In the spring, a few yellowjacket traps were set out at the arboretum to try and capture some of the queens as they emerged to start new colonies.

As a brief side note, yellowjacket nests die off in the fall here. New queens are created at the end of each summer, mate with males, and then find sheltered places to overwinter. In the spring, the queens will emerge, find a nest site, and start a new colony. Once the nest starts to become established with workers they will take over the tasks of continuing to build the nest and tending to developing larvae.

As I was saying, this would hopefully reduce the number of nests, thus reducing the number of yellowjackets during the summer months when events were taking place at the pavilion. A few yellowjackets were captured and I thought they were the queens based on the size. I have been stung by plenty of yellowjackets over the years, and I was certain they weren’t that big. I showed the yellowjackets to some people, who weren’t sure if they were queens or workers. So, I took them to the Oregon State University (OSU) Extension in town and asked them. They concluded that they were workers, not queens. Well, I decided to wait and capture more yellowjackets during the summer once the nests became more established and compare them to the ones we caught in the spring. And here are the results. The one captured in the spring is on the left and the one captured in the summer is on the right. It looks like the ones caught in the spring were indeed queens.

There are lots of spiders out in the fall getting ready for Halloween. They are building webs everywhere for you to walk into and getting bigger and more hairy and more scary! I’m just playing around, spiders are amazing creatures and are a vital part of keeping the ecosystem healthy.

Out at the arboretum today I took a little walk with my friend Patrick and we saw an orb weaver resting in the middle of its web. Patrick decided to take a photo of it and as he was trying to get his camera to focus on it, it got scared and scurried to the side of the web where it hid under a leaf. As we investigated its hideout, we noticed that it had built this shelter by bending over the leaves with its silk. I imagine it builds this little refuge as a place to escape to if it detects danger from a predator or during inclement weather like a chilly fall rainstorm. Just down from this one we found another orb weaver spider and it had one too, as you see in second photo.

Inside the darkness of the earth,
there is a molten inferno of stones
coursing through her veins.
It is surging with each
beat of her heart.
The rhythmical pulse is
drumming—a percussive mallet
forging armored suits
of emerald.
It is where dragons are born.
They rise out of the
fiery core of the planet
into the watery environments
on the surface.
An igneous jewel darting
through sun rays,
dazzling
in the summer sky.

There’s a map of sorts—
a dreamscape
that tumbles out
of a box of celestial crayons
when you are born.
It’s a bewildering tangle
of squiggly lines
drawn by the flip-floppy flight
of butterflies.
The only person
who can read it
or follow it
is the squealing,
summer-soaked child
with a berry-stained mouth
and skinned knees
spinning in circles
under the bright
blue sky
with a compass
that points to
laughter and delight
in every direction
that lives
inside of you.

This is a tiny moth and moths can be hard to find because they are well-camouflaged and like to stay hidden during the day. I usually see moths when I accidentally disturb them from the side of a tree, in the grass, etc. Last year while I was on an insect walk Karen Richards showed us these extraordinary moths flitting along the river.

If you can see where one lands and slowly go over to it, you will see how beautiful its coloration and markings are. Its wings fold over the back of its body like an elegant cape with shimmering sequins ringed by black at the base with a little fringe below.

These moths have an amazing life cycle. Read what the BugGuide said about Petrophila confusalis: “Adult females enter the water, up to 4 meters deep, to oviposit (200 - 300 eggs), carrying a plastronlike layer of air as a source of oxygen that sustains them from 4 to 12 hours. After ovipositing they die in the water. Some females only submerge partially, without fully breaking the water tension, and deposit eggs shallowly over several days.”

This little moth is a reminder to me to slow down and notice the small creatures. They are beautiful and can have miraculous stories. I hope that you are enjoying your summer.

Resource
Species Petrophila Confusalis - Confusing Petrophila - Hodges#4780. https://bugguide.net/node/view/39602. Accessed 29 June 2024.

It was a nice quiet evening at the arboretum. I was standing at the edge of the meadow just south of the pavilion trying to get at an angle where I could get a look at an oriole nest. I got a little distracted when a couple of goldfinches flew down into the grass in front of me to eat some seeds. As I watched them, I became captivated by the colors and shapes of all the grass seeds in the meadow. As I explored the ones in front of me, I noticed that they had insects on them that looked like grass seeds. Their bodies mimicked the shape of the seeds and their antennae looked like the spike coming off the top of the seeds. I was fascinated at how well they blended in and resembled the seeds. You can also see the long tubular mouth part called a rostrum used for piercing and sucking out plant juices, probably from the grass. As I was trying to take a photo of one, it reared back and appeared to be extending its ovipositor into one of the seeds to lay its eggs. I became absorbed for quite a while in the grass and found many more creatures living there. It is easy to become distracted by the abundance of life bustling about in the warmth of summer. I did eventually circle back and find the oriole nest. The parents would occasionally fly down into the meadow in search for food, and I imagine found some of these insects to take back to their hungry, begging babies.

I uploaded this photo into iNaturalist and it suggested that this was a plant bug in the genus Megaloceroea in the Miridae family.

Oregon White Oaks are a host for many gall wasps. The fimbriate gall wasp forms a fuzzy, red structure that looks like a flower is trying to emerge out of the leaf—it kind of reminds me of a hairy rose hip. A dictionary defines fimbriate as “Botany, Zoology. having a border of hairs or filiform processes.” I think its name could be more descriptive to include words like flaming, blazing, flaring, crimson, furry, etc. August Jackson put together a guide called Oak Gall Wasps of Mount Pisgah. About fimbriate galls, he writes, “small galls in spring on midrib of leaf bases, producing spines. Starting red then fading to brown.” The guide is available on the arboretum’s website. Find it here.

The development of galls hasn’t been completely figured out. Galls are created when the wasp lays its egg in the developing plant tissue of the tree which can be on the leaves or branches. The egg interferes with normal plant growth and creates a gall that protects the egg and provides food for the developing larva. Each gall wasp creates a unique structure that is beautiful and interesting to explore.

I think I’ll call this one the Crimson Comet Gall.

I found this interesting lady beetle the other day in the redwood grove. Its entire body is a shiny, polished black, which gives it a well-armored look and feel. Its wings each have a bold red-orange spot that is kind of blotchy and not a well-formed circle.

The different species can be difficult to tell apart. Iowa State University’s BugGuide had this to say: “Several species of Chilocorus in western North America cannot be separated by external features, along with an introduced species. C. stigma is also best included in this grouping for those on the boundary of known ranges.” I wonder how they decide on a different species, especially if they can’t be separated by external features.

The introduced Kuwana’s lady beetle (Chilocorus kuwanae) pretty much looks identical to Chilocorus stigma, a native to the U.S. and Canada. Cornell University’s College of Agriculture and Life Sciences writes: “ Spots of C. kuwanae tend to be deep red and rectangular and located near the center of the wing. In contrast, spots of C. stigma tend to be more orange-yellow, round and oriented more toward the head of the beetle.” Again, there are very subtle differences in differentiating between the two that seem like it could be difficult to tell in the field.

My focus quickly started to shift away from the quagmire of identification to wonder and appreciation of nature. Like other lady beetles, they are beautiful and beneficial insects that help maintain the balance of nature by eating other insects, such as aphids and scale insects. See you out there!

The male cones of the incense cedar are out by the millions, literally, and they are starting to release their pollen. The male cones are small but they are easy to see. If the male cones are out releasing pollen, then the female cones must be around too. They are not as obvious, and I used Oregon State University’s incense-cedar webpage to help me out with identifying them.

If you look at the first photo below, you can see the light brown male cones and on the end of the branch, you can see the female cones. I took a few close-ups of the female cones to show you the small compact, rosette of leaves that forms a small nodule at the tip. They start to turn slightly yellow as they form.

I decided to cut one open to see what it looked like inside. To my surprise, the first ones I cut open were slightly discolored and had a small, orange caterpillar inside. I started to wonder if this caterpillar was causing the little nodule on the tip of the branch. I eventually found one that didn’t have the caterpillar inside. It is the fourth photo below and it appears that it contains some sort of ovaries to receive the pollen. That photo was taken with a macro lens that I fit over my phone. I wanted a more magnified image, and I tried looking at the cone under a microscope in the nature center at the arboretum. They were pretty much the same as my macro lens. Plus the microscopes are fairly old and the image quality wasn’t as good as I would have liked.

I have continued to open these female cones and every one of them has contained that caterpillar. I didn’t want to pick anymore off the tree so I looked on the ground in the golden carpet of male cones that had fallen off. Mixed in are a bunch of the female-looking cones and the few that I opened had the orange caterpillar inside. So far, I have only been able to find that one cone that didn’t contain a caterpillar.

So, at the moment I still have mysteries to solve, questions to answer. What is that orange caterpillar going to become? Were the eggs laid inside the female cones or do tips with the caterpillars look similar to the female cones at this point? I also want to know why so many male cones are dropping off the tree, has all of their pollen been released already? There are so many falling off the trees at the moment, that you can see them bouncing off the ground and feel them pelting the top of your hat. Why are the tips with the female caterpillars being dropped too? Will the caterpillar survive on the ground? Is this part of its life cycle?

I’ll keep you posted when I find out anything. Nature is an inexhaustible source of mysteries and wonder. I hope to see you out there.