Add to ORKGFor most ecosystems, net ecosystem exchange of CO2 (NEE) varies within and among years in response to environmental change.We analyzed measurements of CO2 exchange from eight native rangeland ecosystems in the western United States (58 site-years of data) in order to determine the contributions of photosynthetic and respiratory (physiological) components of CO2 exchange to environmentally caused variation in NEE. Rangelands included Great Plains grasslands, desert shrubland, desert grasslands, and sagebrush steppe
Grasslands and agroecosystems occupy one-third of the terrestrial area, but their contribution to th...
Global modeling efforts indicate semiarid regions dominate the increasing trend and interannual vari...
Net ecosystem exchange (NEE) is an essential climate indicator of the direction and magnitude of car...
For most ecosystems, net ecosystem exchange of CO2 (NEE) varies within and among years in response t...
Rangelands occupy 50% of Earth’s land surface and thus are important in the terrestrial carbon (C) c...
Rangelands account for almost half of the earth’s land surface and may play an important role in the...
The objective of this research was to compare seasonal and annual estimates of COM2 and water vapor ...
The annual carbon (C) budget of grasslands is highly dynamic, dependent on grazing history and on ef...
There is considerable interest in understanding processes of carbon dioxide (CO2) uptake and release...
We present a synthesis of long-term measurements of CO2 exchange in 2 US Intermountain West sagebrus...
Arid ecosystems, which occupy about 35% of the Earth\u27s terrestrial surface area, are believed to ...
Rangeland carbon fluxes are highly variable in both space and time. Given the expansive areas of ran...
The Northern Great Plains grasslands respond differently under various climatic conditions; however,...
The shortgrass steppe (SGS) occupies the southwestern part of the Great Plains. Half of the land is ...
Over the last two and half decades, strong evidence showed that the terrestrial ecosystems are actin...
Grasslands and agroecosystems occupy one-third of the terrestrial area, but their contribution to th...
Global modeling efforts indicate semiarid regions dominate the increasing trend and interannual vari...
Net ecosystem exchange (NEE) is an essential climate indicator of the direction and magnitude of car...
For most ecosystems, net ecosystem exchange of CO2 (NEE) varies within and among years in response t...
Rangelands occupy 50% of Earth’s land surface and thus are important in the terrestrial carbon (C) c...
Rangelands account for almost half of the earth’s land surface and may play an important role in the...
The objective of this research was to compare seasonal and annual estimates of COM2 and water vapor ...
The annual carbon (C) budget of grasslands is highly dynamic, dependent on grazing history and on ef...
There is considerable interest in understanding processes of carbon dioxide (CO2) uptake and release...
We present a synthesis of long-term measurements of CO2 exchange in 2 US Intermountain West sagebrus...
Arid ecosystems, which occupy about 35% of the Earth\u27s terrestrial surface area, are believed to ...
Rangeland carbon fluxes are highly variable in both space and time. Given the expansive areas of ran...
The Northern Great Plains grasslands respond differently under various climatic conditions; however,...
The shortgrass steppe (SGS) occupies the southwestern part of the Great Plains. Half of the land is ...
Over the last two and half decades, strong evidence showed that the terrestrial ecosystems are actin...
Grasslands and agroecosystems occupy one-third of the terrestrial area, but their contribution to th...
Global modeling efforts indicate semiarid regions dominate the increasing trend and interannual vari...
Net ecosystem exchange (NEE) is an essential climate indicator of the direction and magnitude of car...