蜜桃传媒破解版下载

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Squirrels roll the dice on their offspring

Squirrels roll the dice on their offspring

A collaborative study with a 蜜桃传媒破解版下载 professor investigates how the risks and rewards of red squirrel reproduction is a microcosm of evolutionary patterns


You鈥檝e probably seen plenty of squirrels throughout your life: in your back yard, on campus, in the park and on the way to work. New evidence suggests that the behaviors of those furry creatures could help explain the evolutionary processes of all life on Earth, including ours.  

In a paper published by Science, a team of researchers including Andrew McAdam, an associate professor of ecology and evolutionary biology at the University of Colorado Boulder, found that the red squirrels of Yukon, Canada, sometimes make mistakes when adapting to the boom-and-bust cycles of cones produced by spruce trees, their primarily food source. However, some mistakes are less severe than others and can actually help red squirrels survive in the long run.  

Andrew McAdam, an associate professor of ecology and evolutionary biology

At the top of the page: Female red squirrel forages for food. Photo by Juliana Balluffi-Fry. Above: Andrew McAdam, an associate professor of ecology and evolutionary biology at the University of Colorado Boulder.

鈥淚f what we see in nature is the result of natural selection, then organisms ought to fit with their environment pretty well. When you find these situations where there's not a good match between an organism and its environment, it suggests that either natural selection is not as important as you expected or maybe you just don鈥檛 understand the organism well enough,鈥 McAdam says.  

McAdam is a leader of the Kluane Red Squirrel Project, an interdisciplinary research group that has experimented and studied the ecology and evolution of red squirrels in Yukon for more than 30 years.  

In this study, led by postdoctoral researcher , the team of red squirrel researchers explored how those squirrels gamble with their genetic lineage to 鈥渉it the lottery鈥 of producing a large family of pups before a mast year, when spruce trees produce an extremely high number of cones, typically every three to six years.  

In most years, cones are hard to come by, which poses a challenge for female squirrels and their reproductive strategies. 鈥淏ut when a mast year comes along and there is a plethora of cones, red squirrel success goes through the roof,鈥 according to McAdam.  

鈥淪quirrels typically live for around three years, so they tend to only experience one mast event in their lifetime. It is a golden opportunity, and if you aren't able to take advantage of it, you are going to lose ground relative to your neighbors,鈥 McAdam says.  

Female red squirrel with tracker.

Researcher safely traps and releases red squirrel for data collection. Photo by William Westrick.

Squirrels somehow know when a mast year is coming, and they increase their spring reproduction in anticipation of the food arriving in the autumn.  Researchers at the Kluane Red Squirrel Project have yet to understand exactly how red squirrels know when a mast year is coming. The current hypothesis is that female squirrels are 鈥渢ipped off鈥 by a hormonal cue when they feed on the buds of spruce trees during the spring. But sometimes they miss the memo and produce litters of pups that are either too large during non-mast years or too small in the mast year.  

During non-mast years, it is difficult for litters of five to six pups to survive. 鈥淏ut that cost is not that big compared to the cost of missing out on the big payoffs of a mast year. You miss all that potential recruitment of pups that you could have had by not producing the big litter in the mast year,鈥 McAdam says.  

鈥淲hen we stepped back and considered those mistakes within the bigger picture, we realized that this mismatch is part of a larger strategy that is beneficial for the squirrels. They're willing to tolerate these smaller mistakes because it helps them to avoid making the costlier mistake鈥 of missing out on the mast year, according to McAdam.  

For McAdam and the rest of the red squirrel team, their decades-long study of squirrels is about more than just the squirrels. Yukon red squirrels and their risky decisions on when to produce large or small litters are a window into how all organisms respond and adapt to their changing environment.  

鈥淪quirrels are like a microscope; they're efficient at revealing biological patterns that we wouldn't be able to see鈥 from other animals, McAdam says. 鈥淭hey're really a way to understand the basic workings of biology.鈥  

 

Squirrels are like a microscope; they're efficient at revealing biological patterns that we wouldn't be able to see鈥 ... They're really a way to understand the basic workings of biology.鈥嬧

Humans also have to make decisions based on limited information. Like red squirrels, 鈥淲e're constantly faced with lots of choices that have different levels of risk, and we have to find a way to navigate the world, trying not to make big mistakes鈥攅ven if that means you make a few small mistakes along the way,鈥 McAdam says.  

Within the world鈥檚 shared biosphere that is constantly changing because of human-caused global warming and other disruptions, McAdam鈥檚 co-authored study is a reminder to 鈥渘ot sweat the small stuff and to instead stay focused on the things that really matter in life.鈥 

鈥淲e tend to think that our human stories are the most important stories. But even familiar critters have interesting lessons to teach us,鈥 McAdam says.  

The research is co-authored by Lauren Petrullo and Ben Dantzer from University of Michigan; Stan Boutin from University of Alberta; and Jeff Lane from University of Saskatchewan.  

The study was funded by the Natural Sciences and Engineering Research Council, the National Science Foundation, Polar Knowledge Canada and the Canadian Foundation for Innovation. This research took place within the traditional territories of the Champagne and Aishihik First Nations.