Noah‐MP‐Crop: Introducing dynamic crop growth in the Noah‐MP land surface model

Noah‐MP‐Crop: Introducing dynamic crop growth in the Noah‐MP land surface model

Croplands are important in land‐atmosphere interactions and in the modification of local and regional weather and climate; however, they are poorly represented in the current version of the coupled Weather Research and Forecasting/Noah with multiparameterization (Noah‐MP) land surface modeling syste...

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Published in:Journal of geophysical research. Atmospheres Vol. 121; no. 23; pp. 13,953 - 13,972
Main Authors: Liu, Xing, Chen, Fei, Barlage, Michael, Zhou, Guangsheng, Niyogi, Dev
Format: Journal Article
Language:English
Published: Washington Blackwell Publishing Ltd 16-12-2016
Subjects:
Agricultural land
Agroclimatology
Annual variations
Biomass
Computer simulation
Corn
Crop growth simulation
Crop yield
Crops
Dynamics
Environmental factors
GDD
Geophysics
Growing season
Land
Land‐Atmospheric modeling
Latent heat
Leaf area index
Leaves
Mathematical models
Noah‐MP
Planting date
Seasons
Simulation
Soil moisture
Soybeans
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Summary:Croplands are important in land‐atmosphere interactions and in the modification of local and regional weather and climate; however, they are poorly represented in the current version of the coupled Weather Research and Forecasting/Noah with multiparameterization (Noah‐MP) land surface modeling system. This study introduced dynamic corn (Zea mays) and soybean (Glycine max) growth simulations and field management (e.g., planting date) into Noah‐MP and evaluated the enhanced model (Noah‐MP‐Crop) at field scales using crop biomass data sets, surface heat fluxes, and soil moisture observations. Compared to the generic dynamic vegetation and prescribed‐leaf area index (LAI)‐driven methods in Noah‐MP, the Noah‐MP‐Crop showed improved performance in simulating leaf area index (LAI) and crop biomass. This model is able to capture the seasonal and annual variability of LAI and to differentiate corn and soybean in peak values of LAI as well as the length of growing seasons. Improved simulations of crop phenology in Noah‐MP‐Crop led to better surface heat flux simulations, especially in the early period of growing season where current Noah‐MP significantly overestimated LAI. The addition of crop yields as model outputs expand the application of Noah‐MP‐Crop to regional agriculture studies. There are limitations in the use of current growing degree days (GDD) criteria to predict growth stages, and it is necessary to develop a new method that combines GDD with other environmental factors, to more accurately define crop growth stages. The capability introduced in Noah‐MP allows further crop‐related studies and development. Key Points 1.Noah‐MP‐Crop is able to capture the seasonal and annual variability of crop‐specific LAI and biomass. 2.The improved estimation of LAI in Noah‐MP‐Crop led to more accurate surface sensible and latent heat flux simulations. 3.It is necessary to incorporate field management information in Cropland related simulations.
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ISSN:2169-897X
2169-8996
DOI:10.1002/2016JD025597