This study aims to determine the drivers of root decomposition and its role in carbon (C)
budgets in mangroves and saltmarsh. We review the patterns of root decomposition, and its …

Mariculture wastewater typically contained high salinity and various pollutants, posing
challenges for bioremediation technologies. Constructed wetlands (CWs) had been …

While mangroves are increasingly described as social-ecological systems (SESs),
performing SES research is so much more than merely documenting local resource …

Tidal marshes are valuable global carbon sinks, yet large uncertainties in coastal marsh
carbon budgets and mediating mechanisms limit our ability to estimate fluxes and predict …

This chapter focuses on the net primary productivity and carbon (C) dynamics of mangrove
wetlands as related to the potential to sequester atmospheric C in above-and belowground …

Soil properties and soil–atmosphere fluxes of CO 2, CH 4 and N 2 O from four coastal
wetlands were studied throughout the year, namely, native Kandelia obovata mangrove …

The biogeochemical transformation of dissolved carbon in tidal beaches affects the coastal
carbon cycle and budget. Yet, the influence of groundwater flow on the behavior of dissolved …

This chapter uses a literature review to advance our understanding of the biogeochemical
functioning of mangrove wetlands and to elucidate biogeographic differences. We identify …

Burrowing crabs are widely distributed and have large populations in estuarine wetlands.
Crab excavation can have potentially significant bioturbation effects on the vertical structure …

Mangrove forests are important biotic sinks of atmospheric CO2 and play an integral role in
nutrient-cycling and decontamination of coastal waters, thereby mitigating climatic and …