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Wildlife Now Responds To Human Presence In Surprising Ways

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A new large-scale study led by a research team from the Yale Center for Biodiversity and Global Change has found that wildlife responds not only to how humans reshape their habitats, but also to the simple presence of humans — and sometimes in surprising ways.

Even small changes in how people move through environments can significantly affect animal behavior and could have implications for wildlife conservation efforts, the study finds.

“Our findings provide an important nuance in our understanding of wildlife in a rapidly changing world,” said Walter Jetz, a professor of ecology and evolutionary biology in Yale’s Faculty of Arts and Sciences and director of the Yale Center for Biodiversity and Global Change.

“Animals are affected by both direct human presence and by human-caused changes to the physical environment, such as agriculture and urbanization,” Jetz said. “This study is the first to directly assess at scale how both causes, separately and in combination, impact wildlife habitat usage.”

The study, published in Science, culminates a six-year, global collaboration between Yale researchers and colleagues from more than 5o academic and governmental organizations across the U.S. and abroad.

The study was led by Ruth Oliver, formerly a postdoctoral scientist in Yale’s Department of Ecology & Evolutionary Biology who is now an assistant professor at the University of California Santa Barbara’s Bren School of Environmental Science and Management; and Scott Yanco, another former Yale postdoctoral associate who is now a research ecologist at the Smithsonian’s National Zoo and Conservation Biology Institute.

The study’s overall findings suggest that to protect wildlife, conservationists should consider not just habitat loss, but also where and when people are physically present.

In their work, researchers used GPS devices to track 37 species (22 birds and 15 mammals) across the United States. Mammal species included white-tailed deer, wolves, coyotes, raccoons, skunks, and some of the “big cat” species. The birds included large species such as vultures, hawks, ducks, crane, and storks.

In all, researchers collected about 11.8 million location points from more than 4,500 animals.

For the first time ever, the team then used mobile phone data, paired with satellite-derived measurements of human habitat disturbance, to study how both aspects of human behavior affected animal movement and habitat use.

“It has been challenging to capture the impact of human presence on wildlife,” said Oliver. “Mobile device data are typically not available, but our study was made possible thanks to a unique partnership that made estimates of human presence available to researchers during the COVID-19 pandemic.”

COVID-19 lockdowns dramatically altered human movement patterns, allowing researchers to study differences in human presence between 2019 and 2020. This enabled researchers to separate the effects of human presence on animal behavior from longer-term landscape changes such as urban development and agriculture.

The researchers measured the space that animals used and the variety of habitats they occupied and then applied statistical models to link these behaviors to human activity and environmental conditions.

Results showed that more than 65% of species changed their behavior based on the presence of humans, and that this human presence tended to matter most in less-developed, natural settings. But different species responded in different ways. Many reduced the amount of space they used, probably to avoid people, but others had the opposite response.

Gray wolves, for example, expanded their range, possibly traveling farther to steer clear of humans. Ravens also covered more ground, likely taking advantage of food sources linked to people, while coyotes tended to restrict their movements.

The study also found that individual animals could adjust their behavior from year to year, demonstrating some flexibility in response to changing human activity.

“Habitat loss is the key driver of biodiversity loss, but as we show, human’s direct use of the landscape — say for recreation — also mediates this effect,” Jetz said. “Depending on the quality of remaining habitat, animals make behavioral adjustments that either amplify or dampen the negative effects of habitat loss.”

The study highlights how new technologies, such as GPS tracking combined with satellite data and measures of human presence, can uncover new insights into how wildlife responds to humans.

The findings also suggest that in addition to habitat preservation, efforts to skillfully manage the timing and intensity of human activity — such as limiting traffic during key periods or reducing disturbance in sensitive habitats — may help wildlife and people coexist.

“The cutting-edge technology used in this study allows us to see, with unprecedented detail, how variable wildlife responses to human activities really are,” Yanco said. “This means that conservation strategies need to be very targeted, not one-size-fits-all.”

 

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Wolves kill, and ravens recall where: What is the scavenging strategy?

Wolves kill, and ravens recall where: What is the scavenging strategy?

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The legend went that wolves were followed by ravens to fresh kills. Another scavenging strategy is of much interest, as demonstrated by a tracking study.

The raven is usually the first to be on the scene when the wolf pack is running down its prey. The ravens are already waiting in queue to grab hold of the scrap of meat that is an oddity and may arise even before the predators have time to dig. The scavengers are so fast in getting to wolf kills that it is uncanny to people how they got there and the answer is that wolves must have ravens trailing on them.

However, a recent study that followed ravens and wolves in the Yellowstone National Park during two-and-a-half years reveals that the predators adopt a much more advanced approach. Ravens know the locations that wolves will most likely kill and they will fly far back to the location. According to the first author of the study, Matthias Loretto, “they are capable of flying six hours without making a landing, directly to a kill site.”

The findings were published in the journal of science, with suggestions that ravens attempt to locate food scattered in the landscape by the use of spatial memory and navigation. According to Loretto, ravens can travel long distances by flying, and apparently they have a good memory so they do not have to always keep up with wolves in order to make out of the predators.

The research was conducted by the Research Institute of Wildlife Ecology of the University of Veterinary Medicine Vienna and the Max Planck Institute of Animal Behavior (Germany) along with several other institutes across the world including the Yellowstone National Park (USA).

Putting a legend to the test

The research was conducted regarding the Yellowstone National Park where wolves were introduced in the mid 90s after 70 years. The wolves of the park are monitored using tracking collars which are implanted on a quarter of the wolf population in any given year, according to Dan Stahler, a Yellowstone biologist, who has been tracking the wolves of the park since its reintroduction, the ravens seem to prefer the company of the wolves: you find them flying directly overhead or even leaping behind them when they take down prey.

To the ravens, it is a lucrative foraging measure, because the wolves always generate food which the birds can deal with. “The rule of the birds, which we all had supposed, was,” says Stahler, “simply to keep near the wolves.” However, the assumption was not checked. He says he did not know what ravens could do because nobody had ever put them in the middle; nobody had ever put the scavenger into the perspective.

To get a full view of the behavior of the raven, the group fitted the birds with small GPS positioning devices, 69 ravens in all, which is, according to Loretto, simply insane. “The reason is that ravens are so watchful of the scene that they do not easily fall into traps,” he says. Researchers were keen to adjust the traps to the environment in order to trap the birds to tag them. To illustrate, traps placed near the campsites had to be covered with rubbish and fast-food lure, otherwise, the ravens would know that something was not right and would not approach it, according to Loretto who is now a scientist at the University of Veterinary Medicine Vienna.

Besides the tracking ravens, the researchers added the movement data of 20 Yellowstone collared wolves. They followed the animals through the winter when ravens most frequently occur with wolves and recorded GPS positions with intervals up to 30 minutes in the case of ravens and up to one hour in the case of wolves. They also added information as where and when wolves killed their prey which consisted mainly of elk, bison and deer.

The memory of lucrative sceneries

In more than two-and-a-half years of observation, scientists discovered only one unambiguous incidence of a raven trailing a wolf at a distance of over one kilometer or over an hour. “In the beginning we were confused,” says Loretto. “After we discovered that wolves were not being followed by ravens from a great distance, we could not understand why the birds came so fast to wolf killings.”

The pattern was obvious after the thorough analysis of the movement data. Instead of following predators at long distances, the ravens returned to certain locations where they could find wolf kills. Others covered as little as 155 kilometers per day, but in a highly directional way, towards locations where a carcass was likely to be found–although the time a kill will occur is indeterminate.

In regard to location, wolves kills are clumped into specific terrain features, which the wolves hunt more effectively, flat valley bottoms. Ravens were also much more likely to visit frequently wolfridden locations as compared to infrequently wolfrided locations, indicating that they learn and retain the long-term resource landscape that wolves cause.

Loretto says that ravens have already been known to recollect consistent food sources, such as landfills. “What did we find surprising is that they also appear to learn where the wolf killings are more frequent. One kill is random, and with time certain areas of the terrain prove more fruitful than others, but ravens seem to take advantage of this pattern.”

Greater understanding of the intellect of animals

The authors do not eliminate the possibility that wolves continue to be followed by ravens on a short distance. To locate wolf kills in their area, ravens must be able to determine this by short-range signals, probably by watching the movements of the wolves or hearing them howl. However, on a bigger level, the order is quite obvious: memory then, cues then. Spatial memory and navigation enables ravens to make decisions regarding where to start searching, in the first place, sometimes tens or even hundreds of kilometers.

Senior author Prof John M. Marzluff of the University of Washington adds: “What is evident in our work is the fact that ravens are able to be quite flexible in the locations they choose to feed. They do not remain attached to a certain wolf pack. They have the opportunity to select between numerous foraging opportunities since they have a good sense and recollection of the previous feeding places far and wide. This alters our way of thinking about scavenger finding food, and the notion may be that we have long underestimated certain ones.”

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