Her scientific interests lie mostly in Environmental science, Leaf area index, Hydrology, Ecosystem and Atmospheric sciences. Her Environmental science studies intersect with other subjects such as Carbon cycle, Primary production, Boreal ecosystem, Eddy covariance and Evapotranspiration. In her study, which falls under the umbrella issue of Eddy covariance, Forest inventory is strongly linked to Carbon sink.
Jane Liu combines subjects such as Remote sensing, Canopy and Vegetation with her study of Leaf area index. Jane Liu works mostly in the field of Hydrology, limiting it down to topics relating to Ecosystem respiration and, in certain cases, Steppe, Vapour Pressure Deficit, Productivity, Soil water and Soil horizon, as a part of the same area of interest. Her biological study deals with issues like Meteorology, which deal with fields such as Carbon sequestration and Carbon dioxide.
Jane Liu focuses on Environmental science, Atmospheric sciences, Climatology, Troposphere and Ozone. There are a combination of areas like Aerosol, Pollution, Tropospheric ozone, Atmosphere and MOPITT integrated together with her Environmental science study. She has included themes like Pollutant, Leaf area index, Seasonality, Air quality index and Air pollution in her Atmospheric sciences study.
The study incorporates disciplines such as Primary production, Canopy, Evapotranspiration, Vegetation and Boreal ecosystem in addition to Leaf area index. Her biological study spans a wide range of topics, including Altitude, Precipitation and East Asia. Her work in the fields of Chemical transport model overlaps with other areas such as Middle East.
Jane Liu mostly deals with Environmental science, Atmospheric sciences, Climatology, Ozone and Pollution. Environmental science is connected with Aerosol, Air pollution, Subtropical ridge, Delta and East Asia in her research. Her Atmospheric sciences study combines topics from a wide range of disciplines, such as Leaf area index, HYSPLIT, Terrestrial ecosystem and Relative humidity.
Her Leaf area index study integrates concerns from other disciplines, such as Temperate climate, Boreal, Carbon sink and Greenhouse gas. Her Climatology research is multidisciplinary, incorporating perspectives in Eastern china and Precipitation. In her study, Northern Hemisphere is inextricably linked to Troposphere, which falls within the broad field of Ozone.
Jane Liu mainly focuses on Environmental science, Atmospheric sciences, Ozone, Delta and Climatology. Her Environmental science research spans across into subjects like Aerosol, Atmosphere, Air pollution, Haze and Pollution. Her Atmospheric sciences research incorporates themes from Climate change, Biomass burning, Water content, Terrestrial ecosystem and Remote sensing.
Jane Liu has researched Remote sensing in several fields, including Canopy, Canopy conductance, Stomatal conductance, Evapotranspiration and Shortwave. Her Ozone research focuses on Troposphere and how it relates to Ozone layer, Relative humidity and Stratosphere. She interconnects Climate model, Radiative forcing, Precipitation and East Asia in the investigation of issues within Climatology.
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Daily canopy photosynthesis model through temporal and spatial scaling for remote sensing applications
J.M Chen;J Liu;J Cihlar;M.L Goulden.
Ecological Modelling (1999)
A process-based boreal ecosystem productivity simulator using remote sensing inputs
Remote Sensing of Environment (1997)
Multi-angular optical remote sensing for assessing vegetation structure and carbon absorption
Jing M. Chen;Jane Liu;Sylvain G. Leblanc;Roselyne Lacaze.
Remote Sensing of Environment (2003)
Net primary productivity distribution in the BOREAS region from a process model using satellite and surface data
J. Liu;J. M. Chen;J. Cihlar;W. Chen.
Journal of Geophysical Research (1999)
E -ε modelling of turbulent air flow downwind of a model forest edge
J. Liu;J. M. Chen;T. A. Black;M. D. Novak.
Boundary-Layer Meteorology (1996)
Net ecosystem carbon dioxide exchange over grazed steppe in central Mongolia
S.-G. Li;J. Asanuma;W. Eugster;A. Kotani.
Global Change Biology (2005)
Spatial distribution of carbon sources and sinks in Canada’s forests
Jing M. Chen;Jing M. Chen;Weimin Ju;Josef Cihlar;David Price.
Tellus B (2003)
Net primary productivity of China's terrestrial ecosystems from a process model driven by remote sensing.
X. Feng;G. Liu;J.M. Chen;M. Chen.
Journal of Environmental Management (2007)
Annual carbon balance of Canada's forests during 1895-1996.
Jing Chen;Wenjun Chen;Jane Liu;Josef Cihlar.
Global Biogeochemical Cycles (2000)
Effects of foliage clumping on the estimation of global terrestrial gross primary productivity
Jing M. Chen;Jing M. Chen;Gang Mo;Jan Pisek;Jan Pisek;Jane Liu.
Global Biogeochemical Cycles (2012)
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