The paper presents a catchment modeling approach for remote glacierized Himalayan catchments. The distributed catchment model TACD, which is widely based on the HBV model, was further developed for the application in highly glacierized catchments on a daily timestep and applied to the Nepalese Himalayan headwater Langtang Khola (360 km2). Low laying reference stations are taken for temperature extrapolation applying a second order polynomial function. Probability based statistical methods enable bridging data gaps in daily precipitation time series and the redistribution of cumulated precipitation sums over the previous days. Snow and ice melt was calculated in a distributed way based on the temperature-index method employing calculated dai...
The hydrology of high-elevation watersheds of the Hindu Kush-Himalaya region (HKH) is poorly known. ...
This study was conducted within the project SuMaRiO (Sustainable Management of River Oases along the...
International audienceThe Himalayan water resources, vital for 800 million people, come mainly from ...
International audienceThe paper presents a catchment modeling approach for remote glacierized Himala...
International audienceThe paper presents a catchment modeling approach for remote glacierized Himala...
Glaciers are crucial in many countries where meltwater from glaciers is an important source of water...
Dans un contexte de recul des glaciers causé par le changement climatique et d'augmentation des beso...
In a context of glacier shrinkage caused by climate change and in a context of an increase of the wa...
International audienceIn a context of climate change and water demand growth, understanding the orig...
In high mountainous catchments, the spatial precipitation and therefore the overall water balance is...
Assessment of water resources from remote mountainous catchments plays a crucial role for the de...
Abstract A conceptual precipitation-runoff model requiring daily values of air temperature and preci...
In a context of climate change and water demand growth, understanding the origin of water flows in t...
Climate change is one of the most serious environmental threats that humanity has ever been confront...
Abstract onlyThe climate emergency will drive changes in the cryosphere and hydrology of high mounta...
The hydrology of high-elevation watersheds of the Hindu Kush-Himalaya region (HKH) is poorly known. ...
This study was conducted within the project SuMaRiO (Sustainable Management of River Oases along the...
International audienceThe Himalayan water resources, vital for 800 million people, come mainly from ...
International audienceThe paper presents a catchment modeling approach for remote glacierized Himala...
International audienceThe paper presents a catchment modeling approach for remote glacierized Himala...
Glaciers are crucial in many countries where meltwater from glaciers is an important source of water...
Dans un contexte de recul des glaciers causé par le changement climatique et d'augmentation des beso...
In a context of glacier shrinkage caused by climate change and in a context of an increase of the wa...
International audienceIn a context of climate change and water demand growth, understanding the orig...
In high mountainous catchments, the spatial precipitation and therefore the overall water balance is...
Assessment of water resources from remote mountainous catchments plays a crucial role for the de...
Abstract A conceptual precipitation-runoff model requiring daily values of air temperature and preci...
In a context of climate change and water demand growth, understanding the origin of water flows in t...
Climate change is one of the most serious environmental threats that humanity has ever been confront...
Abstract onlyThe climate emergency will drive changes in the cryosphere and hydrology of high mounta...
The hydrology of high-elevation watersheds of the Hindu Kush-Himalaya region (HKH) is poorly known. ...
This study was conducted within the project SuMaRiO (Sustainable Management of River Oases along the...
International audienceThe Himalayan water resources, vital for 800 million people, come mainly from ...