Closing the Nitrogen Gap: Emissions, Efficiency, and Sensor-Based Monitoring in Agricultural Systems
窒素ギャップを埋める:農業システムにおける排出、効率、センサーベースのモニタリング (AI 翻訳)
Baber Ali, Abdul Waheed, Muhammad Siddique Afridi, Aqsa Hafeez, Nijat Imin
🤖 gxceed AI 要約
日本語
本レビューは、窒素利用効率、アンモニア合成の脱炭素化、およびガスセンシング技術の3分野を統合的に検討する。効率改善とクリーン生産は相補的効果を持つが、監視技術の成熟度に非対称性がある(アンモニアは成熟、亜酸化窒素は未成熟)。また、介入効果は農場構造に依存し、政策は汚染削減よりも使用促進に偏っていることを指摘する。
English
This review synthesizes literature on nitrogen use efficiency, decarbonization of ammonia synthesis, and gas sensing for agricultural emissions. It finds that efficiency improvements and cleaner production have complementary effects, and highlights an asymmetry in monitoring readiness: ammonia sensing is mature while nitrous oxide sensing lags despite its high global warming potential. The paper calls for integrated frameworks and policy instruments that link field nitrogen budgets, production emissions, and monitoring capability.
Unofficial AI-generated summary based on the public title and abstract. Not an official translation.
📝 gxceed 編集解説 — Why this matters
日本のGX文脈において
日本では農業由来のGHG排出削減が喫緊の課題であり、本論文が提案する統合的フレームワークは、日本の農林水産省の「みどりの食料システム戦略」や、温室効果ガスインベントリの精度向上に示唆を与える。また、アンモニア合成の脱炭素化は日本の水素戦略とも関連する。
In the global GX context
This paper addresses a critical gap in agricultural GHG emissions, which are central to global climate targets under the Paris Agreement. The monitoring asymmetry identified is relevant for verification under national GHG inventories and for companies reporting Scope 1 emissions. The integrated framework linking field budgets, production, and monitoring is timely as ISSB and CSRD require more granular emissions data from agriculture.
👥 読者別の含意
🔬研究者:Provides a comprehensive review of nitrogen management, ammonia synthesis decarbonization, and sensor technologies, highlighting complementary effects and monitoring gaps for future research.
🏢実務担当者:Agricultural companies can apply the nitrogen use efficiency strategies and sensor technologies discussed to reduce emissions and improve sustainability reporting.
🏛政策担当者:Policymakers should consider integrated approaches that link field nitrogen budgets, production emissions, and monitoring, and shift incentives from fertilizer use to pollution reduction to align with NDCs.
📄 Abstract(原文)
Global food demand is projected to rise by approximately 56 percent between 2010 and 2050, intensifying reliance on synthetic nitrogen fertilizer during a time when only about half of all applied nitrogen is recovered by crops, with the remainder split between genuine environmental loss and retention within soil and biomass pools. The fraction that is genuinely lost drives substantial economic costs and contributes disproportionately to global nitrous oxide emissions, a greenhouse gas with a warming potential far exceeding that of carbon dioxide. This review synthesizes recent literature across three interdependent domains including nitrogen use efficiency strategies spanning agronomic, genetic, and microbial approaches, decarbonization pathways for ammonia synthesis ranging from conventional to green production routes, and gas sensing technologies for monitoring ammonia and nitrous oxide emissions in agricultural settings. Rather than treating these domains separately, this review proposes that their effects on overall emissions are complementary and potentially compounding rather than strictly additive. Efficiency improvements reduce the total fertilizer volume subject to production emissions, while cleaner production cannot offset nitrogen loss in the field. The exact extent of any combined benefit depends on the relative proportion of field emissions and production emissions within each farming system. Another important finding is the pronounced asymmetry in monitoring readiness. Ammonia sensing has reached field-deployable maturity for detection and concentration monitoring. In contrast, nitrous oxide sensing remains constrained by unresolved challenges in sensitivity and long-term stability despite the gas’s significant contribution to climate change. This asymmetry limits the verification of mitigation outcomes at farm and regional scales. The review further identifies that intervention effectiveness depends on farm structure in the studied context, that global nitrogen policy remains weighted toward incentivizing use rather than reducing pollution, and that the evidence base surveyed here is geographically uneven. Together, these findings indicate that reconciling rising food production with greenhouse gas reduction targets requires integrated frameworks linking field nitrogen budgets, production emissions, and monitoring capability, alongside policy instruments designed around their interdependence.
🔗 Provenance — このレコードを発見したソース
- openalex https://doi.org/10.3390/nitrogen7030074first seen 2026-07-17 05:15:13
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