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Name translated{'en': 'Resolving the twin human and environmental health hazards of a plant based diet', 'km': 'Resolving the twin human and environmental health hazards of a plant based diet', 'lo': 'Resolving the twin human and environmental health hazards of a plant based diet', 'my_MM': 'Resolving the twin human and environmental health hazards of a plant based diet', 'vi': 'Resolving the twin human and environmental health hazards of a plant based diet'}
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Resource description{'en': 'Food can be health-giving. A global transition towards plant-based diets may equally help curb carbon emissions,\r\nslow land-system change and conserve finite resources. Yet, projected benefits of such ‘planetary health’ diets\r\nimperfectly capture the environmental or societal health outcomes tied to food production. Here, we examine\r\npesticide-related hazards of fruit and vegetable consumption, and list proven management alternatives per\r\ncommodity, geography and chemical compound. Across countries, pesticide use in these alleged healthful foods\r\nis extensive with up to 97% food items containing residues and up to 42% posing dietary risks to consumers.\r\nMultiple residues are present in 70–92% of US- and China-grown stone fruit while 58% US cauliflower is tainted\r\nwith neonicotinoid insecticides. Science-based alternatives and decision-support frameworks can help food\r\nproducers reduce risks and potential harm by deliberately abstaining from pesticide use. As such, opportunities\r\nabound to advance ‘win-win’ diets that simultaneously nurture human health and conserve global biodiversity.', 'km': 'Food can be health-giving. A global transition towards plant-based diets may equally help curb carbon emissions,\r\nslow land-system change and conserve finite resources. Yet, projected benefits of such ‘planetary health’ diets\r\nimperfectly capture the environmental or societal health outcomes tied to food production. Here, we examine\r\npesticide-related hazards of fruit and vegetable consumption, and list proven management alternatives per\r\ncommodity, geography and chemical compound. Across countries, pesticide use in these alleged healthful foods\r\nis extensive with up to 97% food items containing residues and up to 42% posing dietary risks to consumers.\r\nMultiple residues are present in 70–92% of US- and China-grown stone fruit while 58% US cauliflower is tainted\r\nwith neonicotinoid insecticides. Science-based alternatives and decision-support frameworks can help food\r\nproducers reduce risks and potential harm by deliberately abstaining from pesticide use. As such, opportunities\r\nabound to advance ‘win-win’ diets that simultaneously nurture human health and conserve global biodiversity.', 'lo': 'Food can be health-giving. A global transition towards plant-based diets may equally help curb carbon emissions,\r\nslow land-system change and conserve finite resources. Yet, projected benefits of such ‘planetary health’ diets\r\nimperfectly capture the environmental or societal health outcomes tied to food production. Here, we examine\r\npesticide-related hazards of fruit and vegetable consumption, and list proven management alternatives per\r\ncommodity, geography and chemical compound. Across countries, pesticide use in these alleged healthful foods\r\nis extensive with up to 97% food items containing residues and up to 42% posing dietary risks to consumers.\r\nMultiple residues are present in 70–92% of US- and China-grown stone fruit while 58% US cauliflower is tainted\r\nwith neonicotinoid insecticides. Science-based alternatives and decision-support frameworks can help food\r\nproducers reduce risks and potential harm by deliberately abstaining from pesticide use. As such, opportunities\r\nabound to advance ‘win-win’ diets that simultaneously nurture human health and conserve global biodiversity.', 'my_MM': 'Food can be health-giving. A global transition towards plant-based diets may equally help curb carbon emissions,\r\nslow land-system change and conserve finite resources. Yet, projected benefits of such ‘planetary health’ diets\r\nimperfectly capture the environmental or societal health outcomes tied to food production. Here, we examine\r\npesticide-related hazards of fruit and vegetable consumption, and list proven management alternatives per\r\ncommodity, geography and chemical compound. Across countries, pesticide use in these alleged healthful foods\r\nis extensive with up to 97% food items containing residues and up to 42% posing dietary risks to consumers.\r\nMultiple residues are present in 70–92% of US- and China-grown stone fruit while 58% US cauliflower is tainted\r\nwith neonicotinoid insecticides. Science-based alternatives and decision-support frameworks can help food\r\nproducers reduce risks and potential harm by deliberately abstaining from pesticide use. As such, opportunities\r\nabound to advance ‘win-win’ diets that simultaneously nurture human health and conserve global biodiversity.', 'vi': 'Food can be health-giving. A global transition towards plant-based diets may equally help curb carbon emissions,\r\nslow land-system change and conserve finite resources. Yet, projected benefits of such ‘planetary health’ diets\r\nimperfectly capture the environmental or societal health outcomes tied to food production. Here, we examine\r\npesticide-related hazards of fruit and vegetable consumption, and list proven management alternatives per\r\ncommodity, geography and chemical compound. Across countries, pesticide use in these alleged healthful foods\r\nis extensive with up to 97% food items containing residues and up to 42% posing dietary risks to consumers.\r\nMultiple residues are present in 70–92% of US- and China-grown stone fruit while 58% US cauliflower is tainted\r\nwith neonicotinoid insecticides. Science-based alternatives and decision-support frameworks can help food\r\nproducers reduce risks and potential harm by deliberately abstaining from pesticide use. As such, opportunities\r\nabound to advance ‘win-win’ diets that simultaneously nurture human health and conserve global biodiversity.'}
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ឈ្មោះ Resolving the twin human and environmental health hazards of a plant based diet
ការពិពណ៌នា

Food can be health-giving. A global transition towards plant-based diets may equally help curb carbon emissions, slow land-system change and conserve finite resources. Yet, projected benefits of such ‘planetary health’ diets imperfectly capture the environmental or societal health outcomes tied to food production. Here, we examine pesticide-related hazards of fruit and vegetable consumption, and list proven management alternatives per commodity, geography and chemical compound. Across countries, pesticide use in these alleged healthful foods is extensive with up to 97% food items containing residues and up to 42% posing dietary risks to consumers. Multiple residues are present in 70–92% of US- and China-grown stone fruit while 58% US cauliflower is tainted with neonicotinoid insecticides. Science-based alternatives and decision-support frameworks can help food producers reduce risks and potential harm by deliberately abstaining from pesticide use. As such, opportunities abound to advance ‘win-win’ diets that simultaneously nurture human health and conserve global biodiversity.