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      Comparisons of urban and rural heat stress conditions in a hot–humid tropical city

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          Abstract

          Background

          In recent years the developing world, much of which is located in the tropical countries, has seen dramatic growth of its urban population associated with serious degradation of environmental quality. Climate change is producing major impacts including increasing temperatures in these countries that are considered to be most vulnerable to the impact of climate change due to inadequate public health infrastructure and low income status. However, relevant information and data for informed decision making on human health and comfort are lacking in these countries.

          Objective

          The aim of this paper is to study and compare heat stress conditions in an urban (city centre) and rural (airport) environments in Akure, a medium-sized tropical city in south-western Nigeria during the dry harmattan season (January–March) of 2009.

          Materials and methods

          We analysed heat stress conditions in terms of the mean hourly values of the thermohygrometric index (THI), defined by simultaneous in situ air temperature and relative humidity measurements at both sites.

          Results

          The urban heat island (UHI) exists in Akure as the city centre is warmer than the rural airport throughout the day. However, the maximum UHI intensity occurs at night between 1900 and 2200 hours local time. Hot conditions were predominant at both sites, comfortable conditions were only experienced in the morning and evenings of January at both sites, but the rural area has more pleasant morning and evenings and less of very hot and torrid conditions. January has the lowest frequency of hot and torrid conditions at both sites, while March and February has the highest at the city centre and the airport, respectively. The higher frequencies of high temperatures in the city centre suggest a significant heat stress and health risk in this hot humid environment of Akure.

          Conclusions

          More research is needed to achieve better understanding of the seasonal variation of indoor and outdoor heat stress and factors interacting with it in order to improve the health, safety, and productivity of Akure city dwellers.

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          Most cited references12

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          Workplace heat stress, health and productivity – an increasing challenge for low and middle-income countries during climate change

          Background Global climate change is already increasing the average temperature and direct heat exposure in many places around the world. Objectives To assess the potential impact on occupational health and work capacity for people exposed at work to increasing heat due to climate change. Design A brief review of basic thermal physiology mechanisms, occupational heat exposure guidelines and heat exposure changes in selected cities. Results In countries with very hot seasons, workers are already affected by working environments hotter than that with which human physiological mechanisms can cope. To protect workers from excessive heat, a number of heat exposure indices have been developed. One that is commonly used in occupational health is the Wet Bulb Globe Temperature (WBGT). We use WBGT to illustrate assessing the proportion of a working hour during which a worker can sustain work and the proportion of that same working hour that (s)he needs to rest to cool the body down and maintain core body temperature below 38°C. Using this proportion a ‘work capacity’ estimate was calculated for selected heat exposure levels and work intensity levels. The work capacity rapidly reduces as the WBGT exceeds 26–30°C and this can be used to estimate the impact of increasing heat exposure as a result of climate change in tropical countries. Conclusions One result of climate change is a reduced work capacity in heat-exposed jobs and greater difficulty in achieving economic and social development in the countries affected by this somewhat neglected impact of climate change.
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            Comparisons of urban and rural bioclimatological conditions in the case of a central-European city.

            This paper examines the influence of a medium-sized city (Szeged, Hungary) on the bioclimatological conditions of human beings. With the help of suitable indices for the available data set, differences in the annual and diurnal variation of human bioclimatic characteristics between an urban and rural environment are evaluated over a 3-year period. These indices are the thermohygrometric index (THI, defined by air temperature and relative humidity), the relative strain index (RSI, defined by air temperature and vapour pressure) and the number of "beergarden days" (defined by air temperature at 2100 hours). In urban and rural areas, "hot" THI conditions characterize 6% and 1% of the year, "comfortable" conditions 30% and 20%, "cool" conditions 10% and 12%, and "cold" conditions 54% and 66% respectively. Over longer periods (e.g. one, month) RSI remains below the threshold value for strong heat stress in the city. The monthly frequencies of beergarden days show that these days appears from May until October and the city has almost twice as many pleasant evenings as the rural areas. Consequently, the city favourably modifies the main climatological elements within the general climate of its region; periods likely to be comfortable are therefore found more frequently in the city than in rural areas.
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              The extreme heat wave in Athens in July 1987 from the point of view of human biometeorology

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                Author and article information

                Journal
                Glob Health Action
                GHA
                Global Health Action
                CoAction Publishing
                1654-9716
                1654-9880
                29 November 2010
                2010
                : 3
                : 10.3402/gha.v3i0.5614
                Affiliations
                Department of Meteorology, Federal University of Technology, Akure, Ondo State, Nigeria
                Author notes
                [* ] Ahmed A. Balogun, Department of Meteorology, Federal University of Technology, Akure PMB 704, Akure, Ondo State, Nigeria. Tel: +234(0)7067692875. E-mail: abalogun99@ 123456yahoo.com
                Article
                GHA-3-5614
                10.3402/gha.v3i0.5614
                2997728
                21139998
                8ec51b3d-7752-4197-8806-581d1bb4e6fc
                © 2010 Ahmed A. Balogun et al.

                This is an Open Access article distributed under the terms of the Creative Commons Attribution-Noncommercial 3.0 Unported License, permitting all non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

                History
                : 10 September 2010
                : 26 October 2010
                : 26 October 2010
                Categories
                Climate Change Impacts on Working People

                Health & Social care
                thermohygrometric index,heat stress,urban,nigeria,akure,rural,urban heat island
                Health & Social care
                thermohygrometric index, heat stress, urban, nigeria, akure, rural, urban heat island

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