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13 不同干湿气候背景区蒸散-降水耦合度分别与平均土壤湿度、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) |
| Fig.13 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 |
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