In order to elucidate the effects of organic fertilizer amendment on soil nitrogen transformation and the amounts of dif-ferent form of soil N, a three-year location trail was fulfilled in calcareous soil under dip irrigated cotton field, soil mineral N concentration ( NH+4 , NO3-) , soil microbial N biomass as well as soil total N content were determined. The treatments con-tain CK, CF ( N 300 kg·hm-2 , P2 O5 90 kg·hm-2 , K2 O 60 kg·hm-2 ) and different types ( cattle manure and Bio-or-ganic fertilizer ) and levels (3 000 kg·hm-2and 6 000 kg·hm-2) of organic material combined with 60% (N 180 kg· hm-2 , P2 O5 54 kg·hm-2 , K2 O 36 kg · hm-2 ) or 80% ( N 240 kg · hm-2 , P2 O5 72 kg · hm-2 , K2 O 48 kg · hm-2 ) NPK chemical fertilizer. There was a significant influence of organic fertilizer amendment on improving soil NH+4 -N and NO3- -N concentration (P<0. 05) as well as increasing the ratio of soil NH+4 to soil total N. The highest soil mineral N was obtained in 60% CF+BF2 treatment. Soil total N and soil microbial N were significantly increased after the continuous 3-year organic fertilizer application. Compared with CK and CF, soil TN content increased by 24. 7% ~37. 1% and 13. 3% ~24. 5%, meanwhile, soil MBN increased by 53. 8% ~98. 5% and 32. 2% ~70. 5% respectively, with different treatments of organic fertilize supply. Moreover, bio-organic fertilizer treatment ( CF+BF) had an obvious role on enhancing the proportion of MBN/TN, and organic fertilizer combined with chemical fertilizer improved soil nitrification potential and soil mineralization capacity. In conclusion, there was an significant effect of 3 000~6 000 kg·hm-2 organic fertilizer application on promoting soil nitrogen transformation, improving soil N fertility and optimizing the ratio of different forms of soil N under drip irrigated cotton field.%在滴灌条件下,采用连续3年定位增施有机肥小区试验,研究了不同有机无机肥配比对滴灌棉田土壤铵态氮、硝态氮、微生物量氮、全氮以及土壤矿化和硝化特性的影响,旨在明确滴灌棉田增施有机肥条件下土壤氮素转化与各形态氮素特征。结果表明,增施有机肥各处理均可显著增加土壤 NH+4-N 和 NO-3-N 含量( P <0.05),且明显增加NH+4-N 占总氮(TN)比例。在各施肥处理中,以配施6000 kg·hm-2生物有机肥处理(60%CF+BF2)的矿质氮含量最高;3年连续增施有机肥3000~6000 kg·hm-2可明显增加滴灌棉田全氮和微生物量氮含量(P<0.05),其中生物有机肥(CF+BF)对提高微生物量氮(MBN)/TN的效果显著,其土壤全氮分别比对照( CK)和单施化肥处理( CF)提高了24.7%~37.1%和13.3%~24.5%,微生物量氮分别增加53.8%~98.5%和32.2%~70.5%。有机无机肥配施可明显提高土壤硝化势和矿化能力。土壤增施3000~6000 kg · hm-2有机肥对促进滴灌棉田氮素转化,调节不同形态氮素比例及提高氮素肥力有显著效应。
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