Biogeochemical characteristics and hydroperiod affect carbon dioxide flux rates from exposed high-elevation pond sediments

Authors: DelVecchia, A. G.; Gougherty, S.; Taylor, B. W.; Wissinger, S. A.

Year: 2020

Journal: Limnology and Oceanography, Vol. 66, pp. 1050-1067

Publisher: UNKNOWN

Abstract

While inundated, small ponds (< 1000 m2 area) account for disproportionately large contributions of CO2 efﬂux to the global carbon budget and also store carbon in anoxic sediments. However, pond hydrology is shifting toward increasingly dry conditions in alpine and temperate zones, which might lead to increased exposure of shallow pond sediments. We analyzed sediment CO2 efﬂux rates in dried sediments of multiple ponds of varying hydrology and sediment characteristics at montane and subalpine elevations near the Rocky Mountain Biological Laboratory in Col- orado. Average CO2 efﬂux rates from exposed sediments, 331.5 11.5 mmol m−2 d−1 at the montane sites and 142.8 45.1 mmol m−2 d−1 at the subalpine sites, were 10 times higher than average CO2 efﬂux rates from pond water. Principal components analysis to reduce dimensionality of sediment characteristics revealed that random inter-pond differences rather than exposure timing or hydroperiod drove variation among sediments. In linear mixed effects models of CO2 ﬂux rates, signiﬁcant predictors included sediment moisture and temperature, pH, total organic carbon, and organic matter content at all pond hydroperiod classiﬁcations and sites. However, the sediment charac- teristics explaining the most variance differed among sites and hydroperiods and included nitrate concentrations, pH, bulk density, and temperature. We conclude that pond sediments are heterogeneous both within and among ponds in close proximity, and drivers of relatively high CO2 efﬂux rates differ among pond hydroperiods and eleva- tions. This work emphasizes that local differences can impact predictions of CO2 ﬂux from lentic sediments which are becoming increasingly exposed.

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