土壤代谢商随培养时间延长变化趋势不同。
Soil metabolic quotient were changed with different incubated time.
因此,自然免耕土壤代谢增强,促进了土壤中养分的转化。
It is, therefore, concluded that soil virginization may help in crease soil metabolism and promote the transportation of soil nutrients.
土壤微生物量碳、基础呼吸作用、土壤代谢商是表征土壤质量的重要指标,并且与土壤本身的理化性质有关。
Soil basal respiration, soil biomass carbon, metabolic quotient are important indexes of soil microbiological, they relate to physical-chemical character of soil.
在微量气体代谢中,土壤微生物具有直接的作用。
Soil microorganisms exercise direct effects on trace gases metabolism.
从土壤中分离得到一株放线菌ar 1148,其代谢产物对万古霉素耐药肠球菌有较明显的抑菌活性。
An actinomycetes strain AR1148 was isolated from soil and its metabolites could inhibit the growth of VRE (vancomycin resistant Enterococcus).
本文研究了土壤硫营养状况对烤烟烟叶硫吸收累积和代谢的影响。
The effects of sulphur nutrition in soil on sulphur accumulation and metabolism in flue cured tobacco leaf were studied.
研究了不同程度土壤持续干旱对冬小麦根系生长及营养代谢的影响。
The effect of roots growth and nutrient metabolism of winter wheat was studied under different degree of soil sustaining drought.
新型抗生素s632a_3是从土壤中分离出的一株放线菌产生的代谢产物,属戊二酰亚胺类化合物。
A new antibiotics, S632As, glutarimide antibiotics compounds, is a metabolic product from a strain of Antinomyces isolated from soil, and is dealt with in this paper.
第二章采用批量平衡法研究了二氯喹啉酸及其代谢体BAS514H在4种土壤中的吸附行为。
In the second chapter, absorption of Quinclorac and metabolism BAS514H in 4 kinds of soils was studied.
植物可以吸收、转移元素和化合物,可以积累、代谢和稳定污染物,具修复被污染土壤等作用值得关注。
The studies on remediation of polluted soils by using plants that can absorb and transfer elements and chemicals, and accumulate, metabolize and stabilize pollutants were worthy of note.
土壤、饲料高氟是加重钙磷代谢障碍引发跛行的主要因素。
High level F in feed and soil was the main pathogenic factor of it.
土壤中锰元素对植物光合作用、新陈代谢、促进生长、增强抗病性及其增加产量均有明显的作用。
Manganese element in soil have obvious function to the photosynthesis and metabolism of plant, and can promote growth, strengthen the disease resistance and increase the output.
利用土壤柱模拟实验对二氯喹啉酸和其代谢体BAS514 H在土壤中的淋溶迁移进行了研究。
A leaching experiment of soil column was conducted to study the movement of Quinclorac and BAS514H, metabolism of Quinclorac.
随着新陈代谢作用的进行,以氨基糖为代表的微生物细胞壁残留物不断在土壤中积累,并进一步参与土壤碳、氮循环。
During the metabolism, the microbial residues represented as amino sugars were accumulated in soil and probably concerned in further carbon and nitrogen cycling.
各种生态环境因素包括光、温度、土壤、空气以及生物因素均影响到药用植物的次生代谢过程。
The anabolism of secondary metabolites is influenced by many ecological environment factors including sunlight, temperature, soil, air and biological factors.
目前对于土壤中的菲和芘等多环芳烃污染物的处理主要有微生物修复、植物修复以及共代谢等方法。
At present, the treatment methods of PAHs in soils are microbial remediation, phytoremediation and co-metabolism mechanism.
建立用气相色谱法测定苹果与土壤中代森铵及其代谢物乙撑硫脲的残留分析方法。
The residual method of amobam and its metabolite ethylenethiourea in apple and soil by gc was established.
了解微生物和植物对无机砷的代谢机制,对认识和控制土壤中砷的风险至关重要。
It is essential to know how arsenic is taken up by and how it metabolized in plants and microbe.
施用铜制剂还显著影响了土壤的生物学指标,表现为土壤基础呼吸和代谢熵升高,微生物生物量碳降低。
Moreover, the biological indexes of soil were affected, basal respiration and metabolic quotients were increased, microbial carbon was declined.
采用室内试验方法研究了分散红3b及其代谢产物对土壤过氧化氢酶活性的影响。
Influence of disperse red 3b and its metabolites on catalase activity of soil was investigated.
因种植和生产过程、土壤、大气环境及自身代谢等因素影响,其不仅含有植物的主要功效成分,同时也有微量有害成分存在。
Because of the effect of soil pollution, atmospheric environment pollution and self-metabolism, some harmful contents were also bioaccumulation in biotic fat during plant materials' growth.
土壤酶和微生物共同推动土壤的代谢过程。
Soil enzymes and microorganisms finished soil metabolism reactions together;
本文概述了涕灭威及其代谢物在苹果和土壤中残留量的分析方法。
The residual analysis method of aldicarb and its main metabolites in soil and apple was discussed in this paper.
植物主要通过直接吸收和代谢、根际土壤植物酶促降解和根际微生物对污染物的降解等三种机制去除土壤中残留的农药。
Plants clean up the pesticide-contaminated soils mainly through three ways:absorption and metabolism, rhizospheric-enzyme-stimulated degradation and rhizospheric microbial degradation.
它是一种土壤微生物的天然代谢产物,它能对付多抗药性癌细胞。
It is derived as a natural metabolite of a certain bacteria found in soil. It also has potential to overcome multi-drug resistance in cancer cells.
它是一种土壤微生物的天然代谢产物,它能对付多抗药性癌细胞。
It is derived as a natural metabolite of a certain bacteria found in soil. It also has potential to overcome multi-drug resistance in cancer cells.
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