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fungi
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  真菌
    The Mechanisms Involved in Plant Resistance/Tolerance Response Induced by AM Fungi Towards Nematode
    丛枝菌根(AM)真菌诱导植物抗/耐线虫病害机制的研究
短句来源
    Applying Microspectrophotometer for Measuring the Nuclear DNA Contents of Fungi
    显微分光光度计在测定真菌核DNA含量上的应用
短句来源
    Apliication of DNA Fingerprinting in Population Genetic Analysis of Plant Pathogenic Fungi
    DNA指纹分析在植病真菌群体遗传研究中的应用
短句来源
    Advances in Research on Mycorrhiza Fungi of Blueberry: A Literature Review
    越桔菌根真菌研究进展——文献综述
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    THE ANALYSIS OF ESTERASE ISOZYME BANDS AND PROTEIN BAND OF HYPHOMYCETE NEMATODE TRAPPING FUNGI
    捕食线虫真菌酯酶同工酶谱和可溶性蛋白质谱分析
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  真菌的
    Biological Study on Isolated Arbuscular Mycorrhizal Fungi and Development and Application of Molecular Probes
    丛枝菌根真菌的分离鉴定和生物学特性研究及分子探针的设计与应用
短句来源
    and the symbiosis between AM fungi and Willamette were superior to Tulameen,the percent colonization of them were 49% and 23%,respectively.
    树莓的威廉姆特与AM真菌的共生能力较图拉明强,定殖率分别为49%和23%。
短句来源
    Otherwise the phosphorus resolving capacity of these endophytic fungi were weaker than most of the endophytic bacillus, in their cultures there was only 11.00~11.42 μg/mL of phosphorus had been dissolved.
    真菌的解磷能力比大多数芽孢杆菌弱, 培养液中可溶性磷含量仅为11,00~11.42 μg/mL。
    Inhibition of Natural Plant Compounds against Plant Pathogenic Fungi
    天然植物成分对几种植物病原真菌的抑制作用
短句来源
    THE ANTAGONISM OF Trichoderma T88 TOSEVEN SPECIES OF PLANT PATHOGENIC FUNGI
    木霉菌株T_(88)对7种病原真菌的拮抗作用
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  “fungi”译为未确定词的双语例句
    Study on Dithane M-45 Controlling Alternaria Genus Fungi Diseases
    大生M—45防治链格孢属Alternaria Nees真菌病害研究
短句来源
    PATHOGENIC FUNGI AND NATURAL PLANT POPULATIONSⅡ.Pathogenic fungi and plant population biology
    病原菌与自然植物种群Ⅱ病原菌与植物种群生物学
短句来源
    Relationship between Nanostructure SiO_2 and Occurrence of Plant Fungi
    纳米结构SiO_2与植物真菌病害发生的关系
短句来源
    Mechanism and utilization on resistance of plant pathogenic fungi to chemical fungicide
    植物病原菌对杀菌剂产生抗性的机制与抗性的利用
短句来源
    Allelopathic effect of root exudates on pathogenic fungi of root rot in continuous cropping soybean.
    连作大豆根分泌物对根腐病病原菌的化感作用
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  fungi
The aqueous and solvent extracts when tested against 11 gram-negative and 2 gram-positive bacteria and 3 fungi expressed activity to most of the organisms.
      
Rapid Screening and Identification of Brefeldin A in Endophytic Fungi Using HPLC-MS/MS
      
trifoliata seedlings was increased by inoculation with AM fungi.
      
Effects of arbuscular mycorrhizal fungi on leaf solutes and root absorption areas of trifoliate orange seedlings under water str
      
Thus, effects of AM fungi on plants were probably positively related to the extent of root colonization by AM fungi.
      
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1.The relative number of microorganisms and microflora in paddy soils is quite different from that in cultivated upland soils and idle field.Among the sporogenous bacteria,Bac. idosus and Bac.megatherium are the predominant species,while Bac.subtilis-mesentericus is comparably less. 2.Penicillium、Aspergillus and other genera of fungi are usually present in paddy soils,and Tuberculina、Emericellopsis and Sporormia(?)are the special genera also frequently occured.Perhaps these fungi have a better adapt...

1.The relative number of microorganisms and microflora in paddy soils is quite different from that in cultivated upland soils and idle field.Among the sporogenous bacteria,Bac. idosus and Bac.megatherium are the predominant species,while Bac.subtilis-mesentericus is comparably less. 2.Penicillium、Aspergillus and other genera of fungi are usually present in paddy soils,and Tuberculina、Emericellopsis and Sporormia(?)are the special genera also frequently occured.Perhaps these fungi have a better adapt ability to live under a less aerobic con- dition. 3.The composition of soil microflora varies according to soil fertility.Fertile soils have a relatively high percentage of Penicillium—Asymmetrica,and the rate of ammonifi- cation and cellulose decomposition are much intense than the Monoverticillata series. 4.The distribution and activity of amonifying bacteria in paddy soils have the same intendency as fungi. 5.From the above results it was found that although ecological factors play an important role in soil microflora,improving soil fertility through proper management,yet enable to alter their composition.

1.水稻土中各类微生物数量比例和区系组成与旱地或荒地土壤有较明显时区别。芽孢杆菌中以 Bac.idosus 及 Bac.megatherium 为主,而 Bac.subtilis-mesentericus 等较少,此与水稻土的有机质状态似有一定关系。真菌中除一般土壤中均有的青霉、麯霉等菌外,常见的有 Tuberculina、Emericellopsis 及 Sporormia(?)等特殊种类,它们对低氧环境似有较大的适应性。2.肥沃水稻土中除微生物数量和生化强度较高外,微生物区系与土壤肥力水平似有一定的相关性。肥力高的土壤中不对称组青霉菌合量较高,该组青霉菌的氨化作用及分解纤维素的能力均较强;同时,在肥力高的土壤中具有氢化能力的细菌数量也较肥力低者为多。3.初步结果指出,提高土壤肥力的人为措施具有改变微生物区系的可能性,然而生态地理因素对耕作土壤微生物区系仍有一定的限制作用。

The microbiological characteristics of the red soils occurring on the hilly land of juxian,Jinhua,jiangshan,Anji and Yiwu Counties in Zhejiang province were summarized as following;1.pH,organic matter,and nitrogen in red soil tended to increase with the improvement of soil fertility.2.The abundance of soil microorganisms increased with the improvement of soil fertility.Among the microbial population,bacteria were the most abundant organisms in all soils.The number of bacteria was relatively higher in more fertile...

The microbiological characteristics of the red soils occurring on the hilly land of juxian,Jinhua,jiangshan,Anji and Yiwu Counties in Zhejiang province were summarized as following;1.pH,organic matter,and nitrogen in red soil tended to increase with the improvement of soil fertility.2.The abundance of soil microorganisms increased with the improvement of soil fertility.Among the microbial population,bacteria were the most abundant organisms in all soils.The number of bacteria was relatively higher in more fertile soils.The relative number of fungi decreased as cultivation went on,but it was always less than 5% in virgin soils.3.The respiratory capacity,measured with warburg apparatus,also increased with the improvement of soil fertility and both the release of CO2 and the absorption of O2 were less than 20 microlitres in virgin soils.4.During the first two weeks,the rate of nitrification of red soil increased with the improvement of soil fertility but in the later stage their differences were not significant.The nitrifying bacteria could hardly be propagated on virgin soils.The number of nitrifying bacteria was also positively correlated with soil fertility.5.The cellulose decomposing capacity of these soils,as measured by embedding cloth method,also showed positive correlation with soil fertility.In the case of virgin soils,the dry weight loss of the embedded cloth was not more than 13% at most.Among the cellulose decomposing population,bacteria(mostly Cytophaga and Cellvibrio)were the most abundant in cultivated red soils and there was no Cytophaga in virgin soils while Fusarium predominated in all soils.6.with the exception of virgin soils,the nitrogen fixing bacterium Clostridium pasteurianum could be found in all soil samples analyzed and with the most abundance.In general,a small number of Azotobacter Chroo- coccum could be found in most of the soils,while Beijerinck sp.was found 玱nly in some soils.7.As compared with the higher fertile red soil of Juxian,the chemical and microbiological characteristics of Jinhua,Jiangshan,Yiwu,Anji soils of different fertility stages showed that there is a need to improve the fertilities of these red soils.

综合衢县、金华、江山、义乌及安吉五个地点代表性低丘黄筋泥的微生物学分析,浙江省低丘红壤的微生物学特性主要有如下几点: 1.在红壤的一般理化性状中,土壤pH值、有机质及氮素含量随红壤熟化程度的提高而有增加的趋势。 2.红壤中微生物总数随土壤熟化度提高而增大。各级肥力的土壤,均以细菌占最大优势。往往熟化程度愈高,细菌数量所占的比重愈大。反之,不一定是熟化程度较高的土壤。熟化程度低的红壤,真菌的相对数量较高,但在荒地中,真菌的数量也不超过微生物总数的5%。 3.红壤荒地的呼吸强度,在本试验条件下,二氧化碳释放量及氧吸收量均在20微升以下。随着红壤熟化程度的增加,其数值也增大。 4.在培养初期二周内,红壤的硝化作用强度随熟化程度提高而增大。后期差异不一定显著。硝化细菌在荒地中几乎不能繁育,其数量随熟化程度提高而增加。 5.红壤的纤维素分解强度,在试验条件下,荒地中布片失重量最大不超过13%。分解强度及纤维素分解微生物相对数量,随红壤熟化程度提高而增加。纤维素分解微生物种类中,在熟化红壤以细菌占优势,在荒地则以霉菌占优势。在纤维素分解细菌中,熟化度高的红壤,以噬纤维菌属(Cytophaga)及纤维弧菌属(Cellvib...

综合衢县、金华、江山、义乌及安吉五个地点代表性低丘黄筋泥的微生物学分析,浙江省低丘红壤的微生物学特性主要有如下几点: 1.在红壤的一般理化性状中,土壤pH值、有机质及氮素含量随红壤熟化程度的提高而有增加的趋势。 2.红壤中微生物总数随土壤熟化度提高而增大。各级肥力的土壤,均以细菌占最大优势。往往熟化程度愈高,细菌数量所占的比重愈大。反之,不一定是熟化程度较高的土壤。熟化程度低的红壤,真菌的相对数量较高,但在荒地中,真菌的数量也不超过微生物总数的5%。 3.红壤荒地的呼吸强度,在本试验条件下,二氧化碳释放量及氧吸收量均在20微升以下。随着红壤熟化程度的增加,其数值也增大。 4.在培养初期二周内,红壤的硝化作用强度随熟化程度提高而增大。后期差异不一定显著。硝化细菌在荒地中几乎不能繁育,其数量随熟化程度提高而增加。 5.红壤的纤维素分解强度,在试验条件下,荒地中布片失重量最大不超过13%。分解强度及纤维素分解微生物相对数量,随红壤熟化程度提高而增加。纤维素分解微生物种类中,在熟化红壤以细菌占优势,在荒地则以霉菌占优势。在纤维素分解细菌中,熟化度高的红壤,以噬纤维菌属(Cytophaga)及纤维弧菌属(Cellvibrio)占优势。在荒地红壤中,没有发现噬纤维菌属。分解纤维素的霉菌

CHP is a new phosphate fertilizer that is got at the liquid phase reaction on condition that the chlorine is entered into the coal which contain the humic acids and the powdered rock phosphate. The result of the cultivation tests prove that CHP has generally no harmful effect on the growth and propagation of a few kinds of principal soil micoorganisms as the quantity of CHP is used in so far as 800ppm. And CHP takes on different extent of acceleration to the grow and propagation of ammonifiers, silicates, actinomycetes,...

CHP is a new phosphate fertilizer that is got at the liquid phase reaction on condition that the chlorine is entered into the coal which contain the humic acids and the powdered rock phosphate. The result of the cultivation tests prove that CHP has generally no harmful effect on the growth and propagation of a few kinds of principal soil micoorganisms as the quantity of CHP is used in so far as 800ppm. And CHP takes on different extent of acceleration to the grow and propagation of ammonifiers, silicates, actinomycetes, nitrifying bacterias and azotobacters; CHP doesn't take on the striking change to cellulose-decomposing bacterias but takes on the suppressive action to fungus and denitrifying bacterias,

氯化腐磷,是含腐殖酸的煤粉和磷矿粉在液相反应中通氯气制取的一种新型磷肥。盆栽试验结果表明:其用量在800ppm范围内,对几种主要土壤微生物的生长繁殖,基本上无不良影响。对氨化细菌群、硅酸盐细菌群、放线菌群、硝化细菌群以及好气性自生固氮菌群的生长繁殖,呈现不同程度的促进作用;对好气性纤维分解菌无明显变化,但对真菌群和反硝化细菌群却呈现抑制作用。

 
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