ozark bill – Page 31 – A Thousand Acres of Silphiums

Rho Ophiuchi Cloud Complex @ 144 mm

Rho Ophiuchi Cloud Complex
Within the constellation Ophiuchus (the Serpent Bearer) lies one of the most spectacular scenes in the summer night’s skies. It is arguably one of the most interesting as well. This area holds one of the closest stelar nurseries to our Sol and is composed of six primary bright objects and some dark nebula to boot.

Starting at the bottom point that makes up the pentagon of this object, we find the red supergiant star, Antares, and it’s accompanying cloud of warmly-colored, ionized hydrogen gas. Up and to the left of Antares is the blue reflection nebula, IC 4605, and continuing along the pentagon, we next come to a smaller blue reflection nebula – IC 4603. Outside the pentagon, just to the upper left of IC 4603 is yet another reflection nebula, illuminated by the five-star system known as Rho Ophiuchi. Moving to the next point in the pentagon, the upper right as seen in this image, lies Sh2-9, a combination reflection and emission nebula. Finally, making up the last point of our pentagon is M4, a fantastic globular star cluster comprised of at least 100,000 stars.

But it doesn’t end there! Also visible in this image are several named dark nebula, streaming away from the cloud complex moving towards the core of the milky way, just to the east of my frame. The primary dark nebula is catalogued as B44 and is known by its apt common name of the Dark River.

If that isn’t enough, There are also two other globular clusters, NGC 6144 and M 80 that can be seen in this frame. By clicking here, you can move your cursor around to identify the various objects in this image.

Collecting the data
Miguel and I have had a rough couple of months for our astrophotography goals. We were completed clouded out during the new moon period in April, but we did get a session in in May, where we focused on the Blue Horsehead Nebula (IC 4592). But, due to some issues with working with some new gear (more on this below) and an unexpected processing issue, this one is still in the works for me.

In June, the weather (clouds and smoke from the big Canadian forest fires) was touch and go, but we did get a night that turned out to be about as close to perfect as you can expect for a summer night.

Date and location
Imaged on the night of 19/20 June 2023 at Danville Conservation Area in Montgomery County, Missouri (Bortle 4).
Dark period: 22:32 – 03:41
Target period: 20:27 – 03:06

Conditions
Clear skies over the course of the session. Temperature ranged from 67-62 F. Winds at or below 5 mph.

Equipment
Astro-modified Canon 7D mkii camera, Canon 90mm f/2.8 macro tilt-shift lens (144mm focal length equivalent), Fornax LighTrack II tracking mount without guiding on a William Optics Vixen Wedge Mount. QHYCCD Polemaster. Gitzo CF tripod, Canon shutter release cable, laser pointer to help find Polaris and sky targets, lens warmer to prevent dew and frost on lens, dummy battery to power camera, lithium battery generator to provide power to camera, dew heater and laptop computer.

Let’s talk about the new equipment used in the making of this image. First off, the Canon 90mm f/2.8 macro tilt-shift lens got its “first light” in astrophotography use. I suspected this lens could be very good for AP use due to its relatively wide open aperture and its larger imaging circle. This lens has next to no distortion or vignetting on my crop sensor body. I was looking for a good AP lens option around 100mm and am very excited about how this lens performed. I love a multi-trick pony!

Bill with his new AP rig set up and ready to rock!

The big new toy is the tracker I picked up for my birthday. The Fornax LighTrack II is likely the best portable and “affordable” tracking mount you can buy for optimal star tracking without guiding. I will likely publish a full review of this tracker system here in the future. I had some big issues when using it with the manual polarscope I purchased with it. This was a source of frustration for a while, but was solved by getting some more technology. In order to get the most precise polar alignment possible, which this mount needs to really shine, I picked up the QHYCCD Polemaster. This is basically a small camera that you attach to the mount and uses a computer program to allow you to perfectly align the mount to the north celestial pole. With this, I was able to get as accurate of a polar alignment as possible in less than 15 minutes. To use this, I did have to buy my first ever personal laptop computer – a nice refurb that only set me back $200. The main point here is that this new mount will allow me to get up to 4 times the exposure length for my sub-frames than what I was able to get with the Star Adventurer mount with no star trailing or drifting.

Imaging Details
Lights taken (ISO 800, f/2.8, 90 second exposure): 150
Lights after cull due to tracker error, wind, bumps, etc.: 150!
Used best 95% of remaining frames for stack for a total of 142 subs used for integration (3.56 hours)
Darks: 30 taken at same exposure time and ISO as lights

Miguel tried out his big new toy. Say hello to “Brutus the Beefcake” Schmidt–Cassegrain!

Processing
RAW files converted to TIF in Canon DPP, stacked in Astro Pixel Processor, GraXpert for gradient removal, Photoshop CS6 for stretching and other cosmetic adjustments.

Problems and learnings
In a way, despite the more comfortable temperatures we would be working in, I was dreading the summer months when it came to prospects of astrophotography. I knew the scrambling that would need to be done to take advantage of the dark skies during the shortest nights of the year, but this isn’t what I am referring to. Since I use a non-cooled dSLR for this purpose, I was worried about sensor noise that increases dramatically as the temperatures rise. I knew this could be a significant issue, but wasn’t expecting the problem that it would bring.

I have now become aware of what is known as “Canon banding.” This problem manifests as broad horizontal bands of color noise that alternate in greens and magentas across the frame and is a well known issue with astrophotographers using older model Canon dSLRs. I couldn’t see this on the individual subs, but after stacking and just a slight amount of stretching, they became distinctly obvious and impossible for me to correct with my processing skills.

Up steps Miguel to save the day again. In PixInsight, the AP processing software Miguel uses, there is a script function that can reduce Canon banding dramatically. Miguel ran my unstretched stacked image through this and it made a world of difference. It did not eliminate the problem completely; I was still limited on how much stretch I could apply to this image because of it. But, with a little bit of touch up to the final stretched image, I was able to produce something I am happy to share.

Conclusion
Overall I am very pleased with the final image, although it wasn’t exactly what I had in my mind’s eye when planning. Part of the problem was the banding issue, explained above. Additionally, I have come to realize that many summer DSO targets would greatly benefit from being shot on multiple nights. I think this would have come out more to my expectations if I had double or triple the amount of integration time. This simply isn’t possible in a single short night in summer months. I have never given the possibility of multi-night sessions much thought – one night’s sleep a month lost is enough I think. But, to do summertime DSO’s justice, especially nebulas, this might be worth considering when I have the opportunities.

I really do love this target. There are a lot of opportunities here that I look forward to trying in the future. I speak specifically to the different options of focal length. Using a longer lens (200-300mm) will focus in on the different great nebulas, bringing out more of their details, while using a wider lens, will show the dark river nebula flowing into the much brighter core of the milky way to the east.

If you made it this far, thanks for visiting and reading. I hope you liked this month’s AP image!

Some Lovely Lycaenids

macro, wildlife, wildlife photography

Tonight I’m just sharing some photos of a few lovely Lycaenid butterflies that I had the pleasure of photographing this season. The Lycaenidae family is the second largest family of butterflies, with about 6,000 species worldwide. The highlight was the bountiful season that the juniper hairstreak (Callophrys gryneus) had. Prior to this year, I had only seen one or two in a season, usually without my macro rig with me. In a few trips to the glades in Jefferson County this spring, Casey and I had at least two dozen individuals. They are not usually cooperative, but we worked pretty hard to get something.

First up is the afore mentioned C. gryneus.

A not so lovely eastern tailed-blue (*Cupido comyntas*)

The perfectly names spring azure (*Celastrina ladon*)

And a beat up gray hairstreak (*Strymon melinus*)

Illinois Chorus Frog!

herps, wildlife, wildlife photography

Miguel and I were offered a very special treat back in April when our new friends and gracious hosts, Rick and Jill, offered to show us a very unique and amazing animal, the Illinois chorus frog (Pseudacris illinoensis). The Illinois chorus frog is a species of study for Rick and his students, who are hard at work trying to document the life history and ecological details of this species of conservation concern. Existing in only a handful of counties scattered across Illinois, Missouri and Arkansas, this frog is classified as G3, meaning it is vulnerable to extinction. The primary forces causing the decline of this species is land development, primarily from agriculture.

Illinois chorus frog (*Pseudacris illinoensis*)

The Illinois chorus frog requires sandy wetlands. These types of areas are being lost due to drainage efforts for agriculture. The scattered remnants of these habitats are increasingly becoming isolated, likely limiting geneflow between pocketed populations.

Illinois chorus frog (*Pseudacris illinoensis*) attempting to back itself under the sand

The natural history of this species is incredible. Due to the quick draining nature of their preferred sandy habitat, these frogs spend 90% of their lives below ground. Their breeding season typically begins in February, where they take advantage of water from icy thaws and early spring rains to breed in ephemeral pools. By May, the frogs have buried themselves in underground tunnels that they dig with muscular forearms. Unlike most other frog species that spend large amounts of time in subterranean environments, the Illinois chorus frog is known to feed, eating worms and small invertebrates.

Illinois chorus frog (*Pseudacris illinoensis*). Here you can see the muscular forearms that these frogs need to burrow underground tunnels where they spend the majority of their lives.

Organizations like the University of Illinois, Illinois Department of Natural Resources and the Heartland Conservancy are doing a lot of work in a number of places to discover more about their ecological needs and protecting and managing habitat these frogs need.

Another great thing Rick and Jill showed us were Illinois chorus frog tadpoles that were in artificial breeding “ponds” that were setup for them. As the hundreds of tadpoles we saw suggest, they were doing really well here.

Illinois chorus frog (*Pseudacris illinoensis*) tadpoles

I’m still excited about being able to see and photograph these wonderful frogs and hope to visit them again during an early spring.

OZB

Passionflower Flea Beetle (Disonycha discoidea)

macro, wildlife, wildlife photography

Ever since seeing the photo of Disonycha discoidea in Arthur Evans’ “Beetles of Eastern North America,” I have been wanting to find and photograph this gorgeous Chrysomelid. I have looked for years for this species around St. Louis and southeastern Missouri, and even planted one of its host plants, Passiflora incarnata, in our yard hoping to possibly attract them.

*Disonycha discoidea* (passionflower flea beetle)

Just a couple weeks ago, my friend, Pete, posted a bunch of picks from his botany trip to southern Illinois on Facebook. As I perused through his collection of fascinating plants he found, I stopped at a photo of several beetles that were on a grape vine. In this photo was a single D. discoidea. Getting a little upset, I messaged Pete to see if he could tell me exactly where he had found this. He was at Giant City State Park and because of smartphone technology, he forwarded me his geotagged photo and I had access to exactly where he had taken the picture.

However, I knew this was a big risk and I didn’t get my hopes up. First, Pete had taken his photo approximately a week before Sarah and I took the 2.5 hour drive south. In addition, the beetle he photographed was on a grapevine, not their typical host plant. Was this just an accidental occurrence of this beetle or could they use grapes as an alternative host? Nothing in the literature suggested that this occurred with this species; apparently, it is monophagous and only uses members of the Passiflora to feed.

We decided it was worth the drive. Giant City State Park is a high quality area and I knew that if we struck out we wouldn’t have to try hard to find something else of interest. We found Pete’s spot of original find pretty easily and started searching. After a couple hours of looking as hard as we could among the grape and poison ivy we decided we weren’t going to find the species there. Utilizing smartphone technology again, I thought it might be a good idea to look for Passiflora plants that had been documented in iNaturalist within the park. My phone signal was pretty poor, so we drove to one of the highest points we could find and I found a single spot that had these plants documented.

These plants were found in a poor scrub prairie habitat along with blackberry and even more poison ivy. We started looking, finding and searching between 50 and 100 of these short plants. We looked very closely and I had a chance to try my DIY collapsible beat sheets that I made over the winter. No luck. I couldn’t believe it. I really thought we had a good chance. We knew the species had been found in the park and here we were within a sizeable population of the host plants. You’ve seen the photos already, so obviously we found our target. And, of course, insect finder extraordinaire, Sarah, was the one to find the beetle on a ragged, half-eaten P. incarnata plant. I immediately got to work photographing from a safe distance. One of the reasons they call them flea beetles is that they will jump great distances upon being disturbed. Ultimately, we found four individuals all on the same plant. Thankfully, this species is quite large for a flea beetle and I didn’t need to get too close that higher magnifications would require.

The aposematic colored *Disonycha discoidea* (passionflower flea beetle)

So what’s up with that coloration?
This species exhibits aposematism, also known as warning coloration. This is the same reason that unpalatable or downright toxic species like monarchs and milkweed bugs along with stinging predators like yellowjackets or velvet ants show warning colorations. Disonycha discoidea picks up cyanogenic glycosides from its Passiflora host plant, making it distasteful or toxic to would-be predators. By evolving this aposematism, the insects can advertise this and avoid the predators that would be on the lookout for an easy meal. In the tropics, a group of butterflies known as the heliconiines also acquire these toxic compounds from the larval feeding on Passiflora.

It was great to finally find this target species. The larvae of this species is also quite photogenic. If I find the time to make a return visit this summer, I would love to find a few of them as well.

Thanks for stopping by!
OZB

2022 Kansas Trip – Ferruginous Hawk

birds, wildlife, wildlife photography

I was definitely on the lookout for Ferruginous Hawks during our visit to western Kansas last year and we were fortunate to have one fly directly over us as we visited a badlands monument. What I didn’t expect is to be able to see an active nest. This was at a private ranch where we had the opportunity to see and photograph Lesser Prairie Chicken leks. The rancher was understandably weary of getting too close or staying too long, so we took our shots from a good distance from the vehicle windows.

Active Ferruginous Hawk nest on cliff’s edge

A New Great-horned Owl Nest!

birds, Nesting Birds of Missouri, wildlife, wildlife photography

I finally had the opportunity to visit my buddy Jim’s property to check out the nest site of a Great-horned Owl nest. This pair has used this snag for about 5 years to raise their brood and I am disappointed in myself for not visiting sooner. I had no idea how perfect the views into this nest were. You couldn’t ask for a better setup. Unfortunately, I was a bit late this season as well. The chicks fledged within days of my first and only visit. Hopefully next year!

Here are a few from my visit. These were taken in early afternoon so the light was a bit harsh.

2022 Kansas Trip – Semipalmated Sandpiper

birds, Quivira National Wildlife Refuge, wildlife, wildlife photography

I can’t believe it’s been more than a year since this trip and I still have quite a few photos to share. Not much time or gumption to post much lately. Here are some photos of one of the more abundant shorebirds we had on this particular visit – the Semipalmated Sandpiper. It was fun and interesting to see so many individuals up close. You can really see variations in individual plumages at this time of year, as I hope this collection shows

Chasing More Waterfalls in the Shawnee

landscape

Casey and I hit the roads and trails back in January looking for new waterfalls in the Shawnee Forest area of southern Illinois. January isn’t the prettiest time for waterfalls but finding them is often easier in the winter.

Up first is Burden Falls. Like most of the falls and features in the Shawnee, Burden only flows following significant rainfall. The amount of water flowing over the falls was not the highest it could be, but there was enough flow to be interesting. Here are a few more from this fantastic area.

Next up is Bork Falls.

Last up is Jackson Hole Falls. This incredible two-stage set begins with a long slide that I captures in the panorama below. It then ends in an approximate 40′ drop.

2022 Kansas Trip – American Coot

birds, Quivira National Wildlife Refuge, wildlife, wildlife photography

Markarian’s Chain – NGC 4406 (March, 2023)

astrophotography

Markarian’s Chain – An interesting look into the Virgo Galaxy Cluster

Markarian’s Chain (NGC 4406)
Since I picked up astrophotography, I knew I wanted to shoot some galaxy clusters. The first that comes to mind is Markarian’s Chain, a nice curved line of galaxies that lies amidst a large cluster of galaxies known as the Virgo Galaxy Cluster. The Virgo Cluster contains up to 2,000 different galaxies and Markarian’s Chain is an asterism-like chain that provides an interesting order to the randomness of the surrounding cluster. Typically, Markarian’s Chain is considered to be comprised of seven galaxies, all of which are moving in the same relative speed and direction with one another. The distance from earth to the galaxies varies from between 50 -80 million light years! Of course this means we are seeing them where they were up to 80 million years ago.

The galaxies comprising NGC 4406 are mostly elliptical and lenticular in type, but there are some fascinating details that can be found by taking a closer look. I’ve left the image above a bit larger than normal and invite the viewer to search within to see some of the different shapes and go galaxy hunting if you would like. I have counted about 35 galaxies in this frame. Most are quite small. Remember, if it’s a little fuzzy, it’s a galaxy. The stars are typically sharp in contrast to the dark background void.

Markarian’s Chain – annotated. Click for larger view.

Let’s take a look at some of the galaxies making up this frame. First, the two larger appearing galaxies that anchor the chain are M84 and M86. Just to the left of these are two interacting galaxies, NGC 4438 and NGC 4435, known collectively as ‘Markarian’s Eyes.’ I was happy to pick up enough detail to show how NGC 4438 is being distorted by the gravitational pull of it’s neighbor, sweeping out a lot of the gas, dust and likely stars from their normal placement.

Another prominent galaxy in this frame is found in the lower left corner. This is the supergiant elliptical galaxy, M87 (Virgo A, NGC 4486). M87 is one of the largest and most massive galaxies in our local universe, containing several trillion stars.

One last galaxy to bring your attention to is NGC 4440. This is an interesting barred spiral galaxy that I was not expecting to see in such detail. This galaxy is located at the intersection of two lines in this frame. Draw a line going directly downward from the eyes and another starting at Virgo A going to the right. Where these two lines intersect you will be close to NGC 4440.

See the accompanying partially-annotated image showing the names of the more prominent galaxies in this frame.

Collecting the data
I have made my bed as an astrophotographer that does not use “go-to” technology and I am frustratingly sleeping in it. This one should have been easier to find. It is literally between two mid-magnitude stars – Denebola, in the Leo constellation and Vindemiatrix in the constellation of Virgo. All I had to do is draw a line between the two and the target is in the dead center. Somehow, I did not take this literally enough and spent nearly an hour finding the target and composing the frame. I do have one excuse; this area is filled with galaxies, so every time I took a test shot, there were several galaxies in the frame and it took me some time to see if the pattern I was looking for was there or not. Other than this, the night went pretty easy. We had perfectly clear skies, cold temps and Miguel and I had extra company. We joined with an imaging party from the Astronomical Society of Eastern Missouri, who just happened to be at Danville C.A. the same night we were. It was fun watching the experienced imagers and viewers pulling out all sorts of big, pretty and expensive optics and mounts. Unfortunately, between trying to concentrate on what I was doing and the very cold temperature, I didn’t find the time to do much socializing.

Date and location
Imaged on the night of 19/20 March 2023 at Danville Conservation Area in Montgomery County, Missouri (Bortle 4).
Dark period: 20:45 – 05:42
Target period: 19:52 – 07:31; Zenith 01:42

Conditions
Clear skies over the course of the session. Temperature in the mid 20’s F. Winds below 5 mph.

Equipment
Astro-modified Canon 7D mkii camera, Canon 400mm do mkii lens, Skywatcher Star Adventurer tracker without guiding on a William Optics Vixen Wedge Mount. Gitzo CF tripod, Canon shutter release cable, laser pointer to help find Polaris and sky targets, lens warmer to prevent dew and frost on lens, dummy battery to power camera, lithium battery generator to provide power to camera and dew heater, right-angle viewfinder to aid in polar alignment.

Imaging details
Lights taken (ISO 6400, f/4.0, 20 second exposure): 1,076
Lights after cull due to tracker error, wind, bumps, etc.: 912
Used best 90% of remaining frames for stack for a total of 821 subs used for integration (4.56 hours)
Darks: 36 taken at same exposure time and ISO as lights

Processing
RAW files converted to TIF in Canon DPP, stacked in Astro Pixel Processor, GraXpert for gradient removal, Photoshop CS6 for stretching and other cosmetic adjustments.

Problems and learnings
Miguel had to save my bacon with this one. This was the “first light” for astrophotography for my Canon 400mm f/4 do mkii lens. I had been eagerly waiting to try this lens for this purpose and, as I feared, this longer focal length did not allow for the 30 second exposures I had gotten used to using the 300mm lens. Even though this combination was a bit lighter than the 300mm f/2.8 lens, the Star Adventurer tracker just wasn’t up to it. So, I was forced to go with 20 second exposures to limit star trailing and, consequentially, had to use ISO 6400 to keep the signal to noise ratio where I needed it. This ISO setting is really pushing it with the camera I use so I wasn’t at all sure that I would even have a final image worth sharing in the end.

Because I pushed the ISO, the noise was pretty awful. Following a very light stretch after stacking, huge bands of green and purple showed up against the dark sky. I was at a loss on what to do about this, having exhausted all of the tools I knew to use in my processing train. I knew Miguel was beginning to become quite proficient in PixInsight processing so I thought I would ask him to try and see what he could do with my stacked image. I was dumbfounded when he was able to fix my problem in about 10 minutes! The final image could still probably be stretched a little more to bring out further details, but considering the ISO I was using, I have to be satisfied with the end result. I can’t get myself to put down the purchase price for PixInsight anytime soon, but that is something I’ll be considering in the future.

Conclusion
Spring is known as galaxy season in the astronomy world. Most of the popular nebulas are not as available as they are in the winter and summer. Unfortunately, I really don’t have the equipment to take closeups of the far off and very small galaxies so I will have to settle for a few of the relatively larger ones as well as the clusters like Markarian’s Chain. I am pleased with what I was able to create here. As usual, it was with some considerable struggles and frustrations but I am coming to find that I kind of like overcoming those obstacles despite what I feel at the time.