Hydrologic Export Is a Major Component of Coastal Wetland Carbon Budgets

摘要

Coastal wetlands are among the most productive habitats on Earth and sequester globally significant amounts of atmospheric carbon (C). Extreme rates of soil C accumulation are widely assumed to reflect efficient C storage. Yet the fraction of wetland C lost via hydrologic export has not been directly quantified, since comprehensive budgets including direct estimates of lateral C loss are lacking. We present a complete net ecosystem C budget (NECB), demonstrating that lateral losses of C are a major component of the NECB for the largest stable brackish tidal marsh on the U.S. Pacific coast. Mean annual net ecosystem exchange of CO(2)with the atmosphere (NEE = -185 g C m(2)year(-1), negative NEE denoting ecosystem uptake) was compared to long-term soil C burial (87-110 g C m(2)year(-1)), suggesting only 47-59% of fixed atmospheric C accumulates in soils. Consistently, direct monitoring in 2017-2018 showed NEE of -255 g C m(-2) year(-1), and hydrologic export of 105 g C m(-2) year(-1)(59% of NEE remaining on site). Despite their high C sequestration capacity, lateral losses from coastal wetlands are typically a larger fraction of the NECB when compared to other terrestrial ecosystems. Loss of inorganic C (the least measured NECB term) was 91% of hydrologic export and may be the most important term limiting C sequestration. The high productivity of coastal wetlands thus serves a dual function of C burial and estuarine export, and the multiple fates of fixed C must be considered when evaluating wetland capacity for C sequestration.