Management Options and Soil Types Differentially Affect Weeds in Maize Fields of Kakamega, Western Kenya  

作　　者：Ajebesone Francis Ngome Kelvin Mtei Mtei Frank Mussgnug Mathias Becker 

机构地区：[1]Annual Crops Department, Institute of Agricultural Research for Development （IRAD）, Yaounde Centre Region, B.P. 2123, Yaounde, Cameroon [2]Department of Plant Nutrition, Institute of Crop Science and Resource Conservation （INRES）, University of Bonn, Bonn, NRW, Karlrobert Kreiten Strasse 13, Bonn 53115, Germany [3]Cropping systems Department, AfricaRice, Africa Rice Centre, Cotonou, O1 B.P. 2031, Cotonou, Benin

出　　处：《Journal of Agricultural Science and Technology(A)》2012年第1期104-114,共11页农业科学与技术（A）

摘　　要：Maize production in Kenya is constrained by weed infestation and nutrient deficiencies. Field studies were conducted during the 2008/2009 cropping seasons to investigate weeds in maize fields on three dominant soil types in Western Kenya. Weeds were inventoried and their composition was compared using Jaccard＇s index. The economic importance of weed species （potential to reduce yields and the difficulty to control them by manual weeding） was assessed through participatory surveys. Finally, field trials assessed the effects of management options （farmer＇s practice, clean weeding, green manure, zero-tillage ＋ cover crop and zero-tillage） on weed biomass and species composition. Across the three soil types, 55 weed species in 21 families were identified. Soil types influenced species composition as confirmed by Jaccard＇s similarity indices of 0.50, 0.58 and 0.62 for Nitisol vs. Acrisol, Ferralsol vs. Acrisol and Nitisol vs. Ferralsol, respectively. The economically important weeds were Commelina benghalensis, Cynodon nlemfuensis, Bidens pilosa, Galinsoga parviflora and Leonotis nepetifolia. Management options significantly （P 〈 0.05） reduced weed biomass, irrespective of soil type and seasons. Maize biomass response was highest （7-16 Mg ha1） in zero-tillage and zero-tillage ＋ cover crop and lowest （2-8 Mg ha1） in farmer＇s practice. Significantly negative relationships （P 〈 0.01, r2 = 0.37 - 0.51） were established between leaf area index of maize and weed biomass across the soils. Zero-tillage combined with the use of a cover crop had the lowest weed biomass （〈 30% of the farmer practice） and thus appears to be a promising strategy combining soil fertility improvement with weed suppression in smallholder maize farming systems of Western Kenya.

关 键 词：ACRISOL FERRALSOL Jaccard＇s index leaf area index maize production nitisol 

分 类 号：S451.222[农业科学—植物保护] S155