Short-Term Effect of Nitrogen Fertilization on Carbon Mineralization during Corn Residue Decomposition in Soil

Nitrogen Pub Date : 2021-10-27 DOI:10.3390/nitrogen2040030

Tanjila Jesmin, Dakota T. Mitchell, R. Mulvaney

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引用次数: 7

Abstract

The effect of N fertilization on residue decomposition has been studied extensively; however, contrasting results reflect differences in residue quality, the form of N applied, and the type of soil studied. A 60 d laboratory incubation experiment was conducted to ascertain the effect of synthetic N addition on the decomposition of two corn (Zea mays L.) stover mixtures differing in C:N ratio by continuous monitoring of CO2 emissions and periodic measurement of microbial biomass and enzyme activities involved in C and N cycling. Cumulative CO2 production was greater for the high than low N residue treatment, and was significantly increased by the addition of exogenous N. The latter effect was prominent during the first month of incubation, whereas N-treated soils produced less CO2 in the second month, as would be expected due to more rapid substrate depletion from microbial C utilization previously enhanced by greater N availability. The stimulatory effect of exogenous N was verified with respect to active biomass, microbial biomass C and N, and cellulase and protease activities, all of which were significantly correlated with cumulative CO2 production. Intensive N fertilization in modern corn production increases the input of residues but is not conducive to soil C sequestration.

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施氮对玉米秸秆土壤分解过程中碳矿化的短期影响

施肥对秸秆分解的影响已被广泛研究;然而，对比结果反映了残茬质量、施氮形式和研究土壤类型的差异。通过连续监测CO2排放量、定期测定参与碳氮循环的微生物量和酶活性，进行了60 d室内培养试验，以确定添加合成氮对不同碳氮比玉米(Zea mays L.)秸秆分解的影响。高氮残留量处理的累积CO2产量大于低氮残留量处理，并且通过添加外源N显著增加。后一种效应在孵育的第一个月表现突出，而施氮处理的土壤在第二个月产生的CO2较少，正如预期的那样，由于微生物利用C的速度更快，之前因氮有效性提高而增加了基质消耗。外源氮对活性生物量、微生物生物量C和N、纤维素酶和蛋白酶活性的刺激作用均与累积CO2产量显著相关。现代玉米生产中，强化施氮增加了秸秆的投入，但不利于土壤碳的固存。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nitrogen

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