Nitrogen fixation‐driven carbon sequestration: Brief communication

IF 5 3区 农林科学 Q1 SOIL SCIENCE
Peter Felker
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Abstract

Prior to the commercial nitrogen fertilizer production in 1919, all the world's terrestrial and aquatic carbon was supported by nitrogen fixation. Annual N deposition to semi‐arid lands and temperate forests is less than 5 kg/ha‐year and 10 kg/ha, respectively. Plant and soil C/N ratios range from 9.9 to 29.8 and 9 to 14, respectively. In an equilibrium, sustainable ecosystem where N is not removed from soil pools and is only dependent on annual N inputs, maximum C sequestration rates are approximately 3.25 kg to 46 kg/ha for arid ecosystems and 23 to 101 kg/ha for forest ecosystems. Commercial N applications range from approximately 70 to 160 kg/ha‐year. Managed nitrogen fixation rates range from approximately 50 to 130 kg N/ha‐year. For each additional kg N‐entering forests, the additional C is approximately 13 kg. N‐fixing plants range from alder and lupines in the arctic, to Prosopis and Acacias in semi‐arid lands and the large trees Inga and Pentaclethra in tropical rainforests. If N‐fixing plants achieving 50 kg N/ha‐year were planted on the equivalent of a 447 km square, on six continents, the IEA target of 1.7Gt CO2 (0.72 Gt of carbon) capture capacity by 2030 https://www.ief.org/news/whats‐the‐target‐for‐carbon‐sequestration‐and‐how‐do‐we‐get‐there could be achieved.
固氮驱动的碳封存:简要交流
在 1919 年商业化生产氮肥之前,世界上所有的陆地和水生碳都是由固氮作用支持的。半干旱地区和温带森林的年氮沉降量分别低于 5 千克/公顷和 10 千克/公顷。植物和土壤的碳/氮比分别为 9.9 至 29.8 和 9 至 14。在一个平衡、可持续的生态系统中,氮不从土壤池中去除,只依赖每年的氮输入,最大固碳率在干旱生态系统中约为每公顷 3.25 至 46 千克,在森林生态系统中约为每公顷 23 至 101 千克。商业施氮量约为 70 至 160 千克/公顷-年。人工固氮率约为 50 至 130 千克/公顷-年。森林中每增加一千克氮,就会增加约 13 千克碳。固氮植物包括北极地区的赤杨和羽扇豆、半干旱地区的槐树和金合欢以及热带雨林中的大树莺歌和五角枫。如果在六大洲相当于 447 平方公里的土地上种植年固氮量达 50 千克/公顷的固氮植物,那么到 2030 年,国际能源机构(IEA)将实现 1.7 千兆吨二氧化碳(0.72 千兆吨碳)的捕集能力目标 https://www.ief.org/news/whats-the-target-for-carbon-sequestration-and-how-do-we-get-there。
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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来源期刊
Soil Use and Management
Soil Use and Management 农林科学-土壤科学
CiteScore
7.70
自引率
13.20%
发文量
78
审稿时长
3 months
期刊介绍: Soil Use and Management publishes in soil science, earth and environmental science, agricultural science, and engineering fields. The submitted papers should consider the underlying mechanisms governing the natural and anthropogenic processes which affect soil systems, and should inform policy makers and/or practitioners on the sustainable use and management of soil resources. Interdisciplinary studies, e.g. linking soil with climate change, biodiversity, global health, and the UN’s sustainable development goals, with strong novelty, wide implications, and unexpected outcomes are welcomed.
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