Why do we love the great outdoors? The answer could be in our genes

Almost every aspect of our lives depends on nature, from food and shelter to fuel and clothing. Yet some of us are much more “into” spending time in nature than others.

To try to understand why, we studied more than 1,100 pairs of twins to find out how much of our connection to nature might depend on our DNA. We found

can be put down to genetics.

Hiking through a forest

Work and family responsibilities often stop city-dwellers from spending enough time in nature. Source: Getty

Nature is good for you

There is strong evidence even a wander in the local park . Yet with work and family responsibilities and packed social schedules, .

We wondered why some people spend more time in nature than others, and what underpins the fact some of us feel more strongly connected to nature.


Perhaps our affinity for nature is inherited. Or perhaps we get it from environmental factors – such as beautiful forests – in the places we live. Or again it might come from our cultural milieu such as the books we read or the TV programs we watch.

Finding answers to these questions might help us work out how to get some nature back into people’s lives.

Studying twins

We studied more than 1,100 pairs of twins to understand the origin of affinity for nature, and report the results in a . It turns out identical twins are much more similar to each other in the strength of their connection to nature than non-identical twins.

Statistical analysis of the results showed 46% of the variation in connection to nature, as measured on a psychological scale, can be explained by genetic factors. Even the amount of time we spend in our own backyards and visiting local parks seems to have a strong genetic basis.

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Studies of twins show 46% of the variation in connection to nature as measured on a psychological scale can be explained by genetic factors. Shutterstock

Why the strong genetic influence on our love for nature? Well, one can imagine a strong affinity with nature conferring a significant survival advantage for early humans. This might have led to the formation of complex networks of genes that govern how we relate to nature, and how we behave in it.

Despite the clear role of genetics, our results show other factors actually shape most of our affinity to nature. These might include childhood holiday destinations, the examples set by our parents, friends and other family members, educational experiences, and whether we live in a biodiverse area.

This is good news, because many of these things are under our own control.


Nature and health

such as green gyms or environmental volunteering can improve physical, mental and social health and well-being. such as the Green Passport for Queensland kids can give children powerful experiences of nature that could benefit their health over the long term.

A deeper question, and one we don’t yet have a clear answer to, is whether spending time in nature fosters our sense of environmental concern, and in turn, support for nature conservation.

The US ecologist James Miller has argued interactions with nature are crucial in

. Yet an showed conservation concern among Australian undergraduates was more strongly associated with social and cultural experiences in childhood than with the amount of time a person spends in nature. Clearly, there is much more to learn in this area.

Ultimately, we now know despite a genetic basis for our affinity to nature, much of it also depends on other factors that are decidedly under our own control. So make a resolution today to rekindle your connection to the great outdoors.

Richard Fuller receives funding from the Australian Research Council.

Brenda Lin receives funding from the Commonwealth and State governments. She is affiliated with CSIRO, which sponsors The Conversation. She is also a STEM Ambassador with Science & Technology Australia.

Danielle Shanahan is affiliated with Zealandia’s Center for People and Nature, and Victoria University of Wellington.

Kevin J. Gaston receives funding from UKRI.

Chia-chen Chang, L. Roman Carrasco, and Rachel Oh do not work for, consult, own shares in or receive funding from any company or organization that would benefit from this article, and have disclosed no relevant affiliations beyond their academic appointment.

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