Litcius/Paper detail

Lateral Export and Sources of Subsurface Dissolved Carbon and Alkalinity in Mangroves: Revising the Blue Carbon Budget

Daniel M. Alongi

2022Journal of Marine Science and Engineering44 citationsDOIOpen Access PDF

Abstract

Mangroves are carbon-rich ecosystems that store large quantities of carbon, mostly in soils. Early carbon (C) budgets indicated that >50% of mangrove C fixation was unaccounted for. This ‘missing C’ has now been discovered to be a large release (423 Tg C a−1) of porewater dissolved DIC (dissolved inorganic carbon), dissolved organic carbon (DOC), and total alkalinity (17 TMOL a−1) via lateral export derived from bacterial decomposition of soil organic matter. This large export originates from DIC produced over at least a 1.0–1.5 m soil profile (280–420 Tg C a−1) via decomposition of autochthonous and allochthonous inputs and/or likely mineralization in deep (≥1 m) ancient soils. DOC and DIC export from mangroves equate to 41% and ≈100% of export from the world’s tropical rivers, respectively. A newly revised blue carbon budget for the world’s mangroves indicates a mean ecosystem gross primary production (GPPE) to ecosystem respiration (RE) ratio of 1.35 and a net ecosystem production (NEP) of 794 g C m−2 a−1 (= global NEP of 117 Tg C a−1), reflecting net autotrophy. CORG burial is 5% and 9% of GPPE and NEPE, respectively. Mean RE/GPPE is 0.74 and carbon use efficiency averages 0.57, higher than for tropical humid forests (0.35).

Topics & Concepts

MangroveDissolved organic carbonAlkalinityEcosystemEcosystem respirationPrimary productionCarbon fibersEnvironmental scienceSoil waterBlue carbonTotal organic carbonCarbon cycleEnvironmental chemistryOrganic matterTotal inorganic carbonChemistryEcologyCarbon dioxideSoil scienceBiologyComposite materialOrganic chemistryMaterials scienceComposite numberSeagrassCoastal wetland ecosystem dynamicsGeology and Paleoclimatology ResearchCoastal and Marine Dynamics