Name: Daily rainfall - (change in 99th percentile, in %)
Display Field:
Type: Group Layer
Geometry Type: null
Description: Change in the magnitude of the 99th percentile of daily precipitation (in %), at 2040 and 2090. Projected change in 99th percentile of daily precipitation is relative to 1986-2005.
Fig 4-37, p.102
Name: Daily rainfall - 99th percentile change % by 2040 at RCP2.6
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Change in the magnitude of the 99th percentile of daily precipitation (in %), at 2040. Projected change in 99th percentile of daily precipitation is relative to 1986-2005.
Fig 4-37, p.102
Name: Daily rainfall - 99th percentile change % by 2040 at RCP4.5
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Change in the magnitude of the 99th percentile of daily precipitation (in %), at 2040. Projected change in 99th percentile of daily precipitation is relative to 1986-2005.
Fig 4-37, p.102
Name: Daily rainfall - 99th percentile change % by 2040 at RCP6.0
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Change in the magnitude of the 99th percentile of daily precipitation (in %), at 2040. Projected change in 99th percentile of daily precipitation is relative to 1986-2005.
Fig 4-37, p.102
Name: Daily rainfall - 99th percentile change % by 2040 at RCP8.5
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Change in the magnitude of the 99th percentile of daily precipitation (in %), at 2040. Projected change in 99th percentile of daily precipitation is relative to 1986-2005.
Fig 4-37, p.102
Name: Daily rainfall - 99th percentile change % by 2090 at RCP2.6
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Change in the magnitude of the 99th percentile of daily precipitation (in %), at 2090. Projected change in 99th percentile of daily precipitation is relative to 1986-2005.
Fig 4-37, p.102
Name: Daily rainfall - 99th percentile change % by 2090 at RCP4.5
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Change in the magnitude of the 99th percentile of daily precipitation (in %), at 2090. Projected change in 99th percentile of daily precipitation is relative to 1986-2005.
Fig 4-37, p.102
Name: Daily rainfall - 99th percentile change % by 2090 at RCP6.0
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Change in the magnitude of the 99th percentile of daily precipitation (in %), at 2090. Projected change in 99th percentile of daily precipitation is relative to 1986-2005.
Fig 4-37, p.102
Name: Daily rainfall - 99th percentile change % by 2090 at RCP8.5
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Change in the magnitude of the 99th percentile of daily precipitation (in %), at 2090. Projected change in 99th percentile of daily precipitation is relative to 1986-2005.
Fig 4-37, p.102
Description: Projected increase in number of hot days per year (Tmax >25°C) at 2040 & 2090, for the Wellington Region. Projected change in hot days is relative to 1986-2005.
Description: Projected increase in number of hot days per year (Tmax >25°C) at 2040 & 2090, for the Wellington Region. Projected change in hot days is relative to 1986-2005.
Description: Projected increase in number of hot days per year (Tmax >25°C) at 2040 & 2090, for the Wellington Region. Projected change in hot days is relative to 1986-2005.
Description: Projected increase in number of hot days per year (Tmax >25°C) at 2040 & 2090, for the Wellington Region. Projected change in hot days is relative to 1986-2005.
Description: Projected increase in number of hot days per year (Tmax >25°C) at 2040 & 2090, for the Wellington Region. Projected change in hot days is relative to 1986-2005.
Description: Projected increase in number of hot days per year (Tmax >25°C) at 2040 & 2090, for the Wellington Region. Projected change in hot days is relative to 1986-2005.
Description: Projected increase in number of hot days per year (Tmax >25°C) at 2040 & 2090, for the Wellington Region. Projected change in hot days is relative to 1986-2005.
Description: Projected increase in number of hot days per year (Tmax >25°C) at 2040 & 2090, for the Wellington Region. Projected change in hot days is relative to 1986-2005.
Description: Projected increase in number of hot days per year (Tmax >25°C) at 2040 & 2090, for the Wellington Region. Projected change in hot days is relative to 1986-2005.
Description: Projected decrease in number of cold nights (frosts) per year (Tmin <0°C) at 2040 and 2090, for the Wellington Region.
Figure 4-19, p.72. Projected change in cold nights is relative to 1995. The numbers on the scale refer to the decrease in the number of cold nights, e.g. parts of the Tararua Ranges are projected to experience more than 30 fewer cold nights per year by 2090 under RCP8.5 at 2090.
Description: Projected decrease in number of cold nights (frosts) per year (Tmin <0°C) at 2040, for the Wellington Region.
Figure 4-19, p.72. Projected change in cold nights is relative to 1995. The numbers on the scale refer to the decrease in the number of cold nights, e.g. parts of the Tararua Ranges are projected to experience more than 30 fewer cold nights per year by 2090 under RCP8.5 at 2090.
Description: Projected decrease in number of cold nights (frosts) per year (Tmin <0°C) at 2040, for the Wellington Region.
Figure 4-19, p.72. Projected change in cold nights is relative to 1995. The numbers on the scale refer to the decrease in the number of cold nights, e.g. parts of the Tararua Ranges are projected to experience more than 30 fewer cold nights per year by 2090 under RCP8.5 at 2090.
Description: Projected decrease in number of cold nights (frosts) per year (Tmin <0°C) at 2040, for the Wellington Region.
Figure 4-19, p.72. Projected change in cold nights is relative to 1995. The numbers on the scale refer to the decrease in the number of cold nights, e.g. parts of the Tararua Ranges are projected to experience more than 30 fewer cold nights per year by 2090 under RCP8.5 at 2090.
Description: Projected decrease in number of cold nights (frosts) per year (Tmin <0°C) at 2040, for the Wellington Region.
Figure 4-19, p.72. Projected change in cold nights is relative to 1995. The numbers on the scale refer to the decrease in the number of cold nights, e.g. parts of the Tararua Ranges are projected to experience more than 30 fewer cold nights per year by 2090 under RCP8.5 at 2090.
Description: Projected decrease in number of cold nights (frosts) per year (Tmin <0°C) at 2090, for the Wellington Region.
Figure 4-19, p.72. Projected change in cold nights is relative to 1995. The numbers on the scale refer to the decrease in the number of cold nights, e.g. parts of the Tararua Ranges are projected to experience more than 30 fewer cold nights per year by 2090 under RCP8.5 at 2090.
Description: Projected decrease in number of cold nights (frosts) per year (Tmin <0°C) at 2090, for the Wellington Region.
Figure 4-19, p.72. Projected change in cold nights is relative to 1995. The numbers on the scale refer to the decrease in the number of cold nights, e.g. parts of the Tararua Ranges are projected to experience more than 30 fewer cold nights per year by 2090 under RCP8.5 at 2090.
Description: Projected decrease in number of cold nights (frosts) per year (Tmin <0°C) at 2090, for the Wellington Region.
Figure 4-19, p.72. Projected change in cold nights is relative to 1995. The numbers on the scale refer to the decrease in the number of cold nights, e.g. parts of the Tararua Ranges are projected to experience more than 30 fewer cold nights per year by 2090 under RCP8.5 at 2090.
Description: Projected decrease in number of cold nights (frosts) per year (Tmin <0°C) at 2040 & 2090 for RCP 4.5 and RCP8.5, for the Wellington Region.
Figure 4-19, p.72. Projected change in cold nights is relative to 1995. The numbers on the scale refer to the decrease in the number of cold nights, e.g. parts of the Tararua Ranges are projected to experience more than 30 fewer cold nights per year by 2090 under RCP8.5 at 2090.
Name: Potential evapotranspiration deficit (PED, changes in mm accumulation per year)
Display Field:
Type: Group Layer
Geometry Type: null
Description: Projected changes in Potential Evapotranspiration Deficit (PED, in mm accumulation over the July-June ‘hydrologic year’). Fig 4-42, p.107.
Description: Projected changes in Potential Evapotranspiration Deficit (PED, in mm accumulation over the July-June ‘hydrologic year’). Fig 4-42, p.107.
Description: Projected changes in Potential Evapotranspiration Deficit (PED, in mm accumulation over the July-June ‘hydrologic year’). Fig 4-42, p.107.
Description: Projected changes in Potential Evapotranspiration Deficit (PED, in mm accumulation over the July-June ‘hydrologic year’). Fig 4-42, p.107.
Description: Projected changes in Potential Evapotranspiration Deficit (PED, in mm accumulation over the July-June ‘hydrologic year’). Fig 4-42, p.107.
Description: Projected changes in Potential Evapotranspiration Deficit (PED, in mm accumulation over the July-June ‘hydrologic year’). Fig 4-42, p.107.
Description: Projected changes in Potential Evapotranspiration Deficit (PED, in mm accumulation over the July-June ‘hydrologic year’). Fig 4-42, p.107.
Description: Projected changes in Potential Evapotranspiration Deficit (PED, in mm accumulation over the July-June ‘hydrologic year’). Fig 4-42, p.107.
Description: Projected changes in Potential Evapotranspiration Deficit (PED, in mm accumulation over the July-June ‘hydrologic year’). Fig 4-42, p.107.
Name: Potential evapotranspiration deficit (PED) days over 300mm (changes in days per year)
Display Field:
Type: Group Layer
Geometry Type: null
Description: Projected changes in the number of days per year of Potential Evapotranspiration Deficit (PED) accumulation over 300 mm (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-10, p.139.
Description: Projected changes in the number of days per year of Potential Evapotranspiration Deficit (PED) accumulation over 300 mm (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-10, p.139.
Description: Projected changes in the number of days per year of Potential Evapotranspiration Deficit (PED) accumulation over 300 mm (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-10, p.139.
Description: Projected changes in the number of days per year of Potential Evapotranspiration Deficit (PED) accumulation over 300 mm (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-10, p.139.
Description: Projected changes in the number of days per year of Potential Evapotranspiration Deficit (PED) accumulation over 300 mm (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-10, p.139.
Description: Projected changes in the number of days per year of Potential Evapotranspiration Deficit (PED) accumulation over 300 mm (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-10, p.139.
Description: Projected changes in the number of days per year of Potential Evapotranspiration Deficit (PED) accumulation over 300 mm (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-10, p.139.
Description: Projected changes in the number of days per year of Potential Evapotranspiration Deficit (PED) accumulation over 300 mm (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-10, p.139.
Description: Projected changes in the number of days per year of Potential Evapotranspiration Deficit (PED) accumulation over 300 mm (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-10, p.139.
Name: Soil moisture deficit days (changes in days per year)
Display Field:
Type: Group Layer
Geometry Type: null
Description: Projected changes in the number of days per year of soil moisture deficit (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-9. p.138
Name: Soil moisture deficit days changes by 2040 at RCP2.6
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Projected changes in the number of days per year of soil moisture deficit (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-9. p.138
Name: Soil moisture deficit days changes by 2040 at RCP4.5
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Projected changes in the number of days per year of soil moisture deficit (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-9. p.138
Name: Soil moisture deficit days changes by 2040 at RCP6.0
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Projected changes in the number of days per year of soil moisture deficit (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-9. p.138
Name: Soil moisture deficit days changes by 2040 at RCP8.5
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Projected changes in the number of days per year of soil moisture deficit (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-9. p.138
Name: Soil moisture deficit days changes by 2090 at RCP2.6
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Projected changes in the number of days per year of soil moisture deficit (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-9. p.138
Name: Soil moisture deficit days changes by 2090 at RCP4.5
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Projected changes in the number of days per year of soil moisture deficit (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-9. p.138
Name: Soil moisture deficit days changes by 2090 at RCP6.0
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Projected changes in the number of days per year of soil moisture deficit (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-9. p.138
Name: Soil moisture deficit days changes by 2090 at RCP8.5
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Projected changes in the number of days per year of soil moisture deficit (accumulation over the July-June ‘hydrologic year’) for the Wellington Region. Fig 5-9. p.138
Description: Fig 4.1, Projected annual and seasonal mean temperature changes at 2040 (2031-2050 average). Relative to 1986-2005 average, for the IPCC RCP4.5 scenario, p.50
Description: Projected changes in the annual number of ‘snow days’ (in days per year) at 2040 and 2090, compared to 1986-2005 baseline. Fig 4-36, p.96. Changes in snow days have been estimated from the Regional Climate Model output. This was done by counting precipitation days where the mean temperature was below the freezing point.
Description: Projected changes in the annual number of ‘snow days’ (in days per year) at 2040, compared to 1986-2005 baseline. Fig 4-36, p.96. Changes in snow days have been estimated from the Regional Climate Model output. This was done by counting precipitation days where the mean temperature was below the freezing point.
Description: Projected changes in the annual number of ‘snow days’ (in days per year) at 2040, compared to 1986-2005 baseline. Fig 4-36, p.96. Changes in snow days have been estimated from the Regional Climate Model output. This was done by counting precipitation days where the mean temperature was below the freezing point.
Description: Projected changes in the annual number of ‘snow days’ (in days per year) at 2040, compared to 1986-2005 baseline. Fig 4-36, p.96. Changes in snow days have been estimated from the Regional Climate Model output. This was done by counting precipitation days where the mean temperature was below the freezing point.
Description: Projected changes in the annual number of ‘snow days’ (in days per year) at 2040, compared to 1986-2005 baseline. Fig 4-36, p.96. Changes in snow days have been estimated from the Regional Climate Model output. This was done by counting precipitation days where the mean temperature was below the freezing point.
Description: Projected changes in the annual number of ‘snow days’ (in days per year) at 2090, compared to 1986-2005 baseline. Fig 4-36, p.96. Changes in snow days have been estimated from the Regional Climate Model output. This was done by counting precipitation days where the mean temperature was below the freezing point.
Description: Projected changes in the annual number of ‘snow days’ (in days per year) at 2090, compared to 1986-2005 baseline. Fig 4-36, p.96. Changes in snow days have been estimated from the Regional Climate Model output. This was done by counting precipitation days where the mean temperature was below the freezing point.
Description: Projected changes in the annual number of ‘snow days’ (in days per year) at 2090, compared to 1986-2005 baseline. Fig 4-36, p.96. Changes in snow days have been estimated from the Regional Climate Model output. This was done by counting precipitation days where the mean temperature was below the freezing point.
Description: Projected changes in the annual number of ‘snow days’ (in days per year) at 2090, compared to 1986-2005 baseline. Fig 4-36, p.96. Changes in snow days have been estimated from the Regional Climate Model output. This was done by counting precipitation days where the mean temperature was below the freezing point.
Description: Projected change in annual relative humidity (change in relative humidity, which is measured in %), for the Wellington Region. Projected change in relative humidity is relative to 1986-2005.
Description: Projected change in annual relative humidity (change in relative humidity, which is measured in %), for the Wellington Region. Projected change in relative humidity is relative to 1986-2005.
Description: Projected change in annual relative humidity (change in relative humidity, which is measured in %), for the Wellington Region. Projected change in relative humidity is relative to 1986-2005.
Description: Projected change in annual relative humidity (change in relative humidity, which is measured in %), for the Wellington Region. Projected change in relative humidity is relative to 1986-2005.
Description: Projected change in annual relative humidity (change in relative humidity, which is measured in %), for the Wellington Region. Projected change in relative humidity is relative to 1986-2005.
Description: Projected change in annual relative humidity (change in relative humidity, which is measured in %), for the Wellington Region. Projected change in relative humidity is relative to 1986-2005.
Description: Projected change in annual relative humidity (change in relative humidity, which is measured in %), for the Wellington Region. Projected change in relative humidity is relative to 1986-2005.
Description: Projected change in annual relative humidity (change in relative humidity, which is measured in %), for the Wellington Region. Projected change in relative humidity is relative to 1986-2005.
Description: Projected change in annual relative humidity (change in relative humidity, which is measured in %), for the Wellington Region. Projected change in relative humidity is relative to 1986-2005.