Abstract
A better understanding of the dry bean (Phaseolus vulgaris L.) growth and yield response to weed competition under the intercropping system is critical for improving sustainable weed management strategies. A two-year trial was conducted with three types of crop arrangement (sole cropping, inter-row, and intra-row intercropping) combined with weeding frequency (no weeding, weeding over the first 50 days of crop growth, and weed-free). Effects of the treatments were tested on dry bean agronomic indicators in terms of the following: 100-grain weight, dry biomass, grain yield, grains per pod, pods per plant, plant height, number of leaves per plant, and chlorophyll content. The intercropping pattern significantly affected dry bean pods per plant, height, and chlorophyll content, while weeding frequency significantly affected all measured agronomic indicators for dry bean, except for chlorophyll content, during the 2017/18 growing season. The results showed that the significant measured agronomic indicators were the lowest under no weed control; however, they increased as weeding frequency increased. The 2018/19 growing season followed a similar trend; however, the interaction effect significantly affected dry bean 100-grain weight, dry biomass, and number of leaves per plant at 40 days after emergence. The dry bean/sweet sorghum or cowpea intra-row intercropping and intermediate weeding frequency displayed optimum productivity.
Highlights
IntroductionDry bean (Phaseolus vulgaris L.) is a vital grain pulse and one of the most important sources of plant protein in South Africa, yet there is an approximately 49% dry bean production deficit annually [1]
Plant height, and chlorophyll content at 80 days after emergence (DAE); on the other hand, the results showed that weeding frequency had a significant (p < 0.01) effect on dry bean 100-grain weight, dry biomass, grain yield, grains per pod, pods per plant, and plant height at 60 and 80 DAE
The dry bean growth traits were significantly affected by intercropping patterns and weeding frequency
Summary
Dry bean (Phaseolus vulgaris L.) is a vital grain pulse and one of the most important sources of plant protein in South Africa, yet there is an approximately 49% dry bean production deficit annually [1]. Like any other crop, dry beans are sensitive to weed competition, especially at the early growth stage. A dry bean production shortfall in South Africa could be exacerbated by weed interference. It is essential to develop sustainable weed control strategies for sustainable crop production, through which weeds can be controlled effectively [2] to curb environmental degradation. In response to the echoing calls for intensifying sustainable agriculture, intercropping has been advocated as a sustainable cropping system to reduce the negative impact of conventional agriculture on the environment [4]; sustainable weed control strategies are critical
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