Abstract
A two-year study was conducted to assess how mulch influences weed dynamics following imposition of different fertilization treatments under three crop establishment options: (i) conventional; (ii) ripping; and (iii) basin, in a two-year maize-legume rotation. Eight treatments were imposed within each crop establishment option and received maize stover mulch applied at 0% or 30% cover before planting maize (Zea mays) or cowpea (Vigna unguiculata) as test crops. Maize received nitrogen (N) at 35, 90, or 120 kg·ha−1 and phosphorus (P) at 14 or 26 kg·ha−1 applied alone or in combination with 4 or 7 t cattle manure·ha−1, while cowpea received 8 or 17 N·kg·ha−1 and similar P rates to maize. Results indicated that both weed biomass and diversity were influenced more by fertilization than method of crop establishment. On treatments under high fertilizer application rates, or previously planted to cowpea weed biomass ranged between 220 and 400 g·m−2 under mulch and 370–510 g·m−2 (no mulch). Here species richness ranged between 7–16 and was dominated by dicotyledons. This was in contrast to biomass ranges of 75–200 g·m−2 in the low fertilized and control plots, where only one or two grass types dominated. Overall, weed densities were 6% to 51% higher under conventional tillage compared to the two conservation agriculture (CA) options, although the data indicated that mulch significantly (p < 0.05) depressed weed density by up to 70%. We concluded that mulching could be a potential mechanism for reducing weeding labor costs for smallholders and the general environmental and health concerns associated with the use of herbicides in CA systems.
Highlights
Over the last decade, the United Nations’ Food and Agriculture Organization (FAO) has been promoting conservation agriculture (CA) among smallholder farmers in southern Africa includingZimbabwe [1]
The overall objective of ABACO was to reduce the vulnerability of smallholder farmers to climatic variability by building capacity through co-innovation platforms to design, evaluate, and implement targeted technological options for and mechanisms to promote adoption of CA based on agro-ecology principles to combat land degradation and food insecurity in semi-arid regions of Africa [16]
The Soil Fertility Consortium for Southern Africa (SOFECSA) work under ABACO focused on soil rehabilitation and integrated soil fertility management (ISFM), testing CA options for rehabilitating degraded soils
Summary
The United Nations’ Food and Agriculture Organization (FAO) has been promoting conservation agriculture (CA) among smallholder farmers in southern Africa includingZimbabwe [1]. Advancements in CA research have resulted in the development of a range of machinery to address labor concerns in land preparation, promotion of crop rotation with beneficial crops such as legumes, and use of herbicides for weed control [4]. The overall objective of ABACO (http://abaco.act-africa.org) was to reduce the vulnerability of smallholder farmers to climatic variability by building capacity through co-innovation platforms to design, evaluate, and implement targeted technological options for and mechanisms to promote adoption of CA based on agro-ecology principles to combat land degradation and food insecurity in semi-arid regions of Africa [16]. The crop establishment options tested over two seasons (2011/12 and 2012/13) were:
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