Studying Arctic beetles might be the best way to track the effect climate change has on biodiversity, researchers say.
A McGill University research team discovered these six-legged critters are not only abundant in number but also diverse in feeding habits, and what they eat is closely linked to the latitude in which they are found.
As a result, they believe Arctic beetles may prove to be ideal markers of climate change, since any changes in climate that affect the soil, plants, and animals on which the beetles depend are likely to be quickly reflected in changes in the beetle communities.
A team of researchers led by Chris Buddle and Crystal Ernst identified more than 460 different species of Arctic beetles in locations ranging from the edge of the boreal forest in Northern Ontario to Ellesmere Island in the far north.
More significantly, they found that there were clear differences in what beetles are found where along this north-south gradient, and the ecological roles they fulfilled differed depending on the latitude in which they lived.
“Depending on the latitude and the temperature, Arctic beetles perform a range of ecological functions such as pollinating or feeding on plants, preying on other insects, and breaking down decaying matter,” says Ernst, who is the first author of the study published in PLOS ONE.
“In the far north, there are generally very high numbers of predators and far fewer beetles which eat plants, while further south the reverse is generally true.”
The discovery that Arctic beetles may be especially sensitive to temperature has implications for future climate change monitoring.
“As temperatures in northern regions rise or become more variable, there is a strong possibility that the beetle communities will undergo significant changes in response,” says Buddle, the lead researcher.
“Whether these changes will have positive or negative effects on Arctic ecosystems and the other animals and plants living there remains to be seen, but it is clear that beetles’ sensitivity to climate make them ideal targets for long-term biodiversity monitoring in the far north.”
Source: McGill University