ass日本风韵熟妇pics男人扒开女人屁屁桶到爽|扒开胸露出奶头亲吻视频|邻居少妇的诱惑|人人妻在线播放|日日摸夜夜摸狠狠摸婷婷|制服 丝袜 人妻|激情熟妇中文字幕|看黄色欧美特一级|日本av人妻系列|高潮对白av,丰满岳妇乱熟妇之荡,日本丰满熟妇乱又伦,日韩欧美一区二区三区在线

The effects of coal-based bio-organic fertilizer on potato yield, soil physical and chemical properties and abundance of nitrogen-cycling microbes under drip irrigation were studied, aiming to reveal the mechanism of the fertilizer on crop yield and soil nitrogen cycle. A field experiment was conducted from May to September in 2019, located in Guyang County, Inner Mongolia. Totally 1500kg/hm2(BF1), 3000kg/hm2 (BF2), 4500kg/hm2 (BF3) of coal-based bio-organic fertilizer and no organic fertilizer (CF) were applied respectively on the same levels of chemical fertilizations. The chemical fertilizers were 210kg/hm2 of nitrogen (N), 150kg/hm2 of phosphorus (P2O5) and 180kg/hm2 of potassium (K2O). The field experiment included four treatments and each treatment was repeated three times. Plant dry matter accumulation and tuber yield were quantified at potato maturity and harvest periods, respectively. Samples were collected from 0~20cm layer for analysis of physicochemical properties of soil and abundances of nitrogen cycling microbes before tuber harvesting. The abundances of bacteria (16S rRNA), fungi (ITS) and nitrogen cycle functional genes (nirS, ammoniaoxidizing bacteria amoA, nifH) were quantified by quantitative real-time PCR techniques. Compared with CF, increasing the coal-based bio-organic fertilizer ratio could significantly increase the dry matter accumulation of plant and tuber. The total tuber yield was increased by 5.30%~9.49% with the organic fertilizer increasing. The soil pH value of organic fertilizer treatments was significantly lower but organic carbon content was higher than that of CF. The abundance of soil bacteria and fungi was decreased with the increase of organic fertilizer application, but it was higher than that of CF. The abundance of microbial genes related to soil nitrogen-cycling responded positively to the addition of organic fertilizer. Furthermore, the gene abundance of nitrite reductase (nirS) was significant, while nitrogenase (nifH) and ammonia monooxygenase (amoA) of ammonia oxidizing bacteria (AOB) were not significant. The content of soil organic carbon appeared to be the key factor influencing the abundance of nirS type denitrifying bacteria. Overall, these results indicated that the proportion of soil bacteria and fungi could be regulated through proper application of the coal-based bio-organic fertilizer. Soil nitrogen cycle would be affected by the coalbased bio-organic fertilizer. The abundance of nirS gene was more sensitive to the addition of organic fertilizer than that of other functional genes. The coal-based bio-organic fertilizer would help to improve the productivity of potato fields, and the application of 4500kg/hm2 had a better performance.