Crop yield and weed growth under conservation agriculture in semi-arid Zimbabwe

► Studied effect of tillage, mulch and weeding on weed growth in cowpea and sorghum. ► High early season weed growth was observed in minimum tillage (MT) systems. ► Maize mulching associated with high mid- to late-season weed growth in both crops. ► Frequent hoe weeding decreased weed growth and imp...

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Published inSoil & tillage research Vol. 124; pp. 102 - 110
Main Authors Mashingaidze, Nester, Madakadze, Casper, Twomlow, Stephen, Nyamangara, Justice, Hove, Lewis
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.08.2012
Elsevier
Subjects
Agronomy. Soil science and plant productions
Basins
Biological and medical sciences
biomass
Conservation agriculture
conventional tillage
corn
Cowpea
cowpeas
crop yield
cropping systems
crops
field experimentation
Fundamental and applied biological sciences. Psychology
hands
Hoe weeding
labor
Maize residue mulch
minimum tillage
moldboard plows
mulching
Parasitic plants. Weeds
Phytopathology. Animal pests. Plant and forest protection
plant establishment
planting
small-scale farming
Soil science
Sorghum
Sorghum bicolor
Vigna unguiculata
weed control
Weeds
Zimbabwe
Zimbabwe
Southern Africa
Africa
Conservation agriculture
Cowpea
Sorghum
Maize residue mulch
Hoe weeding
Weeds
Monocotyledones
Tropical zone
Vigna unguiculata
Cereal crop
Sustainable agriculture
Gramineae
Semi arid zone
Dicotyledones
Angiospermae
Soil science
Mulching
Weed control
Zea mays
Weed
Hoeing
Vegetal waste
Grain legume
Leguminosae
Herbaceous plant
Spermatophyta
Yield
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Abstract ► Studied effect of tillage, mulch and weeding on weed growth in cowpea and sorghum. ► High early season weed growth was observed in minimum tillage (MT) systems. ► Maize mulching associated with high mid- to late-season weed growth in both crops. ► Frequent hoe weeding decreased weed growth and improved crop yields. ► Crop grain yields poorer in MT systems than in conventional mouldboard plough. Constraints to effective weed management may be the main reason for the small area under minimum tillage (MT) in smallholder farming in southern Africa. The effect of maize residue mulching and intensity of hand hoe weeding on the growth of weeds, cowpea (Vigna unguiculata cv. IT 86D-719) and sorghum (Sorghum bicolor cv. Macia) was investigated in the fifth and sixth years of a conservation agriculture (CA) field experiment at Matopos Research Station (28°30.92′E, 20°23.32′S). The experiment was a split-plot randomized complete block design with three replications. Tillage was the main plot factor (conventional tillage – mouldboard plough compared against MT systems – ripper tine and planting basins) and maize residue mulch rate (0, 4 and 8tha−1) the sub-plot factor. Hoe weeding was done either four times (high weeding intensity) or twice (low weeding intensity) during the cropping season. Planting and weeding were done at the same time in all treatments. There was markedly greater early season weed growth in MT systems relative to mouldboard plough (MBP) in both crop species. In sorghum, MT (planting basins: 40.3kgha−1; ripper tine: 34.8kgha−1) systems had higher cumulative weed biomass measured after planting than MBP (29.9kgha−1) system. Maize mulching was generally associated with increased mid- to late-season weed growth in the two crops probably due to improved soil moisture conservation during periods of low precipitation. Weed suppression by the maize mulch was observed only in sorghum and limited to early in the cropping season with no effect observed for the remainder of the sorghum rotation phase. The high weeding intensity treatment had lower weed growth in both crops and better sorghum yield than low weeding intensity. The MT systems had poor crop establishment which translated into low yields. Cowpea grain yield obtained from MT systems was less than 300kgha−1 compared to 413kgha−1 in MBP. The poor sorghum establishment in MT systems translated into low grain yield as sorghum grain yield was lowest in planting basins (2602kgha−1) and highest in MBP with 4159kgha−1. Results suggest that CA systems require early and frequent hoe weeding even after four years to reduce weed infestations and improve crop growth. This higher demand on a smallholder household's limited labor supply throughout the cropping season will be a key determinant of the spread and adoption of CA in southern Africa.
AbstractList Constraints to effective weed management may be the main reason for the small area under minimum tillage (MT) in smallholder farming in southern Africa. The effect of maize residue mulching and intensity of hand hoe weeding on the growth of weeds, cowpea (Vigna unguiculata cv. IT 86D-719) and sorghum (Sorghum bicolor cv. Macia) was investigated in the fifth and sixth years of a conservation agriculture (CA) field experiment at Matopos Research Station (28°30.92′E, 20°23.32′S). The experiment was a split-plot randomized complete block design with three replications. Tillage was the main plot factor (conventional tillage – mouldboard plough compared against MT systems – ripper tine and planting basins) and maize residue mulch rate (0, 4 and 8tha⁻¹) the sub-plot factor. Hoe weeding was done either four times (high weeding intensity) or twice (low weeding intensity) during the cropping season. Planting and weeding were done at the same time in all treatments. There was markedly greater early season weed growth in MT systems relative to mouldboard plough (MBP) in both crop species. In sorghum, MT (planting basins: 40.3kgha⁻¹; ripper tine: 34.8kgha⁻¹) systems had higher cumulative weed biomass measured after planting than MBP (29.9kgha⁻¹) system. Maize mulching was generally associated with increased mid- to late-season weed growth in the two crops probably due to improved soil moisture conservation during periods of low precipitation. Weed suppression by the maize mulch was observed only in sorghum and limited to early in the cropping season with no effect observed for the remainder of the sorghum rotation phase. The high weeding intensity treatment had lower weed growth in both crops and better sorghum yield than low weeding intensity. The MT systems had poor crop establishment which translated into low yields. Cowpea grain yield obtained from MT systems was less than 300kgha⁻¹ compared to 413kgha⁻¹ in MBP. The poor sorghum establishment in MT systems translated into low grain yield as sorghum grain yield was lowest in planting basins (2602kgha⁻¹) and highest in MBP with 4159kgha⁻¹. Results suggest that CA systems require early and frequent hoe weeding even after four years to reduce weed infestations and improve crop growth. This higher demand on a smallholder household's limited labor supply throughout the cropping season will be a key determinant of the spread and adoption of CA in southern Africa.
► Studied effect of tillage, mulch and weeding on weed growth in cowpea and sorghum. ► High early season weed growth was observed in minimum tillage (MT) systems. ► Maize mulching associated with high mid- to late-season weed growth in both crops. ► Frequent hoe weeding decreased weed growth and improved crop yields. ► Crop grain yields poorer in MT systems than in conventional mouldboard plough. Constraints to effective weed management may be the main reason for the small area under minimum tillage (MT) in smallholder farming in southern Africa. The effect of maize residue mulching and intensity of hand hoe weeding on the growth of weeds, cowpea (Vigna unguiculata cv. IT 86D-719) and sorghum (Sorghum bicolor cv. Macia) was investigated in the fifth and sixth years of a conservation agriculture (CA) field experiment at Matopos Research Station (28°30.92′E, 20°23.32′S). The experiment was a split-plot randomized complete block design with three replications. Tillage was the main plot factor (conventional tillage – mouldboard plough compared against MT systems – ripper tine and planting basins) and maize residue mulch rate (0, 4 and 8tha−1) the sub-plot factor. Hoe weeding was done either four times (high weeding intensity) or twice (low weeding intensity) during the cropping season. Planting and weeding were done at the same time in all treatments. There was markedly greater early season weed growth in MT systems relative to mouldboard plough (MBP) in both crop species. In sorghum, MT (planting basins: 40.3kgha−1; ripper tine: 34.8kgha−1) systems had higher cumulative weed biomass measured after planting than MBP (29.9kgha−1) system. Maize mulching was generally associated with increased mid- to late-season weed growth in the two crops probably due to improved soil moisture conservation during periods of low precipitation. Weed suppression by the maize mulch was observed only in sorghum and limited to early in the cropping season with no effect observed for the remainder of the sorghum rotation phase. The high weeding intensity treatment had lower weed growth in both crops and better sorghum yield than low weeding intensity. The MT systems had poor crop establishment which translated into low yields. Cowpea grain yield obtained from MT systems was less than 300kgha−1 compared to 413kgha−1 in MBP. The poor sorghum establishment in MT systems translated into low grain yield as sorghum grain yield was lowest in planting basins (2602kgha−1) and highest in MBP with 4159kgha−1. Results suggest that CA systems require early and frequent hoe weeding even after four years to reduce weed infestations and improve crop growth. This higher demand on a smallholder household's limited labor supply throughout the cropping season will be a key determinant of the spread and adoption of CA in southern Africa.
Constraints to effective weed management may be the main reason for the small area under minimum tillage (MT) in smallholder farming in southern Africa. The effect of maize residue mulching and intensity of hand hoe weeding on the growth of weeds, cowpea (Vigna unguiculata cv. IT 86D-719) and sorghum (Sorghum bicolor cv. Macia) was investigated in the fifth and sixth years of a conservation agriculture (CA) field experiment at Matopos Research Station (28 degree 30.92'E, 20 degree 23.32'S). The experiment was a split-plot randomized complete block design with three replications. Tillage was the main plot factor (conventional tillage - mouldboard plough compared against MT systems - ripper tine and planting basins) and maize residue mulch rate (0, 4 and 8 t ha-1) the sub-plot factor. Hoe weeding was done either four times (high weeding intensity) or twice (low weeding intensity) during the cropping season. Planting and weeding were done at the same time in all treatments. There was markedly greater early season weed growth in MT systems relative to mouldboard plough (MBP) in both crop species. In sorghum, MT (planting basins: 40.3 kg ha-1; ripper tine: 34.8 kg ha-1) systems had higher cumulative weed biomass measured after planting than MBP (29.9 kg ha-1) system. Maize mulching was generally associated with increased mid- to late-season weed growth in the two crops probably due to improved soil moisture conservation during periods of low precipitation. Weed suppression by the maize mulch was observed only in sorghum and limited to early in the cropping season with no effect observed for the remainder of the sorghum rotation phase. The high weeding intensity treatment had lower weed growth in both crops and better sorghum yield than low weeding intensity. The MT systems had poor crop establishment which translated into low yields. Cowpea grain yield obtained from MT systems was less than 300 kg ha-1 compared to 413 kg ha-1 in MBP. The poor sorghum establishment in MT systems translated into low grain yield as sorghum grain yield was lowest in planting basins (2602 kg ha-1) and highest in MBP with 4159 kg ha-1. Results suggest that CA systems require early and frequent hoe weeding even after four years to reduce weed infestations and improve crop growth. This higher demand on a smallholder household's limited labor supply throughout the cropping season will be a key determinant of the spread and adoption of CA in southern Africa.
Author Twomlow, Stephen
Madakadze, Casper
Mashingaidze, Nester
Hove, Lewis
Nyamangara, Justice
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  organization: International Crops Research Institute for the Semi-Arid Tropics, Matopos Research Station, P.O. Box 776, Bulawayo, Zimbabwe
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  givenname: Justice
  surname: Nyamangara
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  organization: International Crops Research Institute for the Semi-Arid Tropics, Matopos Research Station, P.O. Box 776, Bulawayo, Zimbabwe
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Keywords Conservation agriculture
Cowpea
Sorghum
Maize residue mulch
Hoe weeding
Weeds
Monocotyledones
Tropical zone
Vigna unguiculata
Cereal crop
Sustainable agriculture
Gramineae
Semi arid zone
Dicotyledones
Angiospermae
Soil science
Mulching
Weed control
Zea mays
Weed
Hoeing
Vegetal waste
Grain legume
Leguminosae
Herbaceous plant
Spermatophyta
Yield
Language English
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Snippet ► Studied effect of tillage, mulch and weeding on weed growth in cowpea and sorghum. ► High early season weed growth was observed in minimum tillage (MT)...
Constraints to effective weed management may be the main reason for the small area under minimum tillage (MT) in smallholder farming in southern Africa. The...
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SubjectTerms Agronomy. Soil science and plant productions
Basins
Biological and medical sciences
biomass
Conservation agriculture
conventional tillage
corn
Cowpea
cowpeas
crop yield
cropping systems
crops
field experimentation
Fundamental and applied biological sciences. Psychology
hands
Hoe weeding
labor
Maize residue mulch
minimum tillage
moldboard plows
mulching
Parasitic plants. Weeds
Phytopathology. Animal pests. Plant and forest protection
plant establishment
planting
small-scale farming
Soil science
Sorghum
Sorghum bicolor
Vigna unguiculata
weed control
Weeds
Zimbabwe
Title Crop yield and weed growth under conservation agriculture in semi-arid Zimbabwe
URI https://dx.doi.org/10.1016/j.still.2012.05.008
https://www.proquest.com/docview/1125229909
https://www.proquest.com/docview/1449949258
Volume 124
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