两株解磷真菌的解磷能力及其解磷机理的初步研究*

从不同处理的水稻土壤中分离筛选出两株高效解磷真菌HP2、P5,研究了不同碳源条件对溶磷效果的影响,以及解磷菌株在不同的碳源培养条件下,溶磷量与培养介质pH值之间的相关性。结果表明,HP2菌株解磷能力在不同的测定时间内均高于P5菌株;不同碳源培养基的溶磷量顺序为蔗糖>葡萄糖>纤维素,且彼此差异显著;测定时间内,菌株的溶磷量与介质pH值之间存在极显著相关性(P<0.01)。     

一些细菌和真菌的解磷能力及其机理初探

4株细菌和8株真菌培养6天后,发现培养液中有机酸含量大幅度增加,PH大幅度地下降,磷的含量大幅度增加,真菌比细菌表现出更强的溶解磷矿粉的能力,不同的微生物分泌有机酸的数量和种类差别很大,菌分泌的有机酸种类比细菌要多。但是,培养液中有机酸总量与解磷量之间并不存在显的相关性。     

解磷菌发酵及溶磷条件的研究

从新疆盐碱土中分离纯化得到一株高效解磷菌PS-3,为改善盐碱地磷素供应提供菌种资源。采用单因素和正交试验,对菌株PS-3的发酵条件和溶磷能力进行分析。结果表明,菌株PS-3较适发酵条件为温度35℃、pH 7和盐浓度1%,其对碳、氮源的利用顺序依次为葡萄糖>麦芽糖>果糖>蔗糖>乳糖,硝酸铵>硝酸钠>氯化铵>硫酸铵>尿素,菌株PS-3最适溶磷条件为2%葡萄糖、0.01%硝酸铵、温度35℃、初始pH 7.5、盐浓度2 g/L、接种量4%,在此条件下,其对磷酸三钙的溶解量可达100 2.95mg/L。该菌株具有一定耐盐性和良好的溶磷能力,在生物溶磷方面具有较好的应用潜力。     

4株溶磷细菌和真菌溶解磷矿粉的特性

溶磷微生物广泛地分布在土壤,根际等生态环境中,了解这些微生物溶解难溶性磷酸盐如磷矿粉的特性,对于开发利用这些微生物,提高磷素利用效率具有重要作用,研究发现;真菌比细菌溶解磷矿粉的能力要强得多,培养基中的铁,镁,锰,钠等成分可以提高真菌的溶磷量,但降低了细菌的溶磷量,培养基中磷矿粉用量越高,溶磷量越低;碳源物质浓度高于3%将显地降低溶磷量,微生物能够破坏磷矿粉的结构。使其中的磷在以后的培养过程中更加容易释放出来,可见利用微生物活化磷矿粉中的磷,具有良好前景。     

解磷菌株B25的筛选、鉴定及其解磷能力

从安徽省铜陵市铜官山尾矿库木贼根际分离筛选出多株解磷细菌,经过多次筛选纯化获得一株解磷能力较好的菌株B25.采用透射电镜观察和DNA分子技术,确定此菌株属于芽孢杆菌属.研究了解磷菌株B25在培养168 h内的解磷能力、溶液pH值以及菌株生长量的变化情况,并比较了B25在不同条件下的解磷能力.结果表明：解磷菌株B25的解磷能力与溶液pH值之间存在微弱的相关性,在碳源为葡萄糖、初始pH值为7.0、培养温度为30 ℃时解磷效果较好.     

一株高效解磷肠膜明串珠菌的分离鉴定及解磷能力研究

【背景】植物根际土壤含有多种溶磷微生物,但是具有溶磷能力的肠膜明串珠菌未见报道。【目的】从脐橙根际土壤分离高效解磷菌,研究其解磷应用。【方法】通过初筛和复筛从23株菌中筛选解磷能力较强的菌株,同时采用钼蓝比色法测定磷含量。通过测定发酵液中小分子有机酸含量、磷酸酯酶酶活及pH值的变化,探究菌株的解磷机理。【结果】经过筛选得到9株具有一定解磷能力的菌株。通过菌种16S rRNA基因序列分析和生理生化实验确定其中一株菌为肠膜明串珠菌,命名为肠膜明串珠菌G7。培养基初始pH6.0、碳源为葡萄糖、氮源为硫酸铵时G7的解磷能力较佳。G7发酵过程中产生大量有机酸,而其酸性磷酸酯酶活性高于碱性磷酸酯酶。【结论】碳源、氮源以及初始pH值都能影响G7的解磷能力,其解磷能力主要缘于在发酵过程中产生了大量小分子有机酸,关于G7的解磷机理还需要更深入的研究。     

棉花根际解磷菌的解磷能力和分泌有机酸的初步测定

利用特殊培养基对盐碱地棉花根际解磷菌进行了分离以及pH值和分泌有机酸能力的初步测定。利用溶磷圈法筛选出10个解磷能力较高的菌株进行深入研究,其中液体培养条件下测定了菌株的溶磷能力,有效磷在4.04~185.63 mg/L,其中wpL2溶磷量达到185.63 mg/L;测定了培养液pH值,下降到5.12~6.67,但是pH与溶磷量之间没有线性关系,测定了培养液的有机酸含量,菌株溶磷量与有机酸总量没有线性相关性,其中所分离到的解无机磷菌株均可以分泌酒石酸,除此之外,wpc1还分泌乙酸,wpc2和wpL2还分泌柠檬酸;分离到的解有机磷菌株均可分泌乙酸,除此之外,ypL1和ypc2分泌酒石酸,ypL3分泌柠檬酸,ypL2和ypc3分泌柠檬酸和丁二酸,均不能产生苹果酸。     

解磷菌株B25的筛选、鉴定及其解磷能力

从安徽省铜陵市铜官山尾矿库木贼根际分离筛选出多株解磷细菌,经过多次筛选纯化获得一株解磷能力较好的菌株B25.采用透射电镜观察和DNA分子技术,确定此菌株属于芽孢杆菌属.研究了解磷菌株B25在培养168 h内的解磷能力、溶液pH值以及菌株生长量的变化情况,并比较了B25在不同条件下的解磷能力.结果表明：解磷菌株B25的解磷能力与溶液pH值之间存在微弱的相关性,在碳源为葡萄糖、初始pH值为7.0、培养温度为30 ℃时解磷效果较好.     

混合培养提高菌株解磷解钾能力的探讨

沈阳农业大学的微生物实验室保藏菌种中得到互相不拮抗的根瘤菌S-2、溶磷菌P-3和硅酸盐细菌K-5,对这3株菌进行两两复合及三菌复合,分别测试其溶磷、解钾能力。结果表明:3株菌在第10天时溶磷、解钾能力最强。溶磷能力:两两复合培养的溶磷能力比各菌单独培养溶磷能力要提高25.50%、51.54%、26.99%,并且三菌复合培养具有1+1+13的溶磷效果。解钾能力:两两复合培养时S-2与P-3组合溶解钾长石的能力增强,但S-2与K-5、P-3与K-5的组合并无明显的促进作用,三菌复合虽较各菌株单独培养时高,但未表现出1+1+13解钾效果。     

一株高效解磷菌的筛选及其解磷效果验证

为开发新型、安全及高效的解磷菌肥,从农田中分离筛选出多株菌,通过解磷能力验证,最终选出解磷能力最强的X-P18菌株,经16S rDNA分析鉴定为贝莱斯芽孢杆菌。同时,通过优化X-P18菌株液体发酵培养条件并测定发酵液中小分子有机酸种类,初步探究菌株的解磷机理。将该解磷菌施用于黑叶葵扇白菜盆栽,并对小白菜的基本指标进行分析。结果表明,X-P18菌株在无机磷液体培养基中,溶磷量为495.4 mg/L,具有分泌乙酸及其他少量小分子有机酸的特性。培养基初始接种量为1%、pH8.0、碳源为甘露糖、氮源为硫酸铵、培养温度为30℃时,X-P18菌株的解磷能力最佳,溶磷量为582.4 mg/L,比优化前高出17.6%。在X-P18菌剂添加量为2×10⁹CFU/盆时,对黑叶葵扇白菜的促生效果最明显,鲜重增加65.5%,叶片全磷含量增加46.9%。     

溶磷菌对4种难溶性磷酸盐溶解能力的初步研究

以4种难溶性磷酸盐为培养基,发现供试菌株溶解这些磷酸盐的特性差异很大,真菌溶磷能力普遍比细菌要高得多。以NO3-为氮源时的溶磷量通常高于以NH4+为氮源时的溶磷量,只有2TCiF2对氟磷灰石及4TCiF6对磷酸铝的溶解能力以NH4+为氮源时较高。大多数菌株较易溶解CaP(氟磷灰石和磷矿粉),其次为AlP(AlPO4),而溶解FeP(FePO4·4H2O的能力都比较弱,只有曲霉2TCiF2具有较强的溶解FeP能力,尤其是当供给NO3-时,溶解FeP的活性比供给NH4+时大幅度提高。欧文氏菌4TCRi22和肠杆菌1TCRi15能大量地溶解氟磷灰石,而两株节杆菌对磷矿粉的溶解能力最强。供试菌株的溶磷作用可能是由于分泌的有机酸与金属离子络合或螯合作用所致,欧文氏菌和肠杆菌溶解难溶性磷过程中,非有机酸物质可能在起主要作用。     

Zinc Phosphate and Pyromorphite Solubilization by Soil Plant-Symbiotic Fungi

Acidolysis, complexolysis and metal accumulation were involved in solubilization of zinc phosphate and pyromorphite by a selection of soil fungi representing ericoid and ectomycorrhizal plant symbionts and an endophytic/entomopathogenic fungus, Beauveria caledonica. Zinc phosphate was much more readily solubilized than pyromorphite. According to the relationship between metal mobilization and pH, acidolysis (protonation) was found to be the major mechanism of both zinc phosphate and pyromorphite dissolution for most of the fungi examined. In general, the more metal tolerant fungal strains yielded more biomass, acidified the medium more and dissolved more of the metal mineral than less tolerant strains. However, B. caledonica 4 excreted a substantial amount of oxalic acid (～ 0.8 mM) in the presence of pyromorphite that coincided with a dramatic increase in lead mobilization providing a clear example of complexolysis. Organic acid excretion by fungi was inter- and intraspecific and was strongly influenced by the presence of the toxic metal minerals. When grown on zinc phosphate or pyromorphite, Hymenoscyphus ericae DGC3(UZ) accumulated the lowest metal concentration, but Thelephora terrestris accumulated the highest metal concentration in the biomass. The ability to accumulate water-soluble lead species, representing mainly cytosolic and vacuolar pools, seemed to be connected with pyromorphite-solubilizing ability. B. caledonica 4, which demonstrated the highest ability to dissolve pyromorphite, accumulated the highest water-soluble fraction and total lead concentration in the mycelium. Generally, isolates with a higher zinc-tolerance accumulated significantly less total zinc from zinc phosphate (including the sum of water-soluble and NaCl-extractable zinc) than non-tolerant strains.     

无机磷分解菌BL-11的鉴定及其解磷能力研究

研究了解磷菌株BL-11的菌体形态、生理生化特性,结合该菌的16SrDNA序列分析结果,将菌株BL-11鉴定为侧孢短芽孢杆菌。菌株BL-11在以Ca3(PO4)2为唯一磷源的培养液中的可溶性磷得率为10.91%;在以砂子为唯一磷源的培养液中,可溶性磷得率为1.56%。分解Ca3(PO4)2的最佳条件为30℃,180r/min,pH7-8;最佳培养基配方为蔗糖20g/L,(NH4)2HCO30.3g/L,MgSO4.7H2O0.5g/L,NaCl0.3g/L,KCl0.5g/L,FeSO40.03g/L,MnSO4.H2O0.03g/L。     

Biotechnological Tools for Enhancing Microbial Solubilization of Insoluble Inorganic Phosphates

During recent years, many studies appeared on microbial solubilization of insoluble phosphates as an alternative of chemically based P-fertilizer production and bearing in mind the progressive increase in P-fertilizer prices based on high global P consumption and the scarcity of rock phosphate reserves. This biotechnological approach is mainly related to microbial production of organic acids such as citric, oxalic, gluconic, itaconic, and lactic acid, which react with the insoluble P-sources. The most applied and studied P-solubilizers are fungal microorganisms cultivated in conditions of submerged and solid-state fermentation systems. Therefore, the aim of this review is to summarize data on the effect of various abiotic factors on the fungal organic acid production. Nutrient medium components, fermentation process parameters, interaction between insoluble P-particles and microbial systems, and mode of fermentation are analyzed for their impact on both organic acid production and P-solubilization. Suggestions for further studies are also discussed.     

4种外生菌根真菌对难溶性磷酸盐的溶解能力

以红绒盖牛肝菌(Xerocomus chrysenteron)、美味牛肝菌(Boletus edulis)、黄须腹(Rhizopogen luteous)和劣味乳菇(Lactarius insulsus)4种外生菌根真菌为对象,在纯培养条件下比较它们对4种难溶性磷酸盐[Ca_3(PO_4)_2、Ca_(10)(PO_4)_6(OH)_2、FePO_4·4H_2O和AlPO_4]的溶解能力,以探讨外生菌根真菌对难溶性磷酸盐的溶解作用及其影响因素.结果表明:(1)4种外生菌根真菌均能在Ca_3(PO_4)_2为唯一磷源的NBRIP平板上生长,但生长速率明显不同,且红绒盖牛肝菌生长速率最快.(2) 4种菌根真菌对4种磷酸盐的溶解能力存在显著差异,红绒盖牛肝菌发酵液可溶性磷含量大多显著高于对照和其他菌根真菌,对磷酸盐的溶解能力最强.(3)4种菌根真菌发酵液可滴定酸度(2.30～46.00 mmol·L~(-1))和pH(4.57～6.99)与其溶磷量分别呈极显著正相关(r=0.991**)和极显著负相关(r=-0.939**).(4)4种外生菌根真菌均能分泌乙酸、柠檬酸和反丁烯二酸,且它们分泌有机酸总量(14.14～1 537.46 mg·L~(-1))与其溶磷量呈显著正相关(r=0.998*).研究发现, 4种外生菌根真菌发酵液可滴定酸度、pH和有机酸的种类与含量是影响其溶解Ca_3(PO_4)_2能力的主要因素;红绒盖牛肝菌的溶磷能力较强,具有应用于中国土壤缺磷地区造林的潜力.     

古国槐叶片溶磷内生真菌的筛选及其促生潜力初探

该试验从周公庙古国槐叶片内分离、筛选具有溶磷能力的内生真菌,采用溶磷圈法和钼锑抗比色法测定其溶解无机磷的能力,同时测定其回接后对国槐无菌苗叶绿素、可溶性蛋白质、超氧化物歧化酶(SOD)和过氧化物酶(POD)活性的影响,探究内生真菌的溶磷能力及其促生效应。结果表明:(1)从古国槐叶片中分离出的55株内生真菌中,28株具有溶磷能力,其中溶磷能力较强的活性菌株有12株:ZG-7为拟盘多毛孢(Pestalotiopsis sp.),ZG-9、ZG-23、ZG-32、ZG-36和ZG-53为镰刀菌(Fusariumsp.),ZG-15和ZG-34为曲霉(Aspergillus sp.),ZG-39和ZG-51为链格孢(Alternariasp.),ZG-42为木霉(Trichoderma sp.),ZG-48为附球菌(Epicoccumsp.)。(2)曲霉属真菌ZG-15和ZG-34的溶磷圈直径(d)及其与菌落直径(D)的比值d/D均高于其他菌株,对Ca_3(PO_4)_2的溶解能力最强(1 238.28和941.22mg·L-1),并极显著高于其他菌株(P0.01)。(3)4株内生真菌ZG-7、ZG-9、ZG-15和ZG-48回接至国槐无菌苗10d后,可从苗根组织的皮层细胞中观察到内生菌丝,其中黑曲霉(Aspergillus niger)ZG-15可显著提高国槐无菌苗的叶绿素含量、可溶性蛋白质含量、SOD、POD活性(P0.05),从而维持幼苗的正常生长和提高其抗逆能力,为该试验得到的促生潜力优势内生真菌,可为古国槐的有效保护及林木溶磷生物菌肥的生产提供依据。     

解磷酵母Pichia farinose FL7用于镍污染土壤植物提取的研究

目的:研究一株对Ca3(PO4)2、AlPO4、FePO4具有强溶解能力的解磷毕赤酵母Pichia farinose FL7对镍污染土壤的植物提取修复效果。方法:在液体培养条件下研究了P.farinose FL7对Ni3(PO4)2的溶解能力和对Ni(NO3)2的耐受性。将P.farinose FL7制成微生物菌剂并用于Ni3(PO4)2和Ni(NO3)2污染土壤的植物(印度芥菜)修复。结果:P.farinose FL7从Ni3(PO4)2中直接溶解出来的PO3-4的含量是未接种对照组的10倍以上,并且P.farinose FL7表现出较高的Ni(NO3)2耐受性。盆栽试验结果表明,添加P.farinose FL7后,印度芥菜中镍的积累量大幅度增加,印度芥菜的生物量从(0.23±0.01)g增加至(0.34±0.01)g。不同处理方式下土壤中有效磷和各形态镍的含量变化表明,P.farinose FL7具有固定-溶解双重功能,一方面能够固化Ni(NO3)2污染土壤中的水溶性Ni2+,另一方面能够溶解Ni3(PO4)2污染土壤中的不溶性镍。结论:P.farinose FL7具有固定-溶解双重功能,用于镍污染土壤的植物提取可显著提高Ni的清除速率。     

不同碳源对解磷真菌溶解低品位磷矿能力的影响

以磷酸三钙作为唯一磷源,从磷矿区筛选出一株高效浸磷真菌.经过核糖体间隔区(ITS)扩增序列分析,确定该菌株属于黑曲霉.研究不同碳源条件下该菌株对低品住磷矿中磷浸出能力的影响;此外,还利用高效液相色谱法(HPLC)和耦合等离子体-发射光谱仪对溶磷机理进行了初探.结果表明,以可溶性淀粉作为碳源的条件下,真菌对低品位磷矿的磷浸出率最高,可能与其代谢产生的草酸和苹果酸及其有机酸总量有关,同时,磷浸出率与培养介质pH值呈显著负相关.     

Efficiency of Some Bacterial Strains in Potassium Release from Mica and Phosphate Solubilization under In Vitro Conditions

Phosphorus and potassium (K) are major essential macronutrients for biological growth and development. Application of beneficial microorganisms to soil is one approach to enhance crop growth. In this study, the ability of five bacterial strains, including four strains of Pseudomonas sp. (S10-3, S14-3, S19-1, and S21-1) and one strain of Azotobacter sp. SP16, to release K from muscovite and biotite was investigated. Furthermore, phosphate solubilization by these strains was measured when an insoluble source of P [Ca₃(PO₄)₂] was added to the medium. Among the bacterial strains, the highest average K release (73% higher than control) was observed with Pseudomonas sp. S14-3. The average amount of K released from biotite was 37% higher than that from muscovite in inoculated treatments. The enhanced release of mineral K might be attributed to the release of organic acids from the bacteria, a mechanism which plays a pivotal role in solubilizing phosphate from inorganic sources. The results confirmed the enhanced phosphate solubilization by the bacterial strains in the presence of muscovite. The highest P solubilizing activity (67% higher than control) was found in S21-1 and S14-3 strains. Concentrations of both K and P in the liquid phase were increased by increasing the time of experiment. X-ray diffraction analysis of muscovite specimens inoculated with S14-3 strain revealed a partial transformation of these minerals through the presence of 19.5 Å peak on the diffractogram of the magnesium-saturated sample. This may be due to the release of K from the interlayer space and subsequent filling with a number of bacterial metabolites. The findings of this research suggest K depletion from mica in the presence of bacteria, but further investigations are needed to clarify the mechanisms involved.     

Effect of salt on survival and P-solubilization potential of phosphate solubilizing microorganisms from salt affected soils

A total of 23 phosphate solubilizing bacteria (PSB) and 35 phosphate solubilizing fungi (PSF) were isolated from 19 samples of salt affected soils. The ability of 12 selected PSB and PSF to grow and solubilize tricalcium phosphate in the presence of different concentrations of NaCl was examined. Among 12 PSB, Aerococcus sp. strain PSBCRG₁-1 recorded the highest (12.15) log viable cell count at 0.4 M NaCl concentration after 7 days after incubation (DAI) and the lowest log cell count (1.39) was recorded by Pseudomonas aeruginosa strain PSBI₃-1 at 2.0 M NaCl concentration after 24 h of incubation. Highest mycelial dry weight irrespective of NaCl concentrations was recorded by the Aspergillus terreus strain PSFCRG₂-1 (0.567 g). The percent P_i release, in general, was found to increase with increase in NaCl concentration up to 0.8 M for bacterial solubilization and declined thereafter. At 15 DAI, strain Aerococcus sp. strain PSBCRG₁-1 irrespective of NaCl concentrations showed the maximum P-solubilization (12.12%) which was significantly superior over all other isolates. The amount of P_i released in general among PSF was found to decrease with increase in NaCl concentration at all the incubation periods. Aspergillus sp. strain PSFNRH-2 (20.81%) recorded the maximum P_i release irrespective of the NaCl concentrations and was significantly superior over all other PSF at 7 DAI.