Environmental health risks associated with firewood induced volatile rganic compounds in Senwabarwana Villages, Republic of South Africa

• Main Author: Semenya, Khomotso
• Format: Others
• Language: en
• Published: 2021
• Subjects: Indoor air pollution; Environmental health; Environmental health risks; Ethnobotanical phenomenology; Indigenous criteria for firewood selection; Integrated environmental health risk assessment; Exposure assessment; Firewood; Firewood harvesting; Risk assessment; Tree species used for firewood; Volatile Organic Compounds
• Online Access: http://hdl.handle.net/10500/27393

Firewood is a dominant household fuel type used in many developing countries. Even in countries where there is improved access to electricity, most households still rely on firewood for their energy needs. Harvesting of some wood is illegal, however the high poverty rate, absence of alternative fuels and lack of law enforcement means even the protected wood species will continue to be used, with consequent pressure on the forests. Furthermore, the combustion of firewood for domestic use takes place in poorly ventilated homes emitting hazardous pollutants, which causes indoor air pollution and affect human health. The use of firewood as a household fuel can be superimposed nearly perfectly on that of socioeconomic development. Additionally, the use of household firewood is invariably associated with poverty in countries, in communities within a country and in households within a community. Indoor air pollution studies on human health should then consider socio-economic factors which seem to be one of the determinants of both firewood use and ill health, a determinant which is often neglected in most indoor air pollution studies. Domestic inhalation of firewood smoke is one of the mechanisms linking socio-economic (poverty) to disease. The current study sought to determine a baseline of wood usage and health risks caused by volatile organic compounds in Senwabarwana villages. This study integrated observations, ethnobotanical meta-analysis and experimental into one comprehensive integrated environmental health risk assessment framework to assess the risks associated with exposure to volatile organic compounds from firewood combustion. Basic information about firewood usage, socio-economic dynamics and perceived health problems related to volatile organic compounds was collected using a structured questionnaire. The Vac-U-Chamber was used to sample the air. The results show that firewood is extensively used in poorly ventilated kitchens for cooking and home heating in Senwabarwana villages. Ten priority firewood plant species are frequently used in the study area, namely Mohweleri (Combretum apiculatum), Moretshe (Dichrostachys cinera), Motswiri (Combretum imberbe), Mokgwa (Acacia burkei), Mushu (Acacia tortilis), Motshe (Cussonia paniculate), Mokata (Combretum hereroense), Mphata (Lonchocarpus capassa), Mokgalo (Ziziphus mucronate) and Mogwana (Grewia monticola), in their order of preference. The results also indicated thirteen common reasons or factors that influence the hoice of firewood plant species by households, the main four being: (i) the embers formed during combustion, (ii) heat value, (iii) low ash content and (iv) availability of the firewood plant species. Further analysis revealed several uses and ranking thereof, including reviewing the national status and legal profile of each identified plant species. The study found that most of the firewood species used in Senwabarwana Village were indigenous. Major drivers of firewood use are household income, educational status of breadwinners, family sizes, and place of residence, fuel affordability and accessibility, among others. Concentrations of benzene, toluene, ethylbenzene and xylene per plant species were studied to assess the risk exposed to the Senwabarwana community. Literature indicates that these pollutants have several health effects associated with acute exposure such as eye, nose and throat irritation, headaches, dizziness, nausea and vomiting. Both hazard quotient and hazard index were found to be less than one indicating no risk exists with the use of plant species used for firewood in Senwabarwana even to sensitive individuals. The risk of developing health effects due to the presence of the studied volatile organic compounds can be assessed as negligible. Since firewood is a more convenient source of energy, it is recommended that the size of the windows be extended for ventilation. Agroforesty should also be implemented as a conservation method. The wood that emits less concentration of pollutants be used for firemaking. === Environmental Sciences