Growth and rhizome yield of ginger (Zingiber officinale L.) as influenced by propagule size and nitrogen levels in Ogbomoso, Southwestern Nigeria

• Autorzy: Asafa R.F. , Akanbi W.B.
• Języki publikacji: EN

Abstrakty

EN

The study was conducted to determine the effect of propagule size and nitrogen levels on the growth and rhizome yield of ginger. The nitrogen source was from Tithonia compost (TC). Three propagule sizes were tested (20, 30 and 40 g) and seven nitrogen levels (0, 40, 60, 80, 100, 120 and 140g kg N/ha). The experimental pots were laid out in a randomized complete block design with three replicates. Data were collected on growth parameters (plant height, number of leaves, leaf length and leaf width); rhizome yield components (number of tillers and rhizomes, and rhizome weight and length); and proximate composition (crude protein (CP), crude fibre (CF), total lipid (TL); Total Ash (TA), Starch and water soluble extract). Data collected were subjected to analysis of variance (ANOVA) and significant means were compared using Duncan Multiple Range Test (DMRT) (P≤0.05). Propagule size, N levels and their interactions significantly (P≤0.05) influenced most of the parameters assessed. In most cases, the use of 30 and 40 g planting material gave similar results. Plants nourished with 140 kg N/ha significantly and consistently outperformed other nitrogen levels. Crude protein obtained from 40 g propagule size was significantly (P≤0.05) higher than other tested propagule sizes. The rhizome yields of fertilized plants were significantly higher than the control plants. Rhizome yields ranged from 1.67 t/ha in 80 kg N/ha to 3.71 t/ha in 140 kg N/ha. The establishment of ginger with 40 g planting materials and its nourishment with 140 kg N/ha enhanced growth, rhizome yield and proximate composition of the plant.

Słowa kluczowe

EN

Nigeria; ginger; Zingiber officinale; plant growth; rhizome yield; propagule size; nitrogen level; nutritional quality; medicinal plant

• Wydawca: -
• Czasopismo: International Letters of Natural Sciences
• Rocznik: 2018
• Tom: 67
• Opis fizyczny: p.35-45,ref.

Twórcy

autor

Asafa R.F.

• Department of Crop Production and Soil Science, Ladoke Akintola University of Technology, P.M.B.4000 Ogbomoso, Nigeria

autor

Akanbi W.B.

• Department of Crop Production and Soil Science, Ladoke Akintola University of Technology, P.M.B.4000 Ogbomoso, Nigeria

Bibliografia

• [1] H.A. Schwertner, D.C. Rio, High performance liquid chromatographic analysis of 6-gingerol, 8-gingerol, 10-gingerol and 6-shogaol in ginger containing dietary supplements, spices teas and beverages, J. Chromatography B. 856(1-2) (2007) 41-47.
• [2] A. Rafiq, A. Mohammad, A. Naeem, Productivity of ginger (Zingiber officinale) by amendment of vermicompost and biogas slurry in Saline soils, Pak. J. Bot. 41(6) (2009) 3107-3116.
• [3] J.S. Jakes, Ginger as "Beverage of Champion", J. Plant Nutr. 38(6) (2007) 45-56.
• [4] R.R. Poudel et al., Socio-economic aspects of ginger producers in the Western Hills of Nepal, Nepalese Journal of Agricultural Sciences. 13(9) (2015) 48-59.
• [5] A. Bernard, Diseases, pest and other factors limiting ginger (Zingiber officinale Rose) production in River State. Being the text of a paper delivered during the Agricultural Product Development Strategy Workshop organized by Uptonville Foundation under the aegis of Rivers State Sustainable Development Agency (RSSDA). Retrieved from http://uptonvilleoginstu.org/ginger.htm, 2008.
• [6] C.N. Egbuchua, E.C. Enujeke, Growth and yield responses of ginger (Zingiber officinale) to three sources of organic manures in a typical rainforest zone, Nigeria, Journal of Horticulture and Forestry. 5(7) (2013) 109-114.
• [7] T.J. Ayodele, E.S. Banake, Ginger (Zingiber officinale Roscoe) production efficiency and constrain among small scale farmers in Southern Kaduna, Nigeria, Journal of Agricultural Science. 6(7) (2014) 141-148.
• [8] S.W.J. Lyocks, J. Tanimu, L.Z. Dauji, Growth and yield parameters of ginger as influenced by varying populations of maize intercrop, Journal of Agricultural and Crop Research. 1(2) (2013) 24-29.
• [9] M.T. Lee, C.J. Asher, A.W. Whiley, Nitrogen nutrition of ginger (Zingiber officinale) I. Effect of nitrogen supply on growth and development, Field Crops Research. 4 (1981) 55-68.
• [10] C.K. Thankamani et al., Effect of mulches on weed suppression and yield of ginger (Zingiber officinale Roscoe), Scientia Horticulturae. 207(8) (2016) 125-130.
• [11] B.A. Lawal et al., Effect of set size and fertilizer types on early growth and development of plantain suckers, Journal of Natural Sciences Research. 6(11) (2016) 81-84.
• [12] W.B. Akanbi, M.O, Akande, J.A. Adeniran, Suitability of composted maize straw and mineral nitrogen fertilizer for tomato production, Journal of Vegetable Science. 11(1) (2005) 57-65.
• [13] A.O. Olojede et al., Effect of variety, rhizome and seed bed types on yield of turmeric (Curcuma longa L) under a humid tropical agro-ecology, Adv. Bio. Res. 3 (2009) 40-42.
• [14] V.A. Parthasarathy et al., Integrated nutrient management in major species, India J. Fertilizer. 6(10) (2010) 110-128.
• [15] T.A. Fariyike et al., Influence of propagule size and organic manure on the growth and yield of ginger (Zingiber officinale), National Horticultural Research Institute. 1(1) (2016) 190-194.
• [16] S. Hussain et al., Effect of varying levels of nitrogen and phosphorus on growth and yield of the medicinal plant, Alpinia galangal Willd, Green page. (2005) 120-123.
• [17] C.D. Singh, S.K. Sengupta, K.N. Maurya, Effect of varying levels of N, P and K on growth and Yield of ginger (Zingiber Officinale Rosa), J. Res. (Birsa Agric. Uni.). 4(2) (1992) 125-127.
• [18] M.N. Lewu et al., Comparative growth and yield of Taro (Colocasia esculenta) accessions cultivated in the West Cape, South Africa. 19(3) (2017) 589-594.
• [19] P.A. Okwuowulu, Effect of detachment of parent sett in ginger (Zingiber officinale Roscoe), Paper presented at the 2nd Ann. Conf. of Bio-techn. Soc. of Nigeria, University of Ilorin, May 16-19, 1986.
• [20] S.K. Inoti et al., Studies on seed size and storage on germinability and performance of young Jojoba (Simmondsia Chinensis L.) seedlings in semi-arid areas of Kenya. Journal of Biology, Agriculture and Healthcare. 5(12) (2015) 10-16.
• [21] M.Y. Shuhaimi, A.M. Mohamad, M.A. Adzemi, Effects of seed rhizome size on growth and yield of ginger cultivated using fertigation system, J. Trop. Agric. and Food Sc. 44(2) (2016) 211-218.
• [22] B. Mahender et al., Effect of seed rhizome size and plant spacing on growth, yield and quality of ginger (Zingiber officinale Rosc.) under coconut cropping system, Plant Archives. 15(2) (2015) 769-774.

Identyfikatory

DOI

10.18052/www.scipress.com/ILNS.67.35