Abstract
Direct and indirect human impacts on coastal ecosystems have increased over the last several centuries, leading to unprecedented degradation of coastal habitats and loss of ecological services. Here we document a two-century temporal disparity between salt marsh accretion and subsequent loss to indirect human impacts. Field surveys, manipulative experiments and GIS analyses reveal that crab burrowing weakens the marsh peat base and facilitates further burrowing, leading to bank calving, disruption of marsh accretion, and a loss of over two centuries of sequestered carbon from the marsh edge in only three decades. Analogous temporal disparities exist in other systems and are a largely unrecognized obstacle in attaining sustainable ecosystem services in an increasingly human impacted world. In light of the growing threat of indirect impacts worldwide and despite uncertainties in the fate of lost carbon, we suggest that estimates of carbon emissions based only on direct human impacts may significantly underestimate total anthropogenic carbon emissions.
Highlights
Human impacts on coastal ecosystems have become increasingly acute due to centuries of human activity and population growth [1,2,3]
One of the most pressing impacts of human population growth is the acceleration of atmospheric carbon emissions from fossil fuel consumption [11]
Using field experiments at impacted Cape Cod marshes, geographic information system analysis of historical marsh loss, and radiocarbon dating, we demonstrate that indirect human impacts can cause previously unreported habitat loss and may contribute significantly to global anthropogenic carbon emissions
Summary
Human impacts on coastal ecosystems have become increasingly acute due to centuries of human activity and population growth [1,2,3]. To estimate aboveground carbon loss resulting from S. reticulatum herbivory, ungrazed cordgrass biomass was harvested from 1 m2 quadrats at 9 die-off marshes (n = 8 quadrats/site) and dried to a constant weight at 60uC. The carbon content of S. alterniflora was multiplied by the area of creek bank habitat lost to estimate total aboveground carbon losses from die-off.
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