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  • This dataset represents the potential GAP in SOC (Soil Potential Carbon) stock for topsoil in 2050 (medium term) under B1 IPCC emission scenario. GAP is expressed in terms of class differences between ACTUAL and POTENTIAL topsoil carbon sequestration under the same scenario ans time frame.

  • This dataset represents the potential GAP in SOC (Soil Potential Carbon) stock for subsoil in 2100 (long term) under B1 IPCC emission scenario. GAP is expressed in terms of class differences between ACTUAL and POTENTIAL subsoil carbon sequestration under the same scenario ans time frame.

  • This dataset represents the potential GAP in SOC (Soil Potential Carbon) stock for topsoil in 2100 (long term) under A1FI IPCC emission scenario. GAP is expressed in terms of class differences between ACTUAL and POTENTIAL topsoil carbon sequestration under the same scenario ans time frame.

  • This dataset represents the potential SOC (Soil Potential Carbon) stock for topsoil in 2100 (long term) under A1FI IPCC emission scenario. It is function of re-spatialization of mean actual SOC stock for topsoil according to changes in land use and climate zone in 2100 under A1FI. Classes of stock are as below: - Very low (<15 Mg/ha); - Low (15-40 Mg/ha); - Medium (40-70 Mg/ha); - High (70-140 Mg/ha); - Very high (>140 Mg/ha).

  • This dataset represents the potential SOC (Soil Potential Carbon) stock for subsoil in 2100 (long term) under B1 IPCC emission scenario. It is function of re-spatialization of mean actual SOC stock for subsoil according to changes in land use and climate zone in 2100 under B1. Classes of stock are as below: - Very low (<10 Mg/ha); - Low (10-30 Mg/ha); - Medium (30-50 Mg/ha); - High (50-70 Mg/ha); - Very high (>70 Mg/ha).

  • This dataset represents the potential GAP in SOC (Soil Potential Carbon) stock for subsoil in 2100 (long term) under A1FI IPCC emission scenario. GAP is expressed in terms of class differences between ACTUAL and POTENTIAL subsoil carbon sequestration under the same scenario ans time frame.

  • This dataset represents the potential GAP in SOC (Soil Potential Carbon) stock for topsoil in 2050 (medium term) under A1FI IPCC emission scenario. GAP is expressed in terms of class differences between ACTUAL and POTENTIAL topsoil carbon sequestration under the same scenario ans time frame.

  • This dataset represents the potential SOC (Soil Potential Carbon) stock for topsoil in 2050 (medium term) under A1FI IPCC emission scenario. It is function of re-spatialization of mean actual SOC stock for topsoil according to changes in land use and climate zone in 2050 under A1FI. Classes of stock are as below: - Very low (<15 Mg/ha); - Low (15-40 Mg/ha); - Medium (40-70 Mg/ha); - High (70-140 Mg/ha); - Very high (>140 Mg/ha).

  • This dataset represents the potential SOC (Soil Potential Carbon) stock for subsoil in 2050 (medium term) under A1FI IPCC emission scenario. It is function of re-spatialization of mean actual SOC stock for subsoil according to changes in land use and climate zone in 2050 under A1FI. Classes of stock are as below: - Very low (<10 Mg/ha); - Low (10-30 Mg/ha); - Medium (30-50 Mg/ha); - High (50-70 Mg/ha); - Very high (>70 Mg/ha).

  • This dataset represents the potential SOC (Soil Potential Carbon) stock for subsoil in 2050 (medium term) under B1 IPCC emission scenario. It is function of re-spatialization of mean actual SOC stock for subsoil according to changes in land use and climate zone in 2050 under B1. Classes of stock are as below: - Very low (<10 Mg/ha); - Low (10-30 Mg/ha); - Medium (30-50 Mg/ha); - High (50-70 Mg/ha); - Very high (>70 Mg/ha).