氨化菌 meaning in Chinese
ammonificator
ammonifiers
ammonifying bacteria
Examples
- The factors which affect the growth and function of ammonifying bacteria in suzhou creek are studied with altering the environmental conditions
通过改变氨化菌生长的环境条件,对影响氨化菌生长和功能的影响因素做初步研究。 - The nitrogen fixation in alpine meadow ecosystem is mainly accomplished by anaerobic nitrogen fixing bacteria . both ammonification and nitrification are the highest in 0 cm 10 cm soil depth
从不同植被类型土壤的表层中各生理群菌数的平均值来看,反硝化细菌的数量最高,嫌气性自生固氮菌次之,再次为氨化菌和硝化菌。 - Ammonifiers in suzhou creek can not use inorganic nitrogen and carbamide as nitrogen source ; additional carbon source and garbage lixivium have little influence on ammonifiers growth ; high content of salt and low temperature restrain ammonifiers growth ; alkalescent condition has little influence on ammonifiers , but acidic condition restrain ammonifiers growth ; the biomass of ammonifiers are not necessary correlated with the function of ammonifiers , adding glucose with 1g / l content into the water sample obviously promote the growth and function of ammonifiers . physiological groups of bacteria play significant role in the translation and
苏州河的氨化菌无法利用无机氮和尿素作为氮源;在营养条件充足时添加额外c源和富含有机物的垃圾浸出液对氨化菌的生长基本无影响;高盐度和低温抑制氨化菌生长;碱性条件对氨化菌的生长影响不大,酸性条件对氨化菌生长具有抑制作用;氨化菌生物量的消长与转氨活性之间不存在必然联系, 1g / l的葡萄糖对苏州河水样中氨化菌的数量和转氨功能具有明显的促进作用。 - The population distribution of physiological groups of bacteria , including ammonifying bacteria , denitrifying bacteria , nitrobacteria and nitroso bacteria , organic phosphate dissolving bacteria and inorganic phosphate dissolving bacteria in water body and sediment of suzhou creek are studied with mpn and flat account method from jan . 2002 to mar . 2003 . the role of these physiological groups of bacteria in suzhou creek aquatic ecosystem is discussed
用最大可能数( mpn )法和平板计数法,于2002年1月2003年3月对苏州河水体和底泥中的主要微生物功能菌群? ?包括有机磷分解菌、无机磷分解菌、氨化菌、亚硝化菌、硝化菌和反硝化菌等进行了生态调查,并分析探讨了它们在苏州河水生态系统中的作用。 - 2 . the population of functional bacteria in water body varied with adding cm . when the use of cm was 4g , the amount of the total bacteria and phosphorus bacteria were maximum in the fourth day , the amount of denitrifying bacteria were maximum in the tenth day ; when the use of cm was 1g , the amount of ammonifying bacteria were maximum
复合微生物的加入引起水体中的微生物功能菌群数量变化,其中复合微生物添加量为4g时,实验第4天,总菌和磷细菌达到最高峰,第10天,反硝化菌达到最高峰;当复合微生物添加量为1g时,实验第4天氨化菌达到最高峰。