Spatio-temporal characteristics of agro-climatic indices and extreme weather events during the growing season for summer maize (Zea mays L.) in Huanghuaihai region, China

The stability of maize production is essential to global food security. Climate factors, such as temperature, precipitation, and solar radiation, directly affect the development of maize plants and hence the final grain yield. In this study, we investigated the spatial distributions and temporal tre...

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Bibliographic Details
Published in:International journal of biometeorology 2020-05, Vol.64 (5), p.827-839
Main Authors: Zhang, Zhentao, Yang, Xiaoguang, Liu, Zhijuan, Bai, Fan, Sun, Shuang, Nie, Jiayi, Gao, Jiqing, Ming, Bo, Xie, Ruizhi, Li, Shaokun
Format: Article
Language:English
Subjects:
Agricultural management
Agriculture
Animal Physiology
Biological and Medical Physics
Biophysics
China
Climate Change
Climatic extremes
Climatic indexes
Corn
Crop production
Crop yield
Earth and Environmental Science
Effective precipitation
Environment
Environmental Health
Extreme Weather
Food security
Growing season
High temperature
Lodging
Meteorology
Original Paper
Photosynthesis
Plant Physiology
Precipitation
Seasons
Severe weather
Solar radiation
Spatial distribution
Strong winds
Summer
Thunderstorms
Weather
Zea mays
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Summary:The stability of maize production is essential to global food security. Climate factors, such as temperature, precipitation, and solar radiation, directly affect the development of maize plants and hence the final grain yield. In this study, we investigated the spatial distributions and temporal trends of agro-climatic indices and severe weather indicators during the actual growing season for summer maize in Huanghuaihai region of China. The results showed that during the growing season, accumulated effective thermal time had significantly increased. From R3 to R6, accumulated effective thermal time, effective precipitation, and photosynthesis active radiation all showed an increasing trend, with the rate of 20.3 °C day, 1.1 mm, and 7.3 MJ m −2 per decade, respectively. From VE to R3, most of the study years showed a > 50% ratio of high-temperature days to subtotal days and > 7 consecutive days without available precipitation. During most of the study years, there were at least 0.5 thunderstorm events from V6 to VT stage in the locations of study; days with strong winds accounted for more than half the subtotal days during the V6-VT stage. And potential risk of lodging may be reduced by the decrease in days with strong wind. The results of this study could be used in optimizing agricultural management in summer maize production in order to take advantage of beneficial climatic elements while combating adverse climatic elements.
ISSN:0020-7128
1432-1254
DOI:10.1007/s00484-020-01872-6