CropWatch agroclimatic indicators (CWAIs) for weather impact assessment on global agriculture

CropWatch agroclimatic indicators (CWAIs) are a monitoring tool developed by the CropWatch global crop monitoring system in the Chinese Academy of Sciences (CAS; www.cropwatch.com.cn , Wu et al Int J Digital Earth 7(2):113-137, 2014 , Wu et al Remote Sens 7:3907-3933, 2015 ). Contrary to most other...

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Bibliographic Details
Published in:International journal of biometeorology 2017-02, Vol.61 (2), p.199-215
Main Authors: Gommes, René, Wu, Bingfang, Zhang, Ning, Feng, Xueliang, Zeng, Hongwei, Li, Zhongyuan, Chen, Bo
Format: Article
Language:English
Subjects:
Agriculture
Agronomy
Air temperature
Analysis
Animal Physiology
Biological and Medical Physics
Biophysics
Climate
Climate change
Crops
Crops, Agricultural
Earth and Environmental Science
Environment
Environmental Health
Environmental monitoring
Meteorology
Monitoring systems
Original Paper
Plant Physiology
Remote Sensing Technology
Reproducibility of Results
Studies
Weather
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Summary:CropWatch agroclimatic indicators (CWAIs) are a monitoring tool developed by the CropWatch global crop monitoring system in the Chinese Academy of Sciences (CAS; www.cropwatch.com.cn , Wu et al Int J Digital Earth 7(2):113-137, 2014 , Wu et al Remote Sens 7:3907-3933, 2015 ). Contrary to most other environmental and agroclimatic indicators, they are “agronomic value-added”, i.e. they are spatial values averaged over agricultural areas only and they include a weighting that enhances the contribution of the areas with the largest production potential. CWAIs can be computed for any time interval (starting from dekads) and yield one synthetic value per variable over a specific area and time interval, for instance a national annual value. Therefore, they are very compatible with socio-economic and other variables that are usually reported at regular time intervals over administrative units, such as national environmental or agricultural statistics. Two of the CWAIs are satellite-based (RAIN and Photosynthetically Active radiation, PAR) while the third is ground based (TEMP, air temperature); capitals are used when specifically referring to CWAIs rather than the climate variables in general. The paper first provides an overview of some common agroclimatic indicators, describing their procedural, systemic and normative features in subsequent sections, following the terminology of Binder et al Environ Impact Assess Rev 30:71–81 ( 2010 ). The discussion focuses on the systemic and normative aspects: the CWAIs are assessed in terms of their coherent description of the agroclimatic crop environment, at different spatial scales (systemic). The final section shows that the CWAIs retain key statistical properties of the underlying climate variables and that they can be compared to a reference value and used as monitoring and early warning variables (normative).
ISSN:0020-7128
1432-1254
DOI:10.1007/s00484-016-1199-7