His main research concerns Hydrology, Surface runoff, Water content, Soil water and Arctic. His study connects Swamp and Hydrology. He has included themes like Drainage basin and Discharge in his Surface runoff study.
His studies deal with areas such as Streamflow and Water cycle as well as Discharge. His Water content study combines topics in areas such as Moisture and Climatology. The various areas that Marc Stieglitz examines in his Arctic study include Permafrost, Dissolved organic carbon, Terrigenous sediment and Biogeochemistry.
His primary areas of study are Hydrology, Drainage basin, Climatology, Arctic and Surface runoff. His study in Water content, Discharge, Watershed, Streamflow and Evapotranspiration is carried out as part of his studies in Hydrology. His Drainage basin study combines topics from a wide range of disciplines, such as Biogeochemical cycle and Land use.
The study incorporates disciplines such as Climate change, Climate model, Precipitation, Snow and Hydrology in addition to Climatology. His Arctic study also includes
Marc Stieglitz focuses on Hydrology, Ecosystem, Drainage basin, Model parameters and Streamflow. His Hydrology study frequently links to other fields, such as Hydraulic conductivity. His research in Ecosystem tackles topics such as Biogeochemical cycle which are related to areas like Biogeochemistry, Nutrient, Forest ecology and Detritus.
His Drainage basin research is multidisciplinary, relying on both Hydrometeorology, Geomorphology and Water content. His Water content research incorporates themes from Moisture and GCM transcription factors. His Streamflow study combines topics in areas such as Range, Predictability, Snowmelt and Hydrograph.
Marc Stieglitz mainly investigates Surface, Earth surface, Water content, Drainage basin and GCM transcription factors. Other disciplines of study, such as Atmospheric sciences, Drainage, Estimation theory, Surface water and Spatial distribution, are mixed together with his Surface studies. His research ties Climatology and Atmospheric sciences together.
His study in Climatology is interdisciplinary in nature, drawing from both Statistics and Climate change. Estimation theory is closely attributed to Hydrology in his research. His research in Hydrology is mostly focused on Discharge.
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A catchment-based approach to modeling land surface processes in a general circulation model: 1. Model structure
Randal D. Koster;Max J. Suarez;Agnès Ducharne;Marc Stieglitz.
Journal of Geophysical Research (2000)
A Catchment-Based Approach to Modeling Land Surface Processes in a Gcm, Part 1: Model Structure
Randal D. Koster;Max J. Suarez;Agnes Ducharne;Marc Stieglitz.
Lability of DOC transported by Alaskan rivers to the Arctic Ocean
Robert M. Holmes;James W. McClelland;Peter A. Raymond;Breton B. Frazer.
Geophysical Research Letters (2008)
Increasing river discharge in the Eurasian Arctic: Consideration of dams, permafrost thaw, and fires as potential agents of change
James W. McClelland;Robert M. Holmes;Bruce J. Peterson;Marc Stieglitz.
Journal of Geophysical Research (2004)
The role of snow cover in the warming of arctic permafrost
Marc Stieglitz;S. J. Déry;V. E. Romanovsky;T. E. Osterkamp.
Geophysical Research Letters (2003)
An approach to understanding hydrologic connectivity on the hillslope and the implications for nutrient transport
Marc Stieglitz;Jeff Shaman;Jeff Shaman;James McNamara;Victor Engel;Victor Engel.
Global Biogeochemical Cycles (2003)
Response of NDVI, biomass, and ecosystem gas exchange to long-term warming and fertilization in wet sedge tundra
Natalie T. Boelman;Marc Stieglitz;Heather M. Rueth;Martin Sommerkorn.
An Efficient Approach to Modeling the Topographic Control of Surface Hydrology for Regional and Global Climate Modeling
Marc Stieglitz;David Rind;James Famiglietti;Cynthia Rosenzweig.
Journal of Climate (1997)
Characteristics and Trends of River Discharge into Hudson, James, and Ungava Bays, 1964–2000
Stephen J. Déry;Marc Stieglitz;Edward C. McKenna;Eric F. Wood.
Journal of Climate (2005)
A catchment‐based approach to modeling land surface processes in a general circulation model: 2. Parameter estimation and model demonstration
Agnès Ducharne;Randal D. Koster;Max J. Suarez;Marc Stieglitz.
Journal of Geophysical Research (2000)
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