7 research outputs found

    Wood fuel Utilization Patterns and Cooking Devices Efficiency Analysis for Likia Residents, Njoro Kenya

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    Over 2.6 billion people of the world’s population prepare their food and heat their homes with coal and the traditional biomass fuel. Wood fuel continues to be used as a major source of energy without a replacement program and is partly the cause of wide spread deforestation at an alarming rate of about 13 million hectares per year. Crucial to slowing the loss of the vegetation is promoting alternative sources of energy and/or using fuel efficient devices. This study examined the efficiency of cooking devices and the wood fuel consumption patterns among the rural population sampled from Kenya in Likia village near Njoro, so as to determine the more efficient cooking device and corresponding wood fuel. Initially, a survey was carried out capturing baseline data on the wood fuel utilization patterns and Split Plot in Randomized Complete Block Experimental Design used to select an efficient heating device where heating devices were a sub plot factor and the sources of energy as main plot factor to study the efficiencies of the devices. The results showed that wood fuel was the major source of cooking energy among the study population, and there were significant differences in the efficiencies of the devices due to the fuel type, the devices and interaction between the fuel and the devices. Among the recommendations made include the need to promote on-farm forestry specifically for wood fuel and timber production; effective management of natural forests, creating awareness about the key ecological services provided by forest ecosystems and delayed possible deforestation; promotion of energy saving stoves, the improvement of biomass briquette burning properties alongside the design of stoves for briquette use. Ultimately these results are expected to contribute to the slowing down of deforestation of the Mau Forest which is major water catchment for East Africa with overflow benefits to the Sudan and Egypt and promote sustainable uses of forest resources. Keywords: Wood fuel, Cooking devices, Efficienc

    Vegetation

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    Monitoring vegetation dynamics and land cover change in Kenya is a key information layer for the sustainable management of natural resources and biodiversity conservation. However, accurate seasonal vegetation status and long term land cover change data valid at the regional and country level are hard to obtain or do not exist. This study starts by describing the various ecological regions of Kenya and the associated rainfall and land cover patterns of each ecological zone. Seasonal composite images derived from low resolution remote sensing data are processed in order to characterize by eco-region and generalized land cover type the inter-annual variability of the vegetation cycle, including the start-, mid- and end of the growing season. The seasonal vegetation variability is analyzed and put in perspective to the rainfall patterns over the period. A map of the inter-annual variability is produced, highlighting the areas mostly affected. Furthermore, detailed land cover changes for the last twenty years are assessed and quantified for the country by applying a systematic sampling of high resolution satellite imagery. Statistical estimates of land cover change are produced for six broad classes for the years 1990, 2000 and 2010. Figures of change for Kenya are presented and put in perspective to the low resolution time series. Results highlight information on land cover change processes such as vegetation dynamics and deforestation. These are discussed within the context of the causes of changes to the natural ecosystem - their potential impact on land availability for human activities such as agriculture and tree cutting for timber and fire wood production on the one side and habitat and biodiversity conservation on the other side. Finally, biodiversity and habitat value, ecosystems and threats, are analyzed for Kenya’s conservation and protected areas so as to identify the status of and pressures on the countries protected areas. Six indicators of species irreplaceability, habitat irreplaceability, and the level of perceived threat to a protected area’s habitat and species from agriculture and population are analyzed. Results are presented at the protected area scale and compared with the other protected areas in the country and eco-regions. In addition, high resolution satellite images taken over conservation areas are exploited for assessing land cover changes inside protected areas and in the surrounding 20km buffer zone. The results show the importance and effectiveness of conservation areas for reducing the loss of natural vegetation and hence protecting the habitat and biodiversity.JRC.H.5-Land Resources Managemen

    Protection Reduces Loss of Natural Land-cover at Sites of Conservation Importance Across Africa

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    There is an emerging consensus that protected areas may be effective at reducing adverse land-cover change, but their efficacy remains difficult to quantify. Many previous assessments of protected area effectiveness have compared changes on sets of protected and unprotected sites that differ systematically in other potentially confounding respects (e.g. altitude, accessibility), have considered only forest loss or single sites, or have analysed changes derived from coarse resolution land-cover data. We assessed the effectiveness of protection in reducing land-cover change in African Important Bird Areas (IBAs) using a dedicated visual interpretation of change from higher resolution satellite imagery. We compared rates of natural land-cover loss at points across 45 protected IBAs with those from 48 unprotected IBAs over a c. 20-year period. We used a matching algorithm to select sample points, controlling for systematic differences between protected and unprotected IBAs. The rate of loss of natural land-cover within protected IBAs was just 42% of that on similar unprotected IBAs. Protection reduced rates of forest loss by a similar relative amount, although absolute rates of loss were over twice those for all natural land cover. Rates of conversion increased towards the edges of both protected and unprotected IBAs, but the similar rates of loss in areas surrounding protected IBAs and unprotected IBAs suggested no evidence of displacement of conversion from within protected areas to their surrounds (leakage).JRC.H.5-Land Resources Managemen

    Protection reduces loss of natural land-cover at sites of conservation importance across Africa.

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    There is an emerging consensus that protected areas are key in reducing adverse land-cover change, but their efficacy remains difficult to quantify. Many previous assessments of protected area effectiveness have compared changes between sets of protected and unprotected sites that differ systematically in other potentially confounding respects (e.g. altitude, accessibility), have considered only forest loss or changes at single sites, or have analysed changes derived from land-cover data of low spatial resolution. We assessed the effectiveness of protection in reducing land-cover change in Important Bird Areas (IBAs) across Africa using a dedicated visual interpretation of higher resolution satellite imagery. We compared rates of change in natural land-cover over a c. 20-year period from around 1990 at a large number of points across 45 protected IBAs to those from 48 unprotected IBAs. A matching algorithm was used to select sample points to control for potentially confounding differences between protected and unprotected IBAs. The rate of loss of natural land-cover at sample points within protected IBAs was just 42% of that at matched points in unprotected IBAs. Conversion was especially marked in forests, but protection reduced rates of forest loss by a similar relative amount. Rates of conversion increased from the centre to the edges of both protected and unprotected IBAs, but rates of loss in 20-km buffer zones surrounding protected IBAs and unprotected IBAs were similar, with no evidence of displacement of conversion from within protected areas to their immediate surrounds (leakage)
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