Casey and I found three separate populations of Corallorhiza odontorhiza in early to mid September this year, each population consisting of just a few bunches of plants. Most plants of this species found in Missouri are cleistogamous, containing flowers that never open and thus forcing the plant to self-pollinate. This might account for the rather dull colors and patterns on flowers of this species when compared to its vernal-blooming relative, C. wisteriana. Of the three locations, we found only one bunch of plants, located in St. Louis County, that contained open (chasmogamous) flowers and these were slightly more showy than I expected them to be.
Like C. wisteriana, this species is myco-heterotrophic, parasitizing mycorrhizal fungi to obtain carbon and other necessary nutrients. Consequently, this species never produces leaves. Both Corallorhiza species are found scattered throughout Missouri and can be found in a variety of habitats, but seem to prefer open woodlands on xeric to mesic soils.
The habitat this featured orchid was found was quite interesting – a wet, fen-like area with many pea-gravel rivulets to walk down. All this was set under a thick overstory that allowed little light on the cloudy day Casey and I visited. Often forced to hunch as we searched for other plants, lighting for photography was challenging, but we got what we came for.
As you can see below, this is a dainty and sweet orchid that has a large primary leaf and a secondary, bract-like leaf.
Today I am sharing some photos of plants in bloom taken in a fen in Shannon County, MO. These plants were blooming in June and the combination of high temps, direct sunlight and high humidity made for challenging conditions to photograph indeed. The first subject is Pogonia ophioglossoides, the snakemouth orchid or rose pogonia. These were blooming in abundance at the fen but finding one in the peak of its beauty was the challenge.
As fantastic as it was, I found being in these fens to be quite stressful. First of all, you are typically forced to work in dangerous heat indexes. My friend, David Seidensticker and I made a visit to these fens during our birthday weekend and dreaded leaving the sanctuary of what little shade we could find and use as a base of our operations. If you visit these locations in the summer, be prepared by drinking as much water as you can before you get there and bring plenty of water with you. You really need to constantly drink as you are sweating profusely, losing water at nearly the same rate you can take it in.
In addition to the off-the-chart heat index values, one must carefully select every footstep. This is not only due to the rare plants in bloom, but also because of the soil substrate that forms the base of these endangered fen ecosystems. These fens are comprised of two primary soil substrate types, marly soils and peat soils.
Marly soils are composed mostly of carbonates such as calcite and calcium or magnesium carbonate that precipitate out of ground water. These soils take thousands of years to develop and the typically high levels of magnesium create conditions that only the best adapted floras can survive.
Peat soils are comprised of partially decomposed plant materials that also build up over thousands of years. These soils can typically support more plant species and heavier vegetation loads. Care must be taken to avoid walking much on these soils as our footsteps will not only disturb the plants growing here, but will also act to compress the soil, expelling the gasses trapped and water-logging the root environments.
The best places to walk in these fen types are on the rivulets that run within these fens. Continuously flowing waters have moved most of the soils from these areas to leave a pea-gravel type substrate with gently moving water on top. Plants will still grow within these areas but finding a safe place to put your foot is typically pretty easy.
We found Spiranthes lucida growing at the edges of shallow peat soils next to these rivulets within the fen. Likely the easiest Spiranthes to identify in the state, this is the only Spiranthes species that blooms in spring, has a yellow lip and has an easy to identify growth habit with broad basal leaves that are present when the orchid is in bloom.
Calopogon tuberosus was just beginning to bloom in early June. This orchid is famous for its non-resupinate flowers, meaning that the flowers are not turned 180 degrees, as they are in most orchids. The lip of the flower is found on the upper side of the flower. This species also does not produce nectar or pollen as rewards for would-be pollinators, but uses visual subterfuge to entice insects to land. I found it interesting that Homoya, 1993, suggests that the reason C. tuberosa exists in space and flowering time with P. ophioglossoides (see above) is that the later does provide ample nectar rewards, thereby increasing the chances that a pollinator might land on the similarly colored C. tuberosa flowers.
Justicia americana is a gorgeous member of the Acanthaceae family that we found growing in early June. These plants were most likely to be found growing alone or in small groups along the gravel bottoms of the rivulets within the fen. They, like all of the plants shown here, are not strictly linked to fens per se, but fens do make a nice home for them.
This has just been a small look inside these glorious fens. I hope to continue visiting at other times of year to see other plants in bloom.
Thanks for the visit. -OZB
Much of the information from the above was taken from the following sources. I do recommend them both for learning more about the orchids that can be found in fens and anywhere in Missouri.
Homoya, M.A. Orchids of Indiana. Indiana University Press, Indianapolis, Indiana, USA. 1993.
Summers, Bill. Missouir Orchids. Missouri Department of Conservation Natural History Series, No. 1. 1981.
The year 2020 has been smiling upon me with my attempts at photographing all the orchid species of Missouri. So far this year I have seen five new orchids and have photographed three of them in bloom. The focus of today’s post, Corallorhiza wisteriana, is known by its common names Wister’s coralroot or spring coralroot. The name coralroot is used due to the apparent likeness and growth habit of the plant’s rhizomes to undersea coral. There is one other known coralroot that I need to photograph in Missouri, that is the autumn coralroot, C. odontorhiza that I hope to photograph when it blooms this fall.
C. wisteriana is one of, if not the earliest orchid to bloom in the state. Going by the number of posts from folks on Facebook, and the fact that I and a couple of friends found well over one hundred stems with just a few minutes of searching, this species is having a terrific year.
This orchid is small, with a lowercase s. The leafless stems can grow 10 to 35 cm high and an individual flower when open is only but ~ 8 mm long – A challenge to photograph. I anticipated this, but what surprised me is its showiness. Looking closely, this plant is beautiful, with many stems and flowers colored deeply with maroons and purples and the labellum/lip with purple spots on white.
I found these flowering stems in singles, pairs and large-sized colonial groups. Typically, stems from these close groupings will be from the same plant. Below is from the largest colony I saw this spring.
Corallorhiza orchids are considered to be ‘myco-heterotrophic’ plants, meaning these plants parasitize mycorrhizal fungi (fungi that get their carbon needs from symbiotic relationships with green plants) to get their primary nutrients. Therefore these orchids contain little to no chlorphyll, do not produce leaves and photosynthesis is a very negligible part of how they make their living.
The photo above shows an aberrant flowering stem – the only one I found, that was very lightly colored and that had no spots on the labellum whatsoever. After realizing how strange this was, I went back to it a few days later to better photograph the whole stem. Alas, the stem was smashed because this was located on the very edge of the trail.
The preceding photo shows a hymenopteran nymph (~5 mm in length) that is hiding underneath this flower’s lip. I am unsure whether or not this insect is responsible for the webs seen here. These threads were often seen covering these orchids.
I hope you enjoyed getting to know this little beauty. Stay tuned for more orchid profiles in the near future!
One of the penalties of an ecological education is that one lives alone in a world of wounds. Much of the damage inflicted on land is quite invisible to laymen. An ecologist must either harden his shell and make believe that the consequences of science are none of his business, or he must be the doctor who sees the marks of death in a community that believes itself well and does not want to be told otherwise.
With the help of a friend, over the last few weeks I’ve been able to get a good start at finding and photographing as many of the 35 +/- orchids that can be found in Missouri. The yellow-fringed orchid (Platanthera ciliaris) is known from only a handful of threatened locations in the state. I was really thankful to be shown these in full bloom where they reside in acidic seeps in St. Francois County.
I had seen rattlesnake plantain (Goodyera pubescens) before, as its wonderful evergreen leaves stand out during winter hikes. This was the first time I’ve seen them in bloom. Photographed in Ste. Genevieve County.
Not the greatest photo of the greatest specimen, but this seemed to be the absolute last grass pink orchid (Calopogon tuberosus) to be found in bloom for the season at this location in St. Francois County.