Abstract

Recent research suggests that organic matter sequestered in lake sediment comprises a larger component of the global carbon cycle than once thought, yet little is known about carbon storage in mountain lakes. Here, we used a set of sediment cores collected from lakes in the Uinta Mountains (Utah, USA) to inform a series of calculations and extrapolations leading to estimates of carbon accumulation rates and total lacustrine carbon storage in this mountain range. Holocene rates of carbon accumulation in Uinta lakes are between 0.1 and 20.5 g/m2/yr, with an average of 5.4 g/m2/yr. These rates are similar to those reported for lakes in Greenland and Finland and are substantially lower than estimates for lakes in Alberta and Minnesota. The carbon content of modern sediments of seven lakes is notably elevated above long-term Holocene values, suggesting recent changes in productivity. The lakes of the Uintas have accumulated from 6 to 10×105 Mt of carbon over the Holocene. This is roughly equivalent to the annual carbon emissions from Salt Lake City, Utah. Based on their long-term Holocene rates, lakes in the Uintas annually sequester an amount of carbon equivalent to the emissions of <20 average Americans.

Highlights

  • Lakes cover

  • Given the significant role of lakes in the global carbon cycle, two obvious questions are “how much carbon is stored in modern lake sediments?” and “how much carbon is removed from the atmosphere each year by sedimentation in lake basins?” In pursuit of answers to these questions, considerable effort has focused on quantifying carbon stored in lakes [5,7]

  • This study employed a series of steps to extrapolate from 19 lake sediment cores to a range-wide estimate of the Holocene carbon storage in over 6000 lakes in the Uinta Mountains, Utah

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Summary

Introduction

Lakes cover

Methods
Results
Conclusion

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