酸性土壤中解磷菌的分离及其促生效果研究          下载免费PDF全文

李小莉  赵学强  董晓英  沈仁芳 《中国土壤与肥料》2023,(1):224-230

酸性土壤中磷易被固定,磷的生物有效性极低。解磷菌对土壤中难溶性磷具有重要的增溶作用。虽然已有不少解磷菌方面的研究,但是主要集中于中性和石灰性土壤中钙磷的解磷菌报道,而关于酸性土壤中高效溶解铝磷的微生物报道较少。采用培养基和土培试验,首先对酸性土壤上不同植物（胡枝子、大豆、水稻）根际土壤中的解磷菌进行了分离,然后比较了它们对不同磷源（磷酸钙和磷酸铝）的溶解能力,最后研究了它们对大豆生长和磷吸收的影响。通过使用难溶性磷源（磷酸钙和磷酸铝）的固体培养基,分离得到5株优势菌株L1、S1、S2、R1和R2,经16S rRNA序列鉴定,L1属于阮杆菌属（Nguyenibacter）,S1和S2分别属于假单胞菌属（Pseudomonas）和沙雷氏菌属（Serratia）,R1和R2分别属于伯克氏菌属（Burkholderia）和雷尔氏菌属（Ralstonia）。菌株S1、S2、R1和R2对难溶性磷酸钙有较强的溶解能力,对磷酸铝的溶解能力较弱;菌株L1对磷酸铝表现出较高的溶解能力,对难溶性磷酸钙的溶解能力弱。联合接种菌株L1+S1对大豆生长和磷吸收表现出良好的促进效果,而单独接种L1和S1效果不显著。...  相似文献   

耐铜苏丹草根内生细菌的分离筛选及其生物学特性研究   总被引：1，自引：1，他引：1  

王璐  何琳燕  盛下放 《土壤》2016,48(1):95-101

从生长在铜矿废弃地土壤中的Cu耐性苏丹草根中分离筛选到二株产1-氨基环丙烷-1-羧酸(ACC)脱氨酶内生细菌K1-6和K3-9菌株,并对菌株生物学特性进行了研究。菌株K1-6和K3-9具有较强的Cu抗性和多种抗生素抗性,菌株K1-6和K3-9能够溶磷和分泌吲哚乙酸(IAA),另外,菌株K3-9还能够产生铁载体和精氨酸脱羧酶,菌株K1-6和K3-9对温度、p H和盐浓度具有一定的耐受性,经16S r DNA序列分析,菌株K1-6和K3-9分别被鉴定为根瘤菌属(Rhizobium sp.K1-6)和肠杆菌属(Enterobacter aerogenes K3-9)。采用平皿培养试验研究了菌株K1-6和K3-9对生长在不同浓度Cu(0、4 mg/L)环境中的苏丹草的生长和吸收Cu的影响。结果表明,接菌处理苏丹草根部和地上部干重分别比对照增加了10.6%~45.5%和13%~40%,差异达显著水平(P0.05);接菌株K1-6处理苏丹草根部和地上部Cu含量比对照增加了46%和85%(P0.05),而接菌株K3-9处理苏丹草根部和地上部Cu含量与对照相比没有显著差异。另外,接菌株K1-6处理苏丹草根部和地上部总Cu吸收量比对照增加了88%和114%(P0.05),接菌株K3-9处理苏丹草根部总Cu吸收量比对照增加了44%(P0.05)。另外,接菌株K1-6和K3-9处理的苏丹草根部吸收的Cu是地上部吸收Cu的16~23倍。研究表明,分离自耐铜苏丹草根部的内生细菌具有多种植物促生特性,能够显著促进苏丹草的生长、提高苏丹草对Cu的耐受性,并强化苏丹草根部对Cu的富集能力。另外,不同的内生细菌对苏丹草的生长、富集和耐受Cu的影响不同。  相似文献   

一株大蒜根际细菌特性研究及其对田间大蒜产量和土壤酶活性的影响   总被引：2，自引：1，他引：1       下载免费PDF全文

崔曼  尹彦舒  张梦琦  卜宁  陈云云  高淼  马莲菊 《中国土壤与肥料》2019,(1):173-179

植物根际促生菌(Plant growth-promoting rhizobacteria,PGPR)具有抵抗植物病害,促进植物生长等作用。以前期在山东省金乡县连作大蒜根际土壤中分离获得的根际细菌为研究对象,筛选获得对大蒜根腐病病原菌H5(Setophoma terrestris)和H9 (Fusarium solani)具有较好拮抗效果的菌株DS7,经16S rRNA基因序列分析初步鉴定,该菌株属于芽孢杆菌属(Bacillus)。功能特性研究显示:菌株Bacillus sp. DS7对H5抑制率达到51.72%,对H9抑制率达到42.31%;菌株DS7具有产IAA(19.29±0)μg/mL、产铁载体、水解蛋白、溶磷等能力,但不具有产ACC脱氨酶能力。田间接种试验结果显示:与不接菌的对照相比,接种菌株DS7后大蒜产量提高15.42%;土壤的蔗糖酶活性和脲酶活性高于对照土壤,过氧化氢酶活性低于对照土壤。综上,植物根际促生菌Bacillus sp. DS7具有多种功能特性,可以增加田间大蒜产量,改良土壤,是潜在的微生物肥料生产菌种。  相似文献   

植物根际促生菌（PGPR）对缓解水稻受土壤锌胁迫的作用     

陈佛保  柏珺  林庆祺  王诗忠  杨秀虹  仇荣亮 《农业环境保护》2012,(1):67-74

为解决农田重金属污染的严重环境问题,提出利用植物根际促生菌（Plant growth-promoting rhizobacteria,PGPR）来缓解农作物受重金属胁迫的科学设想。研究从大宝山污染土壤中筛选出的Pb2＋、Cd2＋、Cu2＋、Zn2＋耐性菌株,经鉴定为芽孢杆菌属（Bacillussp.DBM）,菌株DBM具有产吲哚乙酸（IAA）和ACC脱氨酶能力,但无产铁载体能力。盆栽试验结果表明,菌株DBM在水稻受重金属Zn（600mg.kg-1）胁迫时能有效保护并促进水稻的生长,使其地上部和地下部干重比不加菌处理对照分别提高97.8%和77.2%。另外,菌株DBM可以增加土壤中Zn的有效态含量,但不能增强水稻对土壤Zn的吸收能力。相反,在Zn600处理下,水稻地上部和地下部Zn浓度分别比不加菌处理对照减少15.1%和19.9%。但由于促生效果也极为显著,其地上部和地下部Zn总量仍分别比不加菌处理对照增加74.2%和48.6%。  相似文献   

硅酸盐细菌NBT菌株解钾效能及对钾的吸持作用   总被引：12，自引：0，他引：12  

盛下放  黄为一  曹晓英 《植物营养与肥料学报》2001,7(4):459-466

在摇瓶和土壤耗竭条件下研究了硅酸盐细菌NBT菌株的解钾作用以及对作物生长的促进作用。结果表明 ,在摇瓶条件下 ,培养 120h ,NBT菌株可以从钾长石中释放K 159.1mg/L ,比接灭活菌对照 (48.8mg/L)增加 226.02% ;耗竭条件下NBT菌株在未灭菌土壤中的解钾作用与在灭菌土壤中的解钾作用相当。在未灭菌土壤中 ,NBT菌株释放的矿物钾占植株吸钾量的 14.4 %～ 4 3.1% ;不接菌或接灭活菌处理土壤中矿物钾的释放量为零或极少。NBT菌株的解钾效能与土壤中速效性钾及有机质含量密切相关。土柱试验表明 ,供试土壤接种硅酸盐细菌后的土壤滤液中流失的钾比接种灭活硅酸盐细菌后的土壤滤液中流失钾减少 29.6 %～56.5% ;硅酸盐细菌NBT菌株荚膜多糖吸附钾的量占加入钾的量的 31.8%～ 69.4 %。NBT菌株的吸钾作用与NBT菌株本身及荚膜多糖的多少密切相关。  相似文献   

磷灰石联合黑麦修复铜污染土壤研究   总被引：3，自引：0，他引：3  

杜志敏  郭雪白  甄静  罗宏基  周静  王继雯  岳丹丹  巩涛  杨文玲  陈国参 《土壤》2019,51(2):330-337

通过田间试验研究了不同剂量磷灰石(10、20、30、50 g/kg,编号分别为LH1、LH2、LH3和LH4)与黑麦联合作用对Cu污染土壤的修复效果,重点考察了磷灰石对黑麦生物量及Cu吸收、土壤pH及Cu形态转化、土壤酶活性、植物生理指标等的影响。试验结果表明,磷灰石显著提高了土壤pH、黑麦生物量及其Cu吸收量,显著降低了黑麦地上部分及根系Cu含量,其中LH3处理黑麦Cu吸收量最高,达到对照处理的33.38倍;与对照相比,LH1、LH2、LH3和LH4处理土壤可交换态Cu含量显著降低了37.0%、58.9%、89.0%和83.3%,碳酸盐结合态Cu含量显著增加了46.6%、63.1%、78.0%和93.3%;与对照相比,LH2、LH3和LH4处理显著提高了土壤磷酸酶、过氧化氢酶和脲酶活性,显著提高了黑麦SOD和POD酶活性,显著降低了黑麦MDA含量。综合而言,施用30 g/kg的磷灰石并种植黑麦能够很好地修复Cu污染土壤。  相似文献   

3种铜制剂对土壤生化性质和菠菜生长的影响   总被引：1，自引：0，他引：1  

徐钰  刘兆辉  江丽华  张民 《水土保持学报》2009,23(4)

采用盆栽试验方法.研究了美国铜基杀菌剂Kocide2000(KCD),波尔多液营养保护剂(BNPP),传统波尔多液(BDM)3种铜制剂及配施有机物料对土壤某些生化性质和菠菜生长的影响.结果表明.铜制剂处理下土壤中有效铜含量较对照增加90～220倍.而有效铁含量显著降低.铜制剂的施用显著抑制了土壤酶活性,BDM对土壤酶活性的抑制率最强,与对照相比,土壤脲酶、过氧化氢酶和蔗糖酶活性分别减小82.3%,4.1%,73.4%;其次是BNPP处理,3种酶活性较对照分别减少45.4%,3.1%,39.1%;相关分析表明,3种酶活性均与土壤中有效铜含量呈显著性负相关.过量铜制剂还影响了菠菜的生长发育,生物量显著减少,植株体内铜、铁含量明显提高,锌含量减少.增施有机物料可减弱铜制剂对土壤生化性质的影响,其中土壤脲酶、蔗糖酶活性分别提高了28%～57%和13%～17%,菠菜的生长发育也有所改善.  相似文献   

土壤钝化剂对黑土中铜的原位固定作用     

马荣辉  王华云  孙芳芳  宗玉统  吴士文  卢升高 《水土保持学报》2012,26(4):226-230

采用盆栽试验研究3种钝化剂(粉煤灰、磷灰石和膨润土)对黑土中铜(Cu)的化学形态、生物积累和有效性的影响。结果表明:3种钝化剂能显著降低Cu污染黑土中水提取态(DW)、TCLP提取态和二乙基三胺五乙酸-三乙醇胺(DTPA-TEA)提取态Cu含量,其中以膨润土的效果最为明显;Tessier连续提取测定发现,3种钝化剂显著降低非残留态Cu(水溶态和交换态、碳酸盐结合态、铁锰氧化物结合态和有机结合态)含量(p<0.01),增加残留态Cu含量,表明3种钝化剂通过改变黑土中Cu的化学形态,降低了黑土中Cu的可淋失性和生物有效性;与对照相比,添加钝化剂能显著降低水稻地上部分的Cu含量(p<0.01),如在400Cu mg/kg处理的土壤上,添加2.5%的粉煤灰、磷灰石和膨润土使米粉中的Cu含量分别降低21.8%,22.7%和31.9%。土壤中可淋失态和生物有效态Cu的分析表明,钝化剂主要是通过改变土壤中Cu的化学形态,降低土壤中Cu的生物有效性,以降低Cu在水稻中的积累;试验表明,Cu污染土壤中施用钝化剂可以修复Cu污染,降低水稻Cu污染风险。  相似文献   

一株耐盐溶磷真菌的筛选、鉴定及其生物肥料的应用效果   总被引：7，自引：1，他引：6  

江红梅  殷中伟  史发超  刘彩月  程明芳  范丙全 《植物营养与肥料学报》2018,24(3):728-742

【目的】 从内蒙古种植向日葵的盐碱地中筛选高效溶磷真菌，为农业生产中增产节肥，开发耐盐、溶磷微生物肥料提供菌种资源。 【方法】 利用形态特征和ITS rDNA序列鉴定菌株；LC-MS技术测定菌株M2在液体培养基中分泌有机酸和植物激素含量，明确菌株M2的溶磷和促生机理。采用液体摇床培养试验测定了鉴定菌株的溶磷能力。试验处理包括:在磷酸三钙、磷酸铝和5个磷矿的磷矿粉制备的100 mL难溶磷磷源 (含5 g/L难溶磷) 中，接入1 mL灭菌培养液对照，和分别接种1 mL斜卧青霉菌P83和草酸青霉菌M2共15个处理。置于28℃、160 r/min摇床培养，分别于3、6和9 d，取菌液5 mL，在12000 r/min、4℃离心5 min，取上清液测定有效磷含量。采用含NaCl的固体培养基测定菌株的耐盐性。NaCl含量分别为0%、5%、7.5%、10%和12.5%的PDA平板中接入溶磷菌，置于28℃恒温培养箱中5 d，观察并记录菌丝的生长状况。采用盆栽试验方法检验了菌株的溶磷能力。以玉米种子 (郑单958) 为供试作物，以水稻土、黏性潮土、盐潮土和石灰性潮土为供试土壤，以Ca₃(PO₄)₂、AlPO₄ 和昆阳磷矿粉 (RP) 为供试磷源 (磷源用量为1.0 g/kg土壤)。设置只加入灭菌草炭和Pikovskaya培养液对照，分别接种溶磷菌P83、M2，共计38个处理，144盆。玉米播种40天后收获，测定植株鲜重、干重和玉米根际土壤有效磷含量。田间试验以花生为供试作物，设置只加灭菌草炭和Pikovskaya培养液对照和分别接种ATCC20851、P83、M2溶磷菌剂三个处理。花生生长155 d后收获，称量花生植株鲜重和干重、花生果实鲜重和干重，同时采集花生根部土壤测定有效磷含量。 【结果】 溶磷菌株M2鉴定为草酸青霉 (Penicillium oxalicum)。液体培养基摇床培养6 d后，接种菌株M2，以Ca₃(PO₄)₂为磷源的上清液中有效磷含量达972 mg/L，Ca₃(PO₄)₂溶解率为59.2%；以AlPO₄为磷源的有效磷含量达988 mg/L，溶解率为48.2%；以江苏锦屏、贵州开阳、云南晋宁、河北钒山和云南昆阳磷矿粉为磷源的有效磷释放量达21.0～556 mg/L。菌株M2在7.5%NaCl培养基中正常生长。盆栽试验结果发现，菌株M2对玉米植株促生效果显著，玉米植株鲜重比不接种菌剂 (CK) 提高26.4%～99.2%、干重增加20.0%～262.9%，土壤有效磷提高19.2～25.3 mg/kg。菌株M2与4种土壤的适配性均高于对照菌株P83。田间小区花生产量结果显示，接种溶磷菌剂M2增产效果最好，花生果实产量达4.50 t/hm2，比CK增加0.85 t/hm2，增产23.29%。菌株M2 在含有磷酸三钙、磷酸铝和开阳磷矿粉3种难溶磷培养液中经过6 d培养，均产生7种有机酸，其中草酸和柠檬酸含量最高，分别为653.46 mg/L和269.61 mg/L；培养液中均能检测到吲哚乙酸 (IAA) 和玉米素，IAA含量为32.38～66.17 mg/L，玉米素浓度为0.05～0.07 mg/L。 【结论】 获得了一株耐盐、高效溶解多种难溶磷的草酸青霉菌M2，可显著增加土壤有效磷，促进玉米生长和花生增产，与4种典型土壤适配性好，具有良好的农业应用前景。   相似文献   

施用猪粪对不同类型土壤中铜的赋存形态及小白菜吸收铜的影响     

段华泰  黄兴洁  席凯璐  韩菡  韩梦瑶  杨秀美  李恋卿 《土壤通报》2022,53(5):1194-1202

【目的】探讨猪粪中铜（Cu）的输入对土壤中Cu的赋存和生物有效性的影响。【方法】将1%和3%的腐熟猪粪（干猪粪∶秸秆=10∶1）添加到黄褐土、红壤、黑土、褐土中,分别老化0、1、2、3、5个月后,进行小白菜盆栽实验。【结果】与对照相比,施用猪粪使黄褐土、红壤、黑土和褐土土壤铜（Cu）全量分别显著增加了20.23%～50.43%、79.87%～142.6%、52.41%～76.43%和41.14%～92.24%。四种土壤中水溶态（F1）、碳酸盐结合态（F3）Cu占比均增加,施用3%猪粪的红壤未老化处理中F1-Cu和黄褐土未老化处理中F3-Cu增幅最大,分别达4.55%和16.47%。土壤铁锰氧化态（F5）、有机结合态（F6）Cu占比增加,残渣态（F7）占比降低。土壤有效态Cu的占比与猪粪老化时间呈显著负相关,3%猪粪老化5个月处理的黄褐土、黑土和褐土土壤有效态Cu占比分别降低12.85%、4.11%和3.68%,而红壤有效态Cu占比随老化时间变化不显著。在黄褐土中,腐殖酸结合态（F4）Cu的占比随猪粪老化时间的延长逐渐增加。施用猪粪显著增加小白菜对Cu的吸收,其中红壤的增幅最大,根系与地...  相似文献   

Sequential and Selective Extraction of Copper in Different Soil Phases and Plant Parts from Former Industrialized Area     

《Communications in Soil Science and Plant Analysis》2012,43(19):2391-2401

Copper (Cu) is an essential trace element for all living organisms; however, excess amounts in soil, plants, and food have negative impacts on the environment and human health. The aim of this study was to determine Cu levels in different chemical phases of soils and the relationship between Cu levels in soil phases and concentrations in plants. Soils and plants grown in these soils from an industrialized area in Turkey were analyzed using a selective and four-stage sequential extraction procedure. Copper levels in exchangeable fractions were found up to 658 mg kg^?1 while total levels were in the range of 133–5609 mg kg^?1. Copper concentrations in plant parts (roots and stem) were in the range of 2.6–240 mg kg^?1. The exchangeable forms of Cu were in the range of 3–22% of total Cu concentrations. The relationships were observed between soil Cu and Rumex plant Cu, and soil Cu and root of Brassicasea plant Cu.  相似文献   

Cadmium-tolerant plant growth-promoting bacteria associated with the roots of Indian mustard (Brassica juncea L. Czern.)     

A.A. Belimov  N. Hontzeas  S.V. Demchinskaya  S. Bullitta 《Soil biology & biochemistry》2005,37(2):241-250

Eleven cadmium-tolerant bacterial strains were isolated from the root zone of Indian mustard (Brassica juncea L. Czern.) seedlings grown in Cd-supplemented soils as well as sewage sludge and mining waste highly contaminated with Cd. The bacteria also showed increased tolerance to other metals including Zn, Cu, Ni and Co. The isolated strains included Variovorax paradoxus, Rhodococcus sp. and Flavobacterium sp., and were capable of stimulating root elongation of B. juncea seedlings either in the presence or absence of toxic Cd concentrations. Some of the strains produced indoles or siderophores, but none possessed C₂H₂-reduction activity. All the strains, except Flavobacterium sp. strain 5P-3, contained the enzyme 1-aminocyclopropane-1-carboxylate (ACC) deaminase, which hydrolyses ACC (the immediate precursor of plant hormone ethylene) to NH₃ and α-ketobutyrate. V. paradoxus utilized ACC as a sole source of N or energy. A positive correlation between the in vitro ACC deaminase activity of the bacteria and their stimulating effect on root elongation suggested that utilization of ACC is an important bacterial trait determining root growth promotion. The isolated bacteria offer promise as inoculants to improve growth of the metal accumulating plant B. juncea in the presence of toxic Cd concentrations and for the development of plant-inoculant systems useful for phytoremediation of polluted soils.  相似文献   

阿特拉津降解菌FM326（Arthrobacter sp.）的分离筛选、鉴定和生物学特性     

李明锐  祖艳群  陈建军  湛方栋  何永美  李元 《农业环境保护》2011,(11):2242-2248

采集除草剂阿特拉津污染的土壤,通过直接涂布法和富集驯化培养分离法,分别获得6株和5株能够降解阿特拉津的细菌。通过降解效率和降解动态试验,筛选到1株高效降解阿特拉津的菌株FM326,该菌株能以阿特拉津为唯一的碳源和氮源生长,培养96h后对1000mg·L-1阿特拉津降解效率达到97%。通过生理生化鉴定和16SrDNA序列分析,菌株FM326鉴定为节杆菌属（Arthrobacter sp.）细菌。该菌株表现出最适生长温度30～35℃,最适生长pH值5～9,好氧生长的生长特性。  相似文献   

土壤富硒细菌的筛选、鉴定   总被引：4，自引：2，他引：2  

廖青  刘永贤  邢颖  梁潘霞  潘丽萍  陈锦平  江泽普 《土壤》2018,50(6):1203-1207

从广西不同富硒区土壤中分离出32株耐硒细菌,通过优化加硒时间、培养时间及加硒浓度进行富硒试验,筛选获得4株富硒能力较强的细菌,进一步通过对4株细菌16S rDNA序列分析及系统发育树分析明确了各菌株的种属关系。经鉴定,YLB1-6为Bacillus cereus,TXB1-10为Sinomonas sp.,TXB2-5为Bacillus thuringiensis,GPB1-5为Achromobacter denitrificans。在最适加硒时间、培养时间及适宜加硒浓度条件下,各菌株的硒转化率分别为:YLB1-674.22%,TXB1-1066.05%,TXB2-555.31%,GPB1-563.30%。各菌株处理能显著提高土壤可交换态硒含量,对土壤硒起到较强活化作用。土壤富硒细菌为硒转化提供更多的高效微生物载体,并为富硒产品开发研究提供技术支持。  相似文献   

Adsorption and Desorption of Copper in Pasture Soils     

《Communications in Soil Science and Plant Analysis》2012,43(17-18):2461-2487

Abstract

Copper (Cu) is bound strongly to organic matter, oxides of iron (Fe) and manganese (Mn), and clay minerals in soils. To investigate the relative contribution of different soil components in the sorption of Cu, sorption was measured after the removal of various other soil components; organic matter and aluminum (Al) and Fe oxides are important in Cu adsorption. Both adsorption and desorption of Cu at various pH values were also measured by using diverse pasture soils. The differences in the sorption of Cu between the soils are attributed to the differences in the chemical characteristics of the soils. Copper sorption, as measured by the Freundlich equation sorption constants [potassium (K) and nitrogen (N)], was strongly correlated with soil properties, such as silt content, organic carbon, and soil pH. The relative importance of organic matter and oxides on Cu adsorption decreased and increased, respectively, with increasing solution Cu concentrations. In all soils, Cu sorption increased with increasing pH, but the solution Cu concentration decreased with increasing soil pH. The cumulative amounts of native and added soil Cu desorbed from two contrasting soils (Manawatu and Ngamoka) during desorption periods showed that the differences in the desorbability of Cu were a result of differences in the physico‐chemical properties of the soil matrix. This finding suggests that soil organic matter complexes of Cu added through fertilizer, resulted in decreased desorption. The proportions of added Cu desorbed during 10 desorption periods were low, ranging from 2.5% in the 24‐h to 6% in the 2‐h desorption periods. The desorption of Cu decreased with increasing soil pH. The irreversible retention of Cu might be the result of complex formation with Cu at high pH.  相似文献   

The endophyte Enterobacter sp. FD17: a maize growth enhancer selected based on rigorous testing of plant beneficial traits and colonization characteristics     

Muhammad Naveed  Birgit Mitter  Sohail Yousaf  Milica Pastar  Muhammad Afzal  Angela Sessitsch 《Biology and Fertility of Soils》2014,50(2):249-262

With the aim to select powerful microbial strains to be used for the enhancement of maize yield and resistance to abiotic and biotic stresses, we tested five endophytic bacterial strains previously isolated from maize roots. A range of different laboratory assays in regard to potential plant growth promotion was performed and strains were further evaluated for improving growth of five maize cultivars under axenic and natural soil conditions. Endophytic colonization was an additional component in our selection process as it is of high importance for an inoculant strain to efficiently colonize the plant environment. All strains had the potential to improve maize seedling growth under axenic conditions. Enterobacter sp. strain FD17 showed both the highest growth-promoting activity under axenic conditions as well as colonization capacity. FD17 was therefore selected for further plant tests in a net house, in which two different maize cultivars were grown in large pots until ripening and subjected to outdoor climatic conditions. Results showed that inoculation significantly increased plant biomass, number of leaves plant^?1, leaf area, and grain yield up to 39 %, 14 %, 20 %, and 42 %, respectively, as compared to the un-inoculated control. Similarly, inoculation also improved the photochemical efficiency of photosystem II (PSII) of maize plant and reduced the time needed for flowering. We also confirmed that strain FD17 is able to colonize the rhizosphere, roots and stems. Based on rigorous testing, Enterobacter sp. strain FD17 showed the highest potential to promote growth and health of maize grown under natural conditions. This study suggested that in vitro plant growth-promoting traits and potential of maize seedling growth promotion by bacterial endophytes could be used for the selection of potential inoculant strains subjected for further testing as bio-inoculant under field conditions.  相似文献   

采用Biolog, DGGE 和PLFA三种方法研究利用方式对土壤微生物群落结构的影响   总被引：8，自引：0，他引：8  

XUE Dong  YAO Huai-Ying  GE De-Yong  HUANG Chang-Yong 《土壤圈》2008,18(5):653-663

Biolog, 16S rRNA gene denaturing gradient gel electrophoresis （DGGE）, and phospholipid fatty acid （PLFA） analyses were used to assess soil microbial community characteristics in a chronosequence of tea garden systems （8-, 50-, and 90- year-old tea gardens）, an adjacent wasteland, and a 90-year-old forest. Biolog analysis showed that the average well color development （AWCD） of all carbon sources and the functional diversity based on the Shannon index decreased （P 〈 0.05） in the following order： wasteland 〉 forest 〉 tea garden. For the DCCE analysis, the genetic diversity based on the Shannon index was significantly lower in the tea garden soils than in the wasteland. However, compared to the 90-year-old forest, the tea garden soils showed significantly higher genetic diversity. PLFA analysis showed that the ratio of Gram positive bacteria to Cram negative bacteria was significantly higher in the tea garden soils than in the wasteland, and the highest value was found in the 90-year-old forest. Both the fungal PLFA and the ratio of fungi to bacteria were significantly higher in the three tea garden soils than in the wasteland and forest, indicating that fungal PLFA was significantly affected by land-use change. Based on cluster analysis of the soil microbial community structure, all three analytical methods showed that land-use change had a greater effect on soil microbial community structure than tea garden age.  相似文献   

铜胁迫对抗虫转基因水稻根际土壤微生物的影响     

王宵宵  钟文辉  李磊  洪鑫  刘标  韩成 《土壤》2020,52(1):119-126

根际土壤微生物群落是联系土壤环境与作物生长的重要纽带,也是转基因作物环境安全评价的主要指标,而Cu胁迫对转基因水稻根际土壤微生物的影响目前尚不清楚。本研究基于盆栽试验,采用高通量测序等技术研究Cu胁迫(Cu含量100 mg/kg)对抗虫转基因水稻华恢1号(HH)及其亲本非转基因水稻明恢63(MH)农艺性状及成熟期根际土壤微生物的影响,并以不施加Cu胁迫处理为对照。结果显示:Cu胁迫显著降低了水稻株高、生物量及产量;Cu胁迫改变了水稻根际土壤总氮、铵态氮含量及氧化还原电位值,而种植转基因水稻仅降低了根际土壤氧化还原电位值;Cu胁迫没有影响水稻根际土壤细菌丰度,但降低了细菌群落Alpha-多样性,改变了水稻根际土壤细菌群落组成和群落结构;相同Cu含量胁迫下,HH和MH水稻生长指标及根际土壤细菌群落结构及组成差异较小。上述研究表明,Cu胁迫抑制了水稻农艺性状及根际土壤细菌群落,但种植抗虫转基因水稻没有影响水稻植株及根际土壤细菌群落对Cu胁迫的抗性。  相似文献   

石油降解菌的筛选、鉴定及菌群构建   总被引：3，自引：0，他引：3  

李宝明  阮志勇  姜瑞波 《中国土壤与肥料》2007,(3):68-72

从胜利油田石油污染土壤中富集、分离得到236株能以石油作为唯一碳源和能源的石油降解菌株；采用选择性培养基进行复筛得到直链烷烃降解菌31株、环烷烃降解菌28株、芳烃降解菌3株以及表面活性剂产生菌24株；从3种不同烃类降解菌和表面活性剂产生菌中选择菌株，构建石油降解微生物菌群，结果表明，由菌株SL-51、SL-84、SL-133和SL-163组成的菌群c9降解石油能力最强，菌群C9在含原油浓度为0．5％的无机盐培养液中，5d内原油的降解率达到了55．5％；气相色谱分析结果证明，菌群C9能有效降解原油中的饱和烃和芳烃组分；通过16SrDNA序列分析，初步鉴定SL-51和SL-163属于红球菌属（Rhodococcus spp．），SL-84、SL-133两株菌分别属于苍白杆菌属（Ochrobactrum sp．）、铜绿假单胞菌属（Pseudomonas sp．）。  相似文献