Saturday, July 01, 2023

Early birds of the future: earlier, but still too late?


Peer-Reviewed Publication

NETHERLANDS INSTITUTE OF ECOLOGY (NIOO-KNAW)

Birds in the box 

IMAGE: FOUR KEY PHASES INSIDE THE NEST BOX: LAYING EGGS (TOP LEFT), TWO DAYS AFTER THE EGGS ARE HATCHED (TOP RIGHT), A WEEK AFTER THEY ARE HATCHED (BOTTOM LEFT) AND TWO WEEKS LATER - WHEN THE YOUNG ARE ABOUT TO LEAVE THE NEST. view more 

CREDIT: MELANIE LINDNER/NIOO-KNAW




Birds need to adapt to climate change, but evolution is a slow process. Model species such as the great tit are an indispensable yardstick for our ability to predict the impact of climate change on nature. Using innovative methods, a team from the Netherlands Institute of Ecology (NIOO-KNAW) took a sneak peek into the birds’ future.

Can species keep up with the climate change yet to come? How fast can they adapt? We need to understand this before we can properly predict the effects of climate change on nature at large. “It’s important to know", stresses research leader Marcel Visser, "because climate change and evolution need to keep a relatively even pace for species to keep up.”

Back to the future

“That's why we set out to study great tits from the future", explains Visser. "In the coming decades, natural selection will produce birds with a particular genetic make-up. To predict the extent to which these birds can respond to natural selection, we sped up evolution through artificial selection of genetically early and late birds in aviaries. We then took the eggs to our long-term population in De Hoge Veluwe national park, to see how their offspring did compared to wild great tits.”

“In the forest, the earliest birds did in fact lay their eggs earlier than great tits selected for laying eggs late”, adds researcher Melanie Lindner. “So we were able to successfully select them for laying eggs early or late in spring. But the earliest birds didn’t lay their eggs significantly earlier than the wild great tits breeding in the forest, while the ones we selected for laying their eggs late, did have a significantly later lay date."

In the end, these early birds didn’t breed any more successfully than the ones in the wild. "Genetic adaptation towards early lay dates turns out to be an extremely slow process." The results of the study have been published in the scientific journal Science Advances, with Lindner as first author.

Ecological relationship problems

Climate change is giving insectivorous songbirds such as the great tit a bad case of  ecological relationship problems. Their timing no longer matches that of the insects their young feed on: the ‘caterpillar peak’ in the forest and the moment young great tits hatch no longer coincide. Consequently, they miss out on the biggest, juiciest caterpillars – with the most nutritious proteins. Changing their timing could be a solution, but until now it remained unclear how much earlier the birds could actually lay their eggs.

So what will happen to great tits in the coming decade? “What we’re seeing now is that climate change is simply going too fast for them”, says Marcel Visser. “They won’t be able to adapt sufficiently. In the bleakest climate scenarios, in particular, the birds will fall behind more and more.” As a result, the number of great tits fledging will decline.

Camouflage

So why aren’t we witnessing a decline in population numbers of the great tit yet at the moment? “Right now, the population effects are buffered by density-dependent processes", says Visser. The real impact of climate change is currently being ‘camouflaged’: out of every ten chicks, eight or nine would normally die in the first year as a result of predation, disease, food shortages, competition or just bad luck. But if three of them die before fledging because of climate change, the chances of the remaining seven will improve. There’ll be more food to go around, and less competition. "But there’s a limit.”

“There’s also a great deal of variation from year to year in terms of the weather, which makes it harder to measure the impact on the birds in the field. In the years of the study, the mismatch between wild great tits and their food – the caterpillars of the winter moth – happened to be surprisingly small.”

The extensive, multi-year study was funded by a major European grant (ERC Advanced) that was awarded to Visser for five years of research. “This was part of it, and a lot of people contributed: PhD candidates, postdocs, research assistants and students. It’s been an ambitious experiment, which is unlikely to be repeated any time soon by our team or by anyone else.”

Now for the entire Veluwe…

So what else do we need to find out? Visser has some suggestions: “Now that we have looked at the impact of climate change on the relatively straightforward food chain of oak tree, winter moth and great tit, it’s time to see if we can include a larger number of the species that together make up a food network. Like the entire Veluwe for instance…”

That's precisely one of the goals of the large LTER-LIFE programme, which is about to start this July: Developing 'digital twins' of ecosystems to help predict how global change affects nature. And the Veluwe natural area will be the first case.

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With more than 200 staff members and students, the Netherlands Institute of Ecology (NIOO-KNAW) is one of the largest research institutes of the Royal Netherlands Academy of Arts and Sciences (KNAW). The institute specialises in water and land ecology with three major themes: biodiversity, climate change and the sustainable use of land and water. The institute is located in an innovative and sustainable research building in Wageningen, the Netherlands. NIOO has an impressive research history that stretches back more than 65 years and spans the entire country, and beyond. www.nioo.knaw.nl/en

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