Summary
Sustainable development can be defined as that which meets the needs of the current generation while leaving sufficient resources for the needs of future generations. A central objective is to decouple conventional resource use (and its corollary, waste generation) from economic development through technological innovation, improved efficiency and changes in individual practices. As the global population becomes urbanized and human activity is concentrated in urban areas, settlement planning is a key aspect of sustainability. The widespread inclusion of environmental objectives in urban plans at all scales provides an opportunity for the incorporation of urban climate knowledge into the planning process on a routine basis. Many of the stated objectives have both direct and indirect connections to climate. However, for this to happen, climate research and results must be linked more explicitly to the objectives of the sustainable settlement. In this paper, the relevance of sustainability to urban design and climate is discussed and the potential contribution of current urban climatology is assessed, identifying areas of special consideration for transfer to achieve sustainable urban planning and design.
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References
KS Ahmed (2002) ArticleTitleComfort in urban spaces: defining the boundaries of outdoor thermal comfort for the tropical urban environments. Energ Buildings 35 103–110
A Bitan (1990/91) ArticleTitleBet She’an Master Plan – Climatic rehabilitation of an ancient historic city. Energ Buildings 15–16 23–33
M Bottema (1999) ArticleTitleTowards rules of thumb for wind comfort and air quality. Atmos Environ 33 4009–4017 Occurrence Handle10.1016/S1352-2310(99)00142-9
Brown RD, Gillespie TJ (1995) Microclimatic landscape design. New York: John Wiley & Sons
AT Buckland DR Middleton (1999) ArticleTitleNomograms for calculating pollution within street canyons. Atmos Environ 33 1017–1036 Occurrence Handle10.1016/S1352-2310(98)00354-9
S Campbell (1996) ArticleTitleGreen cities, growing cities, just cities: urban planning and the contradictions of sustainable development. J Am Plann Assoc 62 296–312
IG Capeluto A Yezioro E Shaviv (2003) ArticleTitleClimatic aspects in urban design – a case study. Build Environ 38 827–835 Occurrence Handle10.1016/S0360-1323(02)00238-X
J Cook (1996) ArticleTitleArchitecture indigenous to extreme climates. Energ Buildings 23 277–291
FT de Paul CM Sheih (1986) ArticleTitleMeasurements of wind velocities in a street canyon. Atmos Environ 20 455–459
S de Schiller JM Evans (1998) ArticleTitleSustainable urban development: design guidelines for warm, humid cities. Urban Design International 4 165–184
R Emmanuel (1995) ArticleTitleEnergy-efficient urban design guidelines for warm-humid cities: strategies for Colombo, Sri Lanka. J Archit Plan Res 12 58–79
Girardet H (1999) Sustainable cities: a contradiction in terms? In: Satterthwaite D (ed) Sustainable cities. London: Earthscan, pp 413–425
GS Golany (1995) ArticleTitleUrban design morphology and thermal performance. Atmos Environ 30 455–465
G Haughton (1997) ArticleTitleDeveloping sustainable urban development models. Cities 14 189–195
P Höppe (2002) ArticleTitleDifferent aspects of assessing indoor and outdoor thermal comfort. Energ Buildings 34 661–665
JR Kenworthy FB Laube (1996) ArticleTitleAutomobile dependence in cities: an international comparison of urban transport and land use patterns with implications for sustainability. Environ Impact Asses 16 279–308
RL Knowles (2002) ArticleTitleThe solar envelope: its meaning for energy and buildings. Energ Buildings 35 15–25
R Lazar A Podesser (1999) ArticleTitleAn urban climate analysis of Graz and its significance fro urban planning in the tributary valleys east of Graz (Austria). Atmos Environ 33 4195–4209 Occurrence Handle10.1016/S1352-2310(99)00162-4
P Littlefair (1998) ArticleTitlePassive solar urban design: ensuring the penetration of solar energy into the city. Renewable and Sustainable Energy Reviews 2 303–326 Occurrence Handle10.1016/S1364-0321(97)00009-9
TJ Lyons JR Kenworthy C Moy F dos Santos (2003) ArticleTitleAn international urban pollution model for the transportation sector. Transport Research Part D 8 159–167
Newman P (1999) Transport: reducing automobile dependence. In: Satterthwaite D (ed) Sustainable cities. London: Earthscan, pp 173–198
TR Oke (1984) ArticleTitleTowards a prescription for the greater use of climatic priciples in settlement planning. Energ Buildings 7 1–10
Oke TR (1987) Boundary layer climates, 2nd edn. London: Routledge
TR Oke (1988) ArticleTitleStreet design and the urban canopy layer climate. Energ Buildings 11 103–113
J Rabinovitch J Leitman (1996) ArticleTitleUrban planning in Curitiba. Sci Am 274 IssueID3 46–53
W Rees M Wackernagel (1996) ArticleTitleUrban ecological footprints: why cities cannot be sustainable – and why they are a key to sustainability. Environ Impact Asses 16 223–248
Rogers R (1997) Cities for a small planet. London: Faber and Faber
AH Rosenfeld H Akbari S Bretz BL Fishman DM Kurn D Sailor H Taha (1995) ArticleTitleMitigation of urban heat islands: materials, utility programs, updates. Energ Buildings 22 255–265
Small C (2001) Global analysis of urban population distributions and the physical environment. In: Proceedings of the Open Meeting of the Human Dimensions of Global Environmental Change Research Community. Rio de Janeiro
MJ Soligo PA Irwin CJ Williams GD Schuyler (1998) ArticleTitleA comprehensive assessment of pedestrian comfort including thermal effects. J Wind Eng Ind Aerod 77–78 753–766
K Steemers N Baker D Crowther J Dubiel M-H Nikolopoulou C Ratti (1997) ArticleTitleCity texture and microclimate. Urban Design Studies 3 25–50
K Steemers (2003) ArticleTitleEnergy and the city: density, buildings and transport. Energ Buildings 35 3–14
The Urban Task Force (1999) Towards and urban renaissance. London: E&FN Spon
C Thormark (2002) ArticleTitleA low energy building in a life cycle – its embodied energy, energy need for operation and recycling potential. Build Environ 37 429–435 Occurrence Handle10.1016/S0360-1323(01)00033-6
U.N. (2001) The state of the world’s cities, 2001. United Nations Centre for urban settlements, Nairobi: Kenya
LR Zrudlo (1988) ArticleTitleA climatic approach to town planning in the Arctic. Energ Buildings 11 41–63
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G., M. Progress toward sustainable settlements: a role for urban climatology. Theor. Appl. Climatol. 84, 69–76 (2006). https://doi.org/10.1007/s00704-005-0145-0
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DOI: https://doi.org/10.1007/s00704-005-0145-0