Abstract
A field experiment was conducted under rain-fed conditions on the research farm of Savanna Agricultural Research Institute, Nyankpala, during the 2007 and 2008 seasons. The objective was to study the response of three new groundnut varieties (Jenkaar, Kpanieli and Nkosuor) to row intercropping with maize. The experiment was laid in randomized complete block design with four replicates. Treatments comprised sole groundnut, sole maize, single row groundnut alternated with single row maize (G1M1), single row groundnut alternated with double row maize (G1M2), double row groundnut alternated with single row maize (G2M1) and double row groundnut alternated with double row maize (G2M2). The population densities of groundnut and maize in the intercrops affected their yield performance. Row intercropping arrangement that encouraged large leaf area in groundnut supported the formation of more pods per plant and subsequently larger dry pod yield. The highest groundnut and maize yields in the intercrop in both years were obtained respectively from G2M1 and G1M2. The G1M1 and G1M2 row intercropping arrangement was therefore the most advantageous in both years, achieving a land equivalent ratio values greater than 1. Combinations of the Kpanieli variety and maize which achieved land equivalent ratio greater than 1 was also more advantageous than intercropping maize with the Jenkaar and Nkosuor varieties in both years. Key words: Guinea savanna, rain-fed, row intercropping, yield performance, land equivalent ratio.
Highlights
The groundnut (Arachis hypogaea L.) is an important oilseed crop of the semi-arid tropics (Tarimo, 1997; ICRISAT, 2008) that ranks thirteenth (13th) in importance among world crops (Hatam and Abbasi, 1994)
Row arrangement was not found to significantly (α = 0.05) influence groundnut population density (Table 1) plant arrangement that favoured more rows of groundnut resulted in relatively higher plant densities for groundnut
Densities of maize was significantly (α = 0.05) influenced by row arrangement with higher densities resulting from the G1M1 and G2M1 arrangement which were significantly (α = 0.05) different from the densities recorded by the G2M2 arrangement in both years (Table 1)
Summary
The groundnut (Arachis hypogaea L.) is an important oilseed crop of the semi-arid tropics (Tarimo, 1997; ICRISAT, 2008) that ranks thirteenth (13th) in importance among world crops (Hatam and Abbasi, 1994). After successfully establishing the advantages of groundnut-maize intercropping systems through decades of scientific research, new promising maize and groundnut varieties should as a matter of principle, be evaluated and only released to farmers based on their ability to meet the demands of current intercropping systems This will help meet the twopronged need of the farm family to produce food and obtain cash income from the same piece of land. Pods and cobs from the five randomly tagged groundnut and maize plants respectively were each put in open bags and air dried thoroughly to a moisture level of 13 % before shelling These were weighed before shelling (Wp and Wc respectively). To determine the total LER, the partial LERs of the component crops were added
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