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Patterns and Drivers of Carbon Dioxide Concentrations in Aquatic Ecosystems of the Arctic Coastal Tundra

Vanessa L. Lougheed, C. Tweedie, Christian Andresen, A. M. Armendariz, S. M. Escarzaga, G. Tarin

2020Global Biogeochemical Cycles29 citationsDOI

Abstract

Abstract Multiple aquatic ecosystems (pond, lake, river, lagoon, and ocean) on the Arctic Coastal Plain near Utqiaġvik, Alaska, USA, were visited to determine their relative atmospheric CO 2 flux and how this may have changed over time. The nearshore coastal waters and large freshwater lakes were small sources of atmospheric CO 2 , whereas smaller waterbodies were substantial sources. p CO 2 was linked to dissolved organic carbon concentrations across broad spatial and temporal scales, with greater concentrations found in smaller freshwater systems (i.e., ponds and rivers). On a day‐to‐day basis, water temperatures appeared to be the strongest driver of p CO 2 levels in tundra ponds, where warmer temperatures likely stimulated microbial mineralization of carbon in both aquatic and hydrologically linked terrestrial environments. Large rainfall events, which may lead to inflow of carbon‐rich groundwater into these ponds, also were associated with increased daily average p CO 2 . Based on comparison to historical data, we estimate that CO 2 concentrations in tundra ponds have increased more than 1.8 times over the past 40 years. Quantifying CO 2 flux from these abundant aquatic ecosystems on the Arctic Coastal Plain and elsewhere in the high northern latitudes will likely have important implications for furthering understanding of landscape‐level and nearshore carbon dynamics in the Arctic.

Topics & Concepts

TundraEnvironmental scienceEcosystemArcticAquatic ecosystemOceanographyCarbon dioxideThermokarstFreshwater ecosystemTotal organic carbonEcologyHydrology (agriculture)GeologyBiologyGeotechnical engineeringClimate change and permafrostMethane Hydrates and Related PhenomenaArctic and Antarctic ice dynamics