在华北平原，减少施氮量条件下，添加 NBPT 到尿素中可提高玉米对氮肥的利用效率，降低氮循环土壤微生物的丰度。

Adding NBPT to urea increases N use efficiency of maize and decreases the abundance of N-cycling soil microbes under reduced fertilizer-N rate on the North China Plain.

机构信息

Institute of Plant Nutrition and Environmental Resources, Henan Academy of Agricultural Sciences, Zhengzhou, China.

Institute of Agricultural Research Center, Pingdingshan Academy of Agricultural Sciences, Pingdingshan, China.

出版信息

PLoS One. 2020 Oct 28;15(10):e0240925. doi: 10.1371/journal.pone.0240925. eCollection 2020.

DOI:10.1371/journal.pone.0240925

PMID:33112905

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7592763/

Abstract

Urease inhibitor (UI) and nitrification inhibitor (NI) can reduce N losses from agricultural soils but effects of inhibitors on N cycle are unclear. A field experiment was conducted with maize to test effects of UI (N-(n-Butyl) thiophosphoric, NBPT) and NI (3,4-dimethylepyrazolephosphate, DMPP) on N uptake and N-cycling soil microbes. Five treatments were imposed: no N fertilizer input (CK), conventional fertilization (CF) and 80% of urea input with NBPT (80%U+UI), with DMPP (80%U+NI) and with half NBPT and half DMPP (80%U+1/2(UI+NI)). There were no significant differences in biomass between 80%U+UI, 80%U+NI and CF but harvest index was increased under 80%U+UI and 80%U+NI. Compared to CF, N use efficiency of grain under 80%U+UI was increased by 7.1%, whereas grain yield and N uptake under 80%U+1/2(UI+NI) were decreased by 8.2% and 9.4%, respectively. The peak soil [Formula: see text] content was at about 15 days after fertilization (DAF) under CF but 30 DAF under the inhibitor treatments. In soils of 80%U+UI, the activities of urease and nitrate reductase were decreased between 15-45 DAF and between 5-30 DAF. The abundance of N-cycling soil microbes was affected: 80%U+UI and 80%U+NI reduced the copies of the amoA AOA and nir genes at about 15 days and reduced the copies of the amoA AOB gene at about 30 days. Correlation analysis indicated that there were significant positive relationships between amoA AOB gene and [Formula: see text], as well as between nirK gene and [Formula: see text]. Overall, urea applied with NBPT has greater potential for improving maize N use efficiency and inhibiting nitrification under reduced fertilizer-N applications.

摘要

脲酶抑制剂（UI）和硝化抑制剂（NI）可减少农业土壤中的氮损失，但抑制剂对氮循环的影响尚不清楚。本试验以玉米为供试作物，采用田间试验研究了脲酶抑制剂（N-（正丁基）硫代磷酰三胺，NBPT）和硝化抑制剂（3,4-二甲基吡唑磷酸盐，DMPP）对氮吸收和氮循环土壤微生物的影响。设置 5 个处理：不施氮肥（CK）、常规施肥（CF）、80%尿素加 NBPT（80%U+UI）、80%尿素加 DMPP（80%U+NI）和 1/2 NBPT 和 1/2 DMPP（80%U+1/2（UI+NI））。80%U+UI、80%U+NI 和 CF 处理间生物量无显著差异，但 80%U+UI 和 80%U+NI 处理的收获指数增加。与 CF 相比，80%U+UI 处理下的玉米籽粒氮素利用效率提高了 7.1%，而 80%U+1/2（UI+NI）处理下的籽粒产量和氮素吸收量分别降低了 8.2%和 9.4%。CF 处理下土壤中[Formula: see text]含量在施肥后约 15 天（DAF）达到峰值，而抑制剂处理下则在 30 DAF 达到峰值。在 80%U+UI 处理的土壤中，脲酶和硝酸还原酶的活性在 15-45 DAF 和 5-30 DAF 之间降低。氮循环土壤微生物的丰度受到影响：80%U+UI 和 80%U+NI 处理在约 15 天和 30 天降低了 amoA AOA 和 nir 基因的拷贝数，在约 30 天降低了 amoA AOB 基因的拷贝数。相关性分析表明，amoA AOB 基因与[Formula: see text]之间以及 nirK 基因与[Formula: see text]之间存在显著的正相关关系。总体而言，在减少施氮量的情况下，施用 NBPT 的尿素具有提高玉米氮素利用效率和抑制硝化作用的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cf14/7592763/4df45332b24d/pone.0240925.g001.jpg

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在华北平原，减少施氮量条件下，添加 NBPT 到尿素中可提高玉米对氮肥的利用效率，降低氮循环土壤微生物的丰度。

Adding NBPT to urea increases N use efficiency of maize and decreases the abundance of N-cycling soil microbes under reduced fertilizer-N rate on the North China Plain.

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