Simulated net primary productivity and greenhouse gas emissions under various soil salinity and water table depth combinations in low salinity tidal wetlands
July 31, 2023
The dataset contains simulated net primary productivity (NPP) and greenhouse gas emissions (CH4, N2O, CO2) under a series of combinations of soil salinities (0.1, 0.5, 1, 2, 4, 6, 8, 10 psu) and water table depth (WTDs) (-30, -20, -10, -5, 0, 5, 10, 20, 30 cm) for tidal forest and oligohaline marsh sites along the Savannah River and Waccamaw River, USA.
Citation Information
| Publication Year | 2023 |
|---|---|
| Title | Simulated net primary productivity and greenhouse gas emissions under various soil salinity and water table depth combinations in low salinity tidal wetlands |
| DOI | 10.5066/P9UR522Z |
| Authors | Hongqing Wang, Ken W Krauss, Gregory Noe, Zhaohua Dai, Carl C. Trettin |
| Product Type | Data Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| USGS Organization | Wetland and Aquatic Research Center - Gainesville, FL |
| Rights | This work is marked with CC0 1.0 Universal |
Related
Soil salinity and water level interact to generate tipping points in low salinity tidal wetlands responding to climate change
Low salinity tidal wetlands (LSTW) are vulnerable to sea level rise and saltwater intrusion, thus their carbon sequestration capacity is threatened. However, the thresholds of rapid changes in carbon dynamics and biogeochemical processes in LSTW due to changes in hydroperiod and salinity regime remain unclear. In this study, we examined the effects of soil porewater salinity and water level on cha
Authors
Hongqing Wang, Ken Krauss, Gregory Noe, Zhaohua Dai, Carl C. Trettin
Related
Soil salinity and water level interact to generate tipping points in low salinity tidal wetlands responding to climate change
Low salinity tidal wetlands (LSTW) are vulnerable to sea level rise and saltwater intrusion, thus their carbon sequestration capacity is threatened. However, the thresholds of rapid changes in carbon dynamics and biogeochemical processes in LSTW due to changes in hydroperiod and salinity regime remain unclear. In this study, we examined the effects of soil porewater salinity and water level on cha
Authors
Hongqing Wang, Ken Krauss, Gregory Noe, Zhaohua Dai, Carl C. Trettin