Hummingbird flower mites found to use electroreception to hitch rides on hummingbirds between flowers

January 28, 2025 report

Hummingbird flower mites found to use electroreception to hitch rides on hummingbirds between flowers

by , 麻豆淫院

A trio of biologists from the University of Connecticut; the Organization for Tropical Studies, in Costa Rica; and the University of Bristol, has found that hummingbird flower mites use hummingbirds to carry them from flower to flower.

In their paper in Proceedings of the National Academy of Sciences, Carlos Garc铆a-Robledo, Diego Dierick, and Konstantine Manser describe how they tested sensitivity to the type of electric field that hummingbirds generate when their wings rapidly flap next to a flower, and what they learned by doing so.

Prior research has shown that hummingbird flower mites spend their lives eating pollen and sipping nectar from flowers. But to do so, and to procreate, they must move from flower to flower. Since they cannot fly, or even hop, how they do so has been somewhat of a mystery.

In this new effort, the research trio suspected that the mites hitched a ride on hummingbirds. They also suspected that the means for doing so had something to do with the electric field hummingbirds create as they flutter their wings during their approach to a flower.

To determine whether that might be the case, the research team tested several specimens in their lab. Each was exposed to different types of electric fields via copper plate electrode. The researchers found that the mites only responded to a modulated field, one very close to that produced by the hummingbirds鈥攁 form of electroreception.

We hypothesize that flower mites may use the electrostatic attraction between the mite and the hummingbird鈥檚 beak to aid transportation. Here a flower mite is attracted to an electrode charged with static electricity (550V, 120 Hz). The electrode was turned off for ten seconds, and the mite walked away. The electrode was turned on again. The mite approached the charged electrode. When reaching the electrode, the mite is pulled through the air to the electrode by electrostatic attraction. Credit: Proceedings of the National Academy of Sciences (2025). DOI: 10.1073/pnas.2419214122

They also found that if they cut off the front legs of a mite, it no longer responded to the field, proving that the electricity-sensing organs were located there. An even closer look showed the mites had hairs on their legs similar to those found on spiders that also respond to an electric field.

Next, the researchers looked into how the mites climbed aboard a hummingbird. They found that moving the electrode close to the mite resulted in the mite being pulled (due to electrostatic force) through the air and landing on the electrode. Thus, for a mite to catch a ride, all it needed to do was move a few steps closer to the arriving hummingbird. Once it landed, it would remain in the bird's nostrils to prevent being blown off as the bird flew. It could then simply jump down onto a flower as the hummingbird fed.

More information: Carlos Garc铆a-Robledo et al, Electric transportation and electroreception in hummingbird flower mites, Proceedings of the National Academy of Sciences (2025).

Journal information: Proceedings of the National Academy of Sciences

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