Atmosphere-Surface Interactions

Atmosphere Surface Interactions

transformed by the SPACE AROUND YOU

Many fundamental issues in climate, environmental, geological, and ecological studies require an in-depth knowledge of the rates and forms of exchange of chemical species, mass, and energy between the atmosphere and the earth's surface.
 
Such exchanges are relevant over a large range of spatial and temporal scales, e.g., from the rapid turnover times, hours to days, of volatile organic carbon emissions within a forest canopy to incremental changes in global concentrations of atmospheric greenhouse gases and their feedbacks to climate over tens of millions of years.
 
Knowledge of the mechanisms governing atmosphere-surface interactions is essential to our understanding of both modern and geologic record and will permit us to speculate about how perturbations to the earth system are potentially mitigated or amplified by feedbacks within that system.

Affiliated Faculty & Research Area 


Indrajeet Chaubey Ecohydrologic processes affecting fate and transport of sediment, nutrients, and pesticides from various land use activities and developing watershed management strategies to improve water quality
Tim Filley Molecular, stable-isotope biogeochemistry of soils and sediments
Jon Harbor Hydrologic impacts of land use change, environmental management, environmental education, Quaternary geology and glacial geomorphology
Matt Huber Dynamics of past, present, and future climates, ocean-atmosphere interactions, tracer transport
Greg Michalski Stable isotope biogeochemistry, nitrogen deposition, atmospheric chemistry, environmental chemistry, nutrients in extreme environments, paleoclimate proxies
Dev Niyogi Remote sensing of biosphere, stomatal conductance-photosynthesis models, gaseous deposition and bidirectional exchange, aerosol impacts on terrestrial carbon-water cycle
James Ogg Earth history (past 600 million years), Paleooceanography, paleoclimate cycles, marine geology, paleomagnetics
Paul Shepson Atmospheric chemistry, tropospheric ozone and photochemical smog, atmospheric chemical measurements, modeling of tropospheric photochemistry, air-surface interactions in the Arctic
Yuch-Ning Shieh Stable isotope geochemistry, oxygen, hydrogen, and carbon isotopes in igneous and metamorphic petrology, sulfur isotopes in coal and mineral deposits
Wen-Yih Sun Geofluid dynamics, numerical modeling of mesoscale meterology and regional climate boundary layer meteorology, land-atmosphere and air-sea interactions, surface hydrology
Qianlai Zhuang Ecosystem dynamics, biogeochemical cycling, greenhouse gases, ecological and ecosystem modeling
Bill Zinsmeister Paleontology, stratigraphy, biostratigraphy, biogeography, field geology

Related Groups:


  • Purdue Stable Isotope (PSI) Lab
    The PSI group conducts research in a range of environmental and climate-related areas, including biogeochemistry, hydrology, ecology, and paleoclimatology. The PSI facility specializes in experimental biogeochemistry, education, and contract analyses.
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  • Clouds, Climate & Extreme Weather (C-CLEW)
    Focuses on Clouds, Climate and Extreme Weather, which seeks to: Understand and predict the physical and statistical behavior of extreme weather and climate events.
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  • Cloud Microphysics Group
    Travel to different regions of the world in order to take detailed observations of the cloud properties; we also simulate these clouds using a variety of models on workstations and high-speed computers.
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  • Purdue Climate Change Research Center (PCCRC)
    Chartered in 2004, the PCCRC is a world-class multidisciplinary research center focused on interrelated aspects of climate change, its impacts, and mitigation.
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  • Mesoscale Convection & Tornado Group
    The group is dedicated to understanding the dynamical and physical structure of marine convective boundary layers that form in cold air outbreaks over relatively warmer water, as well as deep convective systems over land that develop into supercell tornadic thunderstorms.
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  • Purdue Mesoscale Modeling Lab (PMML)
    The Purdue Mesoscale Modeling Laboratory (PMML) is developing the Purdue Regional Climate Model (PRCM).
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  • Severe Weather Research Group
    This group conducts basic and applied research on thunderstorms and associated weather hazards.
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Useful Links 


BART - Biosphere Atmospehre Research and Training

Ecosystems and Biogeochemical Dynamics Laboratory

PCCRC - Purdue Climate Change Research Center

PRIME Lab- Purdue Rare Isotope Measurement Laboratory

Purdue Level II Doppler Radar