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细菌反硝化作用导致南加州干旱地区N2O排放增加
作者:小柯机器人 发布时间:2023/12/8 14:59:11

近日,美国加州大学 Alexander H. Krichels 的课题组成员取得一项新突破。他们提出在南加州干旱地区,细菌反硝化作用导致了 N2O 排放量的增加这一新观点。2023年12月8日,国际知名学术期刊《科学进展》发表了这一成果。

课题组人员在加州沙漠中使用同位素和分子方法,发现反硝化菌在干燥土壤湿润后的 15 分钟内产生 N2O(位置偏好= 12.8±3.92 per mil, δ 15Nbulk = 18.6±11.1 per mil)。与这一发现一致,课题组人员在干燥土壤中检测到了硝酸盐还原转录物,发现抑制微生物活性可减少 59 %的 N2O 排放量。研究结果强调,尽管存在极端的环境条件(没有降水的月份,土壤温度≥ 40°C,土壤重量含水量为 1 %),细菌反硝化菌也可以解释干燥土壤湿润时排放的大部分 N2O。

据课题组人员介绍,土壤是大气中一氧化二氮(N2O)的最大来源,N2O 是一种强大的温室气体。干燥的土壤很少存在有利于反硝化的缺氧条件,而反硝化是主要的 N2O 产生过程,然而,研究人员在湿润的夏季—干燥的沙漠土壤中测量了最大的 N2O 排放量并提出了一个科学问题,即反硝化细菌能忍受极端干旱并在降雨后立即产生 N2O 吗?

附:英文原文

Title: Bacterial denitrification drives elevated N2O emissions in arid southern California drylands

Author: Alexander H. Krichels, G. Darrel Jenerette, Hannah Shulman, Stephanie Piper, Aral C. Greene, Holly M. Andrews, Jon Botthoff, James O. Sickman, Emma L. Aronson, Peter M. Homyak

Issue&Volume: 2023-12-08

Abstract: Soils are the largest source of atmospheric nitrous oxide (N2O), a powerful greenhouse gas. Dry soils rarely harbor anoxic conditions to favor denitrification, the predominant N2O-producing process, yet, among the largest N2O emissions have been measured after wetting summer-dry desert soils, raising the question: Can denitrifiers endure extreme drought and produce N2O immediately after rainfall Using isotopic and molecular approaches in a California desert, we found that denitrifiers produced N2O within 15 minutes of wetting dry soils (site preference = 12.8 ± 3.92 per mil, δ15Nbulk = 18.6 ± 11.1 per mil). Consistent with this finding, we detected nitrate-reducing transcripts in dry soils and found that inhibiting microbial activity decreased N2O emissions by 59%. Our results suggest that despite extreme environmental conditions—months without precipitation, soil temperatures of ≥40°C, and gravimetric soil water content of <1%—bacterial denitrifiers can account for most of the N2O emitted when dry soils are wetted.

DOI: adj1989

Source: https://www.science.org/doi/10.1126/sciadv.adj1989

期刊信息
Science Advances:《科学进展》,创刊于2015年。隶属于美国科学促进会,最新IF:14.957