Influence of Panicum maximum ecotypes on plant root growth and soil chemical characteristics after 3-year study in Soudanian region of West Africa

Author： Adjolohoun Sébastien Zoffoun Alex Gbêliho Adandédjan Claude Toléba Séibou Soumanou Dagbénonbakin Gustave Sinsin Brice

Publisher： Taylor & Francis Ltd

ISSN： 0365-0340

Source： Archives of Agronomy and Soil Science, Vol.60, Iss.1, 2014-01, pp. : 75-86

Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.

Previous Menu Next

Abstract

A study was carried out to compare the influence of four Guinea grass ecotypes (Panicum maximum) differing in their morphological, physiological, and agronomical traits on soil fertility in Soudanian region of West Africa. Plants were sown in a randomized complete block design with four replicates and cultivated during three successive years under a cut-and-carry regime without any fertiliser use. A natural fallow served as the control. Soil samples were collected before and after cultivation, and analyzed for pH, organic carbon, nitrogen, available P, and exchangeable cation contents. Aerial plant production was quantified and analyzed for N, P, and K content to estimate the uptake of these nutrients. Root biomass, depth, and distribution were also measured. Data were analyzed through ANOVA. After 3 years of cultivation, soil pH under plants did not vary but C and N concentrations declined from the initial levels. Owing to their deep rooting systems, two ecotypes can recycle nutrients apparently from deeper soil layers. While these ecotypes could be used for ley pastures in savannah regions of West Africa, maintenance fertiliser applications would be required to prevent nutrient depletion under a cut-and-carry regime. Further studies to test the efficacy of farmyard manure in providing these nutrients seem warranted.