Litcius/Paper detail

Conversion of Forest to Agriculture Increases Colored Dissolved Organic Matter in a Subtropical Catchment and Adjacent Coastal Environment

Stacey L. Felgate, Christopher Barry, Daniel J. Mayor, Richard Sanders, Abel Carrias, Arlene Young, Alice Fitch, Claudia Gabriela Mayorga Adame, Gilbert Andrews, Hannah Brittain, Sarah Cryer, Chris Evans, Millie Goddard‐Dwyer, Jason Holt, Bethany K. Hughes, Dan Lapworth, Adam Pinder, David M. Price, Samir Rosado, Claire Evans

2021Journal of Geophysical Research Biogeosciences20 citationsDOIOpen Access PDF

Abstract

Abstract Land‐ocean dissolved organic matter (DOM) transport is a significant and changing term in global biogeochemical cycles which is increasing as a result of human perturbation, including land‐use change. Knowledge of the behavior and fate of transported DOM is lacking, particularly in the tropics and subtropics where land‐use change is occurring rapidly. We used Parallel Factor (PARAFAC) Analysis to investigate how land‐use influenced the composition of the DOM pool along a subtropical land‐use gradient (from near‐pristine broadleaf forest to agri‐urban settings) in Belize, Central America. Three humic‐like and two protein‐like components were identified, each of which was present across land uses and environments. Land‐use mapping identified a strong ( R 2 = 0.81) negative correlation between broadleaf forest and agri‐urban land. All PARAFAC components were positively associated with agri‐urban land‐use classes (cropland, grassland, and/or urban land), indicating that land‐use change from forested to agri‐urban exerts influence on the composition of the DOM pool. Humic‐like DOM exhibited linear accumulation with distance downstream and behaved conservatively in the coastal zone whilst protein‐like DOM exhibited nonlinear accumulation within the main river and nonconservative mixing in coastal waters, indicative of differences in reactivity. We used a hydrodynamic model to explore the potential of conservative humics to reach the region's environmentally and economically valuable coral reefs. We find that offshore corals experience short exposures (10 ± 11 days yr −1 ) to large (∼120%) terrigenous DOM increases, whilst nearshore corals experience prolonged exposure (113 ± 24 days yr −1 ) to relatively small (∼30%) terrigenous DOM increases.

Topics & Concepts

Dissolved organic carbonEnvironmental scienceTerrigenous sedimentSubtropicsLand useGrasslandBiogeochemical cycleLand use, land-use change and forestryOrganic matterEcologyHydrology (agriculture)GeologyStructural basinBiologyGeotechnical engineeringPaleontologyCoral and Marine Ecosystems StudiesMarine and coastal ecosystemsMarine and fisheries research