ABSTRACT
A field experiment was conducted from June to March in years 2013/2014 and 2014/2015 at the
Research Farm, University of Agriculture, Makurdi, Nigeria, to evaluate the yield response of cassavaokra intercrop as influenced by population densities and time of introducing okra, as well as assessing
the yield advantages of the intercropping system. The experiment was a 3 x 3 factorial combination of
treatments, fitted in a randomized complete block design, with four replications. The population
densities of okra (33,333, 40,000 and 50,000 plants ha-1
equivalent) into cassava constituted the main
plots, while the time of introducing okra into cassava (okra sown at the same time with cassava in mid
June; okra introduced into cassava in mid July and okra introduced into cassava in mid August) were
assigned to the subplots. Results of study showed that sowing okra at the same time as cassava in mid
June, at the population density of 33,333 plants ha-1 produced the highest yields of cassava (46.8 t ha-1
and 39.2 t ha-1
respectively in years 2013 and 2014) and okra (7.7 t ha-1
and 7.5 t ha-1
respectively in
years 2013 and 2014) in a cassava-okra intercrop. This level of interaction also gave the highest total
intercrop yields, highest land equivalent coefficient (LEC) values, highest land equivalent ratio (LER)
values of 1.86 and 1.84 and highest percentage (%) land saved (46.2 % and 45.7 %) respectively
recorded in years 2013 and 2014. The implication of study showed that it is most advantageous having
both crops in intercrop when okra was sown at the same time as cassava in mid June, at the population
density of 33,000 plants ha-1
. This should therefore be recommended for Makurdi location, Nigeria.
References
[1] Adetiloye P.O., Ezedinma F.O.C., Okigbo B.N., Ecological Modeling 19 (1983) 27-39.
[2] Breda N.J., Journal of Experimental Botany 54 (2003) 2403-2417.
[3] Clementine L.D., Malick N.B., Koussao S., Antoine S., African Journal of Agricultural
Research 4(12) (2009) 1488-1492.
[4] Echoi E.E. (2012). Yield effects of cassava as affected by different stem cutting lengths
in Makurdi, Nigeria. B. Agric. Project, Department of Crop Production, University of
Agriculture, Makurdi, Nigeria.
[5] Ekpete D.M., Nigerian Agricultural Journal 13 (2000) 96-102.
[6] Enwezor W.O.E., Udo J., Ajotade K.A. (1989). Fertilizer procurement and distribution,
fertilizer use and management practice for crops in Nigeria. Savenda Publishers,
Nsukka, Nigeria, pp. 25-28.
[7] Ezumah H.C., Namky N. (1984). Mixtures of maize, cowpea, okra and cassava.
International Institute of Tropical Agriculture, Annual Report, pp. 181-182.
[8] FAO Report (2001). Production Crops: Primary and Domain. Food and Agricultural
Organization Report, pp. 35.
[9] Hiebsch C.K., McCollum R.C., Agronomy Journal 79 (1987) 15-23.
[10] Ibeawuchi I.K., Nature and Science 5(1) (2007) 46-49.
[11] Ibeawuchi I.I., Obiefuna J.C., Ofor M.C., Ihejirika G.O., Tom C.T., Onweremadu E.U.,
Opara C.C., Pakistan Journal of Biological Sciences 8(2) (2005) 215-219.
[12] Ijoyah M.O., Alexander A., Fanen F.T., Agriculture and Biology Journal of Northern
America 6 (2012) 1328-1332.
[13] Ijoyah M.O., Jimba J., Agricultural Science Research Journal 1(8) (2011) 184-190.
[14] Ijoyah M.O., Atanu S.O., Ojo S., Journal of Applied Biosciences 32 (2010) 2015-2019.
[15] Iyagba A.G., Onuegbu B.A., Ibe A.E., Global Journal of Science Frontier Research
12(7) (2012) 10-14.
[16] Majnoun H.N., Ellis R.H., Yazdi-Samadi B., Journal of Science and Technology 3
(2001) 131-139.
[17] Mbah E.U., Tropical and Subtropical Agroecosystems 15 (2007) 241-248.
[18] McGilchrist C.A., Biometrics 27 (1971) 659-671.
World Scientific News 18 (2015) 93-114
-114-
[19] Muoneke C.O., Asiegbu J.E., Journal of Agronomy and Crop Science 179 (1997) 201-
207.
[20] Muoneke C.O., Mbah E.U., African Journal of Agricultural Research 2(5) (2007) 223-
231.
[21] Muoneke C.O., Ogwuche M.A.O., Kalu B.A., African Journal of Agricultural Research
2(12) (2007) 667-677.
[22] Olasunkanmi M.B., Michael A., Fisayo D., Greener Journal of Agricultural Sciences
2(1) (2012) 13-20.
[23] Olufajo O.O., Tropical Oil Seeds Journal 1 (1992) 27-33.
[24] Ozer H., Journal of Plant Soil Environment 49(9) (2003) 422-426.
[25] Shad K.K., Wahab A., Rehman A., Fida M., Wahab S., Khan A.Z., Zubair M., Mir
K.S., Khalil I.H., Amin R., Pakistan Journal of Botany 42(6) (2010) 3831-3838.
[26] Steel G.O., Torrie J.H. (1980). Principles and procedures of statistics. A biometrical
approach. 2nd edition, McGraw-Hill Book International Company, New York, Pp. 633.
[27] Tsefu M., Yamoah C., African Journal of Plant Science 4(8) (2010) 270-279.
[28] Turk M.A., Tawaha A.M., El-Shatnawi M.E., Journal of Agronomy and Crop Science
189(1) (2003) 1-6.
[29] Usman S.D., Seed Research 29(1) (2001) 47-51.
[30] Uzozie L.C., Tropical Geography 8(2) (2001) 62-72.
[31] Willey R.W., Experimental Agriculture 21 (1985) 119-133.
[32] Willey R.W., Rao M.R., Experimental Agriculture 16 (1980) 117-125.
[33] Yadev S.K., Dhanker B.S., Vegetable Science 27 (2002) 70-74.
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