World Journal of Agricultural Research
ISSN (Print): 2333-0643 ISSN (Online): 2333-0678 Website: http://www.sciepub.com/journal/wjar Editor-in-chief: Rener Luciano de Souza Ferraz
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World Journal of Agricultural Research. 2013, 1(4), 59-64
DOI: 10.12691/wjar-1-4-3
Open AccessArticle

Allelopathic Effect of Some Weeds on the Germination of Seeds of Selected Crops Grown in Akwa Ibom State, Nigeria

P.E. Usuah1, G. N. Udom2 and I.D. Edem1,

1Department of Soil Science and Land Resources Management, University of Uyo, Uyo, Akwa Ibom State, Nigeria

2Department of Crop Science, University of Uyo, Uyo, Akwa Ibom State, Nigeria

Pub. Date: July 26, 2013

Cite this paper:
P.E. Usuah, G. N. Udom and I.D. Edem. Allelopathic Effect of Some Weeds on the Germination of Seeds of Selected Crops Grown in Akwa Ibom State, Nigeria. World Journal of Agricultural Research. 2013; 1(4):59-64. doi: 10.12691/wjar-1-4-3

Abstract

The allelopathic potentials of six dominant weeds at the Teaching and Research Farms of the Akwa Ibom State University and adjoining areas, often used for mulching and green manuring, were evaluated on the germination of the seeds of six commonly grown crops of the region. Extracts from 500g of finely chopped tops and roots each of Aspilia africana (Pers) C. D. Adams, Emilia sonchifolia (L) DC, Crotalaria retusa L, Chromolaena odorata (L) King & Robinson, Panicum maximum L., and Cyperus esculentus L., were obtained with one litre of distilled water. These were applied to seeds of Zea mays L., Citrullus lanatus Thunb, Abelmoschus esculentus (L) Moench, Vigna unguiculata (L) Walp, Glycine max (L) Merr, and Arachis hypogaea L. in petri dishes. The equivalence of 0, 2.0, 4.0, 8.0 and 12.0 Mg ha-1 of finely chopped fresh tops of each weed were also applied to 1.0kg of heat-sterilized soil in planting polybags as mulches. Water extracts of the weeds (shoots and roots) reduced germination counts of the seeds by 10 to 100%. Cyperus esculentus L.shoots extracts was the most phytotoxic, followed by Panicum maximum L and Chromolaena odorata. The decomposing mulches showed varied but less inhibitory effects on the seeds with a trend toward increasing inhibitory power with increasing mulch level and decreasing seed size. The results revealed that a possible relationship between the low seed germination and poor seedling growths often observed in the area. However, further studies are needed to confirm the findings.

Keywords:
allelopathy local weeds decomposing mulches seed germination southeastern Nigeria.

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References:

[1]  Lal, R. Sustainable Management of Soil Resources in the Humid Tropics. United Nations University Press, New York, 1995.
 
[2]  Ndaeyo, N. U., B. U. Udo and G. N. Udom. Effects of mulching and tillage practices on the growth and yield of cowpea (Vigna unguiculata L). Proceedings of the 42nd Annual conference of Agricultural Society of Nigeria, Ebonyi State University, Abakaliki, Nigeria. October 19 - 23, 2008. pp. 272 - 277.
 
[3]  Rosolem, C. A.. Exchangeable basic cations and nitrogen distribution in soil as affected by crop residues and nitrogen. Braz. Arch. Biol. Technol. 54(3):441 - 450, 2011.
 
[4]  Awodun, M.A. and S.O. Ojeniyi. Use of weed mulches for improving soil fertility and maize performance. Applied Tropical Agriculture 2: 26-30, 1991.
 
[5]  Bruce, R. R., C. W. Langdale, T. West and W. P. Miller. Surface soil degradation and soil productivity restoration and maintenance. Soil Sci. Soc. Am. J. 59: 654 - 660. 1995.
 
[6]  Rice, E. L.. “Allelopathy”. 2nded. Academic Press, New York, 1984.
 
[7]  Narwal, S. S. Allelopathy in ecologically sustainable agriculture. In: M. J. Reigosa, N. Pedrol and L. Gonzalez (eds) Allelopathy : A Physiological Process with Ecological Implications. Springer, The Netherlands. pp 537 - 564, 2006.
 
[8]  Inderjit, K. and S. O. Duke. Ecophysiological aspects of allelopathy. Planta 217: 529 -539, 2003.
 
[9]  Smith, A. E. and L. D. Martin. Allelopathic characteristics of 3 cool-season grass species in the forage ecosystem. Agron J. 86: 243 - 246, 1994.
 
[10]  Gawronska, H. and A. Golisz. Allelopathy and biotic stresses. In: M. J. Reigosa, N. Pedrol and L. Gonzalez (eds). Allelopathy : A Physiological Process with Ecological Implications. Springer. The Netherlands. P 211 - 227, 2006.
 
[11]  Aliotta, G., G. Cafiero and A. Martinez–Otero. Weed germination, seedling growth and their lesson for allelopathy in agriculture. In: Allelopathy: A Physiological Process for Ecological Implications. Springer. The Netherlands. p. 285 - 297, 2006
 
[12]  Ishii-Iwamoto, E. L., D. Abraham, M. A. Sert, C. M. Bonato, A. M. Kelmer – Bracht and A. Bracht. Mitochondria as a site of allelochemical action. In: Allelopathy: A Physiological Process with Ecological Implications. Springer. The Netherlands. P. 267 - 284, 2006.
 
[13]  Smith, S. K. and R. E. Ley. Microbial competition and soil structure limit the expression of allelochemicals in nature. In: Inderjit, Dakshini, K. M. M. and Foy, C. L. (eds) Principles and Practices in Plant Ecology: Allelochemicals Interactions. pp. 339 - 351. CRC Press, Boca Raton, 1999.
 
[14]  Dalton, B. R. The occurrence and behaviour of plant pholenic acids in soil environment and their potential involvement in allelochemicals interference reaction: methodological limitations in establishing conclusive proof of allelopathy. In: Inderjit, Dakshini, K. M. M and Foy, C. L. (eds) Principles and Practices in Plant Ecology: Allelochemical Interactions pp. 57 - 74. CRC Press, Boca Raton, 1999.
 
[15]  Blum, U. Fate of phonelic allelochemicals in soils: the role of soil and rhizosphere microorganisms. In: Galindo J.C.G., Macias, F. A., Molinillo, J. M. G and Cutler, H. G. (eds) Allelopathy: Chemistry and Mode of Action of Allelochemicals. pp. 55 - 72. CRC Press. Boca Raton, 2003.
 
[16]  Mohler, C. L. Weed life history: identifying vulnerabilities. In: Ecological Management of Agricultural weeds. L. Matt, C. L. Mohler and C. P. Staver (eds). UK: Cambridge University Press, 2001.
 
[17]  Lichtenthaler, H. K.. The stress concept in plants: an introduction. In: Csermely, P. (ed.) Stress of Life: From Molecules to Man. Ann NY Acad Sci. 1998, 851:187 - 198.
 
[18]  Xiong, L., M. Ishitani, J. K. Zhu. Interaction of osmotic stress, temperature and abscisic acid in the regulation of gene expression in Arabidopsis. Plant Physiology. 1999:205 - 211.
 
[19]  Pickett,J. A. , H. B. Rasmussen, C. M. Woodcock, M. Matthes and J. A. Napier.. Plant stress signaling: understanding and exploiting plant – plant interactions. Biochem Soc. T. 31:123 - 127, 2003.
 
[20]  Kiran, K., Y. S. Bedi, and K. Kaul.. Allelopathic influence of Tagetes species on germination and seedling growth of radish (Raphanus sativus) and lettuce (Lactuca sativa). Indian Journal of Agricultural Sciences. 68:599 - 601, 1995.
 
[21]  Einhellig, F. A.. Current status and future goals In: Inderjit, Dakshini, K. M. M. and Einhellig, F. A. (eds). Allelopathy: organisms, processes and applications. pp. 1 - 24. ACS Symposium Series 582. American Chemical Society. Washington, 1995.
 
[22]  Schulz, M. and A. Friebe.. Detoxification of allelochemicals in higher plants. In: Inderjit, Dakshini, K. M. M. and Foy, C. L. (eds). Principles and Practices in Plant Ecology: Allelochemical Interactions. pp. 383 - 400. CRC Press Boca Raton, 1999.
 
[23]  Naudin, K. and O. Balarabe. How to produce more biomass for direct seeding mulch-based cropping system in sub-Sahara Africa: Example in north Cameroun. Proceedings on Regional Workshop on Conservation Agriculture. Laos, 2008. pp.81 - 94.
 
[24]  Alam, S. M., S. A. Ala, A. R. Azmi, M. A. Khan and R. Ansari.. Allelopathy and its role in agriculture. Online Journal of Biological Science. 2001, 1(5):308 - 315.
 
[25]  Blum, U. L., D. King and C. Brownie.. Effect of weed residues on dicotyledonous weed emergence in a simulated non-till system. Allelopathy J. 9:159 - 176, 2002
 
[26]  Calvert, G. Guinea grass. Paper presentation at the Society for Growing Australian Plants: Queensland Regional Conference. Townsville. 28 June - 5 July, 1998.
 
[27]  Limore, C. D. Assessment of allelopathic effect of weeds on field crops in the humid south: the chemistry of allelopathy. Biochemical Interactions Among Plants. pp 21 - 22. Amer. Chemical Society, Washington D. C. USA,1995.