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International Journal of Biometeorology

, Volume 58, Issue 9, pp 2011–2024 | Cite as

Impact of diurnal temperature range on human health: a systematic review

  • Jian Cheng
  • Zhiwei Xu
  • Rui Zhu
  • Xu Wang
  • Liu Jin
  • Jian Song
  • Hong SuEmail author
Review

Abstract

Increasing epidemiological studies have shown that a rapid temperature change within 1 day is an independent risk factor for human health. This paper aimed to systematically review the epidemiological evidence on the relationship between diurnal temperature range (DTR) and human health and to propose future research directions. A literature search was conducted in October 2013 using the databases including PubMed, ScienceDirect, and EBSCO. Empirical studies regarding the relationship between DTR and mortality and morbidity were included. Twenty-five relevant studies were identified, among which, 11 investigated the relationship between DTR and mortality and 14 examined the impact of DTR on morbidity. The majority of existing studies reported that DTR was significantly associated with mortality and morbidity, particularly for cardiovascular and respiratory diseases. Notably, compared with adults, the elderly and children were more vulnerable to DTR effects. However, there were some inconsistencies regarding the susceptible groups, lag time, and threshold of DTR. The impact of DTR on human health may be confounded or modified by season, socioeconomic, and educational status. Further research is needed to further confirm the adverse effects of DTR in different geographical locations; examine the effects of DTR on the health of children aged one or under; explore extreme DTR effects on human health; analyze the difference of DTR effects on human health in different locations and the modified effects of potential confounding factors; and develop detailed preventive measures against large DTR, particularly for susceptible groups.

Keywords

Climate change DTR Morbidity Mortality 

Notes

Conflict of interest

The authors report no conflict of interest.

Financial support

No source of financial funding.

References

  1. Baccini M, Biggeri A, Accetta G, Kosatsky T, Katsouyanni K, Analitis A, Anderson HR, Bisanti L, D'Ippoliti D, Danova J, Forsberg B, Medina S, Paldy A, Rabczenko D, Schindler C, Michelozzi P (2008) Heat effects on mortality in 15 European cities. Epidemiology 19(5):711–719CrossRefGoogle Scholar
  2. Bang FB (1961) Mucociliary function as protective mechanism in upper respiratory tract. Bacteriol Rev 25:228–236Google Scholar
  3. Basu R, Ostro BD (2008) A multicounty analysis identifying the populations vulnerable to mortality associated with high ambient temperature in California. Am J Epidemiol 168(6):632–637CrossRefGoogle Scholar
  4. Becklake MR, Kauffmann F (1999) Gender differences in airway behaviour over the human life span. Thorax 54(12):1119–1138CrossRefGoogle Scholar
  5. Brazdil R, Budikova M, Auer I, Bohm R, Cegnar T, Fasko P, Lapin M, Capka M, Zaninovic K, Koleva E, Niedzwiedz T, Ustrnul Z, Szalai S, Weber RO (1996) Trends of maximum and minimum daily temperatures in central and southeastern Europe. Int J Climatol 16(7):765–782CrossRefGoogle Scholar
  6. Bull GM (1980) The weather and deaths from pneumonia. Lancet 1(8183):1405–1408CrossRefGoogle Scholar
  7. Cao J, Cheng Y, Zhao N, Song W, Jiang C, Chen R, Kan H (2009) Diurnal temperature range is a risk factor for coronary heart disease death. J Epidemiol 19(6):328–332CrossRefGoogle Scholar
  8. Chen G, Zhang Y, Song G, Jiang L, Zhao N, Chen B, Kan H (2007) Is diurnal temperature range a risk factor for acute stroke death? Int J Cardiol 116(3):408–409CrossRefGoogle Scholar
  9. Chen JS, Lin YM, Yang WH (2013) Diurnal temperature change is associated with testicular torsion—a nationwide population-based study in Taiwan. J Urol 190(1):228–232CrossRefGoogle Scholar
  10. Chu C, Zhou W, Gui Y, Kan H (2011) Diurnal temperature range as a novel risk factor for sudden infant death. Biomed Environ Sci 24(5):518–522Google Scholar
  11. Crimi P, Macrina G, Folli C, Bertoluzzo L, Brichetto L, Caviglia I, Fiorina A (2004) Correlation between meteorological conditions and Parietaria pollen concentration in Alassio, north-west Italy. Int J Biometeorol 49(1):13–17CrossRefGoogle Scholar
  12. Diesel DA, Lebel JL, Tucker A (1991) Pulmonary particle deposition and airway mucociliary clearance in cold-exposed calves. Am J Vet Res 52(10):1665–1671Google Scholar
  13. Dominici F, McDermott A, Zeger SL, Samet JM (2002) On the use of generalized additive models in time-series studies of air pollution and health. Am J Epidemiol 156(3):193–203CrossRefGoogle Scholar
  14. Easterling DR, Horton B, Jones PD, Peterson TC, Karl TR, Parker DE, Salinger M, Razuvayev V, Plummer N, Jamason P, Folland CK (1997) Maximum and minimum temperature trends for the globe. Science 277(5324):364–367CrossRefGoogle Scholar
  15. Gasparrini A, Armstrong B, Kenward MG (2010) Distributed lag non-linear models. Stat Med 29(21):2224–2234CrossRefGoogle Scholar
  16. Ge WZ, Xu F, Zhao ZH, Zhao JZ, Kan HD (2013) Association between diurnal temperature range and respiratory tract infections. Biomed Environ Sci 26(3):222–225Google Scholar
  17. Graudenz GS, Landgraf RG, Jancar S, Tribess A, Fonseca SG, Fae KC, Kalil J (2006) The role of allergic rhinitis in nasal responses to sudden temperature changes. J Allergy Clin Immunol 118(5):1126–1132CrossRefGoogle Scholar
  18. Guangzhou Statistic Bureau (2011) Guangzhou statistical bulletin. http://www.gzstats.gov.cn/tjgb/qstjgb/201203/t20120331_28370.htm
  19. Hii YL, Rocklov J, Ng N (2011) Short term effects of weather on hand, foot and mouth disease. PLoS One 6(2):e16796CrossRefGoogle Scholar
  20. Holopainen J, Helama S, Partonen T (2013) Does diurnal temperature range influence seasonal suicide mortality? Assessment of daily data of the Helsinki metropolitan area from 1973 to 2010. Int J Biometeorol. doi: 10.1007/s00484-013-0689-0 Google Scholar
  21. Imai Y, Nobuoka S, Nagashima J, Awaya T, Aono J, Miyake F, Murayma M (1998) Acute myocardial infarction induced by alternating exposure to heat in a sauna and rapid cooling in cold water. Cardiology 90(4):299–301CrossRefGoogle Scholar
  22. IPCC (2007) Summary for policymakers. In: Climate change 2007: the physical science basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, CambridgeGoogle Scholar
  23. Kalnay E, Cai M (2003) Impact of urbanization and land-use change on climate. Nature 423(6939):528–531CrossRefGoogle Scholar
  24. Kan H, London SJ, Chen H, Song G, Chen G, Jiang L, Zhao N, Zhang Y, Chen B (2007) Diurnal temperature range and daily mortality in Shanghai, China. Environ Res 103(3):424–431CrossRefGoogle Scholar
  25. Karl TR, Diza HF, Kukla G (1988) Urbanization: its detection and effect in the United States climate record. J Clim 11(1):1099–1123CrossRefGoogle Scholar
  26. Karl TR, Jones PD, Knight RW, Kukla G, Plummer N. (1993) Asymmetric trends of daily maximum and minimum temperature. Papers in Natural Resources: 185Google Scholar
  27. Kenney WL, Hodgson JL (1987) Heat tolerance, thermoregulation and ageing. Sports Med 4(6):446–456CrossRefGoogle Scholar
  28. Kjellstrom T, McMichael AJ (2013) Climate change threats to population health and well-being: the imperative of protective solutions that will last. Glob Health Act 6:20816Google Scholar
  29. Klein Tank A, Peterson T, Quadir D, Dorji S, Zou X, Tang H, Santhosh K, Joshi U, Jaswal A, Kolli R, Sikder A, Deshpande N, Revadekar J, Yeleuova K, Vandasheva S, Faleyeva M, Gomboluudev P, Budhathoki K, Hussain A, Afzaal M, Chandrapala L, Anvar H, Amanmurad D, Asanova V, Jones P, New M, Spektorman T (2006) Changes in daily temperature and precipitation extremes in central and south Asia. J Geophys Res 111(D16105):1–20Google Scholar
  30. Li Q, Chen J (2008) Regional climate variations in south China related to global climate change and local urbanization. Proceedings of 16th IAHR-APD Congress and 3rd Symposium of IAHR-ISHSGoogle Scholar
  31. Li T, Yang Z, Wang M (2013) Diurnal temperature range may be the risk factor for respiratory tract infections among the elderly in Guangzhou, China. Int J Biometeorol. doi: 10.1007/s00484-013-0734-z Google Scholar
  32. Liang WM, Liu WP, Chou SY, Kuo HW (2008) Ambient temperature and emergency room admissions for acute coronary syndrome in Taiwan. Int J Biometeorol 52(3):223–229CrossRefGoogle Scholar
  33. Liang WM, Liu WP, Kuo HW (2009) Diurnal temperature range and emergency room admissions for chronic obstructive pulmonary disease in Taiwan. Int J Biometeorol 53(1):17–23CrossRefGoogle Scholar
  34. Lim YH, Hong YC, Kim H (2012a) Effects of diurnal temperature range on cardiovascular and respiratory hospital admissions in Korea. Sci Total Environ 417–418:55–60CrossRefGoogle Scholar
  35. Lim YH, Kim H, Kim JH, Bae S, Hong YC (2012b) Effect of diurnal temperature range on cardiovascular markers in the elderly in Seoul, Korea. Int J Biometeorol 57(4):597–603CrossRefGoogle Scholar
  36. Lim YH, Park AK, Kim H (2012c) Modifiers of diurnal temperature range and mortality association in six Korean cities. Int J Biometeorol 56(1):33–42CrossRefGoogle Scholar
  37. Lin S, Luo M, Walker RJ, Liu X, Hwang SA, Chinery R (2009) Extreme high temperatures and hospital admissions for respiratory and cardiovascular diseases. Epidemiology 20(5):738–746CrossRefGoogle Scholar
  38. Lin H, Zhang Y, Xu Y, Xu X, Liu T, Luo Y, Xiao J, Wu W, Ma W (2013) Temperature changes between neighboring days and mortality in summer: a distributed lag non-linear time series analysis. PLoS One 8(6):e66403CrossRefGoogle Scholar
  39. Linares C, Diaz J (2008) Impact of high temperatures on hospital admissions: comparative analysis with previous studies about mortality (Madrid). Eur J Public Health 18(3):317–322CrossRefGoogle Scholar
  40. Luo Y, Zhang Y, Liu T, Rutherford S, Xu Y, Xu X, Wu W, Xiao J, Zeng W, Chu C, Ma W (2013) Lagged effect of diurnal temperature range on mortality in a subtropical megacity of china. PLoS One 8(2):e55280CrossRefGoogle Scholar
  41. Ma E, Lam T, Wong C, Chuang SK (2010) Is hand, foot and mouth disease associated with meteorological parameters? Epidemiol Infect 138(12):1779–1788CrossRefGoogle Scholar
  42. Magalhaes R, Silva MC, Correia M, Bailey T (2011) Are stroke occurrence and outcome related to weather parameters? Results from a population-based study in northern portugal. Cerebrovasc Dis 32(6):542–551CrossRefGoogle Scholar
  43. Mercer JB, Osterud B, Tveita T (1999) The effect of short-term cold exposure on risk factors for cardiovascular disease. Thromb Res 95(2):93–104CrossRefGoogle Scholar
  44. Qiu H, Tak-Sun Yu I, Tse LA, Tian L, Wang X, Wong TW (2013) Is greater temperature change within a day associated with increased emergency hospital admissions for heart failure? Circ Heart Fail 6(5):930–935CrossRefGoogle Scholar
  45. Shinkawa A, Ueda K, Hasuo Y, Kiyohara Y, Fujishima M (1990) Seasonal variation in stroke incidence in Hisayama, Japan. Stroke 21(9):1262–1267CrossRefGoogle Scholar
  46. Son JY, Lee JT, Anderson GB, Bell ML (2012) The impact of heat waves on mortality in seven major cities in Korea. Environ Health Perspect 120(4):566–571CrossRefGoogle Scholar
  47. Song G, Chen G, Jiang L, Zhang Y, Zhao N, Chen B, Kan H (2008) Diurnal temperature range as a novel risk factor for COPD death. Respirology 13(7):1066–1069Google Scholar
  48. Tam WW, Wong TW, Chair SY, Wong AH (2009) Diurnal temperature range and daily cardiovascular mortalities among the elderly in Hong Kong. Arch Environ Occup Health 64(3):202–206CrossRefGoogle Scholar
  49. Togias AG, Naclerio RM, Proud D, Fish JE, Adkinson NF Jr, Kagey-Sobotka A, Norman PS, Lichtenstein LM (1985) Nasal challenge with cold, dry air results in release of inflammatory mediators. Possible mast cell involvement. J Clin Invest 76(4):1375–1381CrossRefGoogle Scholar
  50. von Mutius E (1996) Progression of allergy and asthma through childhood to adolescence. Thorax 51(Suppl 1):S3–S6CrossRefGoogle Scholar
  51. Vose RS, Easterling DR, Gleason B (2005) Maximum and minimum temperature trends for the globe: an update through 2004. Geophys Res Lett 32:L23822. doi: 10.1029/2005GL024379
  52. Vutcovici M, Goldberg MS, Valois MF (2013) Effects of diurnal variations in temperature on non-accidental mortality among the elderly population of Montreal, Quebec, 1984–2007. Int J Biometeorol. doi: 10.1007/s00484-013-0664-9 Google Scholar
  53. Wang MZ, Zheng S, He SL, Li B, Teng HJ, Wang SG, Yin L, Shang KZ, Li TS (2013) The association between diurnal temperature range and emergency room admissions for cardiovascular, respiratory, digestive and genitourinary disease among the elderly: a time series study. Sci Total Environ 456–457:370–375CrossRefGoogle Scholar
  54. Xu Z, Huang C, Su H, Turner LR, Qiao Z, Tong S (2013a) Diurnal temperature range and childhood asthma: a time-series study. Environ Health 12(1):12CrossRefGoogle Scholar
  55. Xu Z, Huang C, Turner LR, Su H, Qiao Z, Tong S (2013b) Is diurnal temperature range a risk factor for childhood diarrhea? PLoS One 8(5):e64713CrossRefGoogle Scholar
  56. Yang J, Ou CQ, Ding Y, Zhou YX, Chen PY (2012) Daily temperature and mortality: a study of distributed lag non-linear effect and effect modification in Guangzhou. Environ Health 11:63CrossRefGoogle Scholar
  57. Yang J, Liu HZ, Ou CQ, Lin GZ, Zhou Q, Shen GC, Chen PY, Guo Y (2013) Global climate change: impact of diurnal temperature range on mortality in Guangzhou, China. Environ Pollut 175:131–136CrossRefGoogle Scholar
  58. Ye X, Wolff R, Yu W, Vaneckova P, Pan X, Tong S (2012) Ambient temperature and morbidity: a review of epidemiological evidence. Environ Health Perspect 120(1):19–28CrossRefGoogle Scholar
  59. Yu W, Vaneckova P, Mengersen K, Pan X, Tong S (2010) Is the association between temperature and mortality modified by age, gender and socio-economic status? Sci Total Environ 408(17):3513–3518CrossRefGoogle Scholar

Copyright information

© ISB 2014

Authors and Affiliations

  • Jian Cheng
    • 1
  • Zhiwei Xu
    • 2
  • Rui Zhu
    • 3
  • Xu Wang
    • 1
  • Liu Jin
    • 1
  • Jian Song
    • 1
  • Hong Su
    • 1
    Email author
  1. 1.Department of Epidemiology and Health Statistics, School of Public HealthAnhui Medical UniversityHefeiChina
  2. 2.School of Public Health and Social Work & Institute of Health and Biomedical InnovationQueensland University of TechnologyBrisbaneAustralia
  3. 3.Department of Child and Maternal Health Care, School of Public HealthAnhui Medical UniversityHefeiChina

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