Multiyear Measurements on Δ17O of Stream Nitrate Indicate High Nitrate Production in a Temperate Forest

IF 11.3 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

环境科学与技术 Pub Date : 2020-03-11 DOI:10.1021/acs.est.9b07839

Shaonan Huang, Fan Wang, Emily M. Elliott, Feifei Zhu, Weixing Zhu, Keisuke Koba, Zhongjie Yu, Erik A. Hobbie, Greg Michalski, Ronghua Kang, Anzhi Wang, Jiaojun Zhu, Shenglei Fu, Yunting Fang*

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引用次数: 23

Abstract

Nitrification is a crucial step in ecosystem nitrogen (N) cycling, but scaling up from plot-based measurements of gross nitrification to catchments is difficult. Here, we employed a newly developed method in which the oxygen isotope anomaly (Δ¹⁷O) of nitrate (NO₃^–) is used as a natural tracer to quantify in situ catchment-scale gross nitrification rate (GNR) for a temperate forest from 2014 to 2017 in northeastern China. The annual GNR ranged from 71 to 120 kg N ha^–1 yr^–1 (average 94 ± 10 kg N ha^–1 yr^–1) over the 4 years in this forest. This result and high stream NO₃^– loss (4.2–8.9 kg N ha^–1 yr^–1) suggest that the forested catchment may have been N-saturated. At the catchment scale, the total N output of 10.7 kg N ha^–1 yr^–1, via leaching and gaseous losses, accounts for 56% of the N input from bulk precipitation (19.2 kg N ha^–1 yr^–1). This result indicates that the forested catchment is still retaining a large fraction of N from atmospheric deposition. Our study suggests that estimating in situ catchment-scale GNR over several years when combined with other conventional flux estimates can facilitate the understanding of N biogeochemical cycling and changes in the ecosystem N status.

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对Δ17O河流硝酸盐的多年测量表明温带森林硝酸盐产量高

硝化作用是生态系统氮循环的关键步骤，但从基于样点的总硝化作用测量扩展到集水区是困难的。本文以2014 - 2017年中国东北地区温带森林为研究对象，利用硝酸盐(NO3 -)氧同位素异常(Δ17O)作为天然示踪剂，对流域尺度上总硝化速率(GNR)进行了定量分析。4年林年GNR为71 ~ 120 kg N hm - 1年(平均94±10 kg N hm - 1年)。这一结果和高径流NO3 -损失(4.2-8.9 kg N / ha-1年- 1)表明，森林流域可能已经N饱和。在流域尺度上，通过淋溶和气体损失的总N输出为10.7 kg N ha-1年- 1，占大块降水N输入(19.2 kg N ha-1年- 1)的56%。这一结果表明，森林流域仍然从大气沉降中保留了很大一部分氮。我们的研究表明，结合其他常规通量估算，估算多年来的原位流域尺度GNR可以促进对N生物地球化学循环和生态系统N状态变化的理解。

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

环境科学与技术环境科学-工程：环境

CiteScore

17.50

自引率

9.60%

发文量

12359

审稿时长

2.8 months

期刊介绍： Environmental Science & Technology (ES&T) is a co-sponsored academic and technical magazine by the Hubei Provincial Environmental Protection Bureau and the Hubei Provincial Academy of Environmental Sciences. Environmental Science & Technology (ES&T) holds the status of Chinese core journals, scientific papers source journals of China, Chinese Science Citation Database source journals, and Chinese Academic Journal Comprehensive Evaluation Database source journals. This publication focuses on the academic field of environmental protection, featuring articles related to environmental protection and technical advancements.