耐盐碱溶磷菌的特性及对大棚植物的促生作用
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摘要
中国盐碱地面积大且分布较广,土壤磷利用率低。耐盐碱溶磷菌可将土壤中难溶性磷转化成易于被植物吸收利用的磷,从而提高土壤供磷水平,可有效解决盐碱土壤中有效磷含量低的问题,同时减少施用磷肥对环境造成的污染。文中对耐盐碱溶磷菌的筛选方法、溶磷机理、溶磷能力测定、以及对植物的促生效果和促生机理进行了综述,并根据目前耐盐碱溶磷菌利用效率低的现状,对今后该领域的研究方向进行了展望。
The area of saline-alkali land in China is large and widely distributed, with low soil utilization rate and serious resource waste. Salt-tolerant phosphorus-dissolving bacteria can transform insoluble phosphorus in soil into phosphorus easily absorbed and utilized by plants, thus improving the level of soil phosphorus supply, which can effectively solve the problem of low available phosphorus content in saline-alkali soil, and reduce the pollution caused by the application of phosphorus fertilizer to the environment. This review provides information about bacteria selection, phosphorus solubility determination, promotion effect and growth mechanism about the salt-tolerant phosphorus-dissolving bacteria. According to the current situation of low utilization efficiency of this bacteria, the future research directions in this field were prospected.
The area of saline-alkali land in China is large and widely distributed, with low soil utilization rate and serious resource waste. Salt-tolerant phosphorus-dissolving bacteria can transform insoluble phosphorus in soil into phosphorus easily absorbed and utilized by plants, thus improving the level of soil phosphorus supply, which can effectively solve the problem of low available phosphorus content in saline-alkali soil, and reduce the pollution caused by the application of phosphorus fertilizer to the environment. This review provides information about bacteria selection, phosphorus solubility determination, promotion effect and growth mechanism about the salt-tolerant phosphorus-dissolving bacteria. According to the current situation of low utilization efficiency of this bacteria, the future research directions in this field were prospected.
引文
[1]卢培娜,刘景辉,张丰屹.不同改良措施对盐碱地燕麦形态生理及产量的影响[J].中国农学通报,2018,34(15):20-25.
[2]张晨.环境生物技术在环境污染控制中的应用[J].污染防治技术,2017,30(6):60-61.
[3]邢芳芳,高明夫,禚优优,等.玉米根际高效溶磷菌的筛选、鉴定及溶磷特性研究[J].中国农学通报,2016,32(9):119-124.
[4]乔策策,王甜甜,王若斐,等.高效溶磷菌的筛选及其促生效应研究[J].南京农业大学学报,2017,40(4):664-670.
[5]杨顺,杨婷,林斌,等.两株溶磷真菌的筛选、鉴定及溶磷效果的评价[J].微生物学报,2018,58(2):264-273.
[6]Wei Y Q,Zhao Y,Shi M Z,et al.Effect of organic acids production and bacterial community on the possible mechanism of phosphorus solubilization during composting with enriched phosphate-solubilizing bacteria inoculation[J].Bioresource Technology,2018,247:190-199.
[7]江红梅,殷中伟,史发超,等.一株耐盐日本曲霉的筛选及其溶磷促生作用[J].微生物学报,2018,58(5):862-881.
[8]江红梅,殷中伟,史发超,等.一株耐盐溶磷真菌的筛选、鉴定及其生物肥料的应用效果[J].植物营养与肥料学报,2018,24(3):728-742.
[9]Rathi M,Gaur N.Phosphate solubilizing bacteria as biofertilizer and its applications[J].Pharm Res,2016,10:146-148.
[10]杨美英,王春红,武志海,等.不同条件下两株溶磷菌溶磷量及葡萄糖脱氢酶基因表达与酶活分析[J].微生物学报,2016,56(4):651-663.
[11]乔欢,吴小芹,王早.一株嗜松青霉JP-NJ4的解磷特性[J].微生物学通报,2014,41(9):1741-1748.
[12]卫星,徐鲁荣,张丹,等.一株耐硝酸盐的巨大芽孢杆菌溶磷特性研究[J].环境科学学报,2015,35(7):2052-2058.
[13]钟传青,黄为一.不同种类解磷微生物的溶磷效果及其磷酸酶活性的变化[J].土壤学报,2005(2):286-294.
[14]张淑红.1株溶磷细菌的筛选及其溶磷物质分析[J].河南农业科学,2014,43(8):64-67.
[15]滕泽栋,李敏,朱静,等.解磷微生物对土壤磷资源利用影响的研究进展[J].土壤通报,2017,48(1):229-235.
[16]王丹,詹婧,孙庆业.出芽短梗霉F4的溶磷能力及机理[J].应用生态学报,2014,25(7):2079-2084.
[17]李海云,孔维宝,达文燕,等.土壤溶磷微生物研究进展[J].生物学通报,2013,48(7):1-5.
[18]■üt M,Er F,Neumann G.Increased proton extrusion of wheat roots by inoculation with phosphorus solubilising microorganism[J].Plant and Soil,2011,339(1-2):285-297.
[19]Luduena L M,Anzuay M S,Magallanes-Noguera C,et al.Effects of P limitation and molecules from peanut root exudates on pqqE gene expression and pqq promoter activity in the phosphate-solubilizing strain Serratia sp.S119[J].Research in Microbiology,2017,168(8):710-721.
[20]Behera B C,Singdevsachan S K,Mishr R R.Diversity,mechanism and biotechnology of phosphate solubilizing microorganism in mangrove-A review[J].Biocatalysis and Agricultural Biotechnology,2014,3(2):97-110.
[21]Khan M S,Zaidi A,Ahemad M,et al.Plant growth promotion by phosphate solubilizing fungi-current perspective[J].Archives of Agronomy and Soil Science,2010,56(1):73-98.
[22]张英,芦光新,谢永丽,等.溶磷菌分泌有机酸与溶磷能力相关性研究[J].草地学报,2015,23(5):1033-1038.
[23]李蓉,周德明,吴毅,等.杉木根际溶磷菌筛选及其部分特性的初步研究[J].中南林业科技大学学报,2012,32(4):95-99.
[24]孙婷婷,陈晏,樊剑波,等.土壤悬液培养法研究长期施肥下花生根际解磷菌溶磷特性[J].土壤学报,2017,54(1):227-236.
[25]王志刚,胡云龙,徐伟慧,等.一株溶磷菌的分离鉴定及对西瓜根系的促生效应[J].浙江农业学报,2015,27(5):798-803.
[26]梅新兰,闪安琪,蒋益,等.适应玉米的溶磷细菌筛选及其对玉米生长的影响[J].土壤学报,2016,53(2):502-509.
[27]武志海,刘晶晶,杨美英,等.外源溶磷菌对不同土壤条件下大豆生长特性的影响[J].大豆科学,2017,36(1):78-86.
[28]徐春英,邢芳芳,宋涛,等.1株耐盐碱溶磷菌的溶磷特性及其促生效果[J].江苏农业科学,2014,42(7):397-399.
[29]乔欢,吴小芹,魏伟.两株解磷青霉对马尾松根际土壤的微生态效应及其促生作用[J].南京林业大学学报(自然科学版),2016,40(6):109-116.
[30]Ogut M,Er,F.Mineral composition of field grown winter wheat inoculated with phosphorus solubilizing bacteria at different plant growth stages[J].Journal of Plant Nutrition,2016,39(4):479-490.
[31]王欢,王敬敬,徐松,等.有机磷降解菌的筛选及其促生特性[J].微生物学报,2017,57(5):667-680.
[32]Krishnaraj P U,Dahale S.Mineral phosphate solubilization:concepts and prospects in sustainable agriculture[J].Proceedings of the Indian National Science Academy,2014,80(2):389-405.
[33]Ekin Z.Performance of phosphate solubilizing bacteria for improving growth and yield of sunflower(Helianthus annuus L.)in the presence of phosphorus fertilizer[J].African Journal of Biotechnology.2010,9(25):3794-3800.
[34]Stefan M,Munteanu N,Stoleru V,et al.Seed inoculation with plant growth promoting rhizobacteria enhances photosynthesis and yield of runner bean(Phaseolus coccineus L.)[J].Scientia Horticulturae,2013,151:22-29.
[35]银婷婷,王敬敬,柳影,等.高效解磷菌的筛选及其促生机制的初步研究[J].生物技术通报,2015,31(12):234-242.
[36]姜瑛,吴越,王国文,等.一株固氮解磷菌的筛选鉴定及其对花生的促生作用研究[J].土壤,2015,47(4):698-703.
[37]王奎萍,郑颖,褚光耀,等.解磷、固氮、产吲哚乙酸微生物菌株的筛选及其对植物的促生效果[J].江苏农业学报,2013,29(6):1352-1359.
[38]刘素慧,刘世琦,张自坤,等.大蒜连作对其根际土壤微生物和酶活性的影响[J].中国农业科学,2010,43(5):1000-1006.
[39]武志海,刘晶晶,刘丽,等.溶磷菌对大豆根际土壤酶活性及微生物群落的影响[J].中国农业大学学报,2017,22(11):58-67.
[40]Muhammad N,Samina B,Yasmin K,et al.Plant growth promoting bacteria as an alternative strategy for salt tolerance in plants:A review[J].Microbiological Research,2018,209:21-32.
[41]Etesami H,Alikhani H A,Hosseini H M.Indole-3-acetic acid(IAA)production trait,a useful screening to select endophytic and rhizosphere competent bacteria for rice growth promoting agents[J].Methods X,2015,2:72-78.
[42]Elizabeth T A,Bernard R G,Olubukola O B.Microbial Phosphorus Solubilization and Its Potential for Use in Sustainable Agriculture[J].Frontiers in microbiology,2017,8:1-8.
[2]张晨.环境生物技术在环境污染控制中的应用[J].污染防治技术,2017,30(6):60-61.
[3]邢芳芳,高明夫,禚优优,等.玉米根际高效溶磷菌的筛选、鉴定及溶磷特性研究[J].中国农学通报,2016,32(9):119-124.
[4]乔策策,王甜甜,王若斐,等.高效溶磷菌的筛选及其促生效应研究[J].南京农业大学学报,2017,40(4):664-670.
[5]杨顺,杨婷,林斌,等.两株溶磷真菌的筛选、鉴定及溶磷效果的评价[J].微生物学报,2018,58(2):264-273.
[6]Wei Y Q,Zhao Y,Shi M Z,et al.Effect of organic acids production and bacterial community on the possible mechanism of phosphorus solubilization during composting with enriched phosphate-solubilizing bacteria inoculation[J].Bioresource Technology,2018,247:190-199.
[7]江红梅,殷中伟,史发超,等.一株耐盐日本曲霉的筛选及其溶磷促生作用[J].微生物学报,2018,58(5):862-881.
[8]江红梅,殷中伟,史发超,等.一株耐盐溶磷真菌的筛选、鉴定及其生物肥料的应用效果[J].植物营养与肥料学报,2018,24(3):728-742.
[9]Rathi M,Gaur N.Phosphate solubilizing bacteria as biofertilizer and its applications[J].Pharm Res,2016,10:146-148.
[10]杨美英,王春红,武志海,等.不同条件下两株溶磷菌溶磷量及葡萄糖脱氢酶基因表达与酶活分析[J].微生物学报,2016,56(4):651-663.
[11]乔欢,吴小芹,王早.一株嗜松青霉JP-NJ4的解磷特性[J].微生物学通报,2014,41(9):1741-1748.
[12]卫星,徐鲁荣,张丹,等.一株耐硝酸盐的巨大芽孢杆菌溶磷特性研究[J].环境科学学报,2015,35(7):2052-2058.
[13]钟传青,黄为一.不同种类解磷微生物的溶磷效果及其磷酸酶活性的变化[J].土壤学报,2005(2):286-294.
[14]张淑红.1株溶磷细菌的筛选及其溶磷物质分析[J].河南农业科学,2014,43(8):64-67.
[15]滕泽栋,李敏,朱静,等.解磷微生物对土壤磷资源利用影响的研究进展[J].土壤通报,2017,48(1):229-235.
[16]王丹,詹婧,孙庆业.出芽短梗霉F4的溶磷能力及机理[J].应用生态学报,2014,25(7):2079-2084.
[17]李海云,孔维宝,达文燕,等.土壤溶磷微生物研究进展[J].生物学通报,2013,48(7):1-5.
[18]■üt M,Er F,Neumann G.Increased proton extrusion of wheat roots by inoculation with phosphorus solubilising microorganism[J].Plant and Soil,2011,339(1-2):285-297.
[19]Luduena L M,Anzuay M S,Magallanes-Noguera C,et al.Effects of P limitation and molecules from peanut root exudates on pqqE gene expression and pqq promoter activity in the phosphate-solubilizing strain Serratia sp.S119[J].Research in Microbiology,2017,168(8):710-721.
[20]Behera B C,Singdevsachan S K,Mishr R R.Diversity,mechanism and biotechnology of phosphate solubilizing microorganism in mangrove-A review[J].Biocatalysis and Agricultural Biotechnology,2014,3(2):97-110.
[21]Khan M S,Zaidi A,Ahemad M,et al.Plant growth promotion by phosphate solubilizing fungi-current perspective[J].Archives of Agronomy and Soil Science,2010,56(1):73-98.
[22]张英,芦光新,谢永丽,等.溶磷菌分泌有机酸与溶磷能力相关性研究[J].草地学报,2015,23(5):1033-1038.
[23]李蓉,周德明,吴毅,等.杉木根际溶磷菌筛选及其部分特性的初步研究[J].中南林业科技大学学报,2012,32(4):95-99.
[24]孙婷婷,陈晏,樊剑波,等.土壤悬液培养法研究长期施肥下花生根际解磷菌溶磷特性[J].土壤学报,2017,54(1):227-236.
[25]王志刚,胡云龙,徐伟慧,等.一株溶磷菌的分离鉴定及对西瓜根系的促生效应[J].浙江农业学报,2015,27(5):798-803.
[26]梅新兰,闪安琪,蒋益,等.适应玉米的溶磷细菌筛选及其对玉米生长的影响[J].土壤学报,2016,53(2):502-509.
[27]武志海,刘晶晶,杨美英,等.外源溶磷菌对不同土壤条件下大豆生长特性的影响[J].大豆科学,2017,36(1):78-86.
[28]徐春英,邢芳芳,宋涛,等.1株耐盐碱溶磷菌的溶磷特性及其促生效果[J].江苏农业科学,2014,42(7):397-399.
[29]乔欢,吴小芹,魏伟.两株解磷青霉对马尾松根际土壤的微生态效应及其促生作用[J].南京林业大学学报(自然科学版),2016,40(6):109-116.
[30]Ogut M,Er,F.Mineral composition of field grown winter wheat inoculated with phosphorus solubilizing bacteria at different plant growth stages[J].Journal of Plant Nutrition,2016,39(4):479-490.
[31]王欢,王敬敬,徐松,等.有机磷降解菌的筛选及其促生特性[J].微生物学报,2017,57(5):667-680.
[32]Krishnaraj P U,Dahale S.Mineral phosphate solubilization:concepts and prospects in sustainable agriculture[J].Proceedings of the Indian National Science Academy,2014,80(2):389-405.
[33]Ekin Z.Performance of phosphate solubilizing bacteria for improving growth and yield of sunflower(Helianthus annuus L.)in the presence of phosphorus fertilizer[J].African Journal of Biotechnology.2010,9(25):3794-3800.
[34]Stefan M,Munteanu N,Stoleru V,et al.Seed inoculation with plant growth promoting rhizobacteria enhances photosynthesis and yield of runner bean(Phaseolus coccineus L.)[J].Scientia Horticulturae,2013,151:22-29.
[35]银婷婷,王敬敬,柳影,等.高效解磷菌的筛选及其促生机制的初步研究[J].生物技术通报,2015,31(12):234-242.
[36]姜瑛,吴越,王国文,等.一株固氮解磷菌的筛选鉴定及其对花生的促生作用研究[J].土壤,2015,47(4):698-703.
[37]王奎萍,郑颖,褚光耀,等.解磷、固氮、产吲哚乙酸微生物菌株的筛选及其对植物的促生效果[J].江苏农业学报,2013,29(6):1352-1359.
[38]刘素慧,刘世琦,张自坤,等.大蒜连作对其根际土壤微生物和酶活性的影响[J].中国农业科学,2010,43(5):1000-1006.
[39]武志海,刘晶晶,刘丽,等.溶磷菌对大豆根际土壤酶活性及微生物群落的影响[J].中国农业大学学报,2017,22(11):58-67.
[40]Muhammad N,Samina B,Yasmin K,et al.Plant growth promoting bacteria as an alternative strategy for salt tolerance in plants:A review[J].Microbiological Research,2018,209:21-32.
[41]Etesami H,Alikhani H A,Hosseini H M.Indole-3-acetic acid(IAA)production trait,a useful screening to select endophytic and rhizosphere competent bacteria for rice growth promoting agents[J].Methods X,2015,2:72-78.
[42]Elizabeth T A,Bernard R G,Olubukola O B.Microbial Phosphorus Solubilization and Its Potential for Use in Sustainable Agriculture[J].Frontiers in microbiology,2017,8:1-8.