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基于稳定同位素数据的加拿大北极群岛东部和巴芬湾溶解态氮循环研究

Dissolved Nitrogen Cycling in the Eastern Canadian Arctic Archipelago and Baffin Bay From Stable Isotopic Data.

作者信息

Westbrook H C, Bourbonnais A, Manning C C M, Tremblay J-É, Ahmed M M M, Else B, Granger J

机构信息

School of the Earth, Ocean and Environment University of South Carolina Columbia SC USA.

Department of Marine Sciences University of Connecticut Groton CT USA.

出版信息

Global Biogeochem Cycles. 2024 Dec;38(12):e2023GB007926. doi: 10.1029/2023GB007926. Epub 2024 Dec 16.

DOI:10.1029/2023GB007926
PMID:39697470
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11650013/
Abstract

Climate change is expected to alter the input of nitrogen (N) sources in the Eastern Canadian Arctic Archipelago and Baffin Bay due to increased discharge from glacial meltwater and permafrost thaw. Since dissolved inorganic N is generally depleted in surface waters, dissolved organic N (DON) could represent a significant N source fueling phytoplankton activity in Arctic ecosystems. Yet, few DON data for this region exist. We measured concentrations and stable isotope ratios of DON (δN) and nitrate (NO ; δN and δO) to investigate the sources and cycling of dissolved nitrogen in regional rivers and marine samples collected in the Eastern Canadian Arctic Archipelago and Baffin Bay during the summer of 2019. The isotopic signatures of NO in rivers could be reproduced in a steady state isotopic model by invoking mixing between atmospheric NO and nitrified ammonium as well as NO assimilation by phytoplankton. DON concentrations were low in most rivers (≤4.9 μmol N L), whereas the concentrations (0.54-12 μmol N L) and δN of DON (-0.71-9.6‰) at the sea surface were variable among stations, suggesting dynamic cycling and/or distinctive sources. In two regions with high chlorophyll-a, DON concentrations were inversely correlated with chlorophyll-a and the δN of DON, suggesting net DON consumption in localized phytoplankton blooms. We derived an isotope effect of 6.9‰ for DON consumption. Our data helps establish a baseline to assess future changes in the nutrient regime for this climate-sensitive region.

摘要

由于冰川融水和永久冻土融化导致的径流量增加,气候变化预计会改变加拿大北极群岛东部和巴芬湾的氮源输入。由于地表水通常缺乏溶解无机氮,溶解有机氮(DON)可能是北极生态系统中促进浮游植物活动的重要氮源。然而,该地区的溶解有机氮数据很少。我们测量了溶解有机氮(δN)和硝酸盐(NO;δN和δO)的浓度及稳定同位素比率,以研究2019年夏季在加拿大北极群岛东部和巴芬湾采集的区域河流和海洋样本中溶解氮的来源和循环。通过调用大气NO与硝化铵之间的混合以及浮游植物对NO的同化作用,河流中NO的同位素特征可以在稳态同位素模型中重现。大多数河流中的溶解有机氮浓度较低(≤4.9 μmol N L),而海面处溶解有机氮的浓度(0.54 - 12 μmol N L)和δN(-0.71 - 9.6‰)在各站点之间存在差异,表明存在动态循环和/或独特的来源。在叶绿素a含量较高的两个区域,溶解有机氮浓度与叶绿素a以及溶解有机氮的δN呈负相关,表明在局部浮游植物大量繁殖过程中存在溶解有机氮的净消耗。我们得出溶解有机氮消耗的同位素效应为6.9‰。我们的数据有助于建立一个基线,以评估这个对气候敏感地区未来营养状况的变化。

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本文引用的文献

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