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A paradigm shift towards low-nitrifying production systems: the role of biological nitrification inhibition (BNI)

机译：向低硝化生产系统的转变：生物硝化抑制作用（BNI）

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摘要

BackgroundAgriculture is the single largest geo-engineering initiative that humans have initiated on planet Earth, largely through the introduction of unprecedented amounts of reactive nitrogen (N) into ecosystems. A major portion of this reactive N applied as fertilizer leaks into the environment in massive amounts, with cascading negative effects on ecosystem health and function. Natural ecosystems utilize many of the multiple pathways in the N cycle to regulate N flow. In contrast, the massive amounts of N currently applied to agricultural systems cycle primarily through the nitrification pathway, a single inefficient route that channels much of this reactive N into the environment. This is largely due to the rapid nitrifying soil environment of present-day agricultural systems.

机译：背景技术农业是人类在地球上发起的最大的单一地球工程计划，主要是通过将前所未有数量的活性氮（N）引入生态系统来实现的。肥料中大量施用的这种反应性氮大量泄漏到环境中，对生态系统的健康和功能产生了一系列负面影响。自然生态系统利用氮循环中的多种途径来调节氮流量。相反，当前应用于农业系统的大量N主要通过硝化途径循环，这是一条效率低下的途径，将大部分这种活性N引入环境。这在很大程度上是由于当今农业系统的土壤硝化迅速。

著录项

期刊名称 Annals of Botany
作者
G. V. Subbarao; K. L. Sahrawat; K. Nakahara; I. M. Rao; M. Ishitani; C. T. Hash; M. Kishii; D. G. Bonnett; W. L. Berry; J. C. Lata;
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年(卷),期 2013(112),2
年度 2013
页码 297–316
总页数 20
原文格式 PDF
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关键词
AMO ammonia mono-oxygenase biological nitrification inhibition BNI BNI capacity brachialactone fatty acids HAO hydroxylamine oxidoreductase high-nitrifying production systems low-nitrifying production systems nitrification Nitrosomonas nitrate leaching synthetic nitrification inhibitors nitrous oxide emissions sustainability;

机译：AMO;氨单加氧酶;生物硝化抑制;BNI;BNI容量;臂内酯;脂肪酸;HAO;羟胺氧化还原酶;高硝化生产系统;低硝化生产系统;硝化;亚硝化氨氮;硝酸盐浸出;合成硝化抑制剂;亚硝酸盐氧化物排放;可持续性;

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专利

1. A paradigm shift towards low-nitrifying production systems: the role of biological nitrification inhibition (BNI). [J] . Subbarao G. V., Sahrawat K. L., Nakahara K., Annals of Botany . 2013,第2期

机译：向低硝化生产系统的转变：生物硝化抑制作用（BNI）。
2. Nitrogen management in grasslands and forage-based production systems – Role of biological nitrification inhibition (BNI) [J] . G.V. Subbarao, I.M. Rao, K. Nakahara, Tropical Grasslands-Forrajes Tropicales . 2013,第2期

机译：草原和草料生产系统中的氮管理-生物硝化抑制作用（BNI）
3. Biological Nitrification Inhibition (BNI) and its Potential for Reducing Nitrification and N20 Emissions from Agricultural Systems [J] . J. V. Subbarao, Y. Anao, I. Ioshihashi, JIRCAS Newsletter for International Collaboration . 2015,第74期

机译：生物硝化抑制作用（BNI）及其减少农业系统中硝化作用和N20排放的潜力
4. Nitrogen management in grasslands and forage-based production systems - Role of biological nitrification inhibition (BNI) [C] . G VSubbarao, IM Rao, K Nakahara, International Grassland Congress . 2013

机译：草原和牧草生产系统中的氮管理 - 生物硝化抑制的作用（BNI）
5. Extending the preventive engineering paradigm to the analysis and design of discrete product manufacturing systems: The role of functional integration in the production of social and psychological outputs. [D] . Benda, Peter Josef. 1997

机译：将预防性工程范式扩展到离散产品制造系统的分析和设计：功能集成在社会和心理产出生产中的作用。
6. Biological Nitrification Inhibition (BNI): Phenotyping of a Core Germplasm Collection of the Tropical Forage Grass Megathyrsus maximus Under Greenhouse Conditions [O] . Daniel Villegas, Ashly Arevalo, Jonathan Nuñez, 2020

机译：生物硝化抑制（BNI）：在温室条件下热带饲料草Megathyrsus Maximus的核心种质收集表型
7. A paradigm shift towards low-nitrifying production systems: the role of biological nitrification inhibition (BNI) [O] . G. V. Subbarao, K. L. Sahrawat, K. Nakahara, 2012

机译：朝向低硝化生产系统的范式转变：生物硝化抑制（BNI）的作用

A paradigm shift towards low-nitrifying production systems: the role of biological nitrification inhibition (BNI)

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