微生物生物化学

微体古生物学研究微体化石的古生物学分支植物微生物生物化学

The branch of paleontology that deals with microfossils . plant microbial biochemistry

探讨了不同位点的硝化与反硝化作用以及呼吸作用，掌握了微生物生物化学活性空间分布规律；

The nitrification-denitrification and respiration in different sites of IVCWs were investigated and the spatial characteristics of the biochemistry activities of the microbe were acquired .

微生物源生物化学农药的研究与开发进展

Advances in Research and Development of Biochemical Pesticides of Microbial Origin

一次冷涡过程降水的微物理机制分析微生物生理生物化学

Analysis of the microphysical precipitation mechanism for a cold vortex process

农田土壤动物和微生物与生物化学动态关系的研究

Relationship between soil fauna and microorganisms and the development of biochemistry characters in farmlands

利用预测微生物学延长低温肉制品的货架期微生物生理生物化学

How to Prolong the Shelf Life of Low Temperature Meat Products Using the Predictive Microbiology

微生物生理生物化学低山丘岭干草原土壤微生物氮素生理群研究

Study on the Nitrogen Physiological Groups of Soil Microorganisms in the Low Mountain and Hill Steppes

对每批香肠样品都进行了物理化学、微生物、生物化学分析及感官评定。

Every batch of sausage samples were analyzed for physicochemical , microbiological , biochemical and sensory qualities .

微生物源生物化学农药作为低毒性新型化学农药的开发资源具有重要的开发价值；

Biochemical pesticides of microbial origin are development resources having significant value as new , low toxicity chemical pesticides .

微生物生理生物化学东秦岭北坡中元古代晚期微体生物群&一个早期生命的新窗口

Late Mesoproterozoic microfossil assemblage on northern slope of eastern Qinling mountains , china : a new window on early eukaryotes

第二个时期始于清朝，由于西方技术包括微生物和生物化学技术的使用，传统的发酵技术经历了巨大的改变。

The second stage began only with the Qing Dynasty ( 1616-1911 ) when the traditional fermentation underwent great changes due to the use of the Western technology , including micro biology and biochemistry .

对农用抗生素、细菌素、真菌毒素等多种微生物源生物化学农药的研究和开发进展进行了综述，并对我国农用抗生素研究开发存在的问题进行了分析。

This article summarizes advances in research and development of biochemical pesticides originating from microbes , including agricultural antibiotics , bacteriocin , and fungal toxins , and analyzes problems related to research and development of agricultural antibiotics in China .

在旱年，土壤微生物的生物化学强度与相应的微生物数量显著相关，氨化强度和解磷强度均在小麦生长的前60天中呈现递增的趋势，硝化强度受硝态氮影响的变化规律不明显。

Hi poor rainfall year , soil microbial biochemical activities were significant corelative with their microbial populations . Ammonification and phosphorus transformation were increased continuously before 60 days , and the changes of nitrification were not regular affected by nitrate nitrogen .

土壤微生物在生物地球化学循环（biogeochemicalcycles，BGC）过程中扮演着非常重要的角色，对地表生态系统乃至全球都存在重要的影响。

Soil microorganisms play pivotal roles in various biogeochemical cycles ( BGC ), and also influence aboveground ecosystems or even the planet . There are self-successions in soil microbial communities .

极端环境下的微生物及其生物地球化学作用

The occurrence and biogeochemistry of microbes in extreme environments

水稻土中氧化铁的还原是受微生物控制的生物化学过程，异化铁还原菌在其中起着重要作用。

The reduction of ferric oxide in paddy soil is biochemical processs controlled by microorganism , and dissimilatory iron reducers have important role .

在室内培养试验条件下，研究了不同剂量苄嘧磺隆（0～750g/hm2）对淹水稻田土壤中微生物活性和生物化学特性的影响。

Under submerged incubation with different bensulfuron-methyl treatments ( 0-750 g / hm2 ), dynamics of soil microbial activity and biochemical characteristic in a waterlogged paddy soil were studied .

结合功能微生物的种类和生物化学反应类型阐述废水生物脱氮气态中间产物N2O和NOx的来源及生成机理，有助于新的氮代谢途径的认识、新技术开发和大气环境二次污染的防治。

Discussing the sources and mechanisms of N_2O and NO_x in wastewater treatment from the point of contributing microorganisms and biochemistry reaction will benefits the understanding of new nitrogen metabolic pathways , the development of new technology and the protection of air pollution from NO_x .

本文概述了近十年来对海绵微生物生物活性物质的化学成分和生物活性的研究进展。

The research on bioactive substances of sponge-microorganism in the past ten years including chemical constituent and biological activities was reviewed .

分析了发酵中微生物的活动及生物化学变化对青贮料品质的影响，提出为保证足量乳酸的形成，调制优良青贮饲料应需要的基本条件。

This paper analyzes the activity of microorganisms during fermentation and the effect of biochemical changes on the quality of silage , and sets forth the basic conditions needed to ensure enough lactic acid and high quality of the silage .

土壤微生物是土壤中有机质和养分转化与循环的主要动力，微生物在推动地球生物化学元素循环过程中起着重要作用。

Soil microbe is the main driving force to carbon dynamic and nutrient turnover in the biogeochemical cycling .