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Manuscript ID : IJASRT-1704-1055 (R1) Visit : 145 Page: 103 - 110

Article Type: Original Research

Agricultural Extensification and Biodiversity Loss in Ikom Cross River State, Nigeria

Subject Areas : Extension of Sustainability

Odey  Ogah 1 (Department of Agricultural Economics, University of Agriculture Makurdi, Nigeria)
Tsue Peter  Terfa 2 (Department of Agricultural Economics, University of Agriculture Makurdi, Nigeria)
Ugorja,  Comfort Livinus 3 (Department of Agricultural Economics, University of Agriculture Makurdi, Nigeria)

Received: 2017-04-07 Accepted : 2017-06-06 Published : 2017-12-01

Keywords: agriculture, effects, Biodiversity loss, Extensification,

Abstract :

The study analyzed agricultural extensification and biodiversity loss in Cross River State, Nigeria. The study used primary data with the aid of a well-structured questionnaire to collect data from one hundred and ten respondents (110) through simple random sampling technique. Data collected were analyzed using descriptive statistics as well as inferential statistics. The results revealed that animals like hare, wild cat, gorilla, hyena and elephant with mean scores of 2.53, 2.89, 3.40, 3.09 and 3.21 respectively were almost lost. Gorilla was at danger of extinction. Plants like ropes, otasi, hotleaf, bamboo and iroko with mean scores of 1.66, 1,62, 1.64, 1.61 and 2.00 respectively were not completely lost. Analysis of logic regression results revealed that age with coefficient 0.161, slash burn (2.734), awareness of biodiversity (3.392) years before fallow (0.842) were positive and significant at 10% level of probability. The results also revealed that the coefficient of mixed cropping (2.495), trees felling (3.006), herbicides (0.494) were positively significant at 5%. These variables, increases the probability of high extent of biodiversity loss. Farming experience, extension visit and acreage increase have negative coefficients and are significant at 5%, also land conflict (-1.996) was negatively significant at 10% implying that these variables increases the probability of biodiversity loss. The study recommended that government should enact or enforce a law to prevent human activities from engaging in excess deforestation and exploitation of organisms so as limit biodiversity loss, education of the farmers on the implication of biodiversity loss is advocated.

References:


  1. Adewumi, O. J. (2008). Economics of poultry production in Egba Division of Ogun staate, Nigeria, Agricultural Journal 3(1):10-13 as cited by Eloyi, S (2016) Analysis of technical efficiency among small holders maize and rice farmers in Niger state, Nigeria. Unpublished M.Sc. Thesis Department of Agricultural Economics University of Agriculture Makurdi, Nigeria pp 41.
    2.
  2. Alexandratos, N., Bruinsma, J. (2012). World agriculture towards 2030/2050:the2012 revision. In ESA Working Paper12-03, Rome, FAO.
    3.
  3. Alkemade, R, Van Oorschot, M. Miles, L, Nellemann, C, Bakkenes, M and ten Brink, B. (2009). as cited by HJM Van Grinsven, Jan, W.E, Wim de Vries and Henk, W. (2015). Potential of Extensification of European Agriculture for a more Sustainable food system, focusing on nitrogen. Environmental Research Letters. 10: 1-8.
    4.
  4. Eloyi, S. (2016). Analysis of technical efficiency among small holders maize and rice farmers in Niger state, Nigeria. Unpublished M.Sc. Thesis Department of Agricultural Economics University of Agriculture Makurdi, Nigeria pp 41.
    5.
  5. Foley, J. A., Ramankutty, N., Brauman, K. A., Cassidy, E. S., Gerber, J. S., Johnston, M., Mueller, N. D., O’Connell, C., Ray, D.K., West, P. C., Balzer, C., Bennett, E. M., Carpenter, S.R., Hill, J., Monfreda, C., Polasky, S., Rockström, J., Sheehan, J., Siebert, S., Tilman, G. D., Zaks, D. P. M. (2011). Solutions for a cultivated planet. Nature 478: 337–342.
    6.
  6. Food and Agricultural Policy Research Institute. (2012). FAPRI elasticity database 2012, http://www.fapri.iastate.edu/tools/elasticity.aspx. Accessed on-lineMay 18, 2013.
    7.
  7. Fritz, S., See, L., Vander Velde, M., Nalepa, R. A., Perger, C., Schill, C., Mc Callum, I., Schepaschenko, D., Kraxner, F., Cai, X. M., Zhang, X., Ortner, S., Hazarika, R., Cipriani, A., Di Bella,C.,Rabia,A. H., Garcia,A., Vakolyuk,M., Singha, K., Beget, M. E., Erasmi, S., Albrecht, F., Shaw, B., Obersteiner, M. (2013). Downgrading recent estimates of land available for biofuel production. Environmental Science & Technology 47:1688-1694.
    8.
  8. Garnett, T. and Godray, C. (2012) Sustainable Intensification in Agriculture, navigating a course through competing food system priorities. Food climate research network and the Oxford Martin Programme on the future of food (Oxford, University of Oxford 51 pp.
    9.
  9. Gilberic, C. L. (2007). Upgrading primary production of rice and marketing A global commodity chain approach. Journal of the world development. 29 (2): 345-363.  
    10.
  10. Grassini, P., Eskridge, K. M, Cassman, K.G. (2013). Distinguishing between yield advnces and yield plateaus in historical crop production trends Nature. Column 4.
    11.
  11. Green, R. E., and S. J. Cornell. (2005). Farming and the fate of wild nature. Science 307(5709): 550-555.
    12.
  12. Gyanden,P. K., Mtimbir, G. I and Ismaila, S. (2017). Effects of agricultural practices and socio-economic characteristics on Biodiversity in Olamaboro local government area of Kogi state, Nigeria. International journalof Agricultural Science, Research and Technologyin Extension and Educational Systems, 7(1):1-9
    13.
  13. Iyortom, W. (2016). Economic analysis of maize production in Ukum local government area of Benue state, Nigeria. Unpublished project work department of Agricultural Economics University of Agriculture Makurdi, Nigeria pp 34-36
    14.
  14. Kroll, K. (1997). as Cited by A. E. De Hingh (2000). Three Models of the Intensification of Agriculture pp 43-52.
    15.
  15. Millennium Ecosystem Assessment. (MEA). (2005). Ecosystems and Human Well-being: Biodiversity Synthesis. World Resources Institute, Washington, DC.  http://www.millenniumassessment.org/documents/document.354.aspx.pdf
    16.
  16. Mueller, N. D., Gerber, J. S., Johnston, M. Ray, D.K., Ramankulty, N. Foley, J. A. (2012). Closing yield gaps through nutrients and water management, Nature 490: 254-257
    17.
  17. Ojo, S. O. (2012). Effect of socio-economic variables on technical efficiency of small-scale oil palm farmers in Ondo state food and fibre production in Nigeria in the 21st Century. Proceeding of the first annual conference of the college of Agriculture and Veternary Medicine Abia state University Uturu, Nigeria 10th-13t Septrmber 2011 as cited by Eloyi, S (2016) Analysis of technical efficiency among small holders maize and rice farmers in Niger state, Nigeria. Unpublished M.Sc. Thesis Department of Agricultural Economics University of Agriculture Makurdi, Nigeria pp 41.
    18.
  18. Onumere  J and Alamba C. S. (2012). Analysis of socio economic factor affecting output of the farmer in management system of cocoa (Theobroma) producing Abia State, Nigeria .GAEP, vol.6(2).pp 11-17.
    19.
  19. Tilman D, Balzer C, Hill J and Befort B L (2011). Global food demand and the sustainable intensification of agriculture Proceedings of the National Academy of Sciences of the United States of America, 96: 5995-6000.
    20.
  20. Tiwari, K. R. Brishal, K. Situala I and Paudel, G. S. (2008). Determimants of Farmer’s Adoption of Improved Soil Conservation Technology in a Middle Mountain Watershed of Central Nepal Environment Management, 42 (2): 210-222 in Assessment of Adoption of Organic Fertilizer by Maize and Rice farmers in Benue State, Nigeria. by Ukohol, F, Y (2016) Unpublished M.Sc. Thesis Department of Agricultural Extension and Communication University of Agriculture Makurdi, Nigeria.
    21.
  21. Ukohol, F, Y. (2016). Assessment of Adoption of Organic Fertilizer by Maize and Rice farmers in Benue State, Nigeria. Unpublished M.Sc. Thesis Department of Agricultural Extension and Communication University of Agriculture Makurdi, Nigeria. Pp44-53
    22.
  22. Van Ver Veen and Connar, O. (1998).Gardens and Field the intensity and scale of food production. World Archaeology Journal 37(2):157-163
    23.
  23. Van Vuuren. (2012). as cited by HJM Van Grinsven, Jan, W.E, Wim de Vries and Henk, W(2015) Potential of Extensification of European Agriculture for a more Sustainable food system, focusing on nitrogen. Environmental Research Letters, 10: 1-8. 
    24.

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