Add to ORKG[1] We have applied a unique water vapor tracing algorithm using observed precipitation and atmospheric analyses for the period 1979–2003 to estimate water budgets and recycling ratio (the fraction of precipitation over a region that originated as evaporation from the same region) over land areas across the globe. Over most mid- and high-latitude areas, a strong annual cycle of recycling ratio exists; low during winter when storm tracks are active, tropospheric circulation strong, and surface evaporation rates low, high during summer when winds are light and evaporation is greater. Trends in recycling ratio have been found over large areas at high-latitudes that are consistent with an expansion into spring of the warm-season regime of water...
[1] Closure of the water and energy cycles for North Amer-ica has been improved by combining several...
A better understanding of ecosystem water-use efficiency (WUE) will help us improve ecosystem manage...
Satellite and gridded meteorological data can be used to estimate evaporation (E) from land surfaces...
Regional precipitation recycling may constitute a feedback mechanism affecting soil moisture memory ...
We have examined the atmospheric water cycle of both Polar Regions, pole wards of 60°N and 60°S, us...
Numerical models predict that the recycling rate of atmospheric moisture decreases with time at the ...
In this study, we evaluate numerical simulations of the twentieth century climate, focusing on the c...
Moisture evaporated from the continents (recycled moisture) contributes up to 80% to the total atmos...
Warming of climate is intensifying the global water cycle, including the rate of fresh water flux be...
A brief review is given of research in the Climate Analysis Section at NCAR on the water cycle. Resu...
Understanding the water cycle change under a warming climate is essential, particularly the ocean to...
Where does precipitation come from? It is not easy to answer this question because of the complex an...
We developed an evapotranspiration (ET) algorithm driven by satellite remote sensing inputs, includi...
The spatial and temporal variations in global precipitable water (PW) derived from satellite and rad...
Satellite and gridded meteorological data can be used to estimate evaporation (E) from land surfaces...
[1] Closure of the water and energy cycles for North Amer-ica has been improved by combining several...
A better understanding of ecosystem water-use efficiency (WUE) will help us improve ecosystem manage...
Satellite and gridded meteorological data can be used to estimate evaporation (E) from land surfaces...
Regional precipitation recycling may constitute a feedback mechanism affecting soil moisture memory ...
We have examined the atmospheric water cycle of both Polar Regions, pole wards of 60°N and 60°S, us...
Numerical models predict that the recycling rate of atmospheric moisture decreases with time at the ...
In this study, we evaluate numerical simulations of the twentieth century climate, focusing on the c...
Moisture evaporated from the continents (recycled moisture) contributes up to 80% to the total atmos...
Warming of climate is intensifying the global water cycle, including the rate of fresh water flux be...
A brief review is given of research in the Climate Analysis Section at NCAR on the water cycle. Resu...
Understanding the water cycle change under a warming climate is essential, particularly the ocean to...
Where does precipitation come from? It is not easy to answer this question because of the complex an...
We developed an evapotranspiration (ET) algorithm driven by satellite remote sensing inputs, includi...
The spatial and temporal variations in global precipitable water (PW) derived from satellite and rad...
Satellite and gridded meteorological data can be used to estimate evaporation (E) from land surfaces...
[1] Closure of the water and energy cycles for North Amer-ica has been improved by combining several...
A better understanding of ecosystem water-use efficiency (WUE) will help us improve ecosystem manage...
Satellite and gridded meteorological data can be used to estimate evaporation (E) from land surfaces...