// OVERVIEW - Establish the data to be displayed
var data = new Array(
		     new Array("Baseline temperature and precipitation", "The average historical temperature and precipitation from the 1961 to 1990 period are shown. Results are interpolated from station observations using Climate BC downscaling software. The map is considered more robust in areas where there are more stations. Annual average (1961-1990) air temperature ranged from 0°C to 8°C in the southern part of the Columbia Basin. Temperatures in Kimberley ranged from 2°C to 6°C while temperatures in Elkford were found to be 0°C to 4°C. In the central and North part of the basin (in high elevation areas), the temperature ranged from 0°C to -6°C.  Annual precipitation on the windward side of the Rocky Mountains ranged from 1000 mm/yr to over 2500 mm/yr.  Less precipitation occurred from Golden down through Kimberley and Cranbrook; from 250 mm/yr to 1000 mm/yr. The map shows average precipitation in Kimberley during the baseline period of 61-90, was 500 mm/yr to 1000 mm/yr, while it was 750 mm/yr to 1250 mm/yr in Elkford.", "Data: Climate BC downscaling software<br>Analysis: PCIC staff<br>Support: Integrated Land Management Bureau of the BC Ministry of Agriculture and Lands, BC Hydro, and BC Ministry of Environment", "0_Annual_Total_Precipitation_(1961-1990).png", "1_Annual_Mean_Temperature_(1961-1990).png"),
		     new Array("Projected temperature", "Projected changes in winter and summer mean temperature by the 2050s are shown. Projections are represented as °C differences from the 1961 to 1990 baseline climatology. Increases of 2.5°C to 3.5°C are projected in the winter, and smaller changes in the summer. These results are from a single Regional Climate Model (RCM) projection on a 45 km grid. The maps illustrate plausible future changes by the 2050s, but must be considered in combination with a range of projections. Generally Projected Winter Mean Temperature is expected in increase by 2°C to 3°C for both Kimberley and Elkford, while Summer projections show increases in the range of 2°C to 3°C for most of the region. Winter projections for precipitatin show a -5% to 10% change for most of the region. On the eastern edge of the region, the projections range from 20% to 30%. Further east of the region, there are projections for increases up to 40%, 0% to 5% for Kimberley and 20% to 25% for Elkford. Summer projections range from 0% to 5% for Kimberley and -10% to -5% for Elkford.","Climate modelling: The Canadian Regional Climate Model version 4.1.1 (CRCM4) was developed by the Ouranos Consortium in collaboration with the Canadian Centre for Climate Modelling and Analysis (Environment Canada).<br>RCM data: provided by the Ouranos Climate Simulations Team for runs acs and act forced with CGCM3 following the A2 emissions scenario run 4.<br>Analysis: PCIC staff<br>Support: Integrated Land Management Bureau of the BC Ministry of Agriculture and Lands, BC Hydro, and BC Ministry of Environment", "5_Winter_Mean_Temperature_(2041-2070)_Projection.png", "3_Summer_Mean_Temperature_(2041-2070)_Projection.png"),
		     new Array("Projected precipitation", "Projected changes in winter and summer precipitation by the 2050s are shown. Projections are represented as % differences from the 1961 to 1990 baseline climatology. Increases of 15% to 30% are projected in the winter, and smaller changes in the summer. These results are from a single Regional Climate Model (RCM) projection on a 45 km grid. The maps illustrate plausible future changes by the 2050s, but must be considered in combination with a range of projections. Winter projections range from -5% to 10% for most of the region. On the eastern edge of the region, the projections range from 20% to 30%. Further east of the region, there are projections for increases up to 40%. For Kimberley the projected increase is within the range of  0% to 5%, and is 20% to 25%  for Elkford.  Summer projections range from -0% to 5% for Kimberley and -10% to -5% for Elkford.","Climate modelling: The Canadian Regional Climate Model version 4.1.1 (CRCM4) was developed by the Ouranos Consortium in collaboration with the Canadian Centre for Climate Modelling and Analysis (Environment Canada).<br>RCM data: provided by the Ouranos Climate Simulations Team for runs acs and act forced with CGCM3 following the A2 emissions scenario run 4.<br>Analysis: PCIC staff<br>Support: Integrated Land Management Bureau of the BC Ministry of Agriculture and Lands, BC Hydro, and BC Ministry of Environment", "10_Winter_Precipitation_(2041-2070)_Projection.png", "8_Summer_Precipitation_(2041-2070)_Projection.png"),
		     new Array("Projected snow water equivalent", "Projected changes in spring mean snow water equivalent (SWE) by the 2050s are shown. Projections are represented as % differences from the 1961 to 1990 baseline climatology. Spring projections range from -30% to 0%. These are higher decreases than areas to the east of the region. These results are from a single Regional Climate Model (RCM) projection on a 45 km grid. The map illustrates plausible future changes by the 2050s, but must be considered in combination with a range of projections. For the Columbia region Spring projections range from -30% to 0%. These are higher decreases than areas to the east of the region.","Climate modelling: The Canadian Regional Climate Model version 4.1.1 (CRCM4) was developed by the Ouranos Consortium in collaboration with the Canadian Centre for Climate Modelling and Analysis (Environment Canada).<br>RCM data: provided by the Ouranos Climate Simulations Team for runs acs and act forced with CGCM3 following the A2 emissions scenario run 4.<br>Analysis: PCIC staff<br>Support: Integrated Land Management Bureau of the BC Ministry of Agriculture and Lands, BC Hydro, and BC Ministry of Environment", "13_Spring_Snow_Water_Equivalent_(2041-2070)_Projection2.jpg"),
	new Array("Projected high-resolution maps", "Projected Annual Mean Temperature, Precipitation and Growing Degree Days by 2050s is shown. Results are from a single Global Climate Model projection using ClimateBC downscaling software. These maps illustrate one plausible future projection for the 2050s, but must be considered in combination with a range of projections. See <A HREF=\"http://www.pacificclimate.org/resources/publications/ \"> Hydro-climatology and Future Climate Impacts in British Columbia </A> for more information. ","Climate modelling: the Canadian Global Climate Model version 3 (CGCM3) was developed by the Canadian Centre for Climate Modelling and Analysis (Environment Canada). <br>Data for CGCM3 following the A2 emissions scenario run 4 was obtained from Lawrence Livermore National Laboratory.<br>Analysis: PCIC staff<br>Support: BC Hydro, BC Ministry of Environment, C-CIARN BC, and Natural Resources Canada","cb_cgcm3_mat.jpg","cb_cgcm3_map.jpg", "cb_cgcm3_gdd.jpg" ));