Browsing by Author "Shelukindo, H. B."
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Item Potential of carbon storage in major soil types of the Miombo woodland ecosystem, Tanzania: A review(Academic and Scientific Publishing, 2014-07) Shelukindo, H. B.; Semu, E.; Msanya, B. M.; Munishi, P. K. T.; Maliondo, S. M. S.; Singh, B. R.This review was undertaken to explore the potential of soils to sequester and store large quantities of carbon (C) in the form of soil organic carbon (SOC) from the view point of global climate change regulation and reduced CO2 emissions. Miombo woodland forest soils are an important sink of atmospheric C. The major soils found in the Miombo woodlands include: Cambisols (Inceptisols), Leptosols, and Fluvisols (Entisols), Luvisols (Alfisols), Acrisols (Ultisols), Ferralsols (Oxisols), and Vertisols (FAO-WRB classification system and USDA- Soil Taxonomy). The soils differed in physico-chemical properties and exhibited differences in morphological characteristics, nutrient status and SOC storage, suggesting a remarkable variation in potential, constraints and management strategies for the different soil types. The review underscored the potential of soils as one among the important strategies in fighting against climate change due to the presence of soil humus that stabilizes soil organic carbon for a long period of time. Overall, Miombo woodland soils have a high potential for storing substantial SOC stocks. Miombo are composed of different tree species (average of 45 species per biome) with differences in C storage capacity. Thus, strengthening land/forest conservation could lead to build up of SOC stocks that would contribute to global climate change regulation.Item Predictor variables for soil organic carbon contents in the Miombo woodlands ecosystem of Kitonga forest reserve, Tanzania(International Journal of Agricultural Sciences, 2014-07) Shelukindo, H. B.; Semu, E.; Msanya, B. M.; Singh, B. R.; Munishi, P. K. T.Few studies have established the variables which adequately predict SOC storage in the Miombo woodlands. Multiple regression analysis was used to establish the variables which could predict SOC contents in dominant soils of the Miombo woodlands of Kitonga Forest Reserve, Tanzania. Thirty soil minipits located at different elevations across a topographical gradient were selected, geo-referenced, excavated and samples from the natural horizons were collected for physico-chemical analysis. A total of 85 samples were collected, each representing a natural soil horizon. The results indicated that total nitrogen (TN), (P< 0.001, R2 = 0.97) and TN in combination with calcium (Ca) (P< 0.001, R2 = 0.99) were important predictor variables of SOC contents. The combination of cation exchange capacity, Zinc, Copper, clay and iron together with TN and Ca predicted well the SOC contents (P< 0.001, R2 = 0.999). Considering time and cost implications for field and laboratory analysis in predicting SOC stocks, the combination of TN and Ca that predicted the SOC contents by 99% provided equally strong prediction when compared to the combination of all the variables. Thus, proper land management strategies which enhance conservation of TN and Ca in concert would provide adequate prediction of SOC contents in soils.