中国北方蒸散-降水耦合度时空变化与水热因子的关系
Evapotranspiration-precipitation coupling strength response to hydrothermal factors over northern China
中国北方蒸散-降水耦合度时空变化与水热因子的关系 |
| 李梁, 杨泽粟, 何杭 |
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Evapotranspiration-precipitation coupling strength response to hydrothermal factors over northern China |
| LI Liang, YANG Zesu, HE Hang |
| 图11 不同干湿气候背景区蒸散-降水耦合度与平均土壤湿度、平均气温、土壤湿度变率和气温变率的Pearson相关系数(a),蒸散-降水耦合度与平均土壤湿度和平均气温、土壤湿度变率和气温变率的复相关系数(b)(*表示相关系数/复相关系数通过α=0.05显著性检验。下同) |
| Fig.11 Pearson correlation coefficients of evapotranspiration-precipitation coupling strength with average soil moisture, average temperature, soil moisture standard deviation, temperature standard deviation (a), and complex correlation coefficients of evapotranspiration-precipitation coupling strength with average soil moisture and average temperature, and with soil moisture standard deviation, temperature standard deviation (b)in different dry and wet climate background regions (the asterisk indicates correlation coefficient or multiple correlation coefficient passing α=0.05 significance test. the same as below) |
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