«ÉÏһƪ/Previous Article|±¾ÆÚĿ¼/Table of Contents|ÏÂһƪ/Next Article»

¡¶½­ËÕÅ©Òµ¿Æѧ¡·[ISSN:1002-1302/CN:32-1214/S]

¾í:

µÚ42¾í

ÆÚÊý:

2014Äê12ÆÚ

Ò³Âë:

168-171

À¸Ä¿:

Ö²Îï±£»¤

³ö°æÈÕÆÚ:

2014-12-25

ÎÄÕÂÐÅÏ¢/Info

Title:

Research progress on inhibition effect of compost on plant soil-borne diseases

×÷Õß:

ÁÖÓ¢¹;  Íõ¼ÍÕ¹;  ÕÔÇàËɹ;  ÀîƼƼ¹; 2

1.½­ËÕ´óѧũҵ¹¤³ÌÑо¿ÔºÏÖ´úÅ©Òµ×°±¸Óë¼¼ÊõÊ¡²¿¹²½¨½ÌÓý²¿ÖصãʵÑéÊÒ/½­ËÕÊ¡ÖصãʵÑéÊÒ£¬½­ËÕÕò½­ 212013£»2.ÄϾ©ÁÖÒµ´óѧɭÁÖ×ÊÔ´Óë»·¾³Ñ§Ôº£¬½­ËÕÄϾ© 210037

Author(s):

Lin Ying; et al

¹Ø¼ü´Ê:

¶Ñ·Ê; ÍÁ´«²¡º¦; ÒÖÖÆЧ¹û; ÒÖÖÆ»úÀí; Ó°ÏìÒòËØ

Keywords:

-

·ÖÀàºÅ:

S432£»S141.4

DOI:

-

ÎÄÏ×±êÖ¾Âë:

A

ÕªÒª:

¶ÔÏÖ´ú¶Ñ·ÊÌصã½øÐÐÁ˽éÉÜ£¬²¢Öصã²ûÊöÁ˶ѷÊÔÚ·ÀÖÎÍÁ´«²¡º¦ÉÏÓ¦ÓõÄÖ÷ÒªÐÎʽ£ºÒÔÍÁÈÀÌí¼Ó¼ÁµÄÐÎʽʩÈ룻×÷ΪÎÞÍÁÔÔÅà»ùÖÊʹÓã»ÖƳɶѷʽþÌáҺʹÓᣴËÍ⣬´ÓÀí»¯×÷Óá¢Î¢ÉúÎï×÷Óá¢ÓÕµ¼ÏµÍ³¿¹ÐԵȷ½Ãæ¶Ô¶Ñ·Ê¶ÔÍÁ´«²¡º¦µÄÒÖÖÆ»úÀí½øÐÐÁ˽ÏÈ«ÃæÂÛÊö£¬ÆäÖÐ΢ÉúÎï¶ÔÖ²Îﲡԭ¾úÒÖÖÆ×÷ÓõĻúÀíÖ÷Òª°üÀ¨ÓªÑø¾ºÕù¡¢Þ׿¹×÷Óá¢ÖؼÄÉú¡£Ó°Ïì¶Ñ·Ê¶ÔÍÁ´«²¡º¦ÒÖÖÆЧ¹ûµÄÒòËØÖ÷ÒªÓУºÌ¼µª±È¡¢pHÖµºÍµ¼µçÂÊ¡¢¶Ñ·ÊµÄ¸¯Êì³Ì¶È¡£×îºó£¬Ö¸³öÁ˶ѷÊÓÃÓÚÍÁ´«²¡º¦´æÔÚµÄÎÊÌâ¼°½â¾ö°ì·¨¡£

Abstract:

-

²Î¿¼ÎÄÏ×/References:

£Û1£ÝÒ¶ÔƷ壬¸¶¸Ú£¬Ô¬¸ßÇ죬µÈ. Ö²ÎïÍÁ´«²¡º¦°²È«·À¿Ø¼¼Êõ£ÛJ£Ý. ɽÎ÷Å©Òµ¿Æѧ£¬2009£¬37(7)£º64-66.
£Û2£ÝZhao Q Y£¬Dong C X£¬Yang X M£¬et al. Biocontrol of Fusarium wilt disease for Cucumis melo melon using bio-organic fertilizer£ÛJ£Ý. Applied Soil Ecology£¬2011£¬47 (1)£º67-75.
£Û3£ÝAlabouvette C£¬Olivain C£¬Steinberg C. Biological control of plant diseases£ºthe European situation£ÛJ£Ý. European Journal of Plant Pathology£¬2006£¬114(3)£º329-341.
£Û4£ÝNguyen M T. Soil-borne antagonists for biological control of bacterial wilt disease caused by Ralstonia solanacerum in tomato and pepper£ÛJ£Ý. Journal of Plant Pathology£¬2010£¬92(2)£º395-405.
£Û5£ÝStan V£¬Virsta A£¬Dusa E M£¬et al. Waste recycling and compost benefits£ÛJ£Ý. Notulae Botanicae Horti Agrobotanici Cluj-Napoca£¬2009£¬37(2)£º9-13.
£Û6£ÝStone A G£¬Vallad G E£¬Cooperband L R£¬et al. Effect of organic amendments on soilborne and foliar diseases in field-grown snap bean and cucumber£ÛJ£Ý. Plant Disease£¬2003£¬87(9)£º1037-1042.
£Û7£ÝNoble R£¬Coventry E. Suppression of soil-borne plant diseases with composts£ºa review£ÛJ£Ý. Biocontrol Science and Technology£¬2005£¬15(1)£º3-20.
£Û8£ÝScheuerell S J£¬Mahaffee W F. Compost tea as a container medium drench for suppressing seedling damping-off caused by Pythium ultimum£ÛJ£Ý. Phytopathology£¬2004£¬94(11)£º1156-1163.
£Û9£ÝQuilty J R£¬Cattle S R. Use and understanding of organic amendments in Australian agriculture£ºa review£ÛJ£Ý. Soil Research£¬2011£¬49(1)£º1-26.
£Û10£ÝWei Y S£¬Fan Y B£¬Wang M J£¬et al. Composting and compost application in China£ÛJ£Ý. Resources Conservation and Recycling£¬2000£¬30(4)£º277-300.
£Û11£ÝNoble R. Risks and benefits of soil amendment with composts in relation to plant pathogens£ÛJ£Ý. Australasian Plant Pathology£¬2011£¬40(2)£º157-167.
£Û12£ÝSerra-Wittling C£¬Houot S£¬Alabouvette C. Increased soil suppressiveness to Fusarium wilt of flax after addition of municipal solid waste compost£ÛJ£Ý. Soil Biology and Biochemistry£¬1996£¬28(9)£º1207-1214.
£Û13£ÝLewis J A£¬Lumsden R D£¬Millner P D£¬et al. Suppression of damping-off of peas and cotton in the field with composted sewage sludge£ÛJ£Ý. Crop Protection£¬1992£¬11(3)£º260-266.
£Û14£ÝHuang J L£¬Li H L£¬Yuan H X. Effect of organic amendments on Verticillium wilt of cotton£ÛJ£Ý. Crop Protection£¬2006£¬25(11)£º1167-1173.
£Û15£ÝBonanomi G£¬Antignani V£¬Pane C£¬et al. Suppression of soilborne fungal diseases with organic amendments£ÛJ£Ý. Journal of Plant Pathology£¬2007£¬89(3)£º311-324.
£Û16£ÝHuang HC£¬Erickson R S£¬Chang C£¬et al. Organic soil amendments for control of apothecial production of Sclerotinia sclerotiorum£ÛJ£Ý. Plant Pathology Bulletin£¬Taipei£¬2002£¬11£º207-214.
£Û17£ÝErsahin Y S£¬Haktanir K£¬Yanar Y. Vermicompost suppresses Rhizoctonia solani Kuhn in cucumber seedlings£ÛJ£Ý. Journal of Plant Diseases and Protection£¬2009£¬116(4)£º182-188.
£Û18£ÝÔ¬Ó¢Ó¢£¬ÀîÃôÇ壬ºú࣬µÈ. ÉúÎïÓлú·Ê¶Ô·¬ÇÑÇà¿Ý²¡µÄ·ÀЧ¼°¶ÔÍÁÈÀ΢ÉúÎïµÄÓ°Ïì£ÛJ£Ý. Å©Òµ»·¾³¿Æѧѧ±¨£¬2011£¬30(7)£º1346-1350.
£Û19£ÝZhang N£¬Wu K£¬He X£¬et al. A new bioorganic fertilizer can effectively control banana wilt by strong colonization with Bacillus subtilis N11£ÛJ£Ý. Plant and Soil£¬2011£¬344(1/2)£º87-97.
£Û20£ÝLing N£¬Xue C£¬Huang Q W£¬et al. Development of a mode of application of bioorganic fertilizer for improving the biocontrol efficacy to Fusarium wilt£ÛJ£Ý. BioControl£¬2010£¬55(5)£º673-683.
£Û21£ÝPane C£¬Spaccini R£¬Piccolo A£¬et al. Compost amendments enhance peat suppressiveness to Pythium ultimum£¬Rhizoctonia solani and Sclerotinia minor£ÛJ£Ý. Biological Control£¬2011£¬56(2)£º115-124.
£Û22£ÝTrillas M I£¬Casanova E£¬Cotxarrera L£¬et al. Composts from agricultural waste and the Trichoderma asperellum strain T-34 suppress Rhizoctonia solani in cucumber seedlings£ÛJ£Ý. Biological Control£¬2006£¬39(1)£º32-38.
£Û23£ÝBernal-Vicente A£¬Ros M£¬Tittarelli F£¬et al. Citrus compost and its water extract for cultivation of melon plants in greenhouse nurseries. Evaluation of nutriactive and biocontrol effects£ÛJ£Ý. Bioresource Technology£¬2008£¬99(18)£º8722-8728.
£Û24£ÝBoulter J I£¬Gj B£¬Trevors J T. Compost£ºa study of the development process and end-product potential for uppression of turfgrass disease£ÛJ£Ý. World Journal of Microbiology and Biotechnology£¬2000£¬16(2)£º115-134.
£Û25£ÝÂíÀûƽ£¬ÇÇÐÛÎ࣬¸ß·Ò£¬µÈ. ¼ÒÐóŽ·Ê½þ×ÕÒº¶ÔÇཷ¿Ýή²¡µÄ·ÀÖμ°×÷ÓûúÀí£ÛJ£Ý. Ó¦ÓÃÓë»·¾³ÉúÎïѧ±¨£¬2001£¬7(1)£º84-87.
£Û26£ÝÂíÀûƽ£¬¸ß·Ò£¬ÇÇÐÛÎà. ¼ÒÐóŽ·Ê½þ×ÕÒº¶Ô»Æ¹Ï¿Ýή²¡µÄ·ÀÖμ°×÷ÓûúÀí̽Îö£ÛJ£Ý. Ö²ÎﲡÀíѧ±¨£¬1999£¬29(3)£º270-274.
£Û27£ÝÀî´ºÏö£¬ÕÅË«çô£¬Ô¬Ðñ³¬£¬µÈ. Á½ÖÖÒ©ÓÃÖ²Îï²ÐÔü¶Ñ·Ê½þÌáÒº¶Ô»Æ¹Ï3ÖÖ²¡º¦·ÀÖÎЧ¹û£ÛJ£Ý. Î÷±±Å©ÒµÑ§±¨£¬2009£¬18(1)£º208-212.
£Û28£ÝEl-Masry M H£¬Khalil A I£¬Hassouna M S£¬et al. In situ and in vitro suppressive effect of agricultural composts and their water extracts on some phytopathogenic fungi£ÛJ£Ý. World Journal of Microbiology and Biotechnology£¬2002£¬18(6)£º551-558.
£Û29£ÝAlfano G£¬Lustrato G£¬Lima G£¬et al. Characterization of composted olive mill wastes to predict potential plant disease suppressiveness£ÛJ£Ý. Biological Control£¬2011£¬58(3)£º199-207.
£Û30£ÝStrauss P R. Soil erosion and related physical properties after 7 years of compost application£ÛJ£Ý. Applying Compost Benefits and Needs£¬2003£¬219£º851-865.
£Û31£ÝO¬ðSullivan D J£¬O¬ðGara F. Traits of fluorescent Pseudomonas spp. involved in suppression of plant root pathogens£ÛJ£Ý. Microbiological Reviews£¬1992£¬56(4)£º662-676.
£Û32£ÝChen W D£¬Hoitink H£¬Schmitthenner A F£¬et al. The role of microbial activity in suppression of damping-off caused by Pythium ultimum£ÛJ£Ý. Phytopathology£¬1988£¬78(3)£º314-322.
£Û33£ÝOngena M£¬Jourdan E£¬Adam A£¬et al. Surfactin and fengycin lipopeptides of Bacillus subtilis as elicitors of induced systemic resistance in plants£ÛJ£Ý. Environmental Microbiology£¬2007£¬9(4)£º1084-1090.
£Û34£ÝLeelasuphakul W£¬Sivanunsakul P£¬Phongpaichit S. Purification£¬characterization and synergistic activity of ¦Â-1£¬3-glucanase and antibiotic extract from an antagonistic Bacillus subtilis NSRS 89-24 against rice blast and sheath blight£ÛJ£Ý. Enzyme and Microbial Technology£¬2006£¬38(7)£º990-997.
£Û35£Ý³ÂÑ©£¬ÕÔ¿ËÃ÷. ÍÁ´«²¡º¦ÉúÎï·ÀÖÎ΢ÉúÎïµÄÑо¿½øÕ¹£ÛJ£Ý. ÏÖ´úÅ©Òµ£¬2011(7)£º34-35.
£Û36£ÝAvil¨¦s M£¬Borrero C£¬Trillas M I. Review on compost as an inducer of disease suppression in plants grown in soilless culture£ÛM£Ý//Special Issue Compost ¢ó-dynamic plant£¬dynamic soil.Global Science Books£¬2011£º1-11.
£Û37£ÝKrause M S£¬de Ceuster T J£¬Tiquia S M£¬et al. Isolation and characterization of rhizobacteria from composts that suppress the severity of bacterial leaf spot of radish£ÛJ£Ý. Phytopathology£¬2003£¬93(10)£º1292-1300.
£Û38£ÝYogev A£¬Raviv M£¬Hadar Y£¬et al. Induced resistance as a putative component of compost suppressiveness£ÛJ£Ý. Biological Control£¬2010£¬54(1)£º46-51.
£Û39£ÝZhang W£¬Han D Y£¬Dick W A£¬et al. Compost and compost water extract-induced systemic acquired resistance in cucumber and Arabidopsis£ÛJ£Ý. Phytopathology£¬1998£¬88(5)£º450-455.
£Û40£ÝHadar Y£¬Papadopoulou K K. Suppressive composts£ºmicrobial ecology links between abiotic environments and healthy plants£ÛJ£Ý. Annual Review of Phytopathology£¬2012£¬50£º133-153.
£Û41£ÝBorrero C£¬Trillas M I£¬Ordov¨¢s J£¬et al. Predictive factors for the suppression of Fusarium wilt of tomato in plant growth media£ÛJ£Ý. Phytopathology£¬2004£¬94(10)£º1094-1101.
£Û42£ÝRaviv M£¬Yuji O£¬Katan J£¬et al. High-nitrogen compost as a medium for organic container-grown crops£ÛJ£Ý. Bioresource Technology£¬2005£¬96(4)£º419-427.
£Û43£ÝCotxarrera L£¬Trillas-Gay M I£¬Steinberg C£¬et al. Use of sewage sludge compost and Trichoderma asperellum isolates to suppress Fusarium wilt of tomato£ÛJ£Ý. Soil Biology and Biochemistry£¬2002£¬34(4)£º467-476.
£Û44£ÝSegarra G£¬Casanova E£¬Avil¨¦s M£¬et al. Trichoderma asperellum strain T34 controls Fusarium wilt disease in tomato plants in soilless culture through competition for iron£ÛJ£Ý. Microbial Ecology£¬2010£¬59(1)£º141-149.
£Û45£ÝGriffin D E. Managing abiotic factors of compost to increase soilborne disease suppression£ÛJ£Ý. Journal of Natural Resources & Life Sciences Education£¬2012£¬41(1)£º31-34.

ÏàËÆÎÄÏ×/References:

[1]Ìïΰ,ÁõÃ÷Çì,ϯÔ˹Ù.΢ÉúÎï¾ú¼Á¶ÔÒÔÖí·àºÍÏã¹½¾úÔüΪԭÁϵĿìËٶѷʹý³ÌµÄÓ°Ïì[J].½­ËÕÅ©Òµ¿Æѧ,2013,41(06):301.
¡¡Tian Wei,et al.Influence of microbial inoculants on high-speed composting process using pig manure and mushroom slag as material[J].Jiangsu Agricultural Sciences,2013,41(12):301.
[2]Å£Ã÷·Ò,ÓÚº£½¿,ÎäФæÂ,µÈ.Öí·à½Õ¸Ñ¸ßζѷʹý³ÌÖÐÎïÖʱ仯µÄÑо¿[J].½­ËÕÅ©Òµ¿Æѧ,2014,42(09):291.
¡¡Niu Mingfen,et al.Study on material changes during process of pig manure and straw composting[J].Jiangsu Agricultural Sciences,2014,42(12):291.
[3]Ðì¾²,ÁºÁÖÖÞ,¶­ÏþÓ¢,µÈ.4ÖÖÓлú·ÊÔ´µÄ¶Ñ·Ê²èÉúÎﻯѧÐÔÖʼ°¶Ô·¬ÇÑÃçÆÚÉú³¤µÄÓ°Ïì[J].½­ËÕÅ©Òµ¿Æѧ,2013,41(10):289.
¡¡Xu Jing,et al.Biochemical properties of compost teas made from four kinds of organic fertilizer and their effects on growth of tomato seedlings[J].Jiangsu Agricultural Sciences,2013,41(12):289.
[4]Âí´³,ÀîÃ÷·å,ÕԼ̺ì,µÈ.ͨ·ç²ßÂÔ¶Ô·ÏÆúÎïºÃÑõ¶Ñ·ÊµÄÓ°Ïì×ÛÊö[J].½­ËÕÅ©Òµ¿Æѧ,2013,41(11):350.
¡¡Ma Chuang,et al.Review of effect of ventilation strategies on aerobic composting of waste[J].Jiangsu Agricultural Sciences,2013,41(12):350.
[5]Ðí°®Ï¼,Ç®ÓàÇÛ.·¢½Í¾ú¼Á¶Ô¼¦·à¶Ñ·Ê·¢½ÍµÄÓ°Ïì[J].½­ËÕÅ©Òµ¿Æѧ,2014,42(01):332.
¡¡Xu Aixia,et al.Effect of fermentation bacteria on chicken manure compost[J].Jiangsu Agricultural Sciences,2014,42(12):332.
[6]ÇØ´äÀ¼,ÍõÀÚÔª,Áõ·É,µÈ.ľ´×ÒºÌí¼ÓÅ£·à¶Ñ·Ê¹ý³ÌÈÝÖØʱ¿Õ²ã´Î±ä»¯¼°Ë®·Öʱ¿Õ±ä»¯µÄ»ÒÉ«¹ØÁª·ÖÎö[J].½­ËÕÅ©Òµ¿Æѧ,2016,44(04):482.
¡¡Qin Cuilan,et al.Grey correlation analysis of bulk density stratified change and water spatial and temporal variation during composting of wood vinegar adding cow dung[J].Jiangsu Agricultural Sciences,2016,44(12):482.
[7]Õžü,ÀîÊÀºÃ,ÁõÃÏ×Ó,µÈ.³ÇÊÐÎÛÄàºÃÑõ¶Ñ·Ê¹ý³ÌÖÐÓлúÖʽµ½âÄ£ÐÍ[J].½­ËÕÅ©Òµ¿Æѧ,2016,44(02):348.
¡¡Zhang Jun,et al.Biodegradation model of organic matter during composting process of sewage sludge[J].Jiangsu Agricultural Sciences,2016,44(12):348.
[8]ÀîÖÎÓî,ÖÜÁë,ʯ³¤Çà,µÈ.»ùÓÚͼÏñ´¦Àí-HSIÑÕÉ«¿Õ¼äµÄľ´×Òº¶ÔÅ£·à¶Ñ·Ê¹ý³ÌH·ÖÁ¿Ä£ÐÍ̽¾¿[J].½­ËÕÅ©Òµ¿Æѧ,2016,44(01):399.
¡¡Li Zhiyu,et al.Effect of wood vinegar on H model during cow dung composting process based on image processing-HSI color space[J].Jiangsu Agricultural Sciences,2016,44(12):399.
[9]ÁºÎÄä¸,Å£Ã÷·Ò,ÎäФæÂ,µÈ.¸´ºÏ΢ÉúÎï¾ú¼ÁºÍÏËάËØøÖƼÁÔÚÅ£·à¶Ñ·ÊÖеÄÓ¦ÓÃЧ¹û[J].½­ËÕÅ©Òµ¿Æѧ,2016,44(01):362.
¡¡Liang Wenjuan,et al.Application effects of composite micro-organisms and cellulase in cow dung composting[J].Jiangsu Agricultural Sciences,2016,44(12):362.
[10]¸¶Ñ§Åô,Îâ·ïÖ¥,ÖÜиÕ.¼ä×÷·À¿Ø×÷ÎïÍÁ´«²¡º¦µÄ»úÀíÑо¿½øÕ¹[J].½­ËÕÅ©Òµ¿Æѧ,2016,44(01):16.
¡¡Fu Xuepeng,et al.Research progress on mechanism of plant soil-borne diseases control in intercropping system[J].Jiangsu Agricultural Sciences,2016,44(12):16.

±¸×¢/Memo

±¸×¢/Memo:

ÊÕ¸åÈÕÆÚ£º2014-03-17
»ù½ðÏîÄ¿£º¹ú¼ÒÐÇ»ð¼Æ»®(±àºÅ£º2010GA69001)£»½­ËÕÊ¡Ñо¿Éú´´Ð¼ƻ®ÏîÄ¿(±àºÅ£º21200025)¡£
×÷Õß¼ò½é£ºÁÖÓ¢(1985¡ª)£¬Å®£¬²©Ê¿Ñо¿Éú£¬Ñо¿·½ÏòΪÉèÊ©Ô°ÒÕ¹¤³ÌÓë¼¼Êõ¡£E-mail£ºjslinying@163.com.
ͨÐÅ×÷ÕߣºÀîƼƼ£¬½ÌÊÚ£¬²©Ê¿Éúµ¼Ê¦£¬´ÓÊÂÉèÊ©Å©ÒµÓëÅ©ÒµÉú̬¹¤³ÌÑо¿¡£ E-mail£ºlipingping@ujs.edu.cn¡£

³£Óù¦ÄÜ

¸üÐÂÈÕÆÚ/Last Update: 2014-12-25