Plant size metrics and organic carbon content of Florida salt marsh vegetation

Abstract

Carbon stored in soil and vegetative biomass in mangrove swamps, salt marshes, and seagrass flats (“coastal blue carbon”) is a significant component of the coastal carbon budget due to the ability of these ecosystems to sequester atmospheric carbon dioxide as plant biomass and peat. Growing interest in the protection of these essential yet vulnerable coastal ecosystems, as well as recognition of their capacity to sequester atmospheric carbon dioxide, has led to the need for rapid and accurate quantification of location-specific coastal blue carbon stocks. This study provides allometric equations for the calculation of aboveground dry biomass based on plant height for 18 salt marsh species from Tampa Bay, Florida, USA. The 18 plant species were also analyzed for carbon and nitrogen content to determine the appropriate carbon conversion factor to use for blue carbon calculations. The salt marsh plants had an average of 1.2 ± 0.4% nitrogen and 41.1 ± 5.5% carbon. With the exception of Batis maritima, which had a carbon content of only 23.4%, carbon content for all other species ranged from 33.4–47.1%. The four most succulent plant species in this study contained an average of 33.3 ± 7.0% carbon, while the nine graminoid species contained 44.4 ± 2.0% carbon. These species-specific equations and carbon data provide non-destructive methods to rapidly quantify vegetative biomass and carbon stocks for monitoring efforts and blue carbon stock assessments.