Significant research has been conducted on the effects of soil salinity issue on agricultural
productivity. However, limited consideration has been given to its critical effects on soil …

One of ecology's grand challenges is develo** general rules to explain and predict highly
complex systems. Understanding and predicting ecological processes from species' traits …

Typha is an iconic wetland plant found worldwide. Hybridization and anthropogenic
disturbances have resulted in large increases in Typha abundance in wetland ecosystems …

Wetland plants transport oxygen to belowground tissues to survive in anoxic sediments, and
simultaneously conduct methane (CH 4) from the sediment to the atmosphere. Although …

The relationship between methane emissions and salinity is not well understood in tidal
marshes, leading to uncertainty about the net effect of marsh conservation and restoration …

Wetlands are the largest natural source of methane (CH4) globally. Climate and land use
change are expected to alter CH4 emissions but current and future wetland CH4 budgets …

New soil organic matter (SOM) models highlight the role of microorganisms in plant litter
decomposition and storage of microbial-derived carbon (C) molecules. Wetlands store more …

To improve our understanding of the carbon cycling response to imminent sea-level rise and
saltwater intrusions, we review the existing literature on the likely effects of the increasing …

Functional traits mechanistically capture plant responses to environmental gradients as well
as plant effects on ecosystem functioning. Yet most trait‐based theory stems from terrestrial …

Climate change is one of the biggest concerns because its potential impact on human life is
severe. The contribution ratio of CH 4, CO 2, and N 2 O to global warming would be high …