LAUSR

Some environmentally conscious consumers make dietary choices with the carbon footprint of their meals in mind. Whether eating a more plant-based diet, wasting less of the food they buy, or purchasing food grown closer to home, people with the luxury to choose their diets can reduce the greenhouse gas emissions required to produce their daily nourishment by making informed decisions (1). However, dietary choices affect more than the atmosphere. In PNAS, Read et al. (2) explore the effects on biodiversity of five diets—ranging from the baseline American diet that includes processed foods and meats to the Planetary Health diet, which includes some meat, but is dominated by fruits, vegetables, whole grains, and plant proteins (3). Read et al. (2) cross each of these diets with two food waste scenarios, the current baseline and a 50% reduction, to ask how each of the 10 resulting combinations affects extinction risks for plants and animals. Globally, up to 1 million of the estimated 8 million plant and animal species on Earth are at risk for extinction (4). This dire calculation comes just as the benefits of living with a richness of biodiversity have become increasingly clear. A recent meta-analysis, for example, demonstrated that high diversity in agricultural systems increases pest control, pollination, water regulation, nutrient cycling, and soil fertility, all without reducing crop yields (5). We now know too that biodiversity often prevents the emergence and transmission of pathogens that jump from animals to humans (6), a particularly vivid benefit amid the ongoing ravages of the COVID-19 pandemic. The conversion of land for agriculture is one of the biggest drivers of biodiversity loss (7). With this in mind, Read et al. (2) built a model of the American food system to estimate the amount of land used to grow the crops and raise the livestock we eat. To build their model, they used a compilation of publicly available data on food production, keeping track of food sources by county in the United States or by country for imported goods. By coupling these data with county-level records on cropland and pastureland, they could estimate the total area in each county of each type of land required for each diet scenario. To estimate the effects of these land uses on biodiversity, Read et al. (2) relied on a method developed by Chaudhary and colleagues (8,9) to estimate how land use affects species in five taxonomic categories (mammals, birds, amphibians, reptiles, plants). Chaudhary and colleagues (8,9) localized these impacts to 804 distinct ecoregions on Earth. Using data on thousands of species derived from multiple sources (10–12), they calculated the vulnerability of members of each group to land-use change and used these data to develop an index of the impact on each taxonomic group of the localized conversion of 1 m of habitat to 1 m of cropland or pastureland. One additional innovation incorporated into these estimates was the countryside species–area relationship (SAR), which differs from the classic SAR by incorporating the fact that human-altered habitats support the occurrence of some species (13). Combining all of these data, Read et al. (2) evaluated how five alternative diets would affect extinction risk for this same set of terrestrial species. If everyone in the United States ate the baseline American diet, the results would be grim, with 122 extinctions in the United States alone. Fully two-thirds of these would occur from conversion of natural habitat to pastureland for livestock. The situation in other countries would be only slightly better, with an additional 78 species lost. Indeed, Read et al. (2) found that 40% of the biodiversity footprint caused by current American food consumption occurs outside US borders, caused by plants and animals going extinct in the countries growing the food required to meet US demand. Could changing diets protect biodiversity? If everyone in the United States adopted either a vegetarian diet or the Planetary Health diet, there would be 30% fewer global extinctions, largely because of a smaller footprint for pastureland to raise livestock for meat. The work by Read et al. (2) is distinguished from some similar studies (but see 3, 14) in that they considered each of their diet scenarios with two levels of food waste, the current baseline and a 50% reduction. Combining either of the biodiversityfriendly diets with less waste resulted in an even more dramatic effect on conservation, effectively preventing the extinctions of dozens of species (Fig. 1). Two of the alternative diets considered by Read et al. (2)—the American diet recommended by the US Department of Agriculture and the Mediterranean diet—actually increased extinctions relative to the baseline American diet, largely because of greater cattle production to supply milk for higher dairy consumption. These eating plans had another less obvious effect on biodiversity as well. Because Read et al. (2) assumed that any increased seafood consumption would have to come from farmed rather than wild fish, diets including more seafood required land conversion to provide grain to feed the fish. These impacts added up. The Mediterranean diet, touted as being healthy for people (14), was distinctly unhealthy for biodiversity, increasing extinctions by almost 40%.