土壤真菌数量、脲酶活性与有效钾含量呈负相关。
Soil fungi number and urease activity were negative correlation with soil available potassium content.
不同季节对人参土壤真菌区系数量的动态变化有一定的影响。
Coefficient of Ginseng soil fungifiora is affected by climate og different seasons.
综述了分离土壤真菌的方法以及测定土壤真菌的间接计数法和直接计数法;
That of isolation methods for soil fungi and the indirect and direct enumeration methods for measuring soil fungi;
不同林型腐殖质层和土壤表层的土壤真菌群落种类和数量都具存在显著差异。
Humus layer in different forest types and soil surface type and quantity of soil fungal communities have a significant difference.
菌根是植物根系与土壤真菌形成的互惠共生体,对提高植物抗逆能力十分重要。
As a mutual symbiosis formed between plants and soil mycorrhiza fungi, mycorrhiza plays a key role in protecting host plants against environmental stress.
结果表明,重茬果园土壤微量元素亏缺严重,土壤真菌富集,过氧化氢酶降低;
The results showed that, the continuous cropping orchards had significant microelements deficit, fungus enrichment and catalase decrease in soil.
菌根真菌作为土壤真菌的一种,与放线菌和细菌等微生物相比,对土壤中有机污染具有更大的忍耐能力。
Compared with other microbes such as bacteria and actinomycete, mycorrhizal fungi have higher tolerance to POPs in soil.
本论文报道了连作、轮作大豆根际土壤微生物区系变化、土壤真菌优势类群、连作大豆根际土壤真菌优势类群紫青霉菌毒素的理化特性及其作用的研究结果。
In this paper, the changes of soil microbial community by soybean continuous cropping , dominant fungi, phytotoxins produced by P. purpurogenum and it's toxicity to soybean was reported.
比如动物吃某种植物,而这种植物依靠某种真菌从土壤中获取营养,依靠某种昆虫来授粉。
Like animals that eat a certain plant and that plant relies on a certain fungus to help it get nutrients from soil and on a certain insect for pollination.
更高的温度和更密集的风暴也与“裂谷热”有关联,“裂谷热”是一种从加利福尼亚中部峡谷土壤里的真菌上感染的疾病。
Higher temperatures and more intense storms are also linked to "valley fever", a disease contracted from a fungus in the soil of the central valley of California.
老鼠喂养的雷帕霉素,最开始是在复活岛上土壤中的真菌上发现的,这些吃雷帕霉素的老鼠比其他的老鼠生存的时间长10%。
Mice on rapamycin, which was first discovered in soil fungus from Easter Island, lived about 10 per cent longer than other mice.
真菌主要是在土壤环境中开始对昆虫的攻击,在花园,温室以及户外,人们经常采用真菌来控制农业害虫。
Fungi that attack insects are present in soils worldwide, and they are used in gardens, greenhouses, and open fields to control agricultural pests.
真菌在腐化过程中十分很重要,而腐化过程将化学物质回馈于土壤,升高其肥力,并分解动物粪便。
Fungi are not importance in the process of decay, which rechangings ingredients to the soil, enhances soil fertility, and decomposes animal debris.
真菌在腐化过程中十分重要。提高其肥力,而腐化过程将化学物质回馈于土壤。并分解动物粪便。
Fungi are important in the process of decay. enhances soil fertility, which returns ingredients to the soil. and decomposes animal debris.
真菌孢子,都是在我们身边,在土壤中,对人民,以及对动物。
Fungal spores are all around us, in the soil, on people, and on animals.
树木底部土壤中太多水分会导致真菌的滋长。
Too much water in the soil at the base of a tree can lead to the growth of fungi.
在低浓度下,镧对土壤细菌、放线菌、真菌的作用不明显,在高浓度下,表现为抑制作用。
La had no significant effect on soil bacteria, actinomyces and fungi at low concentration while had inhibitory effect at high concentration.
这是所造成的镰刀菌,这是一个大属丝状真菌广泛分布于土壤和在协会与植物。
It is caused by Fusarium which is a large genus of filamentous fungi widely distributed in soil and in association with plants.
AM真菌是广泛存在于土壤生态系统中的一类有益微生物,能与90%以上的维管植物形成共生体。
AM fungi is a kind useful microorganism that distributes in the soil system extensively; it can form symbiosis with host plant above 90%.
生物技术还可以帮助提高因虫害、干旱、土壤贫瘠和作物病毒、细菌或真菌导致作物减产而出现食物匮乏的地区的农业生产率。
Biotech can also improve farming productivity in places where food shortages are caused by crop damage attribution to pests, drought, poor soil and crop viruses, bacteria or fungi.
真菌构成了土壤的大部分微生物生物量,具有分解有机质,为植物提供养分的功能,是生态系统健康的指示物。
The fungi form the most microorganism amount of soil, resolve the organic matter, offer nutrient for plant and are healthy instruction thing for ecosystem.
摘要研究了施用酵素菌肥的栽参土壤人参根际微生物量碳及细菌、真菌和放线菌数量的变化。
An experiment was conducted to study the variations in microbial biomass carbon (MBC) and numbers of bacteria, fungi and actinomyces of ginseng rhizosphere soil applied ferment bacteria fertilizer.
采用常规方法研究了喀什地区土壤中的放线菌区系和对植物病原真菌的拮抗性。
In the paper, the population and antagonistic activity against plant pathogenic fungi of the soil actinomycetes from Kashi Region were studied by normal methods.
种群丰富度系数分析结果表明,高、中浓度乙草胺处理可使土壤可培养真菌种群丰富度不可逆地降低。
The richness of culturable fungi in soil treated by medium and high concentration acetochlor was decreased irreversibly.
种群丰富度系数分析结果表明,高、中浓度乙草胺处理可使土壤可培养真菌种群丰富度不可逆地降低。
The richness of culturable fungi in soil treated by medium and high concentration acetochlor was decreased irreversibly.
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