As Human Population Grows, People And Wildlife Will Share More Living Spaces Around The World

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Human-wildlife overlap is projected to increase across more than half of all lands around the globe by 2070. The main driver of these changes is human population growth. This is the central finding of our newly published study in the journal Science Advances.

Our research suggests that as human population increases, humans and animals will share increasingly crowded landscapes. For example, as more people move into forests and agricultural regions, human-wildlife overlap will increase sharply. It will also increase in urban areas as people move to cities in search of jobs and opportunities.

Animals are also moving, mainly in response to climate change, which is shifting their ranges. Across most areas, species richness – the number of unique species present – will decrease as animals follow their preferred climates. But because human population growth is increasing, there still will be more human-wildlife overlap across most lands.

We also found areas where human-wildlife overlap will decrease as human populations shift, although these were much rarer than areas of increase.

The top map shows areas with projected increasing human-wildlife overlap by 2070. In orange areas, human population density will increase, while species richness – the number of species present – will decrease; in purple areas, human population density and species richness will increase. The lower map shows where interactions will decrease. In green areas, human population density and species richness will decrease; in pink areas, human population density will decrease, while species richness will increase. Ma et al., 2024, CC BY-ND

We found that Africa will have the largest proportion of land with increasing human-wildlife overlap (70.6%), followed by South America (66.5%). In contrast, Europe will have the largest proportion of land experiencing decreasing human-wildlife overlap (21.4%).

Why it Matters

Around the world, humans and wildlife increasingly compete for limited space on land. This can lead to harmful outcomes, such as human-wildlife conflicts and the spread of diseases between humans and animals.

Interacting with wildlife, however, can also have benefits. For example, birds provide valuable pest control for some crops. And studies show that observing birds and animals in nature improves people’s mental health.

It is important to manage these interactions in ways that minimize negative impacts and maximize benefits. This is a key goal of the Global Biodiversity Framework that nations adopted in 2022 as a blueprint for conserving life on Earth and slowing the loss of wild species.

Our findings underscore the need to manage for coexistence between people and wildlife. Our research provides a broad understanding of where changes in human-wildlife overlap will occur in the future, including hot spots that will require more effective measures to improve human interactions with wildlife.

The Marin Livestock and Wildlife Protection Program in California helps ranchers pay for nonlethal methods to protect their herds from coyotes.


How We Did Our Work

We developed a spatial index to measure human-wildlife overlap around the world. To calculate the degree of overlap region by region, we multiplied human population density by the number of species present in a given area. Our study included 22,374 land-dwelling species of amphibians, birds, mammals, and reptiles.

By combining published datasets on the most recent (2015) and future (2070) populations, species distributions, and land types, we were able to investigate how human-wildlife overlap will change by 2070 and to identify the places where this overlap will increase most dramatically. We then investigated changes in species richness across each land type – cropland, grassland, urban, and forest – with increasing human-wildlife overlap.

What’s Next

Our research shows broadly how human-wildlife overlap will change, but researchers will need local studies to understand the consequences. Future research on shared lands should analyze factors including species abundance, species behavior and ecology, and types of interactions between people and wildlife.

Policymakers can use insights from our work to guide conservation planning in a more crowded future. For example, our projections can help identify locations for habitat corridors that enable wildlife to move between critical habitats. They also could help to identify areas that are relatively buffered from the effects of climate change over time and could serve as havens for at-risk species.

Our work can inform future conservation investments, such as rewilding areas where human population density is decreasing or preserving and enhancing wildlife habitats in places that are becoming more urbanized.

Finally, our study shows the importance of engaging local communities in wildlife conservation. In our view, using many conservation strategies and taking human needs into account will be the most effective way to ensure sustainable coexistence.


Neil Carter is an Associate Professor of Wildlife Conservation at the University of Michigan. Deqiang Ma is a Postdoctoral Researcher in Environment and Sustainability at the University of Michigan. This article is republished from The Conversation under a Creative Commons license. Read the original article.

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