Experiments show that elevated atmospheric CO2 (eCO(2)) often enhances plant photosynthesis and productivity, yet this effect varies substantially and may be climate sensitive. Understanding if, where and how water supply regulates CO2 enhancement is critical for projecting terrestrial responses to increasing atmospheric CO2 and climate change. Here, using data from 14 long-term ecosystem-scale CO2 experiments, we show that the eCO(2) enhancement of annual aboveground net primary productivity is sensitive to annual precipitation and that this sensitivity differs between woody and grassland ecosystems. During wetter years, CO2 enhancement increases in woody ecosystems but declines in grass-dominated systems. Consistent with this difference, ...
Global change has many facets, of which land use and the change of atmospheric chemistry are unquest...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
Climate controls vegetation distribution across the globe, and some vegetation types are more vulner...
Experiments show that elevated atmospheric CO2 (eCO2) often enhances plant photosynthesis and produc...
Rising atmospheric carbon dioxide concentration ([CO2]) should stimulate biomass production directly...
While rising atmospheric carbon dioxide (CO2) is known to be an important contributor to radiative f...
Predicting net C balance under future global change scenarios requires a comprehensive understanding...
Correctly estimating the effect of elevated CO2 (eCO2) on biomass production is paramount for accura...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
It is unclear how elevated CO2 (eCO2) and the corresponding shifts in temperature and precipitation ...
Effects of climate change on the ecosystem productivity and water fluxes have been studied in variou...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
Atmospheric CO2 enrichment may stimulate plant growth directly through enhanced photosynthesis or in...
Intrinsic water use efficiency (iWUE), defined as the ratio of photosynthesis to stomatal conductanc...
Elevated atmospheric CO2 (eCO2) is expected to reduce the impacts of drought and increase photosynth...
Global change has many facets, of which land use and the change of atmospheric chemistry are unquest...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
Climate controls vegetation distribution across the globe, and some vegetation types are more vulner...
Experiments show that elevated atmospheric CO2 (eCO2) often enhances plant photosynthesis and produc...
Rising atmospheric carbon dioxide concentration ([CO2]) should stimulate biomass production directly...
While rising atmospheric carbon dioxide (CO2) is known to be an important contributor to radiative f...
Predicting net C balance under future global change scenarios requires a comprehensive understanding...
Correctly estimating the effect of elevated CO2 (eCO2) on biomass production is paramount for accura...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
It is unclear how elevated CO2 (eCO2) and the corresponding shifts in temperature and precipitation ...
Effects of climate change on the ecosystem productivity and water fluxes have been studied in variou...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
Atmospheric CO2 enrichment may stimulate plant growth directly through enhanced photosynthesis or in...
Intrinsic water use efficiency (iWUE), defined as the ratio of photosynthesis to stomatal conductanc...
Elevated atmospheric CO2 (eCO2) is expected to reduce the impacts of drought and increase photosynth...
Global change has many facets, of which land use and the change of atmospheric chemistry are unquest...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
Climate controls vegetation distribution across the globe, and some vegetation types are more vulner...