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Response of pig weed Amaranthus cruentus to organic and inorganic fertilizers

By: Reason Charachimwe, Lovejoy Tembo, Sommerset Mhungu

Key Words: Amarunthus cruentus, Organic fertilizer, Synthetic fertilizer.

Int. J. Agron. Agri. Res. 13(1), 1-10, July 2018.

Certification: ijaar 2018 0122 [Generate Certificate]

Abstract

Amaranthus is a relatively new and underutilized crop that has developed from being a weed to a vegetable in many developing countries. However, its commercialization has been hampered by limited agronomic guidelines that will facilitate large scale production of the vegetable. A field experiment was conducted at Horticultural Research Centre in Marondera, Zimbabwe to investigate the response of Amarunthus cruentus to organic and inorganic fertilizer. The trial was laid out in a randomized complete block design with eight treatments replicated three times. The treatments used were 0 (control), 10, 15, 20t/ha cattle manure and four levels of inorganic fertilizers 100, 200, 300, 400kg/ha NPK (7:14:7). Significant differences (P<0.05) were observed with respect to germination percentage, fresh yield, number of shoots, stem girth and plant height. All the inorganic fertilizer treatments outperformed the organic fertilizer in all parameters assessed. Further research is recommended to determine the appropriate rates of organic fertilizers for optimum performance.

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Response of pig weed Amaranthus cruentus to organic and inorganic fertilizers

Adediran JA, Taiwo LB, Akande MO, Sobulo RA, Idowu OJ. 2004. Application of organic and inorganic fertilisers for sustainable maize and Cow pea yield in Nigeria. Journal of Plant Nutrition 27(3),1163-1181.

http://dx.doi.org/10.1081/PLN-120038542

Adewole MB, Dedeke OA. 2012. Growth perfomance, yield and nutritinal quality of Amaranthus cruentus under repeated application of poultry manures. Journal of Science 14(2),345.

Aufhammer W, Chuczorova HPK, Kruse M. 1998. Germination of grain amaranth (A. hypochondriacus x A. Hybridus: Effects of seed quality, temperature, light and pesticides. Journal of Agronomy 8,127-135.

Alboresi A, Gestin C, Leydecker MT, Bedu M, Truong HN. 2005. Nitrate a signal relieving seed dormancy in Arabidopsis. Plant Cell Environment 28, 500-512.

http://dx.doi.org/org/10.1111/j.13653040.2005.01292.x

Aphane J, Chadha ML, Oluoch MO. 2003. Increasing the consumption of micronutrient-rich food through production of indigenous foods. In: Pro-FAO-AVARDC International workshop. 5-8 March 2002, Arusha Tanzania, AVRDC- the World vegetable centre, Shanua, Taiwan, AVRDC Publication 03,561-177.

Ayeni L. 2010. Effects of combined cocao pod ash and NPK on soil properties nutrient uptake and yield on maize. Journal of Americam Science 6(3), 79-84.

Baskin JM, Baskin CC. 1977. Role of temperature in the germination ecology of three summer annual weeds. Ecologia30(4), 377-381.

Bewley JD, Black M. 1994. Seeds: Physiology of developments and germination. Prenum Press, New York, USA.147-153.

Blackshaw RE,  Rode LM. 1991. Effects of ensiling and rumen digestion by cattle on  weed seed viability. Journal of Weed Science39,104-108.

Bond W, Davis G, Tuner R. 2007. biology and non- chemical control of common Amaranths retroflex. Accessed 8 February 2018 from

www.garden.organic.org.uk/organic.The

Boyhan GE, Granberry D, Kelly WT, Mchanin W. 1999. Growing vegetables organically.University of Georgia Agric and Environmental Sciences. Cooporate extension services.

Bremner JM, 1960. Determination of nitrogen in the soil by the Kjeldahl method. The Journal of Agricultural Sciences 55 (1), 11-33.

CamaraO, Heinemann E. 2006. Overview of Fertilizer Situation in Africa. Background Paper Prepared for the African Fertilizer Summit, 9-13 June 2006, Abuja, Nigeria.

Chiweta P, Abudullahi MA, Oyidiya IJ,  Olatunde OJ. 2011. Response of grain Amaranth (Amaranth cruentus L.) to method and rate of cattle kraal manure application at Kadawa and Samura in Nigeria. Journal of Agric Science 56(3), 173-186.

ChayanAAIM, RahmanHM, Rozen S, Islam MR. 2003. Initial moisture content and different storage container potentiality on vigourity of stem for amaranths (Amaranths O. seed). Cambridge University, Department of Horticulture 4, 1197-1203.

Das S.2012. Systematics and taxonomic delimitation of vegetable, grain and weed amaranths: a morphological and biochemical approach. Genetic Resources and Crop Extension 59 (2), 289-303.

Das S. 2016. Amaranths: A promising crop of future. Springer, Singapore 31 p.

David DJ. 1960. Determination of exchangeable Sodium, Potassium, Calcium and Magnesium in the soil by Atomic Absorption Spectrophotometer. Analyst 85,495-503.

Dupriez H, Leener DE. 1989. African gardens and orchards: Growing Vegetables and Fruits. Mc Millians, London 282-287 p.

Eastman J. 2014. Wild Flowers of Eastern United States: an Introduction to common species of woods, wetlands and fields. Stack pole Books, Mechanicsburg, USA p5-6.

FAO. 2006. Fertilizer use by crop in Zimbabwe. Food and Agriculture Organization of the United Nations. Land and Plant Nutrition Management Service Land and Water Development Division. Rome 2006.

Forman J, Silversten J. 2012. Health and environmental advantages and disadvantages. American Academy Paediatrics 130(5), 1 406. Accessed on 01 January 2018.

www.pediatrics. publications.org

Grubben GJH, DentonOA. 2004. Plant resource of tropical Africa 2. Vegetables. Prota Foundation, Wageningen, Netherlands 63-89 p.

Hartmann HT, Kester DE, Genève RL. 2011. Plant propagation principles and practices. Prentice

Hall Publishers, New Jersey.356-420 p.

ISTA. 2010. International rules foe seed testing association. Bassersdorf, Switzerland.

Johnson NC, Wilson GWT, Wilson JA, MillerRM, Bowker MA. 2015. Mycorrhizal Phenotypes and the law of the minimum. New Phytologist 205(4), 1473-1484.

Jones JB. 2012. Plant Nutrition and Soil Fertility Manual. 2nd Ed. CRC Press. Boca Raton, FL.

Lampkin N. 2000. Organic farming. Soil sickness and soil fertility. (S. Padel, Ed.) Wallingford, USA: Cab Publisher.

Law-Ogbomo KE, Remison SU, Jombo EO. 2011. Effects of organic and inorganic fertilisers on the productivity of Amaranths cruentus in an utisol environment. International Journal of Plant Physiology and Biochemistry 3(14), 247-252.

http://dx.doi.org/10.5897/IJPPB11.028

Makinde EA. 2007. Effects of an organo-mineral fertilizer application on the growth and yield of maize. Journal of Applied Science Research 3(10), 1152-5.

Mbata A. 2008. Influenceof organic fertilisers on the yield and quality of cabbage and carrots. Science Journal 5(4), 408-414.

Mehlich A. 1984. Mehlich 3 soil extraction: A modification of Mehlich 2 extractant. Communications in Soil Science and Plant Analysis 15(12) 1409-1416.

http://dx.doi.org/10.1080/00103628409367568

Mshelia JS, Degri MM. 2014. Effetcs of different levels of poultry manure on the  perfomance of amaruthus (Amaruthus caudatus L) in Bama,Nigeria. International Journal Of Science And Nature 5(1),121-125.

Naramabuye FX, Hayness RJ,  Modi AT. 2007. Cattle manure and grass resdues as liming materials in semi-subsistance farming system. Agric ecosystem and evironment124(1-2), 136-141.

http://dx.doi.org/10.1016/j.agee.2007.08.005

Nyamangara J, Mugwira LM, Mpofu SE. 2000. Soil Fertility status in the communal areas of Zimbabwe in relation to sustainable crop production. Journal of Sustainable Agriculture 16, 15-29.

http://dx.doi.org/org/10.1300/J064v16n02_04

Olaniyi JO, Adelasoye KA, Jegede CO.2008. Influence of Nitrogen fertilisers on growth, yield and quality of grain Amaranthus varieties. World Of Journal of Agric Science 4, 506-513.

Olofintoye JAT, Abayomi YA, Olugbemi O. 2015. Yield response of grain amarathu (Amaruthus cruentus L.) varieties to varying planting density and soil amendement. African journal of agriculural research 10(21),2218-2225.

http://dx.doi.org/org/10.5897/AJAR2015.9746

Olowoake AA, AdeoyeGO. 2014. Comparative efficacy of NPK fertilizer and composted organic residues on growth, nutrient absorption and dry matter accumulation in maize. International Journal of Organic Agriculture Research and Development 2, 43–53.

Onyango CM,Harbinson J, ShibairoSI, Imungi RK. 2011. Effects of organic and inorganic fertiliser on yield and quality of amaranths in Sub-Sahara Africa. African crop science conference proceedings 10,489-494.

Rukuni MT. 2006. Zimbabwe’s Agricultural soils. Harare: University of Zimbabwe.

Palanda MC, Chang LC. 2003. Suggested cultural practices for vegetable amaranths. Accessed 09 february 2018.

www.avrdc.org.

Parwada C, Karavina C, Kamota A, Mandumbu R, Marova R. 2016. Effects of planting basin depth on the growth and performance of maize (Zea mays). Scientia Agriculture 13(1), 30-36.

http://dx.doi.org/10.15192/PSCP.SA.2016.13.1.3036

Schippers RR.2000. African indigenous vegetables: An overview of the cultivated species. Natural resources Institute/ACP-EU technical centre for agricultural and rural cooperation. Chatham. UK. p 214

Shonbeck MW, Egley GH. 1980. Redroot pig weed (J. retroflexus) seed germination responsesto after ripening, temperature, ethylene and some other env. ironmental factors. Weed science 28(5), 543-548.

Sekar. 2010. Comparative Effectiveness of Animal Manure on Soil Chemical Properties, Yield and Root Growth of (Amaranths caudatus L.)

Spetters J, Thompson L. 2007. The revival of an Ancient crop. Low external inputs and sustainable agriculture 23(3), 12-13

Steckel L, Cristy LS, Edward WS, Loyd MW. 2004. Temperature effects on germination of nine Amaranths species. Weed 52,217-221.

http://dx.doi.org/org/10.1614/WS-03-012R

Venskutanis PR, Kraujalis P. 2013. Nutritional components of Amaranth seeds and vegetables: A review on composition, Properties and uses. Comprehensive Reviews in Food Science and food safety 12(4), 381-412.

http://dx.doi.org/org/10.1111/1541-4337.12021

Williams C. 2002. Nutritional quality of inorganic food: shades of grey or shades of green. Proceedings of the Nutrition Society 61 (1), 19-24.

http://dx.doi.org/10.1079/PNS2001126

Wright J.2008. Organic Agriculture and HIV/AIDS: Nutritional response. 16th IFOAM Organic World Congress, Modena, Italy June 16-20.

Reason Charachimwe, Lovejoy Tembo, Sommerset Mhungu.
Response of pig weed Amaranthus cruentus to organic and inorganic fertilizers.
Int. J. Agron. Agri. Res. 13(1), 1-10, July 2018.
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