Monarch Butterfly Decline: How Warming Autumns Play a Role

Jude Coleman 2025-08-12 23:01:00

Toastier fall whether might cause migrating monarch butterflies ⁣to wing it and ⁢change ⁤their flight⁤ plans,starting the countdown toward death.

Eastern⁢ monarchs captured during their autumn migration ⁢and exposed to warm temperatures in the lab came out of their usual reproductive ⁣hiatus, evolutionary biologist Ken Fedorka and colleagues report August 12 in Royal Society Open Science. Breaking that hiatus means the butterflies will likely die sooner then they ⁢normally⁤ would.

“Once ‍you decide to go‍ reproductive, your ⁢clock starts ticking,” ‍says Fedorka, of the University of central Florida in Orlando.

In North ⁤America, monarch butterflies (Danaus plexippus) live about a month, but the ⁢last generation of the year, the ones⁤ that migrate south, can live around eight months. This generation emerges in‍ late summer in breeding grounds across the northern United States and southern ⁣Canada.The butterflies are born in reproductive diapause and fly ⁣up to thousands of kilometers south to overwintering sites. Come spring, the monarchs⁤ begin reproducing and then die, with subsequent generations migrating north again.

Since the 1990s, monarch populations have dropped, especially at overwintering sites. Populations found east of the Rocky Mountains have⁤ declined by around 80 percent.⁢ Higher loads of the parasite ophryocystis elektroscirrha could be contributing to ⁣the decline, as could the ⁤loss of ‍habitat and ⁣milkweed, the flower on which monarchs lay their eggs and on which their larvae exclusively ⁢feed.

Researchers also ‍think that higher temperatures caused⁣ by climate change ⁣could be detrimental. But until now, no studies⁣ have‍ specifically looked ⁣at temperature’s impact on diapause, says Karen Oberhauser, a conservation biologistat the University of Wisconsin-Madison who wasnot involved with the new work.

fedorka and colleagues collected nearly 500 butterflies from the wild, just as the⁣ monarchs began their fall migration. In the lab, ⁣the butterflies‍ were placed in mesh cages within a temperature- ⁢and light-controlled incubator. ⁣Using 70 years of climate data, the team calculated the typical temperature ranges along the butterflies’ migration path and exposed the butterflies to the ⁤higher and lower ends. One group experienced an incubator temperature averaging around 23° Celsius, while the other group ⁤was subjected to about 19° C. After 26 days,the surviving butterflies were randomly assigned to either warmer ⁣or cooler ⁢overwintering conditions and monitored again.

Many of the monarchs exposed to higher temperatures began breeding in the migration phase,⁤ leading to females laying eggs despite the lack of milkweed. “These monarchs are ready to drop out of migration⁣ on a moment’s notice,” ⁢Fedorka says.A statistical analysis found that warm males had an 88 percent⁤ increase in the risk of ⁢death compared with those in the cold⁣ treatment. The warmer males that died also were in worse physical shape, based on body weight divided‍ by wing length.

During overwintering, monarchs of both sexes that experienced a warmer migration phase had a 28‍ percent higher risk of ‍death, regardless of the ‍overwintering temperatures. the higher risk of death for males during ‍migration — and the lack of⁣ significant ⁢deaths in females — could be a result ‍of sample size or males’ condition that year, Fedorka notes.

The team‍ says that further research is needed to see how the results apply ⁣in the wild. Even so, Oberhauser says, “it’s an ⁤critically important piece of the puzzle in our understanding‍ of how human⁣ activities will ⁣affect monarchs.”

insect ecologist Sonia Altizer⁤ notes ⁤that the butterflies’ propensity for abandoning their migration in warm weather means they could one day swap their fully migratory lifestyles for partial ones.And while ⁤monarchs do contribute as pollinators,⁤ the loss of their migration would also mean the loss of a fantastic feat of nature.

“It’s an incredibly gorgeous, ⁢and amazing and rare phenomenon,” says Altizer, of the University of Georgia in Athens.‍ “If we lose these migratory populations,we⁢ can’t just bring them back.”


Leave a Comment