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71.
Soil pH is one of the most influential variables in soil, and is a powerful factor in influencing the size, activity and community structure of the soil microbial community. It was previously shown in a century old artificial pH gradient in an arable soil (pH 4.0-8.3) that bacterial growth is positively related to pH, while fungal growth increases with decreasing pH. In an attempt to elucidate some of the mechanisms for this, plant material that especially promotes fungal growth (straw) or bacterial growth (alfalfa) was added to soil samples of the pH gradient in 5-day laboratory incubation experiments. Also, bacterial growth was specifically inhibited by applying a selective bacterial growth inhibitor (bronopol) along the entire pH gradient to investigate if competitive interaction caused the shift in the decomposer community along the gradient. Straw benefited fungal growth relatively more than bacterial, and vice versa for alfalfa. The general pattern of a shift in fungal:bacterial growth with pH was, however, unaffected by substrate additions, indicating that lack of a suitable substrate was not the cause of the pH effect on the microbial community. In response to the bacterial growth inhibition by bronopol, there was stimulation of fungal growth up to pH 7, but not beyond, both for alfalfa and straw addition. However, the accumulation of ergosterol (an indicator of fungal biomass) during the incubation period after adding alfalfa increased at all pHs, indicating that fungal growth had been high at some time during the 5-day incubation following joint addition of alfalfa and bronopol. This was corroborated in a time-series experiment. In conclusion, the low fungal growth at high pH in an arable soil was caused to a large extent by bacterial competition, and not substrate limitation. 相似文献
72.
At two occasions (2004 and 2006), a similar cluster of culturable bacteria was found to be selected in the mycosphere of the basidiomycetous fungus Laccaria proxima (Agaricales, Tricholomataceae) in the field. The bacteria, identified as related to Variovorax paradoxus, comprised 7.3-9% of the total culturable bacterial community in the L. proxima mycosphere, but were not found in corresponding bulk soil (<0.3%). One strain, denoted HB44, was selected in order to unravel the basis of the V. paradoxus mycosphere competence in in vitro experiments with the former Laccaria laccata, which was recently reclassified as Lyophyllum sp. strain Karsten (Agaricales, Tricholomataceae). In liquid culture experiments, L. strain Karsten was shown to be an avid producer of glycerol, next to acetate and formate, which constituted the most abundant carbonaceous compounds released. Strain HB44 was able to grow avidly at the expense of the glycerol liberated by the fungus, as evidenced by proton NMR analysis of the fungal exudates in the medium before and after bacterial growth. In sterilized field soil, strain HB44 survived significantly better in the presence than in the absence of L. strain Karsten. Addition of a glycerol series to the sterilized soil (without the fungus) resulted in the persistence or growth of strain HB44, but only if the pH of this soil was previously set at 5.5. Thus, we provide evidence for the contention that tricholomataceous fungi can create specific niches in soil for the V. paradoxus-related strain HB44 and that glycerol may be a main carbon source that drives the selection of this organism. 相似文献
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云南3种野生稻中抗白叶枯病基因的鉴定 总被引:1,自引:0,他引:1
白叶枯病是水稻生产上最重要的细菌性病害之一,培育抗病新品种是防治白叶枯病最经济有效的途径。然而,栽培稻来源的抗病基因数量有限,并且部分抗病基因的抗病谱窄。因此,从野生稻中发掘抗病基因,将有利于培育抗病谱广且抗病能力强的水稻新品种。本研究通过抗性鉴定和PCR分析,检测云南野生稻中的抗白叶枯病基因。结果表明,云南野生稻对2个代表性白叶枯病菌Y8和PXO99具有不同程度的抗性,疣粒野生稻甚至达到免疫的程度。功能标记检测结果显示,3种野生稻中均不含xa5、xa13和Xa21抗病基因,元江普通野生稻含Xa23和Xa3/Xa26基因或其同源基因,景洪普通野生稻中含Xa1、Xa3/Xa26和Xa27基因或同源基因,药用野生稻含Xa3/Xa26基因或同源基因,而疣粒野生稻含有Xa27抗性基因。本研究结果为进一步发掘和克隆云南野生稻中的抗白叶枯病新基因提供了理论参考。 相似文献
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中国水稻白叶枯病菌系染色体DNA的RFLP谱型的初析 总被引:5,自引:0,他引:5
用2个DNA探针pJEL101和pBASavrXa10对78个水稻白叶枯病菌系进行RFLP分型,以分析其群体结构和遗传多样性。分别鉴定出16种RFLP标记带的谱型。以彼此的带位相似率达85%为界,可分为簇。参试菌系的群体遗传多样性为0.77(用pJEL101),和0.83RFLP谱型分析表明:我国多数病原型为杂合组群。白叶枯病菌系的分子表现型的变异,远远大于致病型,两个探针都能有效分析我国菌系的群 相似文献
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水稻蔗糖非酵解型蛋白激酶Sn RK2,又称胁迫相关蛋白激酶(stress-activated protein kinase genes in rice,Os SAPKs),在调控水稻非生物胁迫信号传导中起着重要作用。本研究对Os SAPK2的结构及其在水稻抗白叶枯病反应中的功能进行了初步研究。结果表明Os SAPK2被定位于细胞核和细胞质内,与Os SAPK1、Os SAPK3同属于Kulik’s II组。Os SAPK2-RNAi转基因水稻中Os SAPK2下调表达,人工接种水稻白叶枯病菌后,转基因水稻比受体对照的病斑长度显著增长,抗病相关基因Os LRR1、Os HIR1表达水平下降,感病相关基因Os MAPK5表达水平升高。此外,Os SAPK2具有自激活活性,可能与Os MAPK5等胁迫相关蛋白互作。上述结果为进一步研究Os SAPK2调控水稻抗白叶枯病的分子机制提供了信息。 相似文献
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To explore long-term impact of organic and inorganic fertilizers on microbial communities, we targeted both the total bacterial community and the autotrophic ammonia oxidizing bacteria (AOB) in soil from six treatments at an experimental field site established in 1956: cattle manure, sewage sludge, Ca(NO3)2, (NH4)2SO4, unfertilized and unfertilized without crops. All plots, except the bare fallows, were cropped with maize. Effects on activity were assessed by measuring the basal respiration and substrate induced respiration (SIR) rates, and the potential activity of the AOB. To determine the bacterial community composition, 16S rRNA genes were used to fingerprint total soil communities by terminal restriction fragment length polymorphism analysis and AOB communities by denaturing gradient gel electrophoresis. The fertilization regimes had clear effects on both activity and composition of the soil communities. Basal respiration and r, which was kinetically derived as the exponentially growing fraction of the SIR-response, correlated well with the soil organic C content (r=0.93 and 0.66, respectively). Soil pH ranged from 3.97 to 6.26 in the treatments and was found to be an important factor influencing all microbial activities. pH correlated negatively with the ratio between basal respiration and SIR (r=0.90), indicating a decreased efficiency of heterotrophic microorganisms to convert organic carbon into microbial biomass in the most acid soils with pH 3.97 and 4.68 ((NH4)2SO4 and sewage sludge fertilized plots, respectively). The lowest SIR and ammonia oxidation rates were also found in these treatments. In addition, these treatments exhibited individually different community fingerprints, showing that pH affected the composition of AOB and total bacterial communities. The manure fertilized plots harbored the most diverse AOB community and the pattern was linked to a high potential ammonia oxidation activity. Thus, the AOB community composition appeared to be more strongly linked to the activity than the total bacterial communities were, likely explained by physiological differences in the populations present. 相似文献