During the rice growth cycle, the average available cadmium concentration (C) in the soil determines the Cd content in rice plant. Given defined soil properties and rice varieties, the meteorological factors play a crucial role in soil's available cadmium concentration (C) during the rice growth cycle. Thus, it is significant to investigate the influence of meteorological factors in C during the rice growth cycle and develop a predictive model for C. The rice was cultivated under seven different sowing dates in Cd and As-contaminated soil in Hunan Province. Studied the impact of meteorological factors on paddy soil. The results showed that accumulated temperature (AT) and total precipitation (TP) were key factors affecting the soil C. The correlation coefficients between AT and TP with soil C were 0.98 and -0.94 (p < 0.01), respectively. However, there was no significant correlation with C. AT mainly influenced the C during the grouting and maturity stages. A straightforward empirical prediction model was developed, capable of accurately forecasting C during the rice growth cycle by considering meteorological factors and the initial soil C. This study supported a novel foundation for the precise prediction of Cd content in rice.
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