The effects of planting methods on growth and yield of groundnut (Arachis hypogaea) cultivar natal common in Africa South of the Sahara

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Research Paper 01/12/2018
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The effects of planting methods on growth and yield of groundnut (Arachis hypogaea) cultivar natal common in Africa South of the Sahara

C. Mvumi, S. Washaya, C. Ruswa
Int. J. Agron. Agri. Res.13( 6), 1-9, December 2018.
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Abstract

The most appropriate planting method to use for optimum growth and yield of groundnuts (Arachis hypogaea) in Africa South of the Sahara (ASS) among those currently used is not known, as the methods are highly influenced by environmental conditions in specific regions. Investigations of the effects of planting methods on growth and yield of a groundnut cultivar (cv.) (NTC), under rainfed conditions were carried out. Treatments used were planting on flat ground (FG), earthing up after planting on flat ground (EFG) and planting on ridges (R). Flat ground was considered as the standard (control). The parameters measured for growth were plant height, stem width and number of leaves, while those for yield were grain yield, pod yield and number of pods plant-1. Results showed that the planting methods used significantly (P<0.001) increased number of leaves plant-1of NTC. All treatment means were significantly (P<0.05) different, and R had the greatest mean number of leaves. Treatments did not significantly (P= 0.533) increase grain yield; only the R mean grain yield was significantly (P<0.05) greater, compared to the other two methods. Panting on ridges (R), followed by EFG, had higher number of leaves, number of pods plant-1 and increased grain yield, which, thus outweighing FT. Increase in the number of leaves, which are important for growth, and pod yield plant-1, are thought to be responsible for the ultimate increase grain yield. It is recommended that groundnuts should be planted on R in SSA in order to cherish the highest production benefits of NTC groundnut.

VIEWS 69

Adams JE. 1967. Effect of mulches and bed configuration. I. Early-season soil temperature and emergence of grain sorghum and corn. Agronomy Journal 59(6), 595–599.

Ahmad N, Ahmad Z, Akhtar A, Muhammad J. 2015. Effect of earthing up procedure on enhancement in yield of different groundnut varieties planted under agro-climatic conditions of Malakand Division. Journal of Agriculture and Environmental Sciences 4(1), 181–184.

Boye-Goni SR, Misari SM, AlabiO, Kaigama BK. 1990. Groundnut breeding at IAR, cropping scheme meeting reports IAR. Samaru, Zaria. p 1–11.

Bakht J, Shafi M. Rehman H, Uddin R, Anwar S. 2011. Effect of planting methods on growth, phenology and yield of maize varieties. Pakistan Journal of Botany 43(3), 1629–1633.

Bhimjibhai AR. 2011. Effect of land configuration and soil conditioners on growth and yield of turmeric (Curcuma Longa L.). Doctor of Philosophy (Agriculture) Navsari Agricultural University, Navsari-396 450, Gujarat State, India.

Bhoi PG, Kohinkar VW, Firake NN, Magar SS. 1993. Effect of irrigation regime and layout on growth and yield of rainy-season groundnut (Arachis hypogaea). Indian Journal of Agricultural Science 63(4), 234–236.

Breisinger C, Diao X, Thurlow J, Al-Hassan RM. 2008. Agricultural development in Ghana: new opportunity and challenges. International Food Policy Research Institute (IFPRI), discussion paper 00784.

Chassot A, Richner W. 2002. Root characteristics and phosphorus uptake of maize seedlings in a bilayered soil. Agronomy Journal 94(1), 118–127.

Chivuraise M. 2015. Effect of earthing up groundnut (natal common) on yield. Thesis. Bindura University of Science Education Department of Crop Science, Bindura, Zimbabwe.

Cilliers AJ, Swanevelder CJ. 2003. The South African germplasm collection of groundnut, Arachis hypogaea L., and its utility. South African Journal of Plant and Soil 20(2), 93–96.

Dapaah HK, Mohammed I, Awuah RT. 2014. Growth and yield performance of groundnuts (Arachis hypogaea L.) in response to plant density. International Journal of Plant and Soil Science 3(9), 1069–1082.

Haile D, Keith S. 2017. Groundnut cropping guide. Africa Soil Health Consortium, Nairobi.

Huiabers F.P.1985. Rain fed agriculture in a semi-arid tropical climate. PhD Thesis, The Netherlands.

International Crops Research Institute for the Semi-Arid Tropics (ICRISAT). 1988. Annual Report 1987–1988 Patancheru P O. Andhra Pradesh 502324, India.

Kaur S. 2001. Effect of spacing and farmyard manure levels on growth and yield of flat and ridge planted turmeric (Curcuma longa L.). MSc Thesis, Punjab Agricultural University, Ludhiana.

Kumar B, Gill BS. 2009. Effect of method of planting and harvesting time on growth, yield and quality of turmeric (Curcuma longa L.). Journal of Spices and Aromatic Crops 18(1), 22–27.

Kumar GVV, Reddy KS, Rao MS, Ramavatharam N.1992.Soil and plant characters influencing curcumin content of turmeric. Indian Cocoa, Arecanut and Spices Journal.15, 102–105.

Linnemann AR. 1990. Cultivation of Bambara groundnut (Vigna subterranean L.) in Western Province, Zambia. Wageningen: Department of Tropical Crop Science, Wageningen Agricultural University (Field study report Tropical Crops Communication 16) p. 32.

Kuiper PJC, Quilambo OA. 2000. Functioning of peanut (Arachis hypogaea L.) under nutrient deficiency and drought stress in relation to symbiotic associations. University of Groningen, The Netherlands.

Mhungu S, Chiteka ZA. 2010. The effect of timing of earthing up on the performance of four Bambara groundnut landrace cultivars in the Mutasa District of Manicaland Province in Zimbabwe. Second RUFORUM Biennial Meeting 20–24 September 2010, Entebbe, Uganda.

Mkandawire FL, Sibuga KP. 2002. Yield response of Bambara groundnut to plant population and seedbed type. African Crop Science Journal 10(1), 39–49.

Naab JB, Tsigbey FK, Prasad PVV, Boote KJ, Bailey JE, Bradenburg RL. 2005. Effects of sowing date and fungicide application on yield of early and late maturing peanut cultivars grown under rainfed conditions in Ghana. Crop Protection 24(4), 325–332.

Narayaan A, Reddy CB, Murthey RSK. 1981. Growth and yield analysis of two contrasting groundnut (Arachis hypogaea L.) cultivars. Indian Agriculture 25, 173–180.

Olayinka BU, Yusuf BT, Etejere EO. 2015. Growth, yield and proximate composition of groundnut (Arachis hypogaea) as influenced by land preparation methods. Notulae Scientia Biologicae 7(2), 227–231.

Ouedraogo M, Zagre B, Thorndal S, Liu F. 2012. Effect of earthing up times on yield of Bambara groundnut landraces in Sahel-Burkina Faso. African Journal of Agricultural Research 7(32), 4505–4511.

Parkash O. 2014. Effect of planting methods and plant population on growth, yield and quality of turmeric (Curcuma longa L.) MSc Thesis. Punjab Agricultural University, Ludhiana-141004.

Pathak P, Anders MM, Laryea KB. 1991. Response of groundnut growth and yield to raised bed on Alfisol. RMP Project Progress Report, 1990-91, ICRISAT Patancheru India, p. 25–26.

Prasad MVR, Muralidharudu Y. 1991. Calcium uptake in relation to pod development in aerial padding genotypes of groundnut. Groundnut- a global perspective. (Ed: Nigam, S.N) ICRISAT, AP, p 464.

Rao AM, Rao PV, Reddy YN. Reddy MSN. 2005. Effect of organic and inorganic manurial combinations on grown, yield and quality of turmeric (Curcuma longa L.). Journal of Plantation Crops 33(3), 198–205.

Shrinivasa DJ, Murukannappa, ParadkarVD, Rathod SL. 2017. Development and evaluation of mechanical earthing up equipment for groundnut crop. International Journal of Agricultural Engineering 10(1), 118–123.

Sing AL, Josh YC. 1993. Comparative studies and the chlorophyll content, growth, N uptake and yield of groundnut varieties of different habit groups. Oleagineux 48(1), 27–34.

Singh M, Phogat SC, Rao P, Singh RC. 1986. Effect of method of sowing on growth and yield of soybean. Haryana Agricultural University Journal of Research 65(4), 3.

Variath MT, Janila P. 2017. Economic and academic importance of peanut. International Crops Research Institute for the Semi-Arid Tropics (ICRISAT).

Venkateswarlu J. 1987. Efficient resource management systems for drylands of India. In: Stewart B.A. (Eds) Advances in Soil Science. Advances in Soil Science 7, Springer, New York, NY.

Wills WO, Haas HJ, Robins JS. 1963. Moisture conservation by surface. Soil Science Society of America Journal (27(5), 577–580.

Zhaojiuzhou, Huacaajun, Heronzhua, Wanhaiping, Zangrunquan. 1995. An investigation of the three ridges tillage methods of soyabeans on an allicsoil. Soyabean Science 13(4), 294–301.