Add to ORKGThis paper overviews the short-term (biophysical) and long-term tout to around 100 year timescales; biogeochemical and biogeographical) influences of the land surface on weather and climate. From our review of the literature, the evidence is convincing that terrestrial ecosystem dynamics on these timescales significantly influence atmospheric processes. In studies of past and possible future climate change, terrestrial ecosystem dynamics are as important as changes in atmospheric dynamics and composition, ocean circulation, ice sheet extent, and orbit perturbations
The climate exerts the dominant control on the spatial distribution of the major vegetation types on...
This ecophysiological primer serves as an introductory chapter on the concepts applied in subsequent...
Over recent years, it has become increasingly apparent that climate change and air pollution need to...
This paper overviews the short-term (biophysical) and long-term tout to around 100 year timescales; ...
Climate (the average and variability of weather conditions over a period of time) is a primary drive...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
WOS: 000419723800004Recent increases in atmospheric CO2 concentration and increased climate variatio...
Land and climate interact in complex ways through changes in forcing and multiple biophysical and bi...
Ecosystems provide multiple benefits to people, including climate regulation. Previous efforts to qu...
The global terrestrial carbon cycle plays a pivotal role in regulating the atmospheric composition o...
Biotic interactions drive key ecological and evolutionary processes and mediate ecosystem responses ...
The terrestrial biosphere plays a major role in the regulation of atmospheric composition, and hence...
The terrestrial biosphere is a key regulator of atmospheric chemistry and climate. During past perio...
Observation and modelling studies have indicated that the global land surfaces have been undergoing ...
In times of climate change it is important to deeply understand how the biosphere responds to climat...
The climate exerts the dominant control on the spatial distribution of the major vegetation types on...
This ecophysiological primer serves as an introductory chapter on the concepts applied in subsequent...
Over recent years, it has become increasingly apparent that climate change and air pollution need to...
This paper overviews the short-term (biophysical) and long-term tout to around 100 year timescales; ...
Climate (the average and variability of weather conditions over a period of time) is a primary drive...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
WOS: 000419723800004Recent increases in atmospheric CO2 concentration and increased climate variatio...
Land and climate interact in complex ways through changes in forcing and multiple biophysical and bi...
Ecosystems provide multiple benefits to people, including climate regulation. Previous efforts to qu...
The global terrestrial carbon cycle plays a pivotal role in regulating the atmospheric composition o...
Biotic interactions drive key ecological and evolutionary processes and mediate ecosystem responses ...
The terrestrial biosphere plays a major role in the regulation of atmospheric composition, and hence...
The terrestrial biosphere is a key regulator of atmospheric chemistry and climate. During past perio...
Observation and modelling studies have indicated that the global land surfaces have been undergoing ...
In times of climate change it is important to deeply understand how the biosphere responds to climat...
The climate exerts the dominant control on the spatial distribution of the major vegetation types on...
This ecophysiological primer serves as an introductory chapter on the concepts applied in subsequent...
Over recent years, it has become increasingly apparent that climate change and air pollution need to...