Raja Waqar Ahmed Khan, Nimra Nazir, Ansar Mehmood, Seema Qayyum, Hamayun Shaheen
{"title":"喜马拉雅西部地区穆扎法拉巴德省薪材消耗及其相关二氧化碳排放的时空模式","authors":"Raja Waqar Ahmed Khan, Nimra Nazir, Ansar Mehmood, Seema Qayyum, Hamayun Shaheen","doi":"10.1186/s13705-024-00448-1","DOIUrl":null,"url":null,"abstract":"<div><h3>Background</h3><p>In the Himalayan region, fuelwood serves as a critical energy source for rural communities. Being vital for meeting energy needs, fuelwood combustion is a source of carbon dioxide (CO<sub>2</sub>) emission and, consequently, global warming, as well as deforestation and public health damage. Therefore, quantifying fuelwood consumption patterns and its associated CO<sub>2</sub> emissions is essential to understand the environmental impact and promote sustainable resource management.</p><h3>Methods</h3><p>This research conducts an evaluation of fuelwood burning patterns and the associated CO<sub>2</sub> emissions in Azad Jammu and Kashmir (AJK), situated within the western Himalayan region. The study entails an extensive survey of 24 villages representing 240 households, equally distributed between the subtropical and temperate regions, each comprising 120 households. Data collection was executed through a combination of direct queries and the weight survey method, following standard protocols.</p><h3>Results</h3><p>In the study area, the mean annual fuelwood comsumption per household amounts to 24.28 ± 3.1 Mg (or 3.195 ± 1 Mg capita<sup>−1</sup>). A variance was observed between subtropical and temperate zones, with the latter exhibiting higher consumption rates. The consequential CO<sub>2</sub> emissions were assessed as 41.88 ± 4.5 Mg per household (5.51 ± 0.6 Mg capita<sup>−1</sup>). On a daily basis, households consumed an average of 66.52 ± 6.4 kg of fuelwood (8.75 ± 1.5 kg capita<sup>−1</sup>), resulting in a daily CO<sub>2</sub> release rate of 114.745 ± 8.6 kg (15.095 ± 2 kg capita<sup>−1</sup>). The findings unveiled seasonal variations, indicating increased fuelwood consumption and emissions during the winter season. Statistical analysis shed light on the significance of altitude and family size in shaping the patterns of fuelwood use.</p><h3>Conclusions</h3><p>The results revealed the importance of prioritizing forest conservation and strategically implementing sustainable practices, including reforestation, afforestation, responsible harvesting, and actively promoting sustainable fuel sources. This research highlights the vital role of well-designed policies focused on preserving ecosystems and improving energy management. Policy intervention can ensure the sustainable stewardship of local and regional forest resources.</p></div>","PeriodicalId":539,"journal":{"name":"Energy, Sustainability and Society","volume":"14 1","pages":""},"PeriodicalIF":4.6000,"publicationDate":"2024-04-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://energsustainsoc.biomedcentral.com/counter/pdf/10.1186/s13705-024-00448-1","citationCount":"0","resultStr":"{\"title\":\"Spatial and temporal patterns of fuelwood consumption and its associated CO2 emissions in Muzaffarabad division, a western Himalayan region\",\"authors\":\"Raja Waqar Ahmed Khan, Nimra Nazir, Ansar Mehmood, Seema Qayyum, Hamayun Shaheen\",\"doi\":\"10.1186/s13705-024-00448-1\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Background</h3><p>In the Himalayan region, fuelwood serves as a critical energy source for rural communities. Being vital for meeting energy needs, fuelwood combustion is a source of carbon dioxide (CO<sub>2</sub>) emission and, consequently, global warming, as well as deforestation and public health damage. Therefore, quantifying fuelwood consumption patterns and its associated CO<sub>2</sub> emissions is essential to understand the environmental impact and promote sustainable resource management.</p><h3>Methods</h3><p>This research conducts an evaluation of fuelwood burning patterns and the associated CO<sub>2</sub> emissions in Azad Jammu and Kashmir (AJK), situated within the western Himalayan region. The study entails an extensive survey of 24 villages representing 240 households, equally distributed between the subtropical and temperate regions, each comprising 120 households. Data collection was executed through a combination of direct queries and the weight survey method, following standard protocols.</p><h3>Results</h3><p>In the study area, the mean annual fuelwood comsumption per household amounts to 24.28 ± 3.1 Mg (or 3.195 ± 1 Mg capita<sup>−1</sup>). A variance was observed between subtropical and temperate zones, with the latter exhibiting higher consumption rates. The consequential CO<sub>2</sub> emissions were assessed as 41.88 ± 4.5 Mg per household (5.51 ± 0.6 Mg capita<sup>−1</sup>). On a daily basis, households consumed an average of 66.52 ± 6.4 kg of fuelwood (8.75 ± 1.5 kg capita<sup>−1</sup>), resulting in a daily CO<sub>2</sub> release rate of 114.745 ± 8.6 kg (15.095 ± 2 kg capita<sup>−1</sup>). The findings unveiled seasonal variations, indicating increased fuelwood consumption and emissions during the winter season. Statistical analysis shed light on the significance of altitude and family size in shaping the patterns of fuelwood use.</p><h3>Conclusions</h3><p>The results revealed the importance of prioritizing forest conservation and strategically implementing sustainable practices, including reforestation, afforestation, responsible harvesting, and actively promoting sustainable fuel sources. This research highlights the vital role of well-designed policies focused on preserving ecosystems and improving energy management. 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Spatial and temporal patterns of fuelwood consumption and its associated CO2 emissions in Muzaffarabad division, a western Himalayan region
Background
In the Himalayan region, fuelwood serves as a critical energy source for rural communities. Being vital for meeting energy needs, fuelwood combustion is a source of carbon dioxide (CO2) emission and, consequently, global warming, as well as deforestation and public health damage. Therefore, quantifying fuelwood consumption patterns and its associated CO2 emissions is essential to understand the environmental impact and promote sustainable resource management.
Methods
This research conducts an evaluation of fuelwood burning patterns and the associated CO2 emissions in Azad Jammu and Kashmir (AJK), situated within the western Himalayan region. The study entails an extensive survey of 24 villages representing 240 households, equally distributed between the subtropical and temperate regions, each comprising 120 households. Data collection was executed through a combination of direct queries and the weight survey method, following standard protocols.
Results
In the study area, the mean annual fuelwood comsumption per household amounts to 24.28 ± 3.1 Mg (or 3.195 ± 1 Mg capita−1). A variance was observed between subtropical and temperate zones, with the latter exhibiting higher consumption rates. The consequential CO2 emissions were assessed as 41.88 ± 4.5 Mg per household (5.51 ± 0.6 Mg capita−1). On a daily basis, households consumed an average of 66.52 ± 6.4 kg of fuelwood (8.75 ± 1.5 kg capita−1), resulting in a daily CO2 release rate of 114.745 ± 8.6 kg (15.095 ± 2 kg capita−1). The findings unveiled seasonal variations, indicating increased fuelwood consumption and emissions during the winter season. Statistical analysis shed light on the significance of altitude and family size in shaping the patterns of fuelwood use.
Conclusions
The results revealed the importance of prioritizing forest conservation and strategically implementing sustainable practices, including reforestation, afforestation, responsible harvesting, and actively promoting sustainable fuel sources. This research highlights the vital role of well-designed policies focused on preserving ecosystems and improving energy management. Policy intervention can ensure the sustainable stewardship of local and regional forest resources.
期刊介绍:
Energy, Sustainability and Society is a peer-reviewed open access journal published under the brand SpringerOpen. It covers topics ranging from scientific research to innovative approaches for technology implementation to analysis of economic, social and environmental impacts of sustainable energy systems.
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