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1.
对硅酸盐细菌NBT菌株的解钾作用以及对棉花的增产效应进行了研究。结果表明 ,以钾长石为唯一钾源 ,在摇瓶条件下 ,培养 12 0小时 ,NBT菌株可以从钾长石中释放 2 0 7.9mg/L钾 ,比接灭活菌对照(4 8.8mg/L)增加 32 6 .0 2 % ,经生物学统计分析 ,差异达极显著水平 (F =3991.9>F0 .0 1=10 .92 ) ;以土壤矿物为唯一钾源 ,NBT菌株能释放 10 5 .7mg/L钾 ,比对照 (5 1.6mg/L)增加 10 4.84% ,差异达极显著水平 (F =3110 .2 7>F0 .0 1=10 .92 )。棉花施用硅酸盐菌剂后平均增产皮棉 86 .4~ 161.7kg/hm2 ,增产幅度为 10 .64~ 2 1.95 %。 相似文献
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硅酸盐细菌NBT菌株解钾机理初探 总被引:35,自引:2,他引:35
摇瓶条件下 ,对硅酸盐细菌NBT菌株发酵液及其代谢产物分解钾长石的作用进行了研究。结果表明 ,培养 48h的NBT菌株发酵液能活化钾长石中的钾、硅、铝。 2 8℃振荡 1 0天后的滤液中K ,SiO2 ,Al2 O3含量分别达 1 84.1、39.8和 1 2 .6mgL- 1 ,分别比灭菌发酵液中的K ,SiO2 ,Al2 O3含量增加 1 0 6 .1 %、63 .1 %和 1 33 .3%。NBT菌株发酵液中含有大量的有机酸、氨基酸、荚膜多糖。摇瓶试验表明 ,三者都有较强的分解钾长石的能力 ,2 8℃振荡 1 0天后的滤液中的K含量分别达 1 1 0 .8、84.9和 1 9.7mgL- 1 。另外 ,三者间有明显的协同作用 ,三者的混合液可使解钾能力提高 62 .2 %。三者分解钾长石的能力是通过酸溶和络合作用来实现的。 相似文献
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不同条件下硅酸盐细菌对含钾矿物分解作用的研究 总被引:5,自引:1,他引:5
研究了淹水、湿润和干燥条件下接菌与未接菌对含K矿物钾长石和页岩分解作用的影响。结果表明,在干燥条件下,硅酸盐细菌不能分解供试矿物释放出其中的K和Si;湿润或淹水条件下,硅酸盐细菌能显著加快供试矿物的分解而释放出K和Si,其中硅酸盐细菌NBT菌株分解矿物释放K的效果好于NFT-2菌株,而NFT-2菌株释放Si的效果优于NBT菌株。淹水条件下,28℃恒温静置培养40天后,NBT菌株从矿物中累积释放的K量占矿物中K含量的7.3%(钾长石)和10.2%(页岩),分别比对照组K释放量增加221%(钾长石)和232%(页岩);NFT-2菌株从矿物中累积释放的Si量占矿物中Si含量的11.6%(钾长石)和13.2%(页岩),分别比对照组Si释放量增加170%和190%。硅酸盐细菌分解含K矿物的作用与其代谢活性有关。 相似文献
4.
不同土壤中硅酸盐细菌生理生化特征及其解钾活性的研究 总被引:17,自引:1,他引:17
在以钾长石粉为唯一 K 源的硅酸盐细菌选择性培养基上,从我国部分省市土壤中筛选到 16 株硅酸盐细菌,以本实验室保藏 NBT 菌株为参照,对其生理生化特性、耐盐性、抗生素抗性、温度敏感性及释K 能力等生物学特性进行了测定。结果表明,17 株硅酸盐细菌菌体均为杆状,产生椭圆至圆形芽胞。其中 SB6、SB13 为短杆状,SB4、SB6、SB10、SB15 菌株是 G ,其余菌株是 G-。NH4 、NO3 为良好 N 源,且能在无 N -培养基上生长。菌株 SB13 和 NBT 解 K 能力较强,释放的 K 比接灭活菌对照分别增加 49.1 %和 45.3 %。菌株SB2、SB4、SB5、SB6 在 20 g/L NaCl 浓度的培养基上能生长,在温度为 10 ~ 40 范围内供试硅酸盐细菌能够良好生长。 相似文献
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烟草根际土壤中解钾细菌的分离与多样性分析 总被引:1,自引:0,他引:1
土壤中含有丰富的钾元素,但主要以缓效态形式存在于钾长石或云母等硅酸盐矿物中,不能被作物直接吸收利用。解钾微生物能溶解硅酸盐矿物中的钾,提高土壤中作物可利用钾的含量,有望缓解我国钾肥短缺的现状。本研究利用选择性培养基,从烟草根际筛选钾细菌,基于16S rDNA序列分析烟草根际土壤解钾细菌的多样性,通过测定解钾细菌的解钾效能及对烟草的促生作用,筛选有应用潜力的优良解钾细菌菌株。结果表明,从四川、湖北和山东烟区烟草根际土壤分离获得的27株解钾细菌,在解钾固体培养上溶钾圈直径为0.11~0.30 cm。16S rDNA序列分析表明,烟草根际土壤解钾细菌主要包括变形菌门γ亚群(Gammaproteobacteria,85.18%)、变形菌门α亚群(Alphaproteobacteria,3.70%)、变形菌门β亚群(Betaproteobacteria,3.70%)、放线菌门(Actinobacteria,3.70%)和拟杆菌门(Bacteroidetes,3.70%),其中克雷伯菌属(Klebsiella)为优势菌属(66.67%)。27个菌株均有一定的解钾能力,解钾活性为0.59~4.40 mg.L–1。参试菌株均对烟草有一定的促生作用,利用解钾细菌菌液处理烟株20 d后,与对照相比,株高增加0.97%~38.64%,最大叶长增加4.40%~31.02%。本研究筛选出的菌株XF11、GM2、JM19和GL7具有较高的解钾活性和促进植物生长的能力,展现了良好的应用潜力。 相似文献
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对硅酸盐细菌NBT菌株在以钾长石粉为唯一钾源的培养基中产生的有机酸、氨基酸的种类和含量以及NBT菌株在有氮培养基中产生的植物激素的种类和含量进行了研究。结果表明 ,NBT菌株能合成草酸、酒石酸、柠檬酸和苹果酸等四种有机酸 ,其含量范围分别为 5 1 6~ 2 1 7 30mgL- 1 ,3 44~ 2 91 94mgL- 1 ,4 0 8~ 1 1 3 31mgL- 1 和 3 1 5~ 1 0 8 89mgL- 1 ;同时 ,NBT菌株能合成多种氨基酸。NBT菌株在有氮培养基中能产生并分泌生长素、赤霉素A3(GA3)、玉米素核苷和异戊烯基腺嘌呤四种激素 ;其浓度分别为 0 5 4~ 3 77nmolml- 1 、0 1 9~ 2 97nmolml- 1 、0 91~ 2 62nmolml- 1 和 5 49~ 31 1 5nmolml- 1 。摇瓶试验表明 ,NBT菌株不仅能分解土壤矿物并释放出其中的钾 ,而且具有很强的吸钾功能。NBT菌株细胞吸持的钾占其解钾量的 88 86%~ 95 0 5 %。 相似文献
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硅酸盐细菌在不同土壤中的解钾作用及对甘薯的增产效果 总被引:10,自引:0,他引:10
硅酸盐细菌不仅具有解钾能力,而且具有较好的解磷和解硅作用。在浙江省3种代表性土壤接种试验表明:参试菌株在泥砂土中的存活率均表现最低,土壤接种38天测定,各菌株在青紫泥中的存活率最高,其次是黄筋泥;接种66天测定,除K129-1在3种土壤上的存活率无显著差异外,其它二菌株则以黄筋泥中的存活率较高。从各菌株在3种土壤中存活率高,均以K55-2的存活率最高,其次是301,而K129-1的存活率最差。解钾 相似文献
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解钾细菌C6X对不同富钾矿物含量土壤钾素迁移的影响 总被引:2,自引:0,他引:2
为了改善黄土高原地区煤炭开采引起土壤质量急剧退化的现状,该文以玉米为供试植物,通过日光温室短期盆栽的方式,系统研究解钾细菌C6X和玉米生长对土壤钾素迁移的影响.结果表明:1)玉米生长条件下,解钾细菌在富钾矿物质量分数45%上层土壤(0~20 cm)中对速效钾增量的促进作用最佳.2)解钾细菌和玉米生长协同提高上层土壤钾素固定能力,缓效钾增量在土壤富钾矿物质量分数68%为最大值.3)解钾细菌和玉米生长协同促进土壤钾素上移能力,在富钾矿物质量分数45%水平,土壤上移速效钾呈最大值;同时,解钾细菌促进土壤上移速效钾和玉米钾素积累量二者趋于线性稳定,利于土壤钾肥长期管理.因此,解钾细菌和玉米生长协同促进土壤钾素的释放和固定,并促进土壤钾素上移. 相似文献
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盆栽试验结果表明,溶磷菌Enterobacteria sp EnHy-401能较好地在盐渍土壤中定植,并对小麦的生长和矿质营养的吸收有促进作用。与对照相比,生长在经接菌处理盐渍土中的小麦,其地上部分和根系的干重增加了28.1%和14.6%,植株中对磷、钙、钾和镁的吸收率分别提高了34.4%3、6.3%、31.5%6、.3%。该菌株所表现出来的对盐渍土壤中磷素有效性的提高、对小麦吸收K+、Ca2+、Mg2+、P等矿质营养的促进作用以及小麦生长与矿质营养元素吸收之间高度的相关性表明,溶磷菌株Enterobacteria sp.EnHy-401对盐胁迫下小麦生长的促进效应主要是通过改善盐渍土中部分矿质营养的供应,增强植株对P、Ca,Mg、K等营养元素的选择性吸收而实现,该效应受到土壤盐分和营养基质的影响。 相似文献
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X.F. Sheng 《Soil biology & biochemistry》2005,37(10):1918-1922
A potassium-releasing bacterial strain Bacillus edaphicus NBT was examined for plant-growth-promoting effects and nutrient uptake on cotton and rape in K-deficient soil in pot experiments. Inoculation with bacterial strain B. edaphicus NBT was found to increase root and shoot growth of cotton and rape. Strain NBT was able to mobilize potassium efficiently in both plants when illite was added to the soil. In cotton and rape growing in soils treated with insoluble potassium and inoculated with strain NBT, the potassium content was increased by 30 and 26%, respectively. Bacterial inoculation also resulted in higher N and P contents of above ground plant components. The bacterial isolate was also able to colonize and develop in the rhizosphere soil of cotton and rape after root inoculation. 相似文献
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具矿物风化效应伯克霍尔德氏菌的筛选与生物学特性研究 总被引:1,自引:1,他引:0
从钾质粗面岩表面和野青茅根、根际和非根际土壤中分离筛选到10株具矿物风化效应的伯克霍尔德氏菌,通过菌株16S r DNA序列分析,10株伯克霍尔德氏菌分别属于6个种群,同时研究了伯克霍尔德氏菌对钾长石和黑云母的溶解效应与菌株的生物学特性。结果表明,分离自不同生境伯克霍尔德氏菌对硅酸盐矿物的风化能力不同,供试伯克霍尔德氏菌从钾长石中释放出的Si、K、Ca分别比对照增加了23.7%~119%、12.6%~40.3%和18.7%~57.9%,从黑云母中释放出的Si、K、Ca分别比对照增加了86.4%~876%、5.6~14.6倍和70%~147%;其中菌株g6从钾长石中释放Si、K、Ca的能力最强,菌株G31从黑云母中释放K、Ca的能力最强,而菌株R22从黑云母中释放Si的能力最强。在钾长石和黑云母存在条件下接种伯克霍尔德氏菌处理的发酵液pH分别为3.05~4.67和7.03~7.43。不同伯克霍尔德氏菌产铁载体能力不同,而且对温度、pH和盐浓度具有一定的耐受性。 相似文献
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不同土壤钾素释放动力学及其供钾特征的研究 总被引:12,自引:3,他引:12
应用自行研制的连续流动交换仪研究了取自不同类型的19个土壤样品的钾素释放动力学及其供钾特征。不同土壤钾的释放差异很大,钾的释放持续时间变幅为100~600分钟;最大释放速率变幅为0.46~20.55毫克千克-1分-1;平均释放速率变幅为0.009~1.25毫克千克-1分-1;总释放量变幅为40~430毫克千克-1。供试土壤钾的释放过程可以用一级反应方程拟合,表明钾的释放速率主要受交换位上钾离子饱和度的影响。应用一级方程计算出钾的释放速率常数变幅为5.4810-3~65.6210-3分-1。多数土壤的钾释放过程符合单一的一级反应;而以云母类为主,且含有部分绿泥石的土壤的钾释放过程由两个速率不同的一级反应构成,表明不同吸附位上的钾离子可能有不同的释放机制。用供试土壤连续种植玉米幼苗57茬进行土壤钾素耗竭试验,结果表明应用连续流动交换仪研究得出的土壤钾素释放的动力学参数可以较可靠地评价土壤的供钾特征。释钾速率快,持续时间长,总释放量大的土壤(如青海栗钙土),在耗竭试验中显出很强的供钾能力;而释钾速率慢,持续时间短,总释放量小的土壤(如广东砖红壤)在盆栽试验中供植物吸收的钾量很低。有的土壤(如四川紫色土)钾的总释放量不低,但释放速度快,持续时间短,在盆栽试验 相似文献
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A. Olusola Salami Olusola J. Oyetunji Nnenna J. Igwe 《Archives of Agronomy and Soil Science》2013,59(6):579-588
Abstract A greenhouse experiment was carried out to investigate the influence of Glomus clarum (mycorrhiza) on the growth of tomato seedlings grown in both sterilized and non-sterilized soils. Highest growth parameter values were recorded in tomato plants inoculated with mycorrhiza but grown in sterilized soil, followed by those grown in non-sterilized soil but inoculated with mycorrhiza also. Sterilized but non-inoculated tomato plants also had growth and were closely followed by non-sterilized, non-inoculated tomato plants. There was no significant difference in all the treatments when girth of the tomato plants used was measured in this study. Nutrient uptake (N,P,K) was significantly found highest in the inoculated sterilized tomato plants while it was found lowest in the non-sterilized, non-inoculated tomato plants. Generally, mycorrhizal-inoculated tomato plants (whether sterilized or non-sterilized) showed better growth in all the treatments used. 相似文献
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将根瘤菌(Rhizobium sp.)G-01、肠杆菌(Enterobacter sp.)San8及粘红酵母(Rhodotorula mucilaginosa)R1等3株产胞外多聚物(Extracellular polymeric substances,EPS)的单细胞微生物接种于供试土壤,进行土培试验和盆栽黄瓜试验,研究接种微生物及作物根系对土壤团聚体形成、团聚体组成变化的影响。结果表明,3株单细胞微生物分泌EPS的量分别为2.12 mg(1010 cells)?1、0.56 mg(1010 cells)?1、172.71 mg(1010 cells)?1,其主要组分是多糖、其次是蛋白质,且含有羟基、羧基、羰基等官能团;土培试验后,接种产EPS单细胞微生物处理土壤的大团聚体(> 0.25 mm)含量比接种丝状微生物处理提高了71.31%,而盆栽试验后各处理土壤的大团聚体含量(> 0.25 mm)比土培试验后土壤显著增加,这可能是由于植株根系挤压及其分泌物作用促进了土壤大团聚体形成并提高了团聚体稳定性所致。 相似文献
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粘土矿物中钾的生物活化: Ⅰ. 外生菌根 总被引:1,自引:0,他引:1
A pot experiment was Carried out to in vestigate effect of ectomycorrhizal fungi on eucalyptus growth and K bio-mobilization from soils and clay minerals,In the experiment,sands mixed with soil,KCl-satureated vermiculate and mica,respectively,were used to nurse eucalypus seedings which were nonectomycorrhized or ectomycorrhized by an ectomycorrhizal fungus Pisolithus tinctorius strain XL1(Pt XC1) isolated from a forest soil from Xichang,Sichuan Province,China,and a worldwide well-know ectomycorrhial fungus Pioslithus tinctorius strain 2144(Pt 2144) obtained in Australia.More depletion of HCl-souluble K by mycorrhizas from the soil and minerals than nomycorrhizas suggested that mycorrhizas had a great ability to mobilize K present in the interlayer and feldspar.Mycorrhizal seedlings depressed greatly K digested with HF-HClO4 from substrates after consecutive extractions of soils and minerals by water,ammonium acetate and boiling HCl,while nonmycorrhizal seedlings reduced it little if any,shwing that the mycorrhizal seedlings could mobilize and then utilize the structureal K in mineral lattice,Ectomycorrhizal fungi played a very important role not only in promoting the growth of eucalyptus seedlings but also in mobilizing K in soils and minerals.The infection of Pt XC1 led to a better growth of eucalyptus seedlings and more K accumulation in the seedlings than that of Pt 2144.The large differeces in K accumulation by the seedlings might be due to different abilityes of the two ectomycorrhizal fungi to mobilize K in intelayer and lattice pools in the clay minerals. 相似文献
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ABSTRACTEnhanced phosphorus (P) uptake from the soil and increased plant growth related to arbuscular mycorrhizal (AM) fungi in pot culture, using sterilized soil, are well-known phenomena. However, these enhancements are not widely observed under field conditions because field sterilization is difficult. The aim of this study was to investigate the effects of AM fungi on P uptake and the growth of Allium fistulosum in non-fumigated and fumigated fields, under different levels of P availability. Plants were inoculated with the AM fungus Glomus R-10 and grown in fumigated soil. For the uninoculated treatment, a sterilized inoculum was applied directly. The field was fumigated using dazomet. Superphosphate was applied to the field at the rates of 0 (P0) or 500 (P500) kg P2O5 ha?1. The inoculated and uninoculated plants were transplanted into the fields and sampled three times to measure AM fungal colonization, shoot P concentration, and shoot dry weight of the plants. At the transplanting stage, AM fungal colonization was observed in the inoculated plants (>70%) but not in the uninoculated plants. At the third sampling, irrespective of P treatment, AM fungal colonization was observed both in the uninoculated and inoculated plants in the non-fumigated field, and there was no difference in shoot P content and shoot dry weight between the inoculated and uninoculated plants. AM fungal colonization in the fumigated field was higher in the inoculated than uninoculated plants, irrespective of P treatment; shoot P content and shoot dry weight were both higher in the inoculated plants than in the uninoculated plants with P0. These results suggest that the responses of A. fistulosum to AM fungal inoculation under the low-P and fumigated conditions are similar to those observed in sterilized pot culture conditions. 相似文献