Typically, this species is often seen on a perch. One might assume they are the "couch potatoes" of the avian world and therefore "sitting ducks" for small falcons and accipiters.
The truth is they are surprisingly active. Even when stationary, their heads are constantly twisting and turning. Imagine being very hungry and standing in a three-dimensional computer room where the walls, floor, and ceiling are screens that intermittently flash snippets of pertinent information about how to secure your next meal.
Their abrupt staccato-like movements bring to mind the robot, C3PO, in the Star Wars movies.
It is not surprising that creatures who catch flies are called Flycatchers. However, you may be surprised that they can catch enough to replenish their energy expenditures. How can they possibly move so quickly, fly frequently, and eat so little? Insects must be extremely nourishing. I suspect the Flycatcher's mid-air, last-moment adjustments may also help to make their efforts more economical - from a nutritional perspective.
It would be interesting to know how far flying insects can see. Presumably, their fatal flaw is to venture into the flycatcher's strike radius before they notice the bird. Do insects that avoid flycatchers have better eyesight? Are they faster than average? or Is it just a matter of luck?
Since Dragonflies also catch flying insects I wondered if they might be best equipped to escape the Flycatchers? In Dennis Paulson's book, "Dragonflies and Damselflies of the West", he says, "Dragonflies have the finest vision in the insect world." Later, "Dragonflies have their good vision and swift and agile flight to protect them from predators." However, he does list large Flycatchers as an important Dragonfly predator.
Dennis also mentions three different foraging methods used by Dragonflies. They are hawking, sallying, and gleaning. As you read this post you might consider which one of these methods best describes the behavior of the two Flycatcher species we consider?
The Flycatcher's quick-twitch, insect-inspection is not just a surprisingly active form of hunting, it is also an effective method to monitor for airborne predators.
We are blessed with multiple species of flycatchers and many have surprisingly similar characteristics. Luckily, this species, the Olive-sided Flycatcher, is an easily identified exception. Their distinctly white bellies contrast quite nicely with their olive-green sides. Their wonderfully descriptive name includes both an easily identifiable attribute and an easily observed behavior.
Plus, their song is distinctive. "Quick, three beers!" is the mnemonic to help file it in your memory. Click Here and play the very first recording to hear it. At some angles, the head and the bill look like they belong on a much larger bird.
When they snag an insect out of the air. If it is relatively large, they will often return to their starting point to finish the snack.
This Flycatcher killed and possibly tenderized this bee before eating it. I did not notice the stinger being removed. They are super quick and it could have happened when I blinked. However, if it did swallow the bee whole, I wonder why the poison does not cause problems?
A few days earlier, I saw one of our other species of flycatchers. It was sitting a bit lower but otherwise, its behavior was similar.
It also caught what looked like a bee and appeared to eat it without removing the stinger.
One method for distinguishing this Flycatcher from the Olive-sided species is its lack of a clean white belly.
In fact, there is no clear distinction between the belly and the sides. It's almost like it is wearing a vest that is buttoned up tight, while the more "casual" Olive-sided has an unbuttoned vest.
The Western Wood-Pewee also has a naming advantage. It says its own name, at least the final portion. Click Here and play the very first recording to hear it.
Returning to our Olive-sided Flycatcher it was bumped off of its perch by the approach of a male Northern Flicker. The Flycatcher did not seem particularly scared. It flew off to catch an insect and quickly returned to a nearby location.
The Flycatcher appeared confident it could outmaneuver the Woodpecker.
Although, perhaps the calls of the Flicker got on its nerves.
The Flycatcher finally left. However, it was not long before a Bald Eagle passed overhead and the Northern Flicker also abandoned the conspicuous post. Every creature in the web of life has weaknesses and strengths. The key to survival may be having a clear understanding of both.
Both species of Flycatchers that we reviewed today were hunting by perching and flying out to grab airborne insects. The two other hunting styles that they did not use were hawking and gleaning.
A Red-tailed Hawk circling on thermals overhead, and watching for a rodent to reveal itself, before diving, would be appropriately described as hawking.
A Golden-crown Kinglet closely inspecting vegetation for insects could be described as gleaning.
While the "perch and fly" hunting style of the Flycatchers we observed is best described as sallying.
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Click Here to see the animated migration of Olive-sided Flycatchers.
Click Here to see the similar animated migration of Western Wood-Pewees.
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Have a great day on Union Bay...where nature lives in the city!
Larry
Going Native:
Each of us, who breathe the air and drink the local water, needs to watch and protect our local environment. Native plants and trees encourage the largest diversity of lifeforms because of their long intertwined history with our local environment and native creatures. Even the microbes in the soil are native to each local landscape.
I hope we can inspire ourselves, our neighbors, and local businesses to respect native flora and support native wildlife at every opportunity. I have learned that our most logical approach to native trees and plants (in order of priority) should be to:
1) Learn and leave established native flora undisturbed.
2) Remove invasive species and then wait to see if native plants begin to grow without assistance. (When native plants start on their own, then these plants or trees are likely the most appropriate flora for the habitat.)
3) Scatter seeds from nearby native plants in a similar habitat.
4) If you feel you must add a new plant then select a native plant while considering how the plant fits with the specific habitat and understanding the plant's logical place in the normal succession of native plants.
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My friend Elaine Chuang shared several resources (that were new to me) from the January 2022 Washington Ornithological Society meeting. The major new concept is that specific keystone native plants enable critical moths and caterpillars that in turn provide food for the great majority of birds, especially during the breeding season. Here are the top two links from her list.
Native Keystone Plants for Wildlife:
https://www.youtube.com/watch?v=O5cXccWx030
Resources for adding plants to your Pacific Northwest Garden:
https://wos.org/wos-wp/wp-content/uploads/2021/12/native-plant-resources-v2.pdf
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In the area below it is my intention to display at least one photo each week to help challenge us to know the difference between native and non-native lifeforms.
Is this butterfly, photographed in the Arboretum last week, native to our area?
Scroll down for the answer.
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Lorquin's Admiral: Yes. This butterfly is a native that uses the leaves of prune, willow, and cottonwood trees as places to lay its eggs.
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The Email Challenge:
Over the years, I have had many readers tell me that Google is no longer sending them email announcements. As of 2021, Google has discontinued the service.
In response, I have set up my own email list. With each post, I will manually send out an announcement. If you would like to be added to my personal email list please send me an email requesting to be added. Something like:
Larry, I want to see more of nature. Please add me to your personal email list.
Thank you for your patience and interest!
My email address is:
LDHubbell@comcast.net
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The Comment Challenge:
Another common issue is losing your input while attempting to leave a comment on this blog. Often everything functions fine, however, sometimes people are unable to make it past the robot-detection challenge or maybe it is the lack of a Google account. I am uncertain about the precise issue. Sadly, a person can lose their comment with no recovery recourse.
Bottom Line:
If you write a long comment, please, copy it before hitting enter. Then, if the comment function fails to record your information, you can send the comment directly to me using email.
My email address is:
LDHubbell@comcast.net
Sincerely,
Larry
Final Photos:
When the wind blows, balancing can be a challenge.
Larry, I doubt if insects can recognize a sitting flycatcher, perhaps not even a flying swallow, but if either of them actually heads for the insect, at some point it will attempt evasive maneuvers. Adult dragonflies are captured in flight by Purple Martins, kingbirds but perhaps not smaller flycatchers, and a variety of raptors such as Merlins, Am. Kestrels, and Mississippi and Swallow-tailed Kites.
ReplyDeleteAdult damselflies, much smaller, are captured by a much larger number of bird species. Especially when they have just emerged from the water and are not such good fliers, they provide large amounts of nourishment for blackbirds and Cedar Waxwings, among others. Red-winged & Yellow-headed Blackbirds in the Columbia Basin feed their young largely on Odonata.
Dennis, Thank you for the excellent update! There is always more to learn. Larry
ReplyDelete"Even when stationary, their heads are constantly twisting and turning. Imagine being very hungry and standing in a three-dimensional computer room where the walls, floor, and ceiling are screens that intermittently flash snippets of pertinent information about how to secure your next meal."
ReplyDeleteWhat a brilliant description.
Thank you! You are very kind. Larry
DeleteSince bee venom is designed for injection, not being eaten, I'm guessing the bird's stomach just breaks it down.
ReplyDeleteFranz, Great to hear from you!
DeleteWhat an interesting idea "that digestion my reduce the impact of the venom". Due to your inspiration I found a similar line of thought at: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7561407/
Thank you! Larry