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Adolfsson, Lena (2008) The impact of agroforestry and other landuses on soil functional capacity. Other thesis, SLU.

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Abstract

Deforestation, agricultural cultivation and overuse of land resources can lead to decreasing functional capacity of soil microorganisms, e.g. decreasing decomposition and mineralisation capacity and rate. Agroforestry systems have long been considered to have positive effect on soil conditions and there is a need to investigate if the functional capacity of the soil can be recovered by these practices to reverse land degradation in the tropics. The objective of this study was to compare the functional capacity and diversity of soils under different land use, measured as substrate utilization potential of the soil bacteria community. Samples along an intensification gradient from undisturbed forest, forest plantations, agroforestry fields, agricultural fields and the most disturbed eroded soil were taken from farms on the slopes of Mount Elgon in the Rift Valley province of western Kenya. The microbial substrate utilization was studied by using Biolog EcoPlatesTM and chemical and biological soil properties including pH, extractable P, total N, organic C, nitrates and microbial biomass C and N were determined. In general, the bacterial substrate utilisation potential, pH and N and C content follow a pattern with values from eroded and agricultural land lower than agroforestry and planted as well as natural forest. Microbial biomass C and N also show increasing values with decreasing disturbance with the levels for natural forest two to three times higher than the other land uses. PCA for chemical properties show a significant difference between natural forest and the other land uses, while agroforestry overlap with both agriculture and forest plantation. PCA and the metabolic response rates calculated from average well colour development in Biolog EcoPlates clearly shows that natural and planted forest are equalled by agroforestry but not by agriculture or eroded land. The results indicate that the microorganism community composition is similar in land with similar vegetation and thus that the functional capacity of the soil can be restored by active soil management such as agroforestry practices on earlier overused agricultural land.

Item Type: Thesis (Other)
Keywords: Agroforestry, soil functional capacity, Biolog Ecoplate, substrate utilisation potential, soil microorganism, functional biodiversity, soil bacteria
Subject (faculty): Faculty of Veterinary Medicine and Animal Science > Dept. of Ecology
Divisions: SLU > Faculty of Natural Resources and Agricultural Sciences
Depositing User: Lena Adolfsson
Date Deposited: 11 Dec 2008
Last Modified: 18 Aug 2015 10:10
URI: http://ex-epsilon.slu.se/id/eprint/2965

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