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3 期 文国卫等: 基于优化的 MaxEnt 模型预测赤水蕈树的潜在适宜区 3 7 1
表 3 不同时期赤水蕈树适生区空间变化
Table 3 Spatial variation of suitable area of Altingia multinervis in different periods
4
2
面积 Area (×10 km ) 变化率 Change(%)
时期
Period 保留 增加 丧失 变化 保留 增加 丧失 变化
Reserved Increase Lost Change rate Reserved Increase Lost Change
末次间冰期 LIG 1.809 6 0.464 8 0.872 0 -0.407 2 67.55 17.35 32.55 -15.20
全新世中期 MH 2.155 9 0.661 5 0.516 6 0.144 9 80.48 24.69 19.29 5.41
2050s RCP2.6 1.902 9 0.231 0 0.782 7 -0.551 7 71.03 8.62 29.22 -20.60
2050s RCP8.5 1.889 8 0.701 7 0.794 2 -0.092 4 70.54 26.19 29.64 -3.45
2070s RCP2.6 2.009 6 0.304 6 0.663 3 -0.358 7 75.02 11.37 24.76 -13.39
2070s RCP8.5 2.009 3 0.450 3 0.677 1 -0.226 8 75.01 16.81 25.27 -8.46
注: 比较的基准年代为现代ꎬ即变化率为各时期面积与现代适生区面积之比ꎬ现代赤水蕈树潜在适生区≥0.5 的面积为 2.678 9×
4 2
10 km ꎮ
Note: The reference age of comparison is modernꎬ that isꎬ the rate of change is the ratio of the area of each period to the modern suitable
2
area. The area of the potential suitable area ≥0.5 of modern A. multinervis is 2.678 9×104 km .
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