Commit 0e452b89 authored by Mahé Perrette's avatar Mahé Perrette
Browse files

remove world and time ranking value

parent 6f43bf82
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Afghanistan’s annual land a ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Afghanistan’s annual land a
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 64200 km<sup>2</sup> (9.8% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 16800 km<sup>2</sup> (9.8% of the land area). By the middle of the century, changes reach 31600 km<sup>2</sup> under RCP2.6 and 26100 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 64200 km<sup>2</sup> (9.8% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 16800 km<sup>2</sup> (9.8% of the land area). By the middle of the century, changes reach 31600 km<sup>2</sup> under RCP2.6 and 26100 km<sup>2</sup> under RCP6.0.
Afghanistan is the (ranking-value: land-abs-temp_AFG value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Afghanistan’s ranking is (ranking-value: land-abs-time_AFG value: position time:2081-2100 scenario:rcp60).
Afghanistan is the (ranking-value: land-abs-temp_AFG value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Afghanistan’s annual pop ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Afghanistan’s annual pop
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 1.6 million (5.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.2 million people (0.7% of the total population). By mid of the century changes expose 0.4 million people under RCP2.6 and 0.5 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 1.6 million (5.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.2 million people (0.7% of the total population). By mid of the century changes expose 0.4 million people under RCP2.6 and 0.5 million people under RCP6.0.
Afghanistan is the (ranking-value: pop-abs-temp_AFG value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Afghanistan’s ranking is (ranking-value: pop-abs-time_AFG value: position time:2081-2100 scenario:rcp60).
Afghanistan is the (ranking-value: pop-abs-temp_AFG value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Angola’s annual land area a ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Angola’s annual land area a
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 14300 km<sup>2</sup> (1.1% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 14000 km<sup>2</sup> (1.1% of the land area). By the middle of the century, changes reach 4700 km<sup>2</sup> under RCP2.6 and 18400 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 14300 km<sup>2</sup> (1.1% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 14000 km<sup>2</sup> (1.1% of the land area). By the middle of the century, changes reach 4700 km<sup>2</sup> under RCP2.6 and 18400 km<sup>2</sup> under RCP6.0.
Angola is the (ranking-value: land-abs-temp_AGO value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Angola’s ranking is (ranking-value: land-abs-time_AGO value: position time:2081-2100 scenario:rcp60).
Angola is the (ranking-value: land-abs-temp_AGO value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Angola’s annual populati ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Angola’s annual populati
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 million (0.2% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.2% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 million (0.2% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.2% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0.
Angola is the (ranking-value: pop-abs-temp_AGO value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Angola’s ranking is (ranking-value: pop-abs-time_AGO value: position time:2081-2100 scenario:rcp60).
Angola is the (ranking-value: pop-abs-temp_AGO value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Albania’s annual land area ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Albania’s annual land area
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 300 km<sup>2</sup> (1.2% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 100 km<sup>2</sup> (1.2% of the land area). By the middle of the century, changes reach 100 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 300 km<sup>2</sup> (1.2% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 100 km<sup>2</sup> (1.2% of the land area). By the middle of the century, changes reach 100 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0.
Albania is the (ranking-value: land-abs-temp_ALB value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Albania’s ranking is (ranking-value: land-abs-time_ALB value: position time:2081-2100 scenario:rcp60).
Albania is the (ranking-value: land-abs-temp_ALB value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Albania’s annual populat ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Albania’s annual populat
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (0.6% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.1% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (0.6% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.1% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0.
Albania is the (ranking-value: pop-abs-temp_ALB value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Albania’s ranking is (ranking-value: pop-abs-time_ALB value: position time:2081-2100 scenario:rcp60).
Albania is the (ranking-value: pop-abs-temp_ALB value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming United Arab Emirates’ annua ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming United Arab Emirates’ annua
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 700 km<sup>2</sup> (0.9% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 500 km<sup>2</sup> (0.9% of the land area). By the middle of the century, changes reach 300 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 700 km<sup>2</sup> (0.9% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 500 km<sup>2</sup> (0.9% of the land area). By the middle of the century, changes reach 300 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0.
United Arab Emirates is the (ranking-value: land-abs-temp_ARE value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), United Arab Emirates’ ranking is (ranking-value: land-abs-time_ARE value: position time:2081-2100 scenario:rcp60).
United Arab Emirates is the (ranking-value: land-abs-temp_ARE value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming United Arab Emirates’ an ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming United Arab Emirates’ an
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (0.1% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.0% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (0.1% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.0% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0.
United Arab Emirates is the (ranking-value: pop-abs-temp_ARE value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), United Arab Emirates’ ranking is (ranking-value: pop-abs-time_ARE value: position time:2081-2100 scenario:rcp60).
United Arab Emirates is the (ranking-value: pop-abs-temp_ARE value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Argentina’s annual land are ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Argentina’s annual land are
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 104400 km<sup>2</sup> (3.8% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 29900 km<sup>2</sup> (3.8% of the land area). By the middle of the century, changes reach 61800 km<sup>2</sup> under RCP2.6 and 56200 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 104400 km<sup>2</sup> (3.8% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 29900 km<sup>2</sup> (3.8% of the land area). By the middle of the century, changes reach 61800 km<sup>2</sup> under RCP2.6 and 56200 km<sup>2</sup> under RCP6.0.
Argentina is the (ranking-value: land-abs-temp_ARG value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Argentina’s ranking is (ranking-value: land-abs-time_ARG value: position time:2081-2100 scenario:rcp60).
Argentina is the (ranking-value: land-abs-temp_ARG value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Argentina’s annual popul ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Argentina’s annual popul
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 million (0.1% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.0% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 million (0.1% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.0% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0.
Argentina is the (ranking-value: pop-abs-temp_ARG value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Argentina’s ranking is (ranking-value: pop-abs-time_ARG value: position time:2081-2100 scenario:rcp60).
Argentina is the (ranking-value: pop-abs-temp_ARG value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Armenia’s annual land area ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Armenia’s annual land area
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 1500 km<sup>2</sup> (5.4% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 100 km<sup>2</sup> (5.4% of the land area). By the middle of the century, changes reach 600 km<sup>2</sup> under RCP2.6 and 600 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 1500 km<sup>2</sup> (5.4% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 100 km<sup>2</sup> (5.4% of the land area). By the middle of the century, changes reach 600 km<sup>2</sup> under RCP2.6 and 600 km<sup>2</sup> under RCP6.0.
Armenia is the (ranking-value: land-abs-temp_ARM value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Armenia’s ranking is (ranking-value: land-abs-time_ARM value: position time:2081-2100 scenario:rcp60).
Armenia is the (ranking-value: land-abs-temp_ARM value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Armenia’s annual populat ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Armenia’s annual populat
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (1.2% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.1% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (1.2% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.1% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0.
Armenia is the (ranking-value: pop-abs-temp_ARM value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Armenia’s ranking is (ranking-value: pop-abs-time_ARM value: position time:2081-2100 scenario:rcp60).
Armenia is the (ranking-value: pop-abs-temp_ARM value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming American Samoa’s annual lan ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming American Samoa’s annual lan
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to decrease by 0 km<sup>2</sup> (0.0% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 0 km<sup>2</sup> (0.0% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to decrease by 0 km<sup>2</sup> (0.0% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 0 km<sup>2</sup> (0.0% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0.
American Samoa is the (ranking-value: land-abs-temp_ASM value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), American Samoa’s ranking is (ranking-value: land-abs-time_ASM value: position time:2081-2100 scenario:rcp60).
American Samoa is the (ranking-value: land-abs-temp_ASM value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming American Samoa’s annual ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming American Samoa’s annual
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to decrease by 0.0 million (0.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.0% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to decrease by 0.0 million (0.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.0% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0.
American Samoa is the (ranking-value: pop-abs-temp_ASM value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), American Samoa’s ranking is (ranking-value: pop-abs-time_ASM value: position time:2081-2100 scenario:rcp60).
American Samoa is the (ranking-value: pop-abs-temp_ASM value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Antarctica’s annual land ar ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Antarctica’s annual land ar
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to decrease by 0 km<sup>2</sup> (0.0% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 0 km<sup>2</sup> (0.0% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to decrease by 0 km<sup>2</sup> (0.0% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 0 km<sup>2</sup> (0.0% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0.
Antarctica is the (ranking-value: land-abs-temp_ATA value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Antarctica’s ranking is (ranking-value: land-abs-time_ATA value: position time:2081-2100 scenario:rcp60).
Antarctica is the (ranking-value: land-abs-temp_ATA value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Antarctica’s annual popu ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Antarctica’s annual popu
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by nan million (100.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose nan million people (100.0% of the total population). By mid of the century changes expose nan million people under RCP2.6 and nan million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by nan million (100.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose nan million people (100.0% of the total population). By mid of the century changes expose nan million people under RCP2.6 and nan million people under RCP6.0.
Antarctica is the (ranking-value: pop-abs-temp_ATA value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Antarctica’s ranking is (ranking-value: pop-abs-time_ATA value: position time:2081-2100 scenario:rcp60).
Antarctica is the (ranking-value: pop-abs-temp_ATA value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming French Southern and Antarctic ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming French Southern and Antarctic
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to decrease by 0 km<sup>2</sup> (0.0% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 0 km<sup>2</sup> (0.0% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to decrease by 0 km<sup>2</sup> (0.0% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 0 km<sup>2</sup> (0.0% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0.
French Southern and Antarctica Lands is the (ranking-value: land-abs-temp_ATF value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), French Southern and Antarctica Lands’ ranking is (ranking-value: land-abs-time_ATF value: position time:2081-2100 scenario:rcp60).
French Southern and Antarctica Lands is the (ranking-value: land-abs-temp_ATF value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming French Southern and Antarc ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming French Southern and Antarc
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by nan million (100.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose nan million people (100.0% of the total population). By mid of the century changes expose nan million people under RCP2.6 and nan million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by nan million (100.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose nan million people (100.0% of the total population). By mid of the century changes expose nan million people under RCP2.6 and nan million people under RCP6.0.
French Southern and Antarctica Lands is the (ranking-value: pop-abs-temp_ATF value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), French Southern and Antarctica Lands’ ranking is (ranking-value: pop-abs-time_ATF value: position time:2081-2100 scenario:rcp60).
French Southern and Antarctica Lands is the (ranking-value: pop-abs-temp_ATF value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Australia’s annual land are ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Australia’s annual land are
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 283000 km<sup>2</sup> (3.7% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 222200 km<sup>2</sup> (3.7% of the land area). By the middle of the century, changes reach 106700 km<sup>2</sup> under RCP2.6 and 143200 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 283000 km<sup>2</sup> (3.7% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 222200 km<sup>2</sup> (3.7% of the land area). By the middle of the century, changes reach 106700 km<sup>2</sup> under RCP2.6 and 143200 km<sup>2</sup> under RCP6.0.
Australia is the (ranking-value: land-abs-temp_AUS value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Australia’s ranking is (ranking-value: land-abs-time_AUS value: position time:2081-2100 scenario:rcp60).
Australia is the (ranking-value: land-abs-temp_AUS value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Australia’s annual popul ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Australia’s annual popul
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 million (0.5% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.1 million people (0.5% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 million (0.5% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.1 million people (0.5% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0.
Australia is the (ranking-value: pop-abs-temp_AUS value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Australia’s ranking is (ranking-value: pop-abs-time_AUS value: position time:2081-2100 scenario:rcp60).
Australia is the (ranking-value: pop-abs-temp_AUS value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Austria’s annual land area ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Austria’s annual land area
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 600 km<sup>2</sup> (0.8% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 300 km<sup>2</sup> (0.8% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 400 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 600 km<sup>2</sup> (0.8% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 300 km<sup>2</sup> (0.8% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 400 km<sup>2</sup> under RCP6.0.
Austria is the (ranking-value: land-abs-temp_AUT value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Austria’s ranking is (ranking-value: land-abs-time_AUT value: position time:2081-2100 scenario:rcp60).
Austria is the (ranking-value: land-abs-temp_AUT value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Austria’s annual populat ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Austria’s annual populat
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (0.1% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.2% of the total population). By mid of the century changes expose -0.0 million people under RCP2.6 and 0.0 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (0.1% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.2% of the total population). By mid of the century changes expose -0.0 million people under RCP2.6 and 0.0 million people under RCP6.0.
Austria is the (ranking-value: pop-abs-temp_AUT value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Austria’s ranking is (ranking-value: pop-abs-time_AUT value: position time:2081-2100 scenario:rcp60).
Austria is the (ranking-value: pop-abs-temp_AUT value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Azerbaijan’s annual land ar ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Azerbaijan’s annual land ar
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 5300 km<sup>2</sup> (6.5% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 1300 km<sup>2</sup> (6.5% of the land area). By the middle of the century, changes reach 1300 km<sup>2</sup> under RCP2.6 and 2300 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 5300 km<sup>2</sup> (6.5% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 1300 km<sup>2</sup> (6.5% of the land area). By the middle of the century, changes reach 1300 km<sup>2</sup> under RCP2.6 and 2300 km<sup>2</sup> under RCP6.0.
Azerbaijan is the (ranking-value: land-abs-temp_AZE value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Azerbaijan’s ranking is (ranking-value: land-abs-time_AZE value: position time:2081-2100 scenario:rcp60).
Azerbaijan is the (ranking-value: land-abs-temp_AZE value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Azerbaijan’s annual popu ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Azerbaijan’s annual popu
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.3 million (2.7% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.5% of the total population). By mid of the century changes expose 0.1 million people under RCP2.6 and 0.1 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.3 million (2.7% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.5% of the total population). By mid of the century changes expose 0.1 million people under RCP2.6 and 0.1 million people under RCP6.0.
Azerbaijan is the (ranking-value: pop-abs-temp_AZE value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Azerbaijan’s ranking is (ranking-value: pop-abs-time_AZE value: position time:2081-2100 scenario:rcp60).
Azerbaijan is the (ranking-value: pop-abs-temp_AZE value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Burundi’s annual land area ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Burundi’s annual land area
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to decrease by 0 km<sup>2</sup> (0.0% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 0 km<sup>2</sup> (0.0% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to decrease by 0 km<sup>2</sup> (0.0% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 0 km<sup>2</sup> (0.0% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0.
Burundi is the (ranking-value: land-abs-temp_BDI value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Burundi’s ranking is (ranking-value: land-abs-time_BDI value: position time:2081-2100 scenario:rcp60).
Burundi is the (ranking-value: land-abs-temp_BDI value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Burundi’s annual populat ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Burundi’s annual populat
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to decrease by 0.0 million (0.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.0% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to decrease by 0.0 million (0.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.0% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0.
Burundi is the (ranking-value: pop-abs-temp_BDI value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Burundi’s ranking is (ranking-value: pop-abs-time_BDI value: position time:2081-2100 scenario:rcp60).
Burundi is the (ranking-value: pop-abs-temp_BDI value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Belgium’s annual land area ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Belgium’s annual land area
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to decrease by 0 km<sup>2</sup> (0.0% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 0 km<sup>2</sup> (0.0% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to decrease by 0 km<sup>2</sup> (0.0% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 0 km<sup>2</sup> (0.0% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0.
Belgium is the (ranking-value: land-abs-temp_BEL value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Belgium’s ranking is (ranking-value: land-abs-time_BEL value: position time:2081-2100 scenario:rcp60).
Belgium is the (ranking-value: land-abs-temp_BEL value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Belgium’s annual populat ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Belgium’s annual populat
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to decrease by 0.0 million (0.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose -0.0 million people (-0.0% of the total population). By mid of the century changes expose -0.0 million people under RCP2.6 and -0.0 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to decrease by 0.0 million (0.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose -0.0 million people (-0.0% of the total population). By mid of the century changes expose -0.0 million people under RCP2.6 and -0.0 million people under RCP6.0.
Belgium is the (ranking-value: pop-abs-temp_BEL value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Belgium’s ranking is (ranking-value: pop-abs-time_BEL value: position time:2081-2100 scenario:rcp60).
Belgium is the (ranking-value: pop-abs-temp_BEL value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Benin’s annual land area af ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Benin’s annual land area af
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 5200 km<sup>2</sup> (4.6% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 6200 km<sup>2</sup> (4.6% of the land area). By the middle of the century, changes reach 1900 km<sup>2</sup> under RCP2.6 and 2100 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 5200 km<sup>2</sup> (4.6% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 6200 km<sup>2</sup> (4.6% of the land area). By the middle of the century, changes reach 1900 km<sup>2</sup> under RCP2.6 and 2100 km<sup>2</sup> under RCP6.0.
Benin is the (ranking-value: land-abs-temp_BEN value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Benin’s ranking is (ranking-value: land-abs-time_BEN value: position time:2081-2100 scenario:rcp60).
Benin is the (ranking-value: land-abs-temp_BEN value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Benin’s annual populatio ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Benin’s annual populatio
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.4 million (3.7% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.1 million people (1.3% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.1 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.4 million (3.7% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.1 million people (1.3% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.1 million people under RCP6.0.
Benin is the (ranking-value: pop-abs-temp_BEN value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Benin’s ranking is (ranking-value: pop-abs-time_BEN value: position time:2081-2100 scenario:rcp60).
Benin is the (ranking-value: pop-abs-temp_BEN value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Burkina Faso’s annual land ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Burkina Faso’s annual land
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 10900 km<sup>2</sup> (4.0% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 9600 km<sup>2</sup> (4.0% of the land area). By the middle of the century, changes reach 2100 km<sup>2</sup> under RCP2.6 and 5500 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 10900 km<sup>2</sup> (4.0% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 9600 km<sup>2</sup> (4.0% of the land area). By the middle of the century, changes reach 2100 km<sup>2</sup> under RCP2.6 and 5500 km<sup>2</sup> under RCP6.0.
Burkina Faso is the (ranking-value: land-abs-temp_BFA value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Burkina Faso’s ranking is (ranking-value: land-abs-time_BFA value: position time:2081-2100 scenario:rcp60).
Burkina Faso is the (ranking-value: land-abs-temp_BFA value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Burkina Faso’s annual po ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Burkina Faso’s annual po
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.6 million (3.3% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.4 million people (2.5% of the total population). By mid of the century changes expose 0.1 million people under RCP2.6 and 0.2 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.6 million (3.3% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.4 million people (2.5% of the total population). By mid of the century changes expose 0.1 million people under RCP2.6 and 0.2 million people under RCP6.0.
Burkina Faso is the (ranking-value: pop-abs-temp_BFA value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Burkina Faso’s ranking is (ranking-value: pop-abs-time_BFA value: position time:2081-2100 scenario:rcp60).
Burkina Faso is the (ranking-value: pop-abs-temp_BFA value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Bangladesh’s annual land ar ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Bangladesh’s annual land ar
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 300 km<sup>2</sup> (0.2% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 100 km<sup>2</sup> (0.2% of the land area). By the middle of the century, changes reach 200 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 300 km<sup>2</sup> (0.2% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 100 km<sup>2</sup> (0.2% of the land area). By the middle of the century, changes reach 200 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0.
Bangladesh is the (ranking-value: land-abs-temp_BGD value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Bangladesh’s ranking is (ranking-value: land-abs-time_BGD value: position time:2081-2100 scenario:rcp60).
Bangladesh is the (ranking-value: land-abs-temp_BGD value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Bangladesh’s annual popu ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Bangladesh’s annual popu
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 million (0.1% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.0% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and -0.1 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 million (0.1% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.0% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and -0.1 million people under RCP6.0.
Bangladesh is the (ranking-value: pop-abs-temp_BGD value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Bangladesh’s ranking is (ranking-value: pop-abs-time_BGD value: position time:2081-2100 scenario:rcp60).
Bangladesh is the (ranking-value: pop-abs-temp_BGD value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Bulgaria’s annual land area ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Bulgaria’s annual land area
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 5500 km<sup>2</sup> (5.1% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 4400 km<sup>2</sup> (5.1% of the land area). By the middle of the century, changes reach 1000 km<sup>2</sup> under RCP2.6 and 2000 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 5500 km<sup>2</sup> (5.1% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 4400 km<sup>2</sup> (5.1% of the land area). By the middle of the century, changes reach 1000 km<sup>2</sup> under RCP2.6 and 2000 km<sup>2</sup> under RCP6.0.
Bulgaria is the (ranking-value: land-abs-temp_BGR value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Bulgaria’s ranking is (ranking-value: land-abs-time_BGR value: position time:2081-2100 scenario:rcp60).
Bulgaria is the (ranking-value: land-abs-temp_BGR value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Bulgaria’s annual popula ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Bulgaria’s annual popula
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 million (2.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.1 million people (1.3% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 million (2.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.1 million people (1.3% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0.
Bulgaria is the (ranking-value: pop-abs-temp_BGR value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Bulgaria’s ranking is (ranking-value: pop-abs-time_BGR value: position time:2081-2100 scenario:rcp60).
Bulgaria is the (ranking-value: pop-abs-temp_BGR value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
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...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Bahamas’ annual land area a ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Bahamas’ annual land area a
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 100 km<sup>2</sup> (1.1% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 0 km<sup>2</sup> (1.1% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 100 km<sup>2</sup> (1.1% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 0 km<sup>2</sup> (1.1% of the land area). By the middle of the century, changes reach 0 km<sup>2</sup> under RCP2.6 and 0 km<sup>2</sup> under RCP6.0.
Bahamas is the (ranking-value: land-abs-temp_BHS value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Bahamas’ ranking is (ranking-value: land-abs-time_BHS value: position time:2081-2100 scenario:rcp60).
Bahamas is the (ranking-value: land-abs-temp_BHS value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### Population exposed to droughts ### Population exposed to droughts
...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Bahamas’ annual populati ...@@ -84,7 +86,8 @@ However, at today’s level of 1°C of global warming Bahamas’ annual populati
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (0.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.0% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0. Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (0.0% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.0 million people (0.0% of the total population). By mid of the century changes expose 0.0 million people under RCP2.6 and 0.0 million people under RCP6.0.
Bahamas is the (ranking-value: pop-abs-temp_BHS value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in population exposed to droughts towards the end of the century under a higher-emissions scenario (RCP6.0), Bahamas’ ranking is (ranking-value: pop-abs-time_BHS value: position time:2081-2100 scenario:rcp60).
Bahamas is the (ranking-value: pop-abs-temp_BHS value: position temperature:2) strongest affected by droughts at 2°C of global warming.
### How is soil moisture calculated? ### How is soil moisture calculated?
......
...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Bosnia and Herzegovina’s an ...@@ -67,7 +67,9 @@ However, at today’s level of 1°C global warming Bosnia and Herzegovina’s an
Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 1400 km<sup>2</sup> (2.8% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 200 km<sup>2</sup> (2.8% of the land area). By the middle of the century, changes reach 100 km<sup>2</sup> under RCP2.6 and 400 km<sup>2</sup> under RCP6.0. Following the higher-emissions scenario (RCP6.0) the land area affected by droughts is expected to increase by 1400 km<sup>2</sup> (2.8% of the land area) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would only reach 200 km<sup>2</sup> (2.8% of the land area). By the middle of the century, changes reach 100 km<sup>2</sup> under RCP2.6 and 400 km<sup>2</sup> under RCP6.0.
Bosnia and Herzegovina is the (ranking-value: land-abs-temp_BIH value: position temperature:2) strongest affected by droughts at 2°C of global warming. For the absolute change in land area affected by droughts towards the end of the century under a high-emissions scenario (RCP6.0), Bosnia and Herzegovina’s ranking is (ranking-value: land-abs-time_BIH value: position time:2081-2100 scenario:rcp60).
Bosnia and Herzegovina is the (ranking-value: land-abs-temp_BIH value: position temperature:2) strongest affected by droughts at 2°C of global warming.