Mountain glaciers influence biogeochemical and ecological characteristics of high-elevation lakes across the northern Rocky Mountains, USA

IF 3.8 1区 地球科学 Q1 LIMNOLOGY
Joseph W. Vanderwall, Clint C. Muhlfeld, Tyler H. Tappenbeck, Joseph Giersch, Ze Ren, James J. Elser
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Abstract

Mountain glaciers are retreating rapidly due to climate change, leading to the formation of downstream lakes. However, little is known about the physical and biogeochemical conditions in these lakes across a range of glacial influence. We surveyed alpine lakes fed by both glacial and snowpack meltwaters and those fed by snowpack alone to compare nutrient concentrations, stoichiometry, water clarity, chlorophyll, and zooplankton communities. Total phosphorus (TP) and soluble reactive phosphorus were two times higher in glacial lakes than in non-glacial lakes, while nitrate concentrations were three times higher. However, organic carbon concentrations in glacial lakes were two times lower than in non-glacial lakes. The carbon-to-phosphorus ratio and the nitrogen-to-phosphorus ratio of lake seston increased with water clarity in glacial lakes, suggesting that turbidity from glacial flour increases light limitation and increases stoichiometric food quality for zooplankton in newly formed lakes. However, chlorophyll a concentrations did not differ between lake types. Through structural equation modeling, we found that glaciers exhibit a bidirectional association with nitrate and TP concentrations, perhaps mediated through landscape vegetation and lake clarity. Zooplankton communities in high-turbidity glacial lakes were largely composed of cyclopoid copepods and rotifers (i.e., non-filter feeders), while non-glacial lakes tended to be dominated by calanoid copepods and cladocerans (i.e., filter feeders). Our results show that glacier-influenced lakes have biogeochemical and ecological characteristics distinct from snow-fed mountain lakes. Sustained studies are needed to assess the dynamics of these unique features as the influence of the alpine cryosphere fades under ongoing climate change.

高山冰川影响美国落基山脉北部高海拔湖泊的生物地球化学和生态特征
由于气候变化,高山冰川正在迅速后退,导致下游湖泊的形成。然而,人们对冰川影响范围内这些湖泊的物理和生物地球化学条件知之甚少。我们调查了由冰川融水和积雪融水提供水源的高山湖泊和仅由积雪提供水源的高山湖泊,以比较养分浓度、化学计量学、水体透明度、叶绿素和浮游动物群落。冰川湖泊的总磷和可溶性活性磷比非冰川湖泊高出两倍,硝酸盐浓度则高出三倍。然而,冰川湖泊的有机碳浓度比非冰川湖泊低两倍。冰川湖中湖泊沉积物的碳磷比和氮磷比随着水体透明度的增加而增加,这表明冰川面粉造成的浑浊增加了光照限制,提高了新形成湖泊中浮游动物的食物质量。然而,不同类型湖泊的叶绿素 a 浓度并无差异。通过结构方程建模,我们发现冰川与硝酸盐和可吸入颗粒物的浓度存在双向关系,这或许是通过地貌植被和湖泊透明度来实现的。高湍流冰川湖泊中的浮游动物群落主要由环桡足类和轮虫(即非滤食性动物)组成,而非冰川湖泊中的浮游动物群落则主要由桡足类和桡足类(即滤食性动物)组成。我们的研究结果表明,受冰川影响的湖泊具有不同于雪山湖泊的生物地球化学和生态特征。随着高山冰冻圈的影响在持续的气候变化中逐渐减弱,需要进行持续的研究来评估这些独特特征的动态变化。
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来源期刊
Limnology and Oceanography
Limnology and Oceanography 地学-海洋学
CiteScore
8.80
自引率
6.70%
发文量
254
审稿时长
3 months
期刊介绍: Limnology and Oceanography (L&O; print ISSN 0024-3590, online ISSN 1939-5590) publishes original articles, including scholarly reviews, about all aspects of limnology and oceanography. The journal''s unifying theme is the understanding of aquatic systems. Submissions are judged on the originality of their data, interpretations, and ideas, and on the degree to which they can be generalized beyond the particular aquatic system examined. Laboratory and modeling studies must demonstrate relevance to field environments; typically this means that they are bolstered by substantial "real-world" data. Few purely theoretical or purely empirical papers are accepted for review.
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