Study on Coppice Management of Acacia Nilotica Tree for better Woody Biomass Production
DOI:
https://doi.org/10.18034/mjmbr.v2i2.395Keywords:
Acacia, Coppicing, Biomass, niloticaAbstract
Over 90% of the energy consumed in the country depends on woody biomass. The rising demand for tree products and expanding population pressure resulted in decline of forest cover and consequently the demand for tree products exceeded the supply. This study was conducted at Armania Kebele with the aim of to evaluate different cutting time and management practices yielding more wood biomass volume. One indigenous tree species, preferable by the farmers, namely Acacia nilotica was selected and the experiment design in 3x4 factorial experiment with randomized complete block design arrangement and replicated three wise. Eight trees per plot were planted in two rows with 2 meter spacing. The result shows that, Acacia nilotica could be coppiced well with 13 to 29 numbers of coppices per stump at all stages of cutting time. Root collar diameter and plant height were highly correlated with growth period. Hence, Leaving of two and three number of coppices could give higher woody biomass volumes as compare to leaving one and all number of coppices and control (uncut). Therefore, it is necessary that farmers should allow two and three number coppice per stump to get high woody biomass volume for fuel-wood consumption.
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References
Araya, A., Girma, A., & Getachew, F. (2015). Exploring Impacts of Climate Change on Maize Yield in Two Contrasting Agro-Ecologies of Ethiopia. Asian Journal Of Applied Science And Engineering, 4(1), 27-37. Retrieved from http://journals.abc.us.org/index.php/ajase/article/view/Araya
Azene Bekele, 2007. Useful trees and shrubs for Ethiopia. Identification, propagation and management for 17 agroclimatic zones. world agroforestry centre, East Africa region, Nairobi, Kenya.
Chile, L., & Talukder, D. (2014). The Paradox of Agricultural Trade Liberalization in Bangladesh and Tanzania.American Journal Of Trade And Policy, 1(1), 23-31. Retrieved fromhttp://journals.abc.us.org/index.php/ajtp/article/view/1.3 DOI: https://doi.org/10.18034/ajtp.v1i1.358
Chirwa, T. S., Mafongoya, P. L. and Chitu, K. 2003. Mixed planted fallow using coppicing and non-coppicing trees for degraded acrisols in Eastern Zambia. Journal of Agroforestry Systems 59(3): 243 – 251 DOI: https://doi.org/10.1023/B:AGFO.0000005225.12629.61
Devi, K., Vijayalakshmi, P., Kumar, B., & Talluri, V. (2014). Statistical Optimization of Kojic Acid Production through Response Surface Methodology by Aspergillus Flavus using Sago Starch Hydrolysate as a Carbon Source. Asian Journal Of Applied Science And Engineering, 3(5), 53-60. Retrieved fromhttp://journals.abc.us.org/index.php/ajase/article/view/9.6
EFAP (Ethiopian forestry action programme), 1994. Ethiopian forestry action program. Volume II. The challenges for development. EFAP secretariat, Addis Ababa, Ethiopia.
Harmer, R, and Howe, J. 2003. The silviculture and management of coppiced woodlands. Forestry Commission, Edinburgh.
Hossain, A., Khan, J., & Miah, M. (2015). Distribution Process of Pesticides in Vegetable Production in the Southern Part of Bangladesh. Asian Business Review, 4(2), 20-24. Retrieved fromhttp://journals.abc.us.org/index.php/abr/article/view/Afjal DOI: https://doi.org/10.18034/abr.v4i2.270
Hossen, S. (2015). Statistical Analysis of Current Guava Production and Its Prospect in Bangladesh. Asian Business Review, 1(1), 09-14. Retrieved from http://journals.abc.us.org/index.php/abr/article/view/1.3Hossen DOI: https://doi.org/10.18034/abr.v1i1.331
Ilahi, H., Saadaoui, I., Bryant, C., & Rejeb, H. (2014). Anthropized Agrarian Landscape in the Central-west of Tunisia: Attempts to Evaluate the Production’s Systems of Apples-trees Orchards in the Delegation of Sbiba. ABC Journal Of Advanced Research, 3(1), 34-43. Retrieved from http://journals.abc.us.org/index.php/abcjar/article/view/5.5
Islam, M., & Mondal, T. (2013). Potentiality of Biomass Energy for Electricity Generation in Bangladesh. Asian Journal Of Applied Science And Engineering, 2(2), 103-110. Retrieved fromhttp://journals.abc.us.org/index.php/ajase/article/view/4.9pdf
Katsaruware, R., & Gwembire, J. (2014). Float Trays as an Alternative to Methyl Bromide in Tobacco Production in Hurungwe District, Zimbabwe. Asian Journal Of Applied Science And Engineering, 3(2), 119-128. Retrieved fromhttp://journals.abc.us.org/index.php/ajase/article/view/6.9%28k%29
Mekonen, M., Tesfaye, K., & Bayu, W. (2013). Soil Drainage and Nutrient Management to Improve Productivity of Waterlogged Vertisols for Small-scale Farmers. Engineering International, 1(2), 27-39. Retrieved from http://journals.abc.us.org/index.php/ei/article/view/2.3%281%29
Nahar, K. (2012). Biogas Production from Water Hyacinth (Eichhornia Crassipes). Asian Journal Of Applied Science And Engineering, 1(1), 9-13. Retrieved from http://journals.abc.us.org/index.php/ajase/article/view/1.1.12
Seid, M. (2013). Community Perception and Indigenous Adaptive Response to Climate Variability at Tehuledere Woreda, South Wollo. Engineering International, 1(2), 18-26. Retrieved from http://journals.abc.us.org/index.php/ei/article/view/2.2%281%29
Silva, J., Nicácio, S., & Silva, A. (2014). Work on behalf of Native Forest Conservation in the Settlements Pacas and Paraná, Murici and Girau Do Ponciano Municipalities, State of Alagoas, Northeastern Brazil. Asian Journal Of Applied Science And Engineering, 3(4), 34-40. Retrieved from http://journals.abc.us.org/index.php/ajase/article/view/8.4
Yigardu, M. 2002. Aboveground Biomass of the Dominant Tree Species on Farmlands in Sirinka Catchment, North Wollo, Ethiopia. MSc thesis, Wondo Genet Collage of Forestry and Swedish University of Agricultural Sciences, Sweden
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