soil degradation caused by watermelon continuous cropping obstacle: application of urban waste compost[J]. Chemosphere,2020,262(prepublish).
Ecology Research - Soil Ecology; Studies in the Area of Soil Ecology Reported from SouthWest University (Soil Microbial Carbon Metabolism Reveals a Disease Suppression Pattern In Continuous Ginger Mono-cropping Fields)[J]. Ecology Environment & Conservation,2019.
Gao Zhiyuan, Han Meikun, Hu Yaya, et al. Effects of Continuous Cropping of Sweet Potato on the Fungal Community Structure in Rhizospheric Soil.. 2019, 10:2269.
Gu Yizhu,Wang Yuxin,Wang Pingzhi, et al. Study on the Diversity of Fungal and Bacterial Communities in Continuous Cropping Fields of Chinese Chives ()[J]. BioMed Research International,2020,2020.
Hong Shen,Wenhui Yan,Xingyong Yang, et al.Co-occurrence network analyses of rhizosphere soil microbial PLFAs and metabolites over continuous cropping seasons in tobacco[J]. Plant and Soil,2020(prepublish).
Huang Mingjiao,Fu Haiyan,Kong Xiangshi,Ma Liping,Liu Chunguang,Fang Yuan,Zhang Zhengkun,Song Fuqiang,Yang Fengshan. Effects of Fertilization Methods on Chemical Properties, Enzyme Activity, and Fungal Community Structure of Black Soil in Northeast China[J]. Diversity,2020,12(12).
Jiaojiao Song,Kasem Soytong,Somdej Kanokmedhakul, et al.Antifungal activity of microbial nanoparticles derived from Chaetomium spp. against Magnaporthe oryzae causing rice blast[J]. Plant Protection Science,2020,56(3).
Kouelo Alladassi Félix,Mathieu Alohoutade Finagnon,Julien Avakoudjo, et al. Variation of Physical and Chemical Properties of Soils under Different Cropping Systems in the Watershed of Kpocomey, Southern Benin[J]. Open Journal of Soil Science,2020,10(11).
Li Qing Kai,Liu Ping,Tang Zhao Hui, et al. [Effects of two phenolic acids on root zone soil nutrients, soil enzyme activities and pod yield of peanut].[J]. Ying yong sheng tai xue bao = The journal of applied ecology,2016,27(4).
Lakshman Dilip,Vieira Paulo,Pandey Ruchi, et al. Symptom Development in Response to Combined Infection of In Vitro-grown Lilium longiflorum with Pratylenchus penetrans and Soilborne Fungi Collected from Diseased Roots of Field-grown Lilies.[J]. Plant disease,2017,101(6).
Lijing Zhou,Yajun Wang, Zhongkui Xie, et al. Effects of lily/maize intercropping on rhizosphere microbial community and yield of Lilium davidii var. unicolor. 2018, 58(10):892-901.
Mark Mazzola. Manipulation of Rhizosphere Bacterial Communities to Induce Suppressive Soils[J]. Journal of Nematology,2007,39(3).
Gao Jingxia,Pei Hongxia,Xie Hua. Synergistic effects of organic fertilizer and corn straw on microorganisms of pepper continuous cropping soil in China[J]. Bioengineered,2020,11(1).
Verónica Acosta-Martínez,Leo Cruz,David Sotomayor-Ramírez, et al. Enzyme activities as affected by soil properties and land use in a tropical watershed[J]. Applied Soil Ecology,2006,35(1).
Wu Xiong,Qingyun Zhao,Jun Zhao,Weibing Xun, et al. Different Continuous Cropping Spans Significantly Affect Microbial Community Membership and Structure in a Vanilla-Grown Soil as Revealed by Deep Pyrosequencing[J]. Microbial Ecology,2015,70(1).
Wu Zhijiang,Yang Liu,Wang Ruoyu, et al. In vitro study of the growth, development and pathogenicity responses of Fusarium oxysporum to phthalic acid, an autotoxin from Lanzhou lily.[J]. World journal of microbiology & biotechnology,2015,31(8).
Wang Jin Song,Fan Fang Fang,Guo Jun, et al. [Effects of different crop rotations on growth of continuous cropping sorghum and its rhizosphere soil micro-environment.][J]. Ying yong sheng tai xue bao = The journal of applied ecology,2016,27(7).
Wang Shengnan,Cheng Jiangke,Li Tong, et al. Response of soil fungal communities to continuous cropping of flue-cured tobacco.[J]. Scientific reports,2020,10(1).
Xiaojiao Liu,Qipeng Jiang,Xueqin Hu, et al. Soil microbial carbon metabolism reveals a disease suppression pattern in continuous ginger mono-cropping fields[J]. Applied Soil Ecology,2019,144.
Xiao Xuemei,Cheng Zhihui,Lv Jian, et al. A green garlic ( Allium sativum L.) based intercropping system reduces the strain of continuous monocropping in cucumber ( Cucumis sativus L.) by adjusting the micro-ecological environment of soil.[J]. PeerJ,2019,7.
Yin Wenjia,Du Jiafang,Li Juan, et al. [Effects of continuous cropping obstacle on growth of Rehmannia glutinosa].[J]. Zhongguo Zhong yao za zhi = Zhongguo zhongyao zazhi = China journal of Chinese materia medica,2009,34(1).
Yue HaiMei,Wang Mu,Gong WenFeng, et al. The screening and identification of the biological control fungi Chaetomium spp. against wheat common root rot.[J]. FEMS microbiology letters,2018,365(22).
Yasir Arafat,Muhammad Tayyab,Muhammad Umar Khan, et al. Long-Term Monoculture Negatively Regulates Fungal Community Composition and Abundance of Tea Orchards[J]. Agronomy,2019,9(8).
Yao Qin,Xu Yanxia,Liu Xuefeng, et al. Dynamics of soil properties and fungal community structure in continuous-cropped alfalfa fields in Northeast China.[J]. PeerJ,2019,7.
Yi-Jun Qiao,Cheng-Zhen Gu,Hong-Tao Zhu,Dong Wang, et al.Allelochemicals of Panax notoginseng and their effects on various plants and rhizosphere microorganisms[J].Plant Diversity,2020,42(05):323-333.
Y Wang Yan, Wang Hanping, Cheng HuYin, et al. Niche differentiation in the rhizosphere and endosphere fungal microbiome of wild Paris polyphylla Sm.. 2020, 8:e8510.
Zhang Xin-hui,Duo-yong Lang,En-he Zhang, et al. Effect of Autotoxicity and Soil Microbes in Continuous Cropping Soil on Angelica sinensis Seedling Growth and Rhizosphere Soil Microbial Population[J]. Chinese Herbal Medicines,2015,7(1).
Zhao Jing,Zhang Dai,Yang Yiqing, et al. Dissecting the effect of continuous cropping of potato on soil bacterial communities as revealed by high-throughput sequencing.[J]. PloS one,2020,15(5).