茄子直播

Dragonfly enzymes point to how they interact in ecosystem: 茄子直播 research

Photo of dragonfly
A four-spotted skimmer dragonfly (photo courtesy of Shannon McCauley)

New research by University of Toronto scholars reveals that understanding small physiological activities in dragonflies could reveal a deeper understanding of how they interact with other organisms in an ecosystem.

鈥淲e often think communities [of dragonflies] are so complex,鈥 says Shannon McCauley, an assistant professor of biology at 茄子直播 Mississauga. 鈥淚t looks like the underlying physiological mechanisms could simplify our understanding of ecological dynamics.鈥

Dragonflies are common near lakes, streams and ponds where they catch insects like mosquitoes, moths and midges. Although they seek cover in plants and have large eyes with nearly 360-degree vision, they can become prey for birds, fish, spiders, frogs and even other dragonflies. After hatching from an egg, dragonflies live in water as aquatic nymphs, feeding on insects, tadpoles and small fish.

In a paper published in the latest issue of the , McCauley and her colleagues, Denon Start, a PhD candidate, and Ben Gilbert, an associate professor in the department of ecology and evolutionary biology, studied 17 species of nymph-stage dragonflies in ponds in and around the Koffler Scientific Reserve, located roughly 60 kilometres north of the downtown 茄子直播 campus. .

They determined that in ponds without large fish, they were more likely to find dragonfly nymphs with high activity rates but lower 鈥渂urst speeds鈥 鈥 a capability to swim explosively away from a potential predator. Alternately, in ponds with large fish, dragonfly nymphs with low activity rates but high burst swimming speeds were more common.

But the team took this a step further. They were able to link high levels of an enzyme called lactate dehydrogenase (Ldh) to high activity rates and high levels of the enzyme arginine kinase (Ak) to fast burst speeds.

The team found that the activity of these two enzymes accounted for more than 80 per cent of the variation in dragonfly community composition.

鈥淚t鈥檚 a further step down the scale of biology,鈥 says McCauley. 鈥淚t suggests that we can look at these low levels of biological co-ordination and make predictions about communities."

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