Urban Influences on Temperature in New Jersey Dr. David A. Robinson
59 Slides6.38 MB
Urban Influences on Temperature in New Jersey Dr. David A. Robinson Professor, Department of Geography & New Jersey State Climatologist Rutgers University DIMACS/CCICADA Workshop on Urban Planning for Climate Events September 23, 2013
Outline - Urban climate - Urban heat island - Anatomy of the NJ/NY Metro heat island - Geography - Diurnal - Seasonal - Synoptic - Heat waves - Over time - What lies ahead
Urban Climate http://www.ucar.edu/communications/staffnotes/0603/cities.shtml
Outline - Urban climate - Urban heat island - Anatomy of the NJ/NY Metro heat island - Geography - Diurnal - Seasonal - Synoptic - Heat waves - Over time - What lies ahead
Urban Heat Islands Urban heat island refers to the increased local temperatures that result from urbanization. Occurs due to modifications to the energy balance that result when natural surfaces are paved and built upon or when human activities release heat into the environment. Several variables influence the magnitude of the heat island: population density, radiation, changes in heat storage, sensible and latent heat transfer.
Increased particulates associated with urban activity absorbs and scatters incoming solar radiation. May also reduce transfer of thermal radiation away from the urban environment. Buildings, often a part of urbanized areas, impact the radiation balance by albedo and energy transfer. Conduction and convection affect the energy balance to form urban heat island. The release of heat from buildings plays a major role in urban heat islands.
Late afternoon air temperature profile across the urban environment and beyond
Frequency of maximum urban heat island intensity at Newark for 80 summertime events Thuman, C.C., 2008. Summertime urban heat island in Newark, NJ and its relationship with urban particulate matter. Rutgers master’s thesis
Outline - Urban climate - Urban heat island - Anatomy of the NJ/NY Metro heat island - Geography - Diurnal - Seasonal - Synoptic - Heat waves - Over time - What lies ahead
Mid Atlantic from space: enhanced infrared (thermal) image
New Jersey from space: visible composite image
New Jersey: enhanced infrared (thermal) image Pater son Newark Elizab eth Trent on Camde n
Paterson Newark Elizabeth ASTER TIR image of NJ centered on the Watchung Mountains, ASTER Band 12 (9.075 um) was acquired July 3, 2001. Daytime image. Colors: Cold to warm to hot (blue to green to red). Center for Remote Sensing & Spatial Analysis, Rutgers University
Trenton cloud cloud Camden Center for Remote Sensing & Spatial Analysis, Rutgers University ASTER TIR image of NJ centered on Trenton, ASTER Band 12 (9.075 um) was acquired July 3, 2001. Daytime image. Colors: Cold to warm to hot (blue to green to red).
Human Population Density in the Mid Atlantic
Temperatures (deg F): 8AM EST, January 29, 2005 NJ Weather and Climate Network (njwxnet.org)
Metro NJ/NY temperatures at 1:15 AM: June 9, 2011 http://philiporton.com/2011/08/01/forecasting-coastal-urban-microclimates/
Outline - Urban climate - Urban heat island - Anatomy of the NJ/NY Metro heat island - Geography - Diurnal - Seasonal - Synoptic - Heat waves - Over time - What lies ahead
Hourly frequency of heat island events: Newark: June 10 – September 10, 2007 Thuman, C.C., 2008. Summertime urban heat island in Newark, NJ and its relationship with urban particulate matter. Rutgers master’s thesis
Dawn and Late Afternoon Temperature Profiles
Mean temperature (deg C) at midnight: September – November 1998 Gedzelman et al., 2003. Mesoscale aspects of the urban heat island around New York City. Theoretical and Applied Climatology
Two hour temperature change (deg C): 6 – 8 AM EST October 25, 1998 Gedzelman et al., 2003. Mesoscale aspects of the urban heat island around New York City. Theoretical and Applied Climatology
Three hour temperature change (deg C): 3 – 6 PM EST December 9, 1998 Gedzelman et al., 2003. Mesoscale aspects of the urban heat island around New York City. Theoretical and Applied Climatology
Negative Heat Island in Newark: June 10 – September 10, 2007 Thuman, C.C., 2008. Summertime urban heat island in Newark, NJ and its relationship with urban particulate matter. Rutgers master’s thesis
Outline - Urban climate - Urban heat island - Anatomy of the NJ/NY Metro heat island - Geography - Diurnal - Seasonal - Synoptic - Heat waves - Over time - What lies ahead
Seasonal urban – rural temperature difference Fall Summer Winter Spring Gedzelman et al., 2003. Mesoscale aspects of the urban heat island around New York City. Theoretical and Applied Climatology
Maximum urban – rural temperature difference: June 10 – September 10, 2007 Thuman, C.C., 2008. Summertime urban heat island in Newark, NJ and its relationship with urban particulate matter. Rutgers master’s thesis
Urban &rural humidity during 80 summer heat island events Thuman, C.C., 2008. Summertime urban heat island in Newark, NJ and its relationship with urban particulate matter. Rutgers master’s thesis
Outline - Urban climate - Urban heat island - Anatomy of the NJ/NY Metro heat island - Geography - Diurnal - Seasonal - Synoptic - Heat waves - Over time - What lies ahead
Fraction of cases with urban – rural temperature differences at given values for clear & overcast conditions Gedzelman et al., 2003. Mesoscale aspects of the urban heat island around New York City. Theoretical and Applied Climatology
Daily rainfall and urban heat island intensity: June 10 – September 10, 2007 Thuman, C.C., 2008. Summertime urban heat island in Newark, NJ and its relationship with urban particulate matter. Rutgers master’s thesis
Average urban – rural temperature difference for each night following a cold front passage Gedzelman et al., 2003. Mesoscale aspects of the urban heat island around New York City. Theoretical and Applied Climatology
Temperatures: 4PM EDT, April 11, 2011 NJ Weather and Climate Network (njwxnet.org)
Holzer, M.A., 2004. Synoptic and diurnal characteristics of the northern NJ heat island, Rutgers master’s thesis
Winter SSC’s at All Stations Dry Polar Winter All Stations Moist Polar Winter All Stations 12 2 Hour 23 Hour 21 Hour 19 12 Hour 23 Hour 21 Hour 19 Time Hour 17 Hour 15 -4 Hour 13 0 -2 Hour 9 Hour 23 Hour 21 Hour 19 Hour 17 2 Hour 11 Time Hour 15 Hour 13 Hour 11 Hour 9 Hour 7 Hour 5 Hour 3 0 4 Hour 7 2 6 Hour 5 4 ElizChatham Eliz-BM ElizHacketts Eliz-Stw Eliz-Want 8 Hour 3 6 10 Hour 1 ElizChatham Eliz-BM ElizHacketts Eliz-Stw Eliz-Want Eliz-No Hale 8 Temperature (u-r) 10 Hour 1 Temperature (u-r) Hour 17 Moist Moderate Winter All Stations 12 -4 Hour 15 Time Dry Moderate Winter All Stations -2 Hour 13 -4 Hour 11 0 -2 Hour 9 Hour 23 Hour 21 Hour 19 Hour 17 Time Hour 15 Hour 13 Hour 9 Hour 11 Hour 7 -4 Hour 5 -2 Hour 3 0 4 Hour 7 2 ElizChatham Eliz-BM ElizHacketts Eliz-Stw Eliz-Want 6 Hour 5 4 8 Hour 3 6 Hour 1 ElizChatham Eliz-BM ElizHacketts Eliz-Stw Eliz-Want 8 Temperature (u-r) 10 10 Hour 1 Temperature (u-r) 12 Holzer, M.A., 2004. Synoptic and diurnal characteristics of the northern NJ heat island, Rutgers master’s thesis
Dry Moderate SSC in All Seasons at Belle Mead and Chatham Belle Mead Dry Moderate SSC in All Seasons Chatham Dry Moderate SSC in All Seasons Eliz-BM Winter Eliz-BM Spring Eliz-BM Summer Eliz-BM Fall 6 4 2 Time Hour 23 Hour 21 Hour 19 Hour 17 Hour 15 Hour 13 Hour 9 Hour 11 Hour 7 Hour 5 -4 Hour 3 0 -2 12 10 8 6 4 2 0 -2 -4 Eliz-CH Winter Eliz-CH Spring Eliz-CH Summer Eliz-CH Fall Hour 1 Hour 3 Hour 5 Hour 7 Hour 9 Hour 11 Hour 13 Hour 15 Hour 17 Hour 19 Hour 21 Hour 23 8 Temperature (u-r) 10 Hour 1 Temperature (u-r) 12 Time Inversion at Belle Mead breaks between hours 7 and 9 in all seasons Timing of evening cool down is dependent on the time of sunset During the overnight hours Chatham is warmer than Belle Mead Holzer, M.A., 2004. Synoptic and diurnal characteristics of the northern NJ heat island, Rutgers master’s thesis
Winter 4 AM: Dry Moderate Holzer, M.A., 2004. Synoptic and diurnal characteristics of the northern NJ heat island, Rutgers master’s thesis
Summer noon: Dry Moderate Holzer, M.A., 2004. Synoptic and diurnal characteristics of the northern NJ heat island, Rutgers master’s thesis
Outline - Urban climate - Urban heat island - Anatomy of the NJ/NY Metro heat island - Geography - Diurnal - Seasonal - Synoptic - Heat waves - Over time - What lies ahead
Synergistic interaction mechanisms between the urban heat island and heat waves Li and Bou-Seid, 2013. Synergistic interactions between urban heat islands and heat waves: the impact in cities is larger than The sum of its parts. Journal of Applied Meteorology and Climatology
Newark, NJ and vicinity Google maps
Office of the NJ State Climatologist
Office of the NJ State Climatologist
Office of the NJ State Climatologist
Office of the NJ State Climatologist
Office of the NJ State Climatologist
Office of the NJ State Climatologist
Office of the NJ State Climatologist
Office of the NJ State Climatologist
Outline - Urban climate - Urban heat island - Anatomy of the NJ/NY Metro heat island - Geography - Diurnal - Seasonal - Synoptic - Heat waves - Over time - What lies ahead
1931 2012
1931 2012
Outline - Urban climate - Urban heat island - Anatomy of the NJ/NY Metro heat island - Geography - Diurnal - Seasonal - Synoptic - Heat waves - Over time - What lies ahead
Changes in heat index The heat index combines the effects of temperature and humidity to estimate human comfort. Results are from simulations with three global climate models with two emissions scenarios, representing the low and high ends of the IPCC range. Under the high emissions scenario, Tri-State summers at the end of the 21st century are projected to be similar to those in Savannah, Georgia today.
Projected warming Days over 100F days per year over 100ºF days per year over 90ºF Days over 90F Union of Concerned Scientists, NE Climate Impacts Report, 2006
New Jersey's future climate Rising temperatures Steady or increasing precipitation Increasing variability and extremes - storms, flood, drought, heat . Rising sea level
Wrapping things up: - Anatomy of the NJ/NY Metro heat island - Geography - Diurnal - Seasonal - Synoptic - Heat waves - Over time - What lies ahead Thanks: Dave Robinson [email protected]
