SEASONAL VARIATION OF CANOPY LAYER HEAT ISLAND AT DISTINCT LOCAL CLIMATE ZONES IN A TROPICAL COASTAL CITY

Autores

Palavras-chave:

Canopy layer heat island. Local Climate Zones. Meteorological data.

Resumo

This work examines the characteristics of the seasonal canopy layer heat island (UHIUCL) in a medium-sized coastal city in the state of São Paulo using the Local Climate Zones approach. The present analysis is based on datalogger campaign conducted from 15th November 2017 to 11th October 2018, complemented by full meteorological data from two stations, one inside the urban area and other in the vicinities (used as the reference station). A careful analysis was conducted to select the more representative days (minimum cloudiness, homogeneous solar radiation, and no/low wind), and the resulting dataset was organized in two seasons: summer and winter. Based on the UHI intensity analysis, the results indicate that, during the night period, the temperature anomaly (UHIUCL= LCZx - LCZy) is higher in the compact high-rise buildings and during the winter. During daytime, the maximum was found in compact low-rise building and for summer period, although strong variations where observed. Those variations seem to be related with the patterns of solar exposure, shading, and vegetation of each area, but may also be associated with the differences observed between the urban and reference station. This suggests that UHI intensity analysis during daytime strongly depends on complete meteorological information.

Downloads

Não há dados estatísticos.

Referências

AMORIM, M. C. C. T. Características do Clima Urbano de Presidente Prudente/SP. In: João Lima Sant'Anna Neto. (org.). Os climas das cidades brasileiras. Presidente Prudente: UNESP/FCT/Programa de Pós-graduação em Geografia, 2002. p. 165-196.

ASSIS, E. S; FROTA, A. B. Urban bioclimatic design strategies for a tropical city. Atmospheric Environment, Great Britain, v. 33, n.24, p. 4135-4142. 1999.

BENJAMIN, B et al. Mapping Local Climate Zones for a Worldwide Database of the Form and Function of Cities. ISPRS Int. J. Geo-Inf. p.199-219. 2015, DOI: 10.3390/ijgi4010199.

BENJAMIN, B et al. Generating WUDAPT level 0 data - current status of production and evaluation. Urban Climate, v.27,p. 24–45. DOI:https://doi.org/10.1016/j.uclim.2018.10.001. 2019.

BEJARAN, R. A; CAMILLONI I. A. Objective method for classifying air masses: an application to the analysis of Buenos Aires’ (Argentina) urban heat island intensity’. Theoretical and Applied Climatology, v.74, p. 93–103. 2003.

BRAZILIAN INSTITUTE OF GEOGRAPHY AND STATISTICS (IBGE). Cidades: Santos-SP. Disponível em: http://cod.ibge.gov.br/3ZR. Acesso em: 10 Agosto de 2018.

CAMMILONI, I; BARRUNCAND, M. Temporal variability of the Buenos Aires, Argentina, urban heat island. Theor Appl Climatol, v.107, p.47–58. 2012.

CHOW, W; ROTH, M. Temporal dynamics of the urban heat island of Singapore. International Journal of Climatology. v. 26: 2243–2260. DOI: 10.1002/joc.1364. 2006.

CRAWFORD, B; KRAYENHOFF, E. S; CORDY, P. The urban energy balance of a lightweight low-rise neighborhood in Andallo, Chile. Ther. Appl. Climatol v.131, p.55-68. 2018.

DUARTE, D. Variáveis urbanísticas e microclimas urbanos - modelo empírico e proposta de um indicador. Fórum Patrimônio: Ambiente Construído e Patrimônio Sustentável (UFMG. Online), v. 3, p. 1-36, 2010.

DUARTE, D. Vegetation and climate-sensitive public places. In: Rohinton Emmanuel. (org.). Urban climate challenges in the Tropics: rethinking planning and design opportunities. 1ed.London: Imperial College Press, p. 111-162. 2016.

EMMANUEL R. Assessment of impact of land cover changes on urban bioclimate: the case of Colombo, Sri Lanka. Architectural Science Review. v.46, p.151–158. 2003.

EMMANUEL R. An Urban Approach to Climate-Sensitive Design: Strategies for the Tropics. Spoon Press: London. 2005a.

EMMANUEL R. Thermal comfort implications of urbanisation in a warm-humid city: the Colombo Metropolitan Region (CMR), Sri Lanka. Building and Environment. v.40, p.1591–1601. 2005b.

EMMANUEL, R; JOHANSSON, E. Influence of urban morphology and sea breeze on hot humid microclimate: the case of Colombo, Sri Lanka. Climate Research. v.30, p.189–200. 2006.

FENNER, D. et al. A. Spatial and temporal air temperature variability in Berlin, Germany, during the years 2001–2010. Urban Climate. v.10 (Part 2), p.308–331. 2014

FERREIRA, L. S; DUARTE, D. H. S. Exploring the relationship between urban form, land surface temperature and vegetation indices in a subtropical megacity. Urban Climate. v. 27, p. 105-123. 2019.

GEORGESON, L et al. Adaptation responses to climate change differ between global megacities. Nature Climate Change. v. 6, n. 6, p. 584-588. 2016.

KAWASHIMA, R. S et al. Análise das mudanças temporais de cobertura da terra na região portuária da Baixada Santista-SP e a proposição de modelos de dinâmica espacial. In: Simpósio Brasileiro de Sensoriamento Remoto (SBSR), 17., 2015, João Pessoa. Anais... São José dos Campos: INPE, 2015. Artigos, p. 1082-1089. DVD, On-line. ISBN 978-85-17-00076-8. Available in <http://www.dsr.inpe.br/sbsr2015/files/p0199.pdf>.

KIM, Y; BAIK, J. J. Spatial and temporal structure of the urban heat island in Seoul. J. Appl. Meteorol. v 44. 2005.

KOTHARKAR, R; BAGADE, A. Evaluating urban heat island in the critical local climate zones of an Indian city. Landscape and Urban Planning. v .169, p.92–104. 2018.

LOMBARDO, M. A. Ilha de Calor na Metrópole Paulistana. 1984. Tese (Doutorado em Geografia). Universidade de São Paulo, São Paulo. 1984.

MATZARAKIS, A. RAYMAN 1.2. Available in: freiburg.de/rayman/intro.htm 2009.

MATZARAKIS, A; RUTZ, F; MAYER, H. Modelling radiation fluxes in simple and complex environments: Basics of the RayMan model. International Journal of Biometeorology, v. 54, n. 2, p. 131–139. 2010.

MONTEIRO C. A de F. Teoria e clima urbano. 1976. Tese (Doutorado em Geografia). Universidade de São Paulo. Faculdade de Filosofia, Letras e Ciências Humanas, São Paulo. 1976. 181p.

MORRIS, K. I et al. Computational study of urban heat island of Putrajaya, Malaysia. Sustainable Cities and Society, v.19, p. 359–372. 2015.

MORRIS, C. J. G; SIMMONDS, I; PLUMMER, N. Quantification of the Influences of Wind and Cloud on the Nocturnal Urban Heat Island of a Large City. Journal of Applied Meteorology, v. 40(2), p.169-182. DOI: http://dx.doi.org/10.1175/15200450(2001)040%3C0169:QOTIOW%3E2.0.CO;2

MOUSAVI-BAYGI, M et al. The investigation of Tehran's heat island by using the surface ozone and temperature data. Int. J. Appl. Environ. Sci. v.5, p.189–200. 2010.

NICOL, J. E. High-resolution surface temperature patterns related to urban morphology in a tropical city: a satellite-based study. Journal of Applied Meteorology, v.35, p. 135–146. 1996.

NICOL, J. E; WONG, M. S. Modeling urban environmental quality in a tropical city. Landscape and Urban Planning, v.73. p. 49–58. 2005.

OKE, T. R et al. A. Urban Climate. Cambridge. 525p. 2017.

OKE, T. R. The energetic basis of the urban heat island. Q. J. R. Meteorol. Soc. v.108, p.1–24. 1982. DOI: https://doi.org/10.1002/qj.49710845502.

PALME, M; LOBATO, A; CLAUDIO, C. Quantitative Analysis of Factors Contributing to Urban Heat Island Effect in Cities of Latin-American Pacific Coast. In: 4th International Conference on Countermeasures to Urban Heat Island (UHI).2016. Procedia Engineering. p.99 – 206. 2016.

PERERA, N. G. R; EMMANUEL, R. A. “Local Climate Zone” based approach to urban planning in Colombo, Sri Lanka. Urban Climate. DOI:http://dx.doi.org/10.1016/j.uclim.2016.11.006.2016.

PRATA, A. R. Impacto da altura de edifícios nas condições de ventilação natural do meio urbano. 2005. Tese (Doutorado em Arquitetura e Urbanismo). Faculdade de Arquitetura e urbanismo. Universidade de São Paulo, São Paulo. 2005. DOI: 10.11606/T.16.2005.tde-20012010-113103.

RATTI C. F; RICHENS, P. Urban texture analysis with image processing techniques. In: Proceedings of the CAADFutures99, Atalanta, GA. 1999.

RIBEIRO, H. Heat island in Sao Paolo, Brazil: effects on health. Critical Public Health, v.15, p.147–156. 2005.

ROTH, M; CHOW, W. T. A historical review and assessment of urban heat island research in Singapore. Singapore Journal of Tropical Geography, v.33(3), p.381–397. 2012.

SAILOR, D. J; DIETSCH, N. The urban heat island mitigation impact-screening tool (MIST). Environmental Modelling & Software, v.22(10), p.1529–1541. 2007.

SECRETARY FOR PLANNING AND SUSTAINABLE DEVELOPMENT. Caracterização Socioeconômica de São Paulo Região Metropolitana da Baixada Santista, 2011. Governo do Estado de São Paulo. Available in:http://www.planejamento.sp.gov.br/noti_anexo/files/uam/trabalhos/RMBS.pdf. Acesso em: 10 de Agosto de 2018.

SHARMA, R et al. Application of Urban Climate for an Asian tropical city—The case of Delhi. In: Living planet symposium, v.740, p.210. 2016.

SIU, L. W; KART, M. A. Quantifying urban heat island intensity in Hong Kong SAR, China. Environmental Monitoring and Assessment, v.185(5), p.4383–4398. 2013.

SOUZA, L. C. L. Thermal environment as a parameter for urban planning. Energy Sustainable Development, v. XI, n.4, p. 44-53. 2007.

STEWARD, I. D; OKE, T. R. Local climate zones for urban temperature studies. Bull. Am. Meteorol. Soc., v.93, p.1879-1900. 2012, DOI:10.1175/bams-d-11-00019.1.

STEWART, I. Global Cities Institute, University of Toronto, Toronto, Canada, LCZ metric. Personal communication, 2016.

STEWART, I.D; OKE, T.R; KRAYENHOFF, E.S. Evaluation of the “local climate zone” scheme using temperature observations and model simulations. Int. J. Climatol., v.34, p.1062–1080. 2014.

TAN, Z; LAU, K. K; NG, E. Urban tree design approaches for mitigating daytime urban heat island effects in a high-density urban environment. Energy and Buildings, v.114, p.265–274. 2016.

THOMAS, G et al. Analysis of urban heat island in Kochi, India, using a modified local climate zone classification. Procedia Environmental Sciences, v.21, p.3–13. 2014.

TSO, C. P. A survey of urban heat island studies in two tropical cities. Atmospheric Environment, v.30, p.507–519. 1996.

UNITED NATIONS. Desa/Population Division. World population/urbanization prospects. Available in: https://population.un.org/wup/Maps/. Acesso em 10 de Agosto de 2018.

WONG, N. H; TAN, Y. P; LOH, L. F. Historical analysis of long-term climatic data to study urban heat islands in Singapore. Architectural Science Review, v.48, p.25–40. 2005.

WONG, N.H; YU, C. Study of green areas and urban heat island in a tropical city. Habitat International, v.29, p.547–558. 2005.

Downloads

Publicado

21-09-2021

Como Citar

Pereira, C. T., Bourscheidt, V., & Masiero, Érico. (2021). SEASONAL VARIATION OF CANOPY LAYER HEAT ISLAND AT DISTINCT LOCAL CLIMATE ZONES IN A TROPICAL COASTAL CITY. Revista Brasileira De Climatologia, 29, 205–227. Recuperado de https://ojs.ufgd.edu.br/index.php/rbclima/article/view/15173

Edição

v. 29 (2021)

Seção

Artigos

Licença

A aprovação dos artigos implica a aceitação imediata e sem ônus de que a Revista Brasileira de Climatologia terá exclusividade na primeira publicação do artigo. Os autores continuarão, não obstante, a deter os direitos autorais. Os autores autorizam também que seus artigos sejam disponibilizados em todos os indexadores aos quais a revista está vinculada.

Os autores mantém seus direitos de publicação sem restrições

A Comissão Editorial não se responsabiliza pelos conceitos ou afirmações expressos nos trabalhos publicados, que são de inteira responsabilidade dos autores.

A Revista Brasileira de Climatologia oferece acesso livre imediato ao seu conteúdo, seguindo o entendimento de que disponibilizar gratuitamente o conhecimento científico ao público proporciona maior democratização do conhecimento e tende a produzir maior impacto dos artigos publicados. Os artigos publicados na revista são disponibilizados segundo a Licença Creative Commons CC-BY-NC 4.0 (https://creativecommons.org/licenses/by-nc/4.0/). Segundo essa licença é permitido acessar, distribuir e reutilizar os artigos para fins não comerciais desde que citados os autores e a fonte. Ao submeter artigos à Revista Brasileira de Climatologia, os autores concordam em tornar seus textos legalmente disponíveis segundo essa licença