Internal processing and N2 balance in Upper Midwest lakes across a land use gradient

IF 3.7 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Biogeochemistry Pub Date : 2025-09-02 DOI:10.1007/s10533-025-01253-4

Brianna M. Loeks, James B. Cotner

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引用次数: 0

Abstract

Excess nitrogen (N) in freshwater systems is harmful and can lead to eutrophication, loss of biodiversity and toxic cyanobacterial blooms. External loading of N is an important driver of eutrophication, however, internal processing can either exacerbate or relieve excess N through N₂ fixation or denitrification, respectively. Here, we aimed to determine how variation in N loading and hydrologic setting affect internal N processing in lakes in summer by quantifying N₂ saturation in 17 lakes across a land use gradient in Minnesota and Iowa. We hypothesized that lakes with the highest N loading rates would have the highest N₂ saturation values, indicative of net denitrification. We observed that lakes in agricultural regions had the highest N₂ saturation and all lakes showed the highest levels of supersaturation in June when runoff was maximal. Although seasonal changes affected the degree of N₂ saturation, all lakes were sources of N₂ to the atmosphere throughout the sample period suggesting that denitrification was more impactful to internal processing than was N₂-fixation. Peaks in N₂ supersaturation co-occurred with both low and high dissolved oxygen levels, the latter being somewhat paradoxical given that denitrification is an anaerobic process.

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跨土地利用梯度的中西部上游湖泊内部加工和N2平衡

淡水系统中过量的氮(N)是有害的，可导致富营养化、生物多样性丧失和有毒的蓝藻繁殖。氮的外部负荷是富营养化的重要驱动因素，然而，内部处理可以通过固氮或反硝化分别加剧或减轻过量的氮。本文通过对明尼苏达州和爱荷华州不同土地利用梯度的17个湖泊的氮饱和度进行量化，旨在确定夏季氮负荷和水文环境的变化对湖泊内部氮加工的影响。我们假设氮负荷率最高的湖泊具有最高的N2饱和值，表明净反硝化作用。结果表明，农区湖泊N2饱和度最高，且所有湖泊在径流最大的6月份均表现出最高的过饱和度。尽管季节变化影响N2饱和程度，但在整个采样期内，所有湖泊都是大气中N2的来源，这表明反硝化作用对内部加工的影响大于对N2的固定作用。N2过饱和的峰值与低和高溶解氧水平同时发生，后者有些矛盾，因为反硝化是一个厌氧过程。

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

Biogeochemistry 环境科学-地球科学综合

CiteScore

7.10

自引率

5.00%

发文量

112

审稿时长

3.2 months

期刊介绍： Biogeochemistry publishes original and synthetic papers dealing with biotic controls on the chemistry of the environment, or with the geochemical control of the structure and function of ecosystems. Cycles are considered, either of individual elements or of specific classes of natural or anthropogenic compounds in ecosystems. Particular emphasis is given to coupled interactions of element cycles. The journal spans from the molecular to global scales to elucidate the mechanisms driving patterns in biogeochemical cycles through space and time. Studies on both natural and artificial ecosystems are published when they contribute to a general understanding of biogeochemistry.