Responses of soil ammonia-oxidizing bacteria and archaea to different application years of nitrogen fertilizer in mulberry field
Nitrogen fertilizer has a different impact on the abundance and composition of soil ammonia-oxidizing bacteria(AOB)and ammonia-oxidizing archaea(AOA).This study investigated the response of AOB and AOA to different application years(4 years,4Y; 17 years,17Y; 32 years,32Y and 0 year,0Y)of nitrogen fertilizer using real-time polymerase chain reaction(PCR)and denaturing gradient gel electrophoresis(DGGE).Long-term urea nitrogen fertilizer application results in soil acidification,and the pH was decreased 0.88 in 32Y soil compared with 4Y soil.The 4Y soil had the highest copy numbers of AOB amoA genes among the treatments,whereas the highest archaeal amoA gene copy numbers were found in 32Y soil.The bacterial amoA gene copy numbers ranging from 6.46 × 105 to 8.32×107 per gram of dry soil were significantly higher than those of archaeal amoA genes,ranging from 1.70×104 to 1.20×105 per gram of dry soil.The AOB population size was positively correlated with the potential nitrification rates(PNR),which indicated a potential role of AOB in nitrification.No significant correlations were observed among the population size of AOA,soil pH and PNR.DGGE patterns revealed that different application years of nitrogen fertilizer resulted in an obvious change of the AOB community composition,but not of AOA.These results suggest that long-term application of urea nitrogen fertilization had a significant impact on AOB abundance and composition,while minimal on AOA abundance in mulberry field soil.
Mulberry Nitrogen fertilizer Ammonia-oxidizing microbes Abundance and composition Introduction
Cui Yu Yong Li Wen Deng Rongli Mo Zhixian zhu Xingming Hu
Industrial Crops Institute of Hubei Academy of Agricultural Sciences,430064 Wuhan,China
国内会议
武汉
英文
204-215
2017-08-21(万方平台首次上网日期,不代表论文的发表时间)