Résumé
Ecosystem-based Adaptation (EbA) is a strategy that relies on forest landscape’s biodiversity management and restoration to enhance the sustainable production and supply of ecosystem goods and services as alternative livelihoods to cushion the society against the negative impacts of climate change. As climate change becomes a reality, adaptation measures which are cost effective and economically beneficial are urgently required. Mount Elgon ecosystem in the western region of Kenya has EbA characteristics which could offer longer term solutions to adaptation to climate change impacts while providing a range of other benefits in terms of ecosystem goods and services. This paper established the existing capacities for Ecosystem based adaptation inclusion in the sub-national adaptation plans and policies in order to improve resilience to climate change impacts in the Mt. Elgon ecosystem. To achieve this, a descriptive survey was carried involving 405 household and 51 government and civil society respondent drawn from Saboti, Kiminini, Endebess and Kwanza sub-counties, Transnzoia County in Kenya. Results showed that there were good institutional representations in Mt. Elgon ecosystem with line ministries largely being responsible (63.4%) for the management of the individual natural resources that occur in the Mt. Elgon ecosystem while a few others were either co-managed (9.7%) or managed by the County Government of Transnzoia (9.7%). Majority (77%) of household respondents observed uncoordinated approach in ecosystem management. This should be addressed in order to increase ecosystem health which eventually leads to enhanced EbA services. Majority (73.2%) of government and civil society respondents cite inter-sectoral policy inconsistencies and conflicts as contributors to degradation of ecosystem health in the study area. This too has impacted negatively on EbA. A major conclusion in the study was that consolidation and harmonization of ecosystem policies in the Mt. Elgon’s ecosystem will lead to a healthy landscape that provides sustainable EbA services.
Résumé
Hierarchical Land Classification of forest ecosystems is an attempt to classify the territory considering hierarchical distinctions of plant communities. Ecological land classification is especially crucial for semi natural or degraded forest ecosystems. In this study, a hierarchical land classification was generated for Aglasun forest ecosystems where urban and agricultural developments and non-stop human activity for fuel wood and timber have caused extensive degradation to native plant communities. Data obtained from 153 sample plots consisting of environmental characteristics and vascular plant species were evaluated by using cluster analysis, stepwise discriminate analysis, and chi-square test. Interspesific correlation analysis was applied to define the indicator species at each distinction level. Two sections, two subsections and four units were finally determined for the Aglasun forest district. The results of the stepwise discriminate analyses showed that the fundamental variables for classifying the district are altitude, exposition, latitude and longitude.
Résumé
Turkey has very rich ecosystems and habitats in which various types of vegetation communities and fauna are found. These properties of Turkey depend on its geographical position, different climatic region, mountainous topographical conditions and climatic changes occurred during the Pleistocene. Several field works have been conducted during the period of 1975-2008. The field observations and analyses of data reveal that Turkey’s forests can be divided into six main forest ecosystems (Black sea region, Marmara transitional region, Mediterranean region, Mediterranean transitional region, Inner and Eastern anatolian region, Southern anatolian region) in terms of floristic composition, forest productivity and climatic properties.
Résumé
The nutrients NO3-, NH4+, K+, Ca2+, Mg2+ and Na+ were determined in a soil solution in a layer 0-30 cm, in an area submitted to selective logging (6-10 trees or 34 m³ ha-1 of timber), located 80 km north of Manaus. The experiment was made up of three blocks, each containing one control plot and one plot submitted to selective logging. The soil in the area is very clayey Alic Yellow Latosol, with a high clay content. The samples were collected and analysed during 13 months in five treatments: control (pristine forest), centre of the clear-cut, edge of the clear-cut, edge of the remaining forest and remaining forest. Calcium, magnesium, potassium and sodium concentrations showed significant differences among the different treatment. Nitrate and ammonium ions were the less affected concentrations. In the treatments centre of the clear-cut and edge of the clear-cut, the nutrient results were, mostly, the highest values. The greatest difference occurred in the sodium concentration in the soil solution, which reached 5 kg/ha, in the centre of clear-cut of Blocks I and II, being practically twice as much as the values found on their respective control plots. The lowest concentrations of the nutrients in the soil solution on the pristine forest (control plot) and in the remaining forest confirm the efficiency of the forest in nutrient cycling. The higher concentration values of these nutrients in the centre of the clear-cut, might be possibly due to the removal of trees, availability of easily decomposable materials like dead roots and accumulated litter.
Os solos de terra firme da Amazônia Central, na sua maioria, são ácidos, pobres em nutrientes e a manutenção da floresta sobre esses solos é garantida pela ciclagem de nutrientes, praticamente fechada. A substituição de floresta por pastagens ou outras atividades agrícolas leva à diminuição de nutrientes do compartimento biomassa, podendo comprometer os processos de ciclagem no solo, pois plantas absorvem nutrientes que presentes na solução do solo. Para entender o efeito de retirada de árvores, foi realizado um estudo em uma área de floresta de terra firme na Amazônia Central submetida à extração seletiva de madeira (6-10 árvores, ou 34 m³ ha-1 de madeira) localizada 80 km ao norte de Manaus, foram determinados os teores NO3-, NH4+, K+, Ca2+, Mg2+ e Na+ na solução do solo na camada de 0-30 cm. O experimento constou de três blocos, cada um contendo uma parcela controle e uma que sofreu o corte seletivo de árvores, todos sobre um Latossolo Amarelo álico de textura muito argilosa. As medidas foram realizadas durante 13 meses, em cinco tratamentos em cada bloco: controle (floresta intacta), centro de clareira, borda de clareira, borda da floresta remanescente e floresta remanescente. Os teores de potássio, cálcio, magnésio e sódio mostraram diferenças significativas entre os tratamentos. As quantidades dos íons amônio e nitrato foram as menos afetadas. Os valores mais elevados foram geralmente encontrados nos tratamentos centro de clareira e borda de clareira. A maior diferença ocorreu na quantidade de sódio na solução do solo, que chegou a mais de 5 kg ha-1, no centro de clareira de dois blocos, praticamente o dobro da encontrada nas suas respectivas parcelas controles. As concentrações mais baixas dos nutrientes na solução do solo da floresta intacta (controle) e da floresta remanescente, confirmam a eficiência da floresta na ciclagem de nutrientes. Porém, no centro de clareira, além da remoção de árvores, a disponibilidade de materiais de fácil decomposição, como raízes mortas e a liteira acumulada, podem ter contribuído para uma maior concentração de nutrientes na solução do solo.