Commit b1c36b9d authored by Mahé Perrette's avatar Mahé Perrette
Browse files

fix comma for country's population

parent 685a858d
......@@ -78,7 +78,7 @@ France is the (ranking-value: land-abs-temp_FRA value: position temperature:2) s
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of France’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming France’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) higher than without climate change and amount to 0.1% of the total population. The level of change ranges from 0.0 % to 5.8% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, France’s annual population exposed to droughts is projected to increase by 0 million (i.e. 0.1% of the population) on average in comparison to a world without climate change. Under these conditions, 0.1% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.1 up to 0.9 million people.
However, at today’s level of 1°C of global warming France’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) higher than without climate change and amount to 0.1% of the total population. The level of change ranges from 0.0 % to 5.8% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, France’s annual population exposed to droughts is projected to increase by 0.0 million (i.e. 0.1% of the population) on average in comparison to a world without climate change. Under these conditions, 0.1% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.1 up to 0.9 million people.
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.
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......@@ -78,7 +78,7 @@ Faroe Islands is the (ranking-value: land-abs-temp_FRO value: position temperatu
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Faroe Islands’ population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Faroe Islands’ annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) lower than without climate change and amount to 0% of the total population. The level of change ranges from 0.0 % to 0.2% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Faroe Islands’ annual population exposed to droughts is projected to decrease by 0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from 0.0 up to 0.0 million people.
However, at today’s level of 1°C of global warming Faroe Islands’ annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) lower than without climate change and amount to 0% of the total population. The level of change ranges from 0.0 % to 0.2% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Faroe Islands’ annual population exposed to droughts is projected to decrease by 0.0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from 0.0 up to 0.0 million people.
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.
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......@@ -78,7 +78,7 @@ Micronesia is the (ranking-value: land-abs-temp_FSM value: position temperature:
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Micronesia’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Micronesia’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) lower than without climate change and amount to 0% of the total population. The level of change ranges from -0.2 % to 12.4% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Micronesia’s annual population exposed to droughts is projected to decrease by 0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from 0.0 up to 0.0 million people.
However, at today’s level of 1°C of global warming Micronesia’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) lower than without climate change and amount to 0% of the total population. The level of change ranges from -0.2 % to 12.4% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Micronesia’s annual population exposed to droughts is projected to decrease by 0.0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from 0.0 up to 0.0 million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 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 0.1 million people (100.0% 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.
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......@@ -78,7 +78,7 @@ Gabon is the (ranking-value: land-abs-temp_GAB value: position temperature:2) st
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Gabon’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Gabon’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) lower than without climate change and amount to 0% of the total population. The level of change ranges from -0.1 % to 1.6% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Gabon’s annual population exposed to droughts is projected to increase by 0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.0 million people.
However, at today’s level of 1°C of global warming Gabon’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) lower than without climate change and amount to 0% of the total population. The level of change ranges from -0.1 % to 1.6% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Gabon’s annual population exposed to droughts is projected to increase by 0.0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.0 million people.
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.
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......@@ -78,7 +78,7 @@ United Kingdom is the (ranking-value: land-abs-temp_GBR value: position temperat
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of United Kingdom’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming United Kingdom’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) higher than without climate change and amount to 0.0% of the total population. The level of change ranges from -0.2 % to 0.9% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, United Kingdom’s annual population exposed to droughts is projected to increase by 0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0.0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.1 up to 0.1 million people.
However, at today’s level of 1°C of global warming United Kingdom’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) higher than without climate change and amount to 0.0% of the total population. The level of change ranges from -0.2 % to 0.9% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, United Kingdom’s annual population exposed to droughts is projected to increase by 0.0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0.0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.1 up to 0.1 million people.
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.
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......@@ -78,7 +78,7 @@ Georgia is the (ranking-value: land-abs-temp_GEO value: position temperature:2)
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Georgia’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Georgia’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.5% of the total population) higher than without climate change and amount to 0.3% of the total population. The level of change ranges from -1.1 % to 17.4% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Georgia’s annual population exposed to droughts is projected to increase by 0 million (i.e. 0.8% of the population) on average in comparison to a world without climate change. Under these conditions, 0.6% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.3 million people.
However, at today’s level of 1°C of global warming Georgia’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.5% of the total population) higher than without climate change and amount to 0.3% of the total population. The level of change ranges from -1.1 % to 17.4% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Georgia’s annual population exposed to droughts is projected to increase by 0.0 million (i.e. 0.8% of the population) on average in comparison to a world without climate change. Under these conditions, 0.6% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.3 million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 million (1.6% 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 (0.8% 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.
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......@@ -78,7 +78,7 @@ Ghana is the (ranking-value: land-abs-temp_GHA value: position temperature:2) st
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Ghana’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Ghana’s annual population exposed to droughts is, on average, already 0.3 million (i.e. 1.0% of the total population) higher than without climate change and amount to 0.6% of the total population. The level of change ranges from 0.3 % to 37.1% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Ghana’s annual population exposed to droughts is projected to increase by 0 million (i.e. 2.5% of the population) on average in comparison to a world without climate change. Under these conditions, 1.7% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from 0.0 up to 6.7 million people.
However, at today’s level of 1°C of global warming Ghana’s annual population exposed to droughts is, on average, already 0.3 million (i.e. 1.0% of the total population) higher than without climate change and amount to 0.6% of the total population. The level of change ranges from 0.3 % to 37.1% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Ghana’s annual population exposed to droughts is projected to increase by 0.7 million (i.e. 2.5% of the population) on average in comparison to a world without climate change. Under these conditions, 1.7% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from 0.0 up to 6.7 million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.8 million (3.2% of the total population) towards the end of the century (2081-2100). Following the low emission scenario (RCP2.6) the change would expose 0.5 million people (2.0% of the total population). By mid of the century changes expose 0.3 million people under RCP2.6 and 0.5 million people under RCP6.0.
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......@@ -78,7 +78,7 @@ Guinea is the (ranking-value: land-abs-temp_GIN value: position temperature:2) s
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Guinea’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Guinea’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.2% of the total population) higher than without climate change and amount to 0.0% of the total population. The level of change ranges from -0.9 % to 26.5% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Guinea’s annual population exposed to droughts is projected to increase by 0 million (i.e. 0.4% of the population) on average in comparison to a world without climate change. Under these conditions, 0.0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.1 up to 1.9 million people.
However, at today’s level of 1°C of global warming Guinea’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.2% of the total population) higher than without climate change and amount to 0.0% of the total population. The level of change ranges from -0.9 % to 26.5% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Guinea’s annual population exposed to droughts is projected to increase by 0.0 million (i.e. 0.4% of the population) on average in comparison to a world without climate change. Under these conditions, 0.0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.1 up to 1.9 million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 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 0.1 million people (0.8% 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.
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......@@ -78,7 +78,7 @@ Guadeloupe is the (ranking-value: land-abs-temp_GLP value: position temperature:
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Guadeloupe’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Guadeloupe’s annual population exposed to droughts is, on average, already nan million (i.e. 0.0% of the total population) higher than without climate change and amount to 0% of the total population. The level of change ranges from 0.0 % to 4.9% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Guadeloupe’s annual population exposed to droughts is projected to increase by 0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from nan up to nan million people.
However, at today’s level of 1°C of global warming Guadeloupe’s annual population exposed to droughts is, on average, already nan million (i.e. 0.0% of the total population) higher than without climate change and amount to 0% of the total population. The level of change ranges from 0.0 % to 4.9% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Guadeloupe’s annual population exposed to droughts is projected to increase by nan million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from nan up to nan million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to decrease by nan 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 nan million people (0.0% of the total population). By mid of the century changes expose nan million people under RCP2.6 and nan million people under RCP6.0.
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......@@ -78,7 +78,7 @@ Gambia is the (ranking-value: land-abs-temp_GMB value: position temperature:2) s
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Gambia’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Gambia’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.8% of the total population) higher than without climate change and amount to 2.2% of the total population. The level of change ranges from -4.6 % to 32.7% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Gambia’s annual population exposed to droughts is projected to increase by 0 million (i.e. 1.1% of the population) on average in comparison to a world without climate change. Under these conditions, 3.4% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.1 up to 0.4 million people.
However, at today’s level of 1°C of global warming Gambia’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.8% of the total population) higher than without climate change and amount to 2.2% of the total population. The level of change ranges from -4.6 % to 32.7% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Gambia’s annual population exposed to droughts is projected to increase by 0.0 million (i.e. 1.1% of the population) on average in comparison to a world without climate change. Under these conditions, 3.4% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.1 up to 0.4 million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (1.9% 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 0.1 million people under RCP2.6 and 0.0 million people under RCP6.0.
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......@@ -78,7 +78,7 @@ Guinea-Bissau is the (ranking-value: land-abs-temp_GNB value: position temperatu
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Guinea-Bissau’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Guinea-Bissau’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.3% of the total population) higher than without climate change and amount to 0% of the total population. The level of change ranges from -3.1 % to 33.2% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Guinea-Bissau’s annual population exposed to droughts is projected to increase by 0 million (i.e. 0.8% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.4 million people.
However, at today’s level of 1°C of global warming Guinea-Bissau’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.3% of the total population) higher than without climate change and amount to 0% of the total population. The level of change ranges from -3.1 % to 33.2% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Guinea-Bissau’s annual population exposed to droughts is projected to increase by 0.0 million (i.e. 0.8% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.4 million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (1.9% 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 (0.3% 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.
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......@@ -78,7 +78,7 @@ Equatorial Guinea is the (ranking-value: land-abs-temp_GNQ value: position tempe
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Equatorial Guinea’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Equatorial Guinea’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) lower than without climate change and amount to 0% of the total population. The level of change ranges from 0.0 % to 13.1% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Equatorial Guinea’s annual population exposed to droughts is projected to decrease by 0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from 0.0 up to 0.1 million people.
However, at today’s level of 1°C of global warming Equatorial Guinea’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) lower than without climate change and amount to 0% of the total population. The level of change ranges from 0.0 % to 13.1% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Equatorial Guinea’s annual population exposed to droughts is projected to decrease by 0.0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from 0.0 up to 0.1 million people.
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.
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......@@ -78,7 +78,7 @@ Greece is the (ranking-value: land-abs-temp_GRC value: position temperature:2) s
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Greece’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Greece’s annual population exposed to droughts is, on average, already 0.1 million (i.e. 0.7% of the total population) higher than without climate change and amount to 0.3% of the total population. The level of change ranges from 0.0 % to 27.1% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Greece’s annual population exposed to droughts is projected to increase by 0 million (i.e. 1.2% of the population) on average in comparison to a world without climate change. Under these conditions, 1.2% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from 0.0 up to 1.1 million people.
However, at today’s level of 1°C of global warming Greece’s annual population exposed to droughts is, on average, already 0.1 million (i.e. 0.7% of the total population) higher than without climate change and amount to 0.3% of the total population. The level of change ranges from 0.0 % to 27.1% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Greece’s annual population exposed to droughts is projected to increase by 0.1 million (i.e. 1.2% of the population) on average in comparison to a world without climate change. Under these conditions, 1.2% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from 0.0 up to 1.1 million people.
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 (1.2% 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.
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......@@ -78,7 +78,7 @@ Greenland is the (ranking-value: land-abs-temp_GRL value: position temperature:2
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Greenland’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Greenland’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.1% of the total population) higher than without climate change and amount to 0.6% of the total population. The level of change ranges from -1.9 % to 17.5% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Greenland’s annual population exposed to droughts is projected to increase by 0 million (i.e. 0.5% of the population) on average in comparison to a world without climate change. Under these conditions, 0.5% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.0 million people.
However, at today’s level of 1°C of global warming Greenland’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.1% of the total population) higher than without climate change and amount to 0.6% of the total population. The level of change ranges from -1.9 % to 17.5% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Greenland’s annual population exposed to droughts is projected to increase by 0.0 million (i.e. 0.5% of the population) on average in comparison to a world without climate change. Under these conditions, 0.5% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.0 million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 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 (0.4% 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.
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......@@ -78,7 +78,7 @@ Guatemala is the (ranking-value: land-abs-temp_GTM value: position temperature:2
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Guatemala’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Guatemala’s annual population exposed to droughts is, on average, already 0.1 million (i.e. 0.4% of the total population) higher than without climate change and amount to 0.5% of the total population. The level of change ranges from 0.0 % to 8.4% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Guatemala’s annual population exposed to droughts is projected to increase by 0 million (i.e. 0.8% of the population) on average in comparison to a world without climate change. Under these conditions, 0.8% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 1.2 million people.
However, at today’s level of 1°C of global warming Guatemala’s annual population exposed to droughts is, on average, already 0.1 million (i.e. 0.4% of the total population) higher than without climate change and amount to 0.5% of the total population. The level of change ranges from 0.0 % to 8.4% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Guatemala’s annual population exposed to droughts is projected to increase by 0.1 million (i.e. 0.8% of the population) on average in comparison to a world without climate change. Under these conditions, 0.8% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 1.2 million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.3 million (1.9% 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.
......
......@@ -78,7 +78,7 @@ French Guiana is the (ranking-value: land-abs-temp_GUF value: position temperatu
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of French Guiana’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming French Guiana’s annual population exposed to droughts is, on average, already nan million (i.e. 0.1% of the total population) higher than without climate change and amount to 0.2% of the total population. The level of change ranges from 0.0 % to 18.1% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, French Guiana’s annual population exposed to droughts is projected to increase by 0 million (i.e. 0.3% of the population) on average in comparison to a world without climate change. Under these conditions, 0.5% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from nan up to nan million people.
However, at today’s level of 1°C of global warming French Guiana’s annual population exposed to droughts is, on average, already nan million (i.e. 0.1% of the total population) higher than without climate change and amount to 0.2% of the total population. The level of change ranges from 0.0 % to 18.1% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, French Guiana’s annual population exposed to droughts is projected to increase by nan million (i.e. 0.3% of the population) on average in comparison to a world without climate change. Under these conditions, 0.5% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from nan up to nan million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by nan 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 nan million people (0.6% of the total population). By mid of the century changes expose nan million people under RCP2.6 and nan million people under RCP6.0.
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......@@ -78,7 +78,7 @@ Guam is the (ranking-value: land-abs-temp_GUM value: position temperature:2) str
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Guam’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Guam’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) lower than without climate change and amount to 0% of the total population. The level of change ranges from 0.0 % to 10.6% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Guam’s annual population exposed to droughts is projected to decrease by 0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from 0.0 up to 0.0 million people.
However, at today’s level of 1°C of global warming Guam’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) lower than without climate change and amount to 0% of the total population. The level of change ranges from 0.0 % to 10.6% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Guam’s annual population exposed to droughts is projected to decrease by 0.0 million (i.e. 0.0% of the population) on average in comparison to a world without climate change. Under these conditions, 0% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from 0.0 up to 0.0 million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.2 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 0.2 million people (100.0% of the total population). By mid of the century changes expose 0.2 million people under RCP2.6 and 0.2 million people under RCP6.0.
......
......@@ -78,7 +78,7 @@ Guyana is the (ranking-value: land-abs-temp_GUY value: position temperature:2) s
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Guyana’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Guyana’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.3% of the total population) higher than without climate change and amount to 0.8% of the total population. The level of change ranges from -0.0 % to 23.6% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Guyana’s annual population exposed to droughts is projected to increase by 0 million (i.e. 0.9% of the population) on average in comparison to a world without climate change. Under these conditions, 0.9% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.1 million people.
However, at today’s level of 1°C of global warming Guyana’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.3% of the total population) higher than without climate change and amount to 0.8% of the total population. The level of change ranges from -0.0 % to 23.6% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Guyana’s annual population exposed to droughts is projected to increase by 0.0 million (i.e. 0.9% of the population) on average in comparison to a world without climate change. Under these conditions, 0.9% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.1 million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 million (3.9% 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 (0.3% 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.
......
......@@ -78,7 +78,7 @@ Honduras is the (ranking-value: land-abs-temp_HND value: position temperature:2)
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Honduras’ population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Honduras’ annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) higher than without climate change and amount to 0.1% of the total population. The level of change ranges from -0.6 % to 13.7% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Honduras’ annual population exposed to droughts is projected to increase by 0 million (i.e. 0.1% of the population) on average in comparison to a world without climate change. Under these conditions, 0.8% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.9 million people.
However, at today’s level of 1°C of global warming Honduras’ annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.0% of the total population) higher than without climate change and amount to 0.1% of the total population. The level of change ranges from -0.6 % to 13.7% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Honduras’ annual population exposed to droughts is projected to increase by 0.0 million (i.e. 0.1% of the population) on average in comparison to a world without climate change. Under these conditions, 0.8% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.9 million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.0 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 (0.0% 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.
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......@@ -78,7 +78,7 @@ Croatia is the (ranking-value: land-abs-temp_HRV value: position temperature:2)
Our definition of “drought” is quite strict, such that, without climate change, only 0.0% of Croatia’s population would be exposed to droughts each year, on average.
However, at today’s level of 1°C of global warming Croatia’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.4% of the total population) higher than without climate change and amount to 0.1% of the total population. The level of change ranges from -0.0 % to 18.0% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Croatia’s annual population exposed to droughts is projected to increase by 0 million (i.e. 0.9% of the population) on average in comparison to a world without climate change. Under these conditions, 0.4% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.5 million people.
However, at today’s level of 1°C of global warming Croatia’s annual population exposed to droughts is, on average, already 0.0 million (i.e. 0.4% of the total population) higher than without climate change and amount to 0.1% of the total population. The level of change ranges from -0.0 % to 18.0% for the individual combinations of global hydrological models and global climate models. At 2°C of global warming, Croatia’s annual population exposed to droughts is projected to increase by 0.0 million (i.e. 0.9% of the population) on average in comparison to a world without climate change. Under these conditions, 0.4% of the total population would be affected by droughts, on average. Across the individual combinations of global hydrological models and global climate models this expected level of change ranges from -0.0 up to 0.5 million people.
Following the higher-emissions scenario (RCP6.0) the population exposed to droughts is expected to increase by 0.1 million (2.2% 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.
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