芦笋连作障碍中的自毒物质研究进展
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摘要
芦笋的自毒作用是导致连作障碍的主要原因之一。关于芦笋连作障碍中自毒物质的研究,包括芦笋自毒作用的解读、自毒物质来源、自毒物质种类、及芦笋品种间化感自毒作用差异性存在的研究,对于这些方面的综述旨在为芦笋化感自毒作用的研究提供参考资料。并总结了缓解自毒作用的途径,包括轮作、生物炭、降解菌及其他途径,以期为解决芦笋连作障碍中的自毒作用提供新思路。
The autotoxicity of asparagus(Asparagus officinalis L.) is one of the main factors causing continuous cropping problem. The researches on the autotoxicity of asparagus in continuous cropping barrier, including the interpretation of the autotoxicity of asparagus, the sources of the autotoxicity of asparagus, the types of the autotoxicity of asparagus, and the differences of asparagus cultivars in allelopathic autotoxicity were reviewed in order to provide references for the research on the allelopathic autotoxicity of asparagus. The ways to alleviate the autotoxic effect, including rotation, biochar, degradation bacteria and other ways, were summarized, so as to provide new ideas for solving the autotoxicity of continuous cropping of asparagus.
The autotoxicity of asparagus(Asparagus officinalis L.) is one of the main factors causing continuous cropping problem. The researches on the autotoxicity of asparagus in continuous cropping barrier, including the interpretation of the autotoxicity of asparagus, the sources of the autotoxicity of asparagus, the types of the autotoxicity of asparagus, and the differences of asparagus cultivars in allelopathic autotoxicity were reviewed in order to provide references for the research on the allelopathic autotoxicity of asparagus. The ways to alleviate the autotoxic effect, including rotation, biochar, degradation bacteria and other ways, were summarized, so as to provide new ideas for solving the autotoxicity of continuous cropping of asparagus.
引文
[1]DAWID C,HOFMANN T.Identification of sensory-active phytochemicals in asparagus(Asparagus officinalis L.)[J].Journal of Agricultural and Food Chemistry,2012,60(48):11877-11888.
[2]BENSON B L.Update of the world’s asparagus production areas,spear utilization and production periods[J].Acta Horticulturae,2008,66(11):2355-2362.
[3]COHEN S I,HEALD F D.A wilt and root rot of asparagus caused by Fusarium oxysporum Schlecht[J].Plant Disease Reporter,1941,25(20):503-509.
[4]ENDO R M,Burkholder E C.The association of Fusarium moniliforme with the crown rot complex of asparagus[J].Phytopathology,1971,61:891.
[5]GROGAN R G,KIMBLE K A.The association of Fusarium wilt with the asparagus decline and replant problem in California[J].Phytopathology,1959,49(1):122-125.
[6]JOHNSTON S A,SPRINGER J K,LEWIS G D.Fusarium moniliforme as a cause of stem and crown rot of asparagus and its association with asparagus decline[J].Phytopathology,1979,69(7):778-780.
[7]HARTUNG A C,STEPHENS C T.Effects of allelopathic substances produced by asparagus on the incidence and severity of asparagus decline due to fusarium crown rot[J].Journal of Chemical Ecology,1983,9(8):1163-1174.
[8]HARTUNG A C,PUTNAM A R,STEPHENS C T.Inhibitory activity of asparagus root tissue and extracts on asparagus seedlings[J].Journal of American Society for Horticultural Science,1989,114(1):144-148.
[9]LAUFER G A,GARRISON S A.The effect of asparagus tissue on seed germination and asparagus seedling growth:possible allelopathic interactions[J].Horticultural science,1977,12(4):385.
[10]SHAFER W E,GARRISON S A.Effects of decomposing asparagus root tissues on lettuce,tomato and asparagus seed emergence[J].Horticultural Science,1980,15(3):406.
[11]SHAFER W E,GARRISON S A.Effects of asparagus root extracts on lettuce and asparagus seed germination and growth[J].HortScience,1980,15(3):406-407.
[12]SHAFER W E,GARRISON S A.Allelopathic effects of soil incorporated asparagus roots on lettuce,tomato and asparagus seedling emergence[J].Horticultural Science,1986,21(1):82-84.
[13]YANG H.Autotoxicity of Asparagus officinalis L.[J].Journal of American Society for Horticultural Science,1982,107:860-862.
[14]YOUNG C C.Autointoxication in root exudates of Asparagus officinalis L.[J].Plant and Soil,1984,82(2):247-253.
[15]KATO-NOGUCHI H,NAKAMURA K,OHNO O,et al.Asparagus decline:Autotoxicity and autotoxic compounds in asparagus rhizome[J].Journal of Plant Physiology,2017,213(7):23-29.
[16]KATO-NOGUCHI H,NAKAMURA K,OKUDA N.Involvement of an autotoxic compound in asparagus decline[J].Journal of Plant Physiology,2018,224-225(5-6):49-55.
[17]陈益忠.芦笋芦荟高产栽培与加工[M].北京:中国农业出版社,2003.
[18]KONG C H,CHEN L C,XU X H,et al.Allelochemicals and activities in a replanted Chinese fir(Cunninghamia lanceolata(Lamb.)Hook)tree ecosystem[J].Journal of Agricultural Food Chemistry,2008,56(24):11734-11739.
[19]RUMANA Y,SATORU M,SADAHIRO Y,et al.Allelochemicals inhibit the growth of subsequently replanted asparagus(Asparagus officinalis L.)[J].Biological Agriculture and Horticulture,2013,29(3):165-172.
[20]KITAHARA Y,YANAGAWA H,KATO T,et al.Asparagusic acid,a new plant growth inhibitor in etiolated young asparagus shoots[J].Plant Cell Physiology,1972,13(5):923-925.
[21]HUNGATE B A,LUND C P,PEARSON H L.Elevated CO2 and nutrient addition alter soil N cycling and N trace gas fluxes with early season wet-up in a California annual grassland[J].Biogeochemistry,1997,37(2):89-109.
[22]李国栋,叶俊松,尹俊玉.芦笋连作障碍原因与调控措施[J].长江蔬菜,2009,9(5):31-32.
[23]RUMANA Y,FRANK K,SATORU M,et al.Root residue amendment on varietal allelopathy and autotoxicity of replanted asparagus(Asparagus officinalis L.)[J].Experimental Agriculture and Horticulture,2013,2(1):31-44.
[24]YOUNG C C.Studies on the exudate and residue of Asparagus officinalis L.[J].Taiwan Asparagus Research,1981,68-76.
[25]YOUNG C C,CHOU T C.Autointoxication in residues of Asparagus officinalis L.[J].Plant and soil,1985,85(3):385-393.
[26]YOUNG C C,CHEN S H.Phytotoxic study in the soil and root exudates of Asparagus officinalis L.[J].Taiwan Asparagus Research,1983-1985,71-78.
[27]YOUNG C C,CHEN S H.Phytotoxic study in the soil and root exudates of Asparagus officinalis L.[J].Asparagus Research Newsletter,1988,5(2):55-56.
[28]HAZEBROEK J P,GARRISON S A,GIANFAGNA T.Allelopathic substances in asparagus roots:extraction,characterization and biological activity[J].Chilean Journal of Agricultural Research,1989,69(4):526-533.
[29]BILLAU W,BUCHLOH G,GEIGER H,et al.HPLCanalysis of phenolic compounds in storage roots of white asparagus(Asparagus officinalis L.)during the vegetationperiod[J].Asparagus Research Newsletter,1987,4(5):18-19.
[30]LAKE R J,FALLOON P G,COOK D W M.Replant problem and chemical components of asparagus roots[J].New Zealand Journal of Crop and Horticultural Science,1993,21(1):53-58.
[31]HARTUNG A C,NAIR M G,PUTNAM A R.Isolation and characterization of phytotoxic compounds from asparagus(Asparagus officinalis L.)roots[J].Journal of Chemical Ecology,1990,16(5):1707-1718.
[32]MILLER H G,IKAWA M,PEIRCE L C.Caffeic acid identified as an inhibitory compound in asparagus root filtrate[J].Horticultural Science,1991,26(12):1525-1527.
[33]PEIRCE L C,COLBY L.Interaction of asparagus root filtrate with Fusariaum oxysporum f.sp.Asparagi[J].Journal of American Society for Horticultural Science,1987,112(1):35-40.
[34]PEIRCE L C,MILLER H G.Interaction of asparagus autotoxin with Fusarium[C].HortScience,1990,25(6):623(Abstr).
[35]ZHOU Baoli,YIN Yuling,ZHANG Fengli,et al.Allelopathic effects of root extracts of grafted eggplants on Verticillium dahliae and their constituents’identification[J].Allelopathy Journal,2010,25(2):393-402.
[36]RUMANA Y,KEN N,HIROSHI M,et al.Inference of allelopathy and autotoxicity to varietal resistance of asparagus(Asparagus officinalis L.)[J].Australian Journal of Crop Science,2014,8(2):251-256.
[37]ZHAO Shuang,LIU Dongyang,LING Ning,et al.Bio-organic fertilizer application significantly reduces the Fusarium oxysporum population and alters the composition of fungi communities of watermelon Fusarium wilt rhizosphere soil[J].Biology and Fertility of Soils,2014,50(5):765-774.
[38]马彦霞,张玉鑫,胡琳莉,等.外源抗坏血酸对番茄自毒作用的缓解效应[J].农业环境科学学报,2015,34(7):1247-1253.
[39]吴红淼,吴林坤,王娟英,等.根际调控在缓解连作障碍和提高土壤质量中的作用和机理[J].生态科学,2016,35(5):225-232.
[40]王芳.茄子连作障碍机理研究[D].北京:中国农业大学,2003:19-22.
[41]林岳生.芦笋园老化的原因与更新技术[J].福建农业科技,1999,2(1):31-32.
[42]LEHMANN J D,JOSEPH S.Biochar for environmental management[J].Science and Technology:Earthscan,2009,25(1):15801-15811.
[43]CHEN Baoliang,YUAN Miaoxin,QIAN Linbo.Enhanced bioremediation of PAH-contaminated soil by immobilized bacteria with plant residue and biochar as carriers[J].Journal of Soils and Sediments,2012,12(9):1350-1359.
[44]HARVEY O M,KUO L,ZIMMERMAN A R,et al.An index based approach to assessing recalcitrance and soil carbon sequestration potential of engineered black carbons(biochars)[J].Environment Science Technology,2012,46(3):1415-1421.
[45]RIDENOUR W M,CALLAWAY R M.The relative importance of allelopathy in interference:the effects of an invasive weed on a native bunchgrass[J].Oecologia,2001,126(3):444-450.
[46]RUMANA Y,SATORU M,SADAHIRO Y,et al.Activated carbon and phosphorus application influence the growth of continuously replanted asparagus(Asparagus officinalis L.)[J].Global Journal of Science Frontier Research Chemistry,2013,13(5):1-7.
[47]喻国辉,谢银华,陈燕红,等.利用微生物缓解苯丙烯酸对黄瓜生长的抑制[J].微生物学报,2006,46(6):934.
[48]杜国营.黄瓜根系分泌物中化感物质的鉴定及其生物降解研究[D].郑州:河南农业大学,2006:8-9.
[49]王晓辉.西瓜自毒物质阿魏酸降解放线菌筛选及其降解效果研究[D].杨陵:西北农林科技大学,2011:5-6.
[50]SCHOFIELD P E.Asparagus decline and replant problem in New Zealand[J].New Zealand Journal of Crop and Horticultural Science,1991,19(3):213-220.
[51]李敬雷,乜兰春,刘丰亮,等.芦笋根腐解物对作物种子萌发及胚根伸长的影响[J].河北农业大学学报,2010,33(4):43-45.
[2]BENSON B L.Update of the world’s asparagus production areas,spear utilization and production periods[J].Acta Horticulturae,2008,66(11):2355-2362.
[3]COHEN S I,HEALD F D.A wilt and root rot of asparagus caused by Fusarium oxysporum Schlecht[J].Plant Disease Reporter,1941,25(20):503-509.
[4]ENDO R M,Burkholder E C.The association of Fusarium moniliforme with the crown rot complex of asparagus[J].Phytopathology,1971,61:891.
[5]GROGAN R G,KIMBLE K A.The association of Fusarium wilt with the asparagus decline and replant problem in California[J].Phytopathology,1959,49(1):122-125.
[6]JOHNSTON S A,SPRINGER J K,LEWIS G D.Fusarium moniliforme as a cause of stem and crown rot of asparagus and its association with asparagus decline[J].Phytopathology,1979,69(7):778-780.
[7]HARTUNG A C,STEPHENS C T.Effects of allelopathic substances produced by asparagus on the incidence and severity of asparagus decline due to fusarium crown rot[J].Journal of Chemical Ecology,1983,9(8):1163-1174.
[8]HARTUNG A C,PUTNAM A R,STEPHENS C T.Inhibitory activity of asparagus root tissue and extracts on asparagus seedlings[J].Journal of American Society for Horticultural Science,1989,114(1):144-148.
[9]LAUFER G A,GARRISON S A.The effect of asparagus tissue on seed germination and asparagus seedling growth:possible allelopathic interactions[J].Horticultural science,1977,12(4):385.
[10]SHAFER W E,GARRISON S A.Effects of decomposing asparagus root tissues on lettuce,tomato and asparagus seed emergence[J].Horticultural Science,1980,15(3):406.
[11]SHAFER W E,GARRISON S A.Effects of asparagus root extracts on lettuce and asparagus seed germination and growth[J].HortScience,1980,15(3):406-407.
[12]SHAFER W E,GARRISON S A.Allelopathic effects of soil incorporated asparagus roots on lettuce,tomato and asparagus seedling emergence[J].Horticultural Science,1986,21(1):82-84.
[13]YANG H.Autotoxicity of Asparagus officinalis L.[J].Journal of American Society for Horticultural Science,1982,107:860-862.
[14]YOUNG C C.Autointoxication in root exudates of Asparagus officinalis L.[J].Plant and Soil,1984,82(2):247-253.
[15]KATO-NOGUCHI H,NAKAMURA K,OHNO O,et al.Asparagus decline:Autotoxicity and autotoxic compounds in asparagus rhizome[J].Journal of Plant Physiology,2017,213(7):23-29.
[16]KATO-NOGUCHI H,NAKAMURA K,OKUDA N.Involvement of an autotoxic compound in asparagus decline[J].Journal of Plant Physiology,2018,224-225(5-6):49-55.
[17]陈益忠.芦笋芦荟高产栽培与加工[M].北京:中国农业出版社,2003.
[18]KONG C H,CHEN L C,XU X H,et al.Allelochemicals and activities in a replanted Chinese fir(Cunninghamia lanceolata(Lamb.)Hook)tree ecosystem[J].Journal of Agricultural Food Chemistry,2008,56(24):11734-11739.
[19]RUMANA Y,SATORU M,SADAHIRO Y,et al.Allelochemicals inhibit the growth of subsequently replanted asparagus(Asparagus officinalis L.)[J].Biological Agriculture and Horticulture,2013,29(3):165-172.
[20]KITAHARA Y,YANAGAWA H,KATO T,et al.Asparagusic acid,a new plant growth inhibitor in etiolated young asparagus shoots[J].Plant Cell Physiology,1972,13(5):923-925.
[21]HUNGATE B A,LUND C P,PEARSON H L.Elevated CO2 and nutrient addition alter soil N cycling and N trace gas fluxes with early season wet-up in a California annual grassland[J].Biogeochemistry,1997,37(2):89-109.
[22]李国栋,叶俊松,尹俊玉.芦笋连作障碍原因与调控措施[J].长江蔬菜,2009,9(5):31-32.
[23]RUMANA Y,FRANK K,SATORU M,et al.Root residue amendment on varietal allelopathy and autotoxicity of replanted asparagus(Asparagus officinalis L.)[J].Experimental Agriculture and Horticulture,2013,2(1):31-44.
[24]YOUNG C C.Studies on the exudate and residue of Asparagus officinalis L.[J].Taiwan Asparagus Research,1981,68-76.
[25]YOUNG C C,CHOU T C.Autointoxication in residues of Asparagus officinalis L.[J].Plant and soil,1985,85(3):385-393.
[26]YOUNG C C,CHEN S H.Phytotoxic study in the soil and root exudates of Asparagus officinalis L.[J].Taiwan Asparagus Research,1983-1985,71-78.
[27]YOUNG C C,CHEN S H.Phytotoxic study in the soil and root exudates of Asparagus officinalis L.[J].Asparagus Research Newsletter,1988,5(2):55-56.
[28]HAZEBROEK J P,GARRISON S A,GIANFAGNA T.Allelopathic substances in asparagus roots:extraction,characterization and biological activity[J].Chilean Journal of Agricultural Research,1989,69(4):526-533.
[29]BILLAU W,BUCHLOH G,GEIGER H,et al.HPLCanalysis of phenolic compounds in storage roots of white asparagus(Asparagus officinalis L.)during the vegetationperiod[J].Asparagus Research Newsletter,1987,4(5):18-19.
[30]LAKE R J,FALLOON P G,COOK D W M.Replant problem and chemical components of asparagus roots[J].New Zealand Journal of Crop and Horticultural Science,1993,21(1):53-58.
[31]HARTUNG A C,NAIR M G,PUTNAM A R.Isolation and characterization of phytotoxic compounds from asparagus(Asparagus officinalis L.)roots[J].Journal of Chemical Ecology,1990,16(5):1707-1718.
[32]MILLER H G,IKAWA M,PEIRCE L C.Caffeic acid identified as an inhibitory compound in asparagus root filtrate[J].Horticultural Science,1991,26(12):1525-1527.
[33]PEIRCE L C,COLBY L.Interaction of asparagus root filtrate with Fusariaum oxysporum f.sp.Asparagi[J].Journal of American Society for Horticultural Science,1987,112(1):35-40.
[34]PEIRCE L C,MILLER H G.Interaction of asparagus autotoxin with Fusarium[C].HortScience,1990,25(6):623(Abstr).
[35]ZHOU Baoli,YIN Yuling,ZHANG Fengli,et al.Allelopathic effects of root extracts of grafted eggplants on Verticillium dahliae and their constituents’identification[J].Allelopathy Journal,2010,25(2):393-402.
[36]RUMANA Y,KEN N,HIROSHI M,et al.Inference of allelopathy and autotoxicity to varietal resistance of asparagus(Asparagus officinalis L.)[J].Australian Journal of Crop Science,2014,8(2):251-256.
[37]ZHAO Shuang,LIU Dongyang,LING Ning,et al.Bio-organic fertilizer application significantly reduces the Fusarium oxysporum population and alters the composition of fungi communities of watermelon Fusarium wilt rhizosphere soil[J].Biology and Fertility of Soils,2014,50(5):765-774.
[38]马彦霞,张玉鑫,胡琳莉,等.外源抗坏血酸对番茄自毒作用的缓解效应[J].农业环境科学学报,2015,34(7):1247-1253.
[39]吴红淼,吴林坤,王娟英,等.根际调控在缓解连作障碍和提高土壤质量中的作用和机理[J].生态科学,2016,35(5):225-232.
[40]王芳.茄子连作障碍机理研究[D].北京:中国农业大学,2003:19-22.
[41]林岳生.芦笋园老化的原因与更新技术[J].福建农业科技,1999,2(1):31-32.
[42]LEHMANN J D,JOSEPH S.Biochar for environmental management[J].Science and Technology:Earthscan,2009,25(1):15801-15811.
[43]CHEN Baoliang,YUAN Miaoxin,QIAN Linbo.Enhanced bioremediation of PAH-contaminated soil by immobilized bacteria with plant residue and biochar as carriers[J].Journal of Soils and Sediments,2012,12(9):1350-1359.
[44]HARVEY O M,KUO L,ZIMMERMAN A R,et al.An index based approach to assessing recalcitrance and soil carbon sequestration potential of engineered black carbons(biochars)[J].Environment Science Technology,2012,46(3):1415-1421.
[45]RIDENOUR W M,CALLAWAY R M.The relative importance of allelopathy in interference:the effects of an invasive weed on a native bunchgrass[J].Oecologia,2001,126(3):444-450.
[46]RUMANA Y,SATORU M,SADAHIRO Y,et al.Activated carbon and phosphorus application influence the growth of continuously replanted asparagus(Asparagus officinalis L.)[J].Global Journal of Science Frontier Research Chemistry,2013,13(5):1-7.
[47]喻国辉,谢银华,陈燕红,等.利用微生物缓解苯丙烯酸对黄瓜生长的抑制[J].微生物学报,2006,46(6):934.
[48]杜国营.黄瓜根系分泌物中化感物质的鉴定及其生物降解研究[D].郑州:河南农业大学,2006:8-9.
[49]王晓辉.西瓜自毒物质阿魏酸降解放线菌筛选及其降解效果研究[D].杨陵:西北农林科技大学,2011:5-6.
[50]SCHOFIELD P E.Asparagus decline and replant problem in New Zealand[J].New Zealand Journal of Crop and Horticultural Science,1991,19(3):213-220.
[51]李敬雷,乜兰春,刘丰亮,等.芦笋根腐解物对作物种子萌发及胚根伸长的影响[J].河北农业大学学报,2010,33(4):43-45.
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