4.7 Article

Pollinator Deficits, Food Consumption, and Consequences for Human Health: A Modeling Study

Journal

ENVIRONMENTAL HEALTH PERSPECTIVES
Volume 130, Issue 12, Pages -

Publisher

US DEPT HEALTH HUMAN SCIENCES PUBLIC HEALTH SCIENCE
DOI: 10.1289/EHP10947

Keywords

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Funding

  1. Gordon and Betty Moore Foundation
  2. Weston Foods Inc.
  3. Fifth Generation Inc. - CGIAR Research Program on Policies, Institutions
  4. CGIAR Research Program on Climate Change, Agriculture and Food Security
  5. United States Agency for International Development [ID0EKYBG33202]
  6. Bill & Melinda Gates Foundation
  7. Our Planet Our Health program [205212/Z/16/Z]

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Insufficient animal pollination has a significant impact on global human health and agricultural economy, especially in low-income countries. Promoting pollinator-friendly practices is crucial.
BACKGROUND: Animal pollination supports agricultural production for many healthy foods, such as fruits, vegetables, nuts, and legumes, that provide key nutrients and protect against noncommunicable disease. Today, most crops receive suboptimal pollination because of limited abundance and di-versity of pollinating insects. Animal pollinators are currently suffering owing to a host of direct and indirect anthropogenic pressures: land-use change, intensive farming techniques, harmful pesticides, nutritional stress, and climate change, among others.OBJECTIVES: We aimed to model the impacts on current global human health from insufficient pollination via diet.METHODS: We used a climate zonation approach to estimate current yield gaps for animal-pollinated foods and estimated the proportion of the gap at-tributable to insufficient pollinators based on existing research. We then simulated closing the pollinator yield gaps by eliminating the portion of total yield gaps attributable to insufficient pollination. Next, we used an agriculture-economic model to estimate the impacts of closing the pollinator yield gap on food production, interregional trade, and consumption. Finally, we used a comparative risk assessment to estimate the related changes in dietary risks and mortality by country and globally. In addition, we estimated the lost economic value of crop production for three diverse case-study countries: Honduras, Nepal, and Nigeria.RESULTS: Globally, we calculated that 3%-5% of fruit, vegetable, and nut production is lost due to inadequate pollination, leading to an estimated 427,000 (95% uncertainty interval: 86,000, 691,000) excess deaths annually from lost healthy food consumption and associated diseases. Modeled impacts were unevenly distributed: Lost food production was concentrated in lower-income countries, whereas impacts on food consumption and mortality attributable to insufficient pollination were greater in middle-and high-income countries with higher rates of noncommunicable disease. Furthermore, in our three case-study countries, we calculated the economic value of crop production to be 12%-31% lower than if pollinators were abundant (due to crop production losses of 3%-19%), mainly due to lost fruit and vegetable production.DISCUSSION: According to our analysis, insufficient populations of pollinators were responsible for large present-day burdens of disease through lost healthy food consumption. In addition, we calculated that low-income countries lost significant income and crop yields from pollinator deficits. These results underscore the urgent need to promote pollinator-friendly practices for both human health and agricultural livelihoods. https://doi.org/10.1289/ EHP10947

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