火成有机物质通过共价键形成保留氨。

Fire-derived organic matter retains ammonia through covalent bond formation.

机构信息

Soil and Crop Sciences, School of Integrative Plant Science, Bradfield Hall, Cornell University, Ithaca, NY, 14853, USA.

Canadian Light Source Inc., 44 Innovation Boulevard, Saskatoon, SK, S7N 2V3, Canada.

出版信息

Nat Commun. 2019 Feb 8;10(1):664. doi: 10.1038/s41467-019-08401-z.

DOI:10.1038/s41467-019-08401-z

PMID:30737387

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6368596/

Abstract

Fire-derived organic matter, often referred to as pyrogenic organic matter (PyOM), is present in the Earth's soil, sediment, atmosphere, and water. We investigated interactions of PyOM with ammonia (NH) gas, which makes up much of the Earth's reactive nitrogen (N) pool. Here we show that PyOM's NH retention capacity under ambient conditions can exceed 180 mg N g PyOM-carbon, resulting in a material with a higher N content than any unprocessed plant material and most animal manures. As PyOM is weathered, NH retention increases sixfold, with more than half of the N retained through chemisorption rather than physisorption. Near-edge X-ray absorption fine structure and nuclear magnetic resonance spectroscopy reveal that a variety of covalent bonds form between NH-N and PyOM, more than 10% of which contained heterocyclic structures. We estimate that through these mechanisms soil PyOM stocks could retain more than 600-fold annual NH emissions from agriculture, exerting an important control on global N cycling.

摘要

源自火灾的有机物，通常被称为热解有机物（PyOM），存在于地球的土壤、沉积物、大气和水中。我们研究了 PyOM 与氨气（NH）气体之间的相互作用，氨气构成了地球大部分活性氮（N）库。在这里，我们表明 PyOM 在环境条件下的 NH 保留能力可超过 180mg N g PyOM-碳，从而产生一种比任何未加工的植物材料和大多数动物粪便的含氮量都高的物质。随着 PyOM 的风化，NH 的保留增加了六倍，其中超过一半的 N 通过化学吸附而不是物理吸附保留。近边 X 射线吸收精细结构和核磁共振波谱揭示了 NH-N 和 PyOM 之间形成了多种共价键，其中超过 10%的键含有杂环结构。我们估计，通过这些机制，土壤 PyOM 储量可能会保留农业每年 NH 排放的 600 多倍，对全球氮循环施加重要控制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/96b7/6368596/1a5e17a945ed/41467_2019_8401_Fig1_HTML.jpg

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火成有机物质通过共价键形成保留氨。

Fire-derived organic matter retains ammonia through covalent bond formation.

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