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IntroductionIn West Africa, market gardeners use various agricultural practices to increase yields. However, many of these practices do not comply with agroecological standards and cause intoxication, pollution, soil degradation and biodiversity loss. This study characterizes the plant agrobiodiversity of market garden crops grown during the rainy season and the agricultural and phytosanitary practices used for their management.Materials and MethodsThe study was carried out in Burkina Faso. Plant agrobiodiversity was assessed in 100 market gardens. Agricultural and phytosanitary practices were characterized using semi‐structured interviews. A Sankey diagram was used to highlight the relationships among market garden crops, bioaggressors and diseases. Principal component analyses were applied to highlight the agricultural and phytosanitary practices used.ResultsThe results revealed rich agrobiodiversity, including 16 market garden crops, 15 local agroforestry species, 17 planted species and 37 weed species. The main market garden crops grown in the rainy season were cabbage (20.30%), lettuce (16.62%), tomato (11.69%), and amaranth (10.15%). The most frequent agroforestry species were Azadirachta indica (18.20%) and Mangifera indica (15.03%). The most common weeds were Eleusine indica (11.02%) and Cyperus reduncus (9.70%). Eleven pests were identified, and the most frequently recorded were caterpillars (39.06%). Sixteen diseases were reported, the most common being leaf yellowing (15.67%) and leaf wilt (11.67%). Numerous market gardeners use mineral fertilizers such as Yaramila (NPK 23‐10‐5), NPK (14‐23‐14), urea (46.00% nitrogen), and liquid fertilizer as well as compost and organic manure. The most common agricultural practice was crop rotation (79.00%). To protect crops, 89.00% of producers used synthetic chemical pesticides in an uncontrolled manner, most of which are purchased on the local market. Only 11.00% of the market gardeners practiced the natural phytosanitary treatments.ConclusionThis study provides important information that can be used for the sustainable management of market gardens. Agroecological standards should be popularized to ensure food security for market garden crops.
IntroductionIn West Africa, market gardeners use various agricultural practices to increase yields. However, many of these practices do not comply with agroecological standards and cause intoxication, pollution, soil degradation and biodiversity loss. This study characterizes the plant agrobiodiversity of market garden crops grown during the rainy season and the agricultural and phytosanitary practices used for their management.Materials and MethodsThe study was carried out in Burkina Faso. Plant agrobiodiversity was assessed in 100 market gardens. Agricultural and phytosanitary practices were characterized using semi‐structured interviews. A Sankey diagram was used to highlight the relationships among market garden crops, bioaggressors and diseases. Principal component analyses were applied to highlight the agricultural and phytosanitary practices used.ResultsThe results revealed rich agrobiodiversity, including 16 market garden crops, 15 local agroforestry species, 17 planted species and 37 weed species. The main market garden crops grown in the rainy season were cabbage (20.30%), lettuce (16.62%), tomato (11.69%), and amaranth (10.15%). The most frequent agroforestry species were Azadirachta indica (18.20%) and Mangifera indica (15.03%). The most common weeds were Eleusine indica (11.02%) and Cyperus reduncus (9.70%). Eleven pests were identified, and the most frequently recorded were caterpillars (39.06%). Sixteen diseases were reported, the most common being leaf yellowing (15.67%) and leaf wilt (11.67%). Numerous market gardeners use mineral fertilizers such as Yaramila (NPK 23‐10‐5), NPK (14‐23‐14), urea (46.00% nitrogen), and liquid fertilizer as well as compost and organic manure. The most common agricultural practice was crop rotation (79.00%). To protect crops, 89.00% of producers used synthetic chemical pesticides in an uncontrolled manner, most of which are purchased on the local market. Only 11.00% of the market gardeners practiced the natural phytosanitary treatments.ConclusionThis study provides important information that can be used for the sustainable management of market gardens. Agroecological standards should be popularized to ensure food security for market garden crops.
No abstract
Global warming has driven the expansion of cultivated land to high-altitude areas. Intensive vegetable production, which is generally considered to be a high economic value and high environmental risk system, has expanded greatly in high-altitude mountainous areas of China. However, the environmental cost of vegetable production in these areas is poorly understood. In this study, pepper production at low (traditional pepper production area) and high (newly expanded area) altitudes were investigated in Shizhu, a typical pepper crop area. The output and environmental cost at the two altitudes were identified. the influence of resource inputs, climate, and soil properties on pepper production was evaluated. There were obvious differences in output and environmental cost between the two altitudes. High-altitude pepper production achieved a 16.2% lower yield, and had a higher fertilizer input, resulting in a 22.3% lower net ecosystem economic benefit (NEEB), 23.0% higher nitrogen (N) footprint and 24.0% higher carbon (C) footprint compared to low-altitude farming. There is potential for environmental mitigation with both high- and low-altitude pepper production; Compared to average farmers, high-yield farmers groups reduced their N and C footprints by 16.9–24.8% and 18.3–25.2%, respectively, with 30.6–34.1% higher yield. A large increase in yield could also be achieved by increasing the top-dress fertilizer rate and decreasing the plant density. Importantly, high-altitude pepper production was achieved despite less advanced technology and inferior conditions (e.g., a poor road system and uneven fields). It provides a reference for the study of the environmental cost of other high-altitude regions or other crop systems at high-altitude areas.
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