Investigating the dynamic responses of Aegilops tauschii Coss. to salinity, drought, and nitrogen stress: a comprehensive study of competitive growth and biochemical …
Aegilops tauschii (Coss.) is a highly deleterious, rapidly proliferating weed within the wheat,
and its DD genome composition exhibits adaptability toward diverse abiotic stresses and …
and its DD genome composition exhibits adaptability toward diverse abiotic stresses and …
Develo** a redox network for coastal saltmarsh systems in the PFLOTRAN reaction model
Coastal ecosystems have been largely ignored in Earth system models but are important
zones for carbon and nutrient processing. Interactions between water, microbes, soil …
zones for carbon and nutrient processing. Interactions between water, microbes, soil …
Microbial Necromass, lignin, and glycoproteins for determining and optimizing blue carbon formation
Coastal wetlands contribute to the mitigation of climate change through the sequestration of
“blue carbon”. Microbial necromass, lignin, and glycoproteins (ie, glomalin-related soil …
“blue carbon”. Microbial necromass, lignin, and glycoproteins (ie, glomalin-related soil …
Stronger increases but greater variability in global mangrove productivity compared to that of adjacent terrestrial forests
Mangrove forests are a highly productive ecosystem with important potential to offset
anthropogenic greenhouse gas emissions. Mangroves are expected to respond differently to …
anthropogenic greenhouse gas emissions. Mangroves are expected to respond differently to …
Advancing the understanding of coastal disturbances with a network‐of‐networks approach
Coastal ecosystems are at the nexus of many high priority challenges in environmental
sciences, including predicting the influences of compounding disturbances exacerbated by …
sciences, including predicting the influences of compounding disturbances exacerbated by …
Integrating tide‐driven wetland soil redox and biogeochemical interactions into a land surface model
Redox processes, aqueous and solid‐phase chemistry, and pH dynamics are key drivers of
subsurface biogeochemical cycling and methanogenesis in terrestrial and wetland …
subsurface biogeochemical cycling and methanogenesis in terrestrial and wetland …
Three decades of wetland methane surface flux modeling by earth system models‐advances, applications, and challenges
Abstract Earth System Models (ESMs) simulate the exchange of mass and energy between
the land surface and the atmosphere, with a key focus on modeling natural greenhouse gas …
the land surface and the atmosphere, with a key focus on modeling natural greenhouse gas …
Capturing spatiotemporal variation in salt marsh belowground biomass, a key resilience metric, through geoinformatics
Abstract The Belowground Ecosystem Resiliency Model (BERM) is a geoinformatics tool that
was developed to predict belowground biomass (BGB) of Spartina alterniflora in salt …
was developed to predict belowground biomass (BGB) of Spartina alterniflora in salt …
Integrating NDVI-Based Within-Wetland Vegetation Classification in a Land Surface Model Improves Methane Emission Estimations
Earth system models (ESMs) are a common tool for estimating local and global greenhouse
gas emissions under current and projected future conditions. Efforts are underway to expand …
gas emissions under current and projected future conditions. Efforts are underway to expand …
Time to anoxia: Observations and predictions of oxygen drawdown following coastal flood events
The coastal terrestrial-aquatic interface (TAI) is a highly dynamic system characterized by
strong physical, chemical, and biological gradients. In particular, shifting soil redox …
strong physical, chemical, and biological gradients. In particular, shifting soil redox …