Effects of Winter Snow Cover on Spring Soil Moisture Based on Remote Sensing Data Product over Farmland in Northeast China

Spring soil moisture (SM) is of great importance for monitoring agricultural drought and waterlogging in farmland areas. While winter snow cover has an important impact on spring SM, relatively little research has examined the correlation between winter snow cover and spring SM in great detail. To u...

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Bibliographic Details
Published in:Remote sensing (Basel, Switzerland) Switzerland), 2020-09, Vol.12 (17), p.2716
Main Authors: Liang, Shuang, Li, Xiaofeng, Zheng, Xingming, Jiang, Tao, Li, Xiaojie, Qiao, Dejing
Format: Article
Language:English
Subjects:
Agricultural drought
Agricultural land
Agricultural production
Agriculture
Atmospheric models
Climate change
Confidence intervals
Correlation coefficient
Correlation coefficients
Drought
farmland
microwave remote sensing
Northeast China
Parameters
Precipitation
Regions
Regression analysis
Regression models
Remote sensing
Seeds
Snow
Snow cover
Snow depth
Soil moisture
Soils
Spring
spring drought
Statistical analysis
Water shortages
Waterlogged ground
Waterlogging
Winter
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Summary:Spring soil moisture (SM) is of great importance for monitoring agricultural drought and waterlogging in farmland areas. While winter snow cover has an important impact on spring SM, relatively little research has examined the correlation between winter snow cover and spring SM in great detail. To understand the effects of snow cover on SM over farmland, the relationship between winter snow cover parameters (maximum snow depth (MSD) and average snow depth (ASD)) and spring SM in Northeast China was examined based on 30 year passive microwave snow depth (SD) and SM remote-sensing products. Linear regression models based on winter snow cover were established to predict spring SM. Moreover, 4 year SD and SM data were applied to validate the performance of the linear regression models. Additionally, the effects of meteorological factors on spring SM also were analyzed using multiparameter linear regression models. Finally, as a specific application, the best-performing model was used to predict the probability of spring drought and waterlogging in farmland in Northeast China. Our results illustrated the positive effects of winter snow cover on spring SM. The average correlation coefficient (R) of winter snow cover and spring SM was above 0.5 (significant at a 95% confidence level) over farmland. The performance of the relationship between snow cover and SM in April was better than that in May. Compared to the multiparameter linear regression models in terms of fitting coefficient, MSD can be used as an important snow parameter to predict spring drought and waterlogging probability in April. Specifically, if the relative SM threshold is 50% when spring drought occurs in April, the prediction probability of the linear regression model concerning snow cover and spring SM can reach 74%. This study improved our understanding of the effects of winter snow cover on spring SM and will be beneficial for further studies on the prediction of spring drought.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs12172716