[1]邓明琴,雷家军,代汉萍.中国草莓育种的历史与现状[C].双流:全国草莓学术研讨会暨草莓生产观摩会,2004.[2]雷家军.我国草莓生产的历史、现状及发展对策[J].果农之友,2003(12):4-5.[3]QIN S,STEPHEN Y,LI C,et al.Breaking continuous potato cropping with legumes improves soil microbial communities,enzyme activities and tuber yield[J].PLoS One,2017,12(5):e175934.[4]DING Y X,CHEN J L.Effect of continuous plantation of Chinese fir on soil fertility[J].Pedosphere,1995,1(5):57-66.[5]APARICIO V,COSTA J L.Soil quality indicators under continuous cropping systems in the Argentinean Pampas[J].Soil Tillage Research,2007,96(1-2):155-165.[6]CHEN M,LI X,YANG Q L,et al.Soil eukaryotic microorganism succession as affected by continuous cropping of peanut-pathogenic and beneficial fungi were selected[J].PLoS One,2012,7(7):e40659.[7]LI H Q,ZHANG L L,JIANG X W,et al.Allelopathic effects of phenolic acids on the growth and physiological characteristics of strawberry plants[J].Allelopathy Journal,2015,1(35):61-75.[8]LI X Y,LEWIS E E,LIU Q Z,et al.Effects of long-term continuous cropping on soil nematode community and soil condition associated with replant problem in strawberry habitat[J].Scientific Reports,2016(6):30466.[9]LI W H,LIU Q Z,CHEN P.Effect of long-term continuous cropping of strawberry on soil bacterial community structure and diversity[J].Journal of Integrative Agriculture,2018,17(11):2570-2582.[10]LI W H,LIU Q Z.Changes in fungal community and diversity in strawberry rhizosphere soil after 12 years in the greenhouse[J].Journal of Integrative Agriculture,2019,18(3):199-209.[11]TIAN Y,LIU J,ZHANG X,et al.Effects of summer catch crop,residue management,soil temperature and water on the succeeding cucumber rhizosphere nitrogen mineralization in intensive production systems[J].Nutrient Cycling in Agroecosystems,2010,88(3):429-446.[12]YU Y,YANG J,ZENG S,et al.Soil pH,organic matter,and nutrient content change with the continuous cropping of Cunninghamia lanceolata plantations in South China[J].Soil Sediment,2016,17(9):1-9.[13]AGEGNEHU G,NELSON P N,BIRD M I.The effects of biochar,compost and their mixture and nitrogen fertilizer on yield and nitrogen use efficiency of barley grown on a Nitisol in the highlands of Ethiopia[J].Science of the Total Environment,2016,569-570:869-879.[14]SCHRODER J L,ZANG H,GIRMA K,et al.Soil Acidification from long-term use of nitrogen fertilizers on winter wheat[J].Soil Science Society of America Journal,2011,75(3):957.[15]刘奇志,李贺勤,李星月,等.草莓连作障碍:化感自毒作用研究进展[J].中国果树,2013(3):76-79.[16]BLUM U,SHAFER S R.Microbial-populations and phenolic-acids in soil.Soil Biology Biochemistry,1988,20(6):793-800.[17]TIAN G,BI Y,SUN Z,et al.Phenolic acids in the plow layer soil of strawberry fields and their effects on the occurrence of strawberry anthracnose[J].European Journal of Plant Pathology,2015,143(3):581-594.[18]AVIDANO L,GAMALERO E,COSSA G P,et al.Characterization of soil health in an Italian polluted site by using microorganisms as bioindicators[J].Applied Soil Ecology,2005,30(1):21-33.[19]CAPORASO J G,LAUBER C L,WALTERS W A,et al.Ultra-high-throughput microbial community analysis on the Illumina HiSeq and MiSeq platforms[J].The ISME Journal,2012,6(8):1621-1624.[20]SHE S,NIU J,ZHANG C,et al.Significant relationship between soil bacterial community structure and incidence of bacterial wilt disease under continuous cropping system[J].Archives of Microbiology,2017,199(2):267-275.[21]WU J,JIAO Z,ZHOU J,et al.Analysis of bacterial communities in rhizosphere soil of continuously cropped healthy and diseased konjac[J].World Journal of Microbiology Biochemistry,2017,33:134.[22]ZHOU X,WU F.Dynamics of the diversity of fungal and Fusarium communities during continuous cropping of cucumber in the greenhouse[J].FEMS Microbiology Ecology,2012,80(2):469-478[23]CHEN P,WANG Y Z,LIU Q Z,et al.Phase changes of continuous cropping obstacles in strawberry (Fragaria × ananassa Duch.) production[J].Applied Soil Ecology,2020,155:103626.[24]EMMERT E A,HANDELELSMAN J.Biocontrol of plant disease:A (Gram-) positive perspective[J].FEMS Microbiology Letters,1999(1):1-9.[25]WU X,ZHAO Q,ZHAO J,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):209-218.[26]GULLINO M L,MINUTO A,GILARDI G,et al.Efficacy of preplant soil fumigation with chloropicrin for tomato production in Italy[J].Crop Protection,2002,21(9):741-749.[27]PETER C R,VOLKMAR W,JOHN C,et al.Food web ecology:Playing jenga and beyond[J].Science,2005,309(5731):68-69.[28]LIU Y B,LI X Y,LIU Q Z.Soil nematode communities in jujube (Ziziphus jujuba Mill.) rhizosphere soil under monoculture and jujube/wheat (Triticum aestivum Linn.) intercropping systems,a case study in Xinjiang arid region,northwest of China[J].European Journal of Soil Biology,2016,74:52-59.[29]LI X Y,LIU Q Z,WANG Y Z,et al.Different changes of soil nematode communities in replant and continuous-planting peach orchards and their indicative value for peach replant problem[J].Helminthologia,2015,52(3):261-269.[30]XIE X,PU L,WANG Q,et al.Response of soil physicochemical properties and enzyme activities to long-term reclamation of coastal saline soil,Eastern China[J].Science of the Total Environment,2017,607:1419-1427.[31]COLEY P D,BRYANT J P,CHAPIN F S.Resource availability and plant antiherbivore defense[J].Science,1985,230(4728):895-899.[32]SIMMS E L,RAUSHER M D.Costs and benefits of plant resistance to herbivory[J].American Naturalist,1987,130(4):570-581.[33]HUOT B,YAO J,MONTGOMERY B L,et al.Growth-Defense tradeoffs in plants:A balancing act to optimize fitness[J].Molecular Plant,2014,7(8):1267-1287.[34]KARASOV T,CHAE E,HERMAN J,et al.Mechanisms to mitigate the tradeoff between growth and defense[J].Plant Cell,2017,29(4):666-680.[35]CHEN P,LIU Q Z.Genome-wide characterization of the WRKY gene family in cultivated strawberry (Fragaria×ananassa Duch.) and the importance of several group Ⅲ members in continuous cropping[J].Scientific Reports,2019,9(1):8423.[36]JUSTIN W W,DEHESH K.Molecular mechanisms regulating rapid stress signaling networks in Arabidopsis[J].Journal of Integrative Plant Biology,2010(4):354-359.[37]KALDE M,BARTH M,SOMSSICH I E,et al.Members of the Arabidopsis WRKY group Ⅲ transcription factors are part of different plant defense signaling pathways[J].Mol Plant Microbe Interact,2003,16(4):295-305.[38]NAKAYAMA A,FUKUSHIMA S,GOTO S,et al.Genome-wide identification of WRKY45-regulated genes that mediate benzothiadiazole-induced defense responses in rice[J].BMC Plant Biology,2013(13):150.[39]HUANG Y,LI M,WU P,et al.Members of WRKY Group Ⅲ transcription factors are important in TYLCV defense signaling pathway in tomato (Solanum lycopersicum)[J].BMC Genomics,2016,17(1):788.[40]LING J,JIANG W,ZHANG Y,et al.Genome-wide analysis of WRKY gene family in Cucumis sativus[J].BMC Genomics,2011,12(471):28.[41]RUSHTON P J,SOMSSICH I E,RINGLER P,et al.WRKY transcription factors[J].Trends in Plant Science,2010,15(5):247-258.[42]SHIM J S,JUNG C,LEE S,et al.AtMYB44 regulates WRKY70 expression and modulates antagonistic interaction between salicylic acid and jasmonic acid signaling[J].Plant Journal,2013,73(3):483-495.[43]DOU L L,GUO Y,ONDATI E,et al.Identification and expression analysis of group Ⅲ WRKY transcription factors in cotton[J].Journal of Integrative Agriculture,2016,15(11):2469-2480.[44]李贺勤,张林林,刘奇志.修复剂对连作草莓植株生长、土壤酶活性和矿质氮含量的影响[J].土壤通报,2014,45(3):643-647.[45]李贺勤,李星月,刘奇志,等.连作障碍调控技术研究进展[J].北方园艺,2013(23):193-197.[46]李星月,刘奇志,白春启,等.土壤修复技术对连作草莓产量与品质的影响[J].西南农业学报,2017,30(2):383-388.[47]CHEN P,WANG Y Z,LIU Q Z,et al.Transcriptomic analysis reveals recovery strategies in strawberry roots after using a soil amendment in continuous cropping soil[J].BMC Plant Biology,2020,20(1):5.