1,000 heart beats a minute: Get to know these amazing birds
THE AMAZING METABOLISM OF HUMMINGBIRDS CONTINUES TO FASCINATE SCIENTISTS, AND IT’S ALL FOR GOOD REASONS
Oxygen consumption rates at metabolic peak Millilitres of oxygen spent per gram of body weight per hour. Hummingbird
Q: What are you watching for?
We’re measuring oxygen consumption rates. If I were to stick an elite Olympic athlete, a cross-country skier, on to a cycle ergometer and ask them to wear a mask and say, ‘OK, go as hard as you can go, and I want to measure your peak metabolic rate,’ one of the ways we can quantify that is in oxygen consumption. So I can say, ‘This human athlete is consuming 4 millilitres of oxygen per gram of body weight per hour.’ A hummingbird can easily hit 40 millilitres of oxygen per gram per hour. And if I ask the hummingbird to do extra, if I give it a little bit of extra weight to wear, that can go up to well above 60. So, their tissues are using oxygen at rates that are many, many times what we can possibly achieve.
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Olympic athlete Q: They need the oxygen to help them metabolise the relatively enormous amounts of sugar they are taking in to get the energy to power their muscles? I did a calculation back in graduate school. It turns out that when they’re hovering around and foraging during the day, they’re pretty much exclusively burning the sugar that they’ve been eating in the last 30 minutes to an hour. And so, they have this incredible ability to move sugar through their system. And I did the calculation and said, ‘OK, if I scale one of my hummingbirds up to adult male human size, my size, how much sugar would I need to drink per minute if I were theoretically a hovering hummingbird as big as I am?’ It turned out to be right around the amount of sugar that’s in a can of cola per minute. I haven’t actually tried to do this. My doctor advised against it.
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Hummingbirds have long intrigued scientists. Their wings can beat 80 times a second. Their hearts can beat more than 1,000 times a minute. They live on nectar and can pack on 40 per cent of their body weight in fat for migration. But sometimes they are so lean that they live close to caloric bankruptcy. At such times, some hummingbirds could starve to death while they sleep because they’re not getting to eat every half-hour or so. Instead they enter a state of torpor, with heartbeat and body temperature turned way down to diminish the need for food. Kenneth C. Welch Jr. at the University of Toronto, Scarborough, has studied the metabolisms of hummingbirds for more than a decade. His most recent research with Derrick J.E. Groom, in his lab, and other colleagues is on the size and energy efficiency in hummingbirds. By using data on oxygen consumption and wing beats to get an idea of how much energy hummingbirds take in and how much work they put out, the scientists found that during strenuous hovering flight, bigger hummingbirds are more efficient energy users than smaller ones. The research was published in Proceedings of the Royal Society B. Excerpts from a telephone conversation with Welch.
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Q: They move sugar through their system an awful lot faster than we do?
Unlike us, hummingbirds can use the glucose that they’re ingesting in nectar and can move it through their guts, through their circulatory system, and to their muscle cells so fast that they can essentially keep that pipeline going in real time.
You and I can’t do that. We can support some small portion of exercise with newly ingested glucose, about 30 per cent. But what’s just as remarkable is that the diet of hummingbirds is nectar and that’s half glucose and half fructose.
We’re not good at using fructose at all. Hummingbirds can use that fructose at very high rates.
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Q: How do they move sugar through their system? Birds and nectar-feeding bats have evolved the ability to enhance the flux of nutrients like small sugars such as fructose and glucose or amino acids to more effectively absorb their food. And getting them to their tissues is enhanced because hummingbird muscles and hummingbird hearts and hummingbird blood vessels are so good.
The hummingbird heart rate is high and it’s pumping so much blood per unit of time. They have lots and lots of capillaries that allow the blood to get up close and personal to their muscle cells.
And hummingbirds can apparently take up fructose in their cells, and we’re trying to figure out what enables that. We do know that there is a different form of glucose transporter that is a specialist at taking up fructose.
In our muscle cells, that transporter is barely present.
But hummingbird muscle fibres tend to have a lot of this transporter. So, we think we’re a little closer to understanding how they can take up fructose so fast. But the story’s not yet complete. We need to do some follow up work in order to really confirm that.