Today’s Ramble was lead by Linda Chafin.
All the photographs in today’s post were taken by
Rosemary Woodel, unless otherwise credited. Rosemary graciously agreed to fill in for Don Hunter while he was
gone. When you see Rosemary tell her how much you appreciate her efforts!
Today’s post was written by Dale Hoyt.
Thirty-three Ramblers met today.
Today’s reading:
Linda read The
Summer Day, a poem by Mary Oliver.
Who made the world?
Who made the swan, and the black bear?
Who made the grasshopper?
This grasshopper, I mean-
the one who has flung herself out of the grass,
the one who is eating sugar out of my hand,
who is moving her jaws back and forth instead of up and down-
who is gazing around with her enormous and complicated eyes.
Now she lifts her pale forearms and thoroughly washes her face.
Now she snaps her wings open, and floats away.
I don't know exactly what a prayer is.
I do know how to pay attention, how to fall down
into the grass, how to kneel down in the grass,
how to be idle and blessed, how to stroll through the fields,
which is what I have been doing all day.
Tell me, what else should I have done?
Doesn't everything die at last, and too soon?
Tell me, what is it you plan to do
with your one wild and precious life?
Today’s route:
From the Arbor we walked through the Shade Garden, across the road to the
power line, then into the woods via the White trail. Shortly after entering the
woods we took the Blue trail and at the small clearing turned right on the dirt
access road which we followed to the Green trail. Turning right on the Green
trail we returned to the power line and then back to the Arbor.
Shade Garden:
Smooth spiderwort
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| Smooth spiderwort; note fuzzy stamens |
This species is distinguished from the Hairy
spiderwort, (Tradescantia hirsuticaulis)
found on our granite outcrops by having a smooth, hairless stem. Many of the
spiderworts have hairy stamens, as you can see in the photograph. Linda
mentioned that these hairs were often used in her biology classes to observe
cytoplasmic streaming. When I was in school we observed it in a different
plant, Elodea, a common aquarium plant. Under the microscope you could see
individual plant cells and their larger components, like chloroplasts, the
organelle where photosynthesis takes place. In the living cell the chloroplasts
weren’t just sitting there, they were churning around the outside of the cell,
like clothing in a washing machine. But there was no visible agitator. That
movement of cell contents was called cytoplasmic streaming and it was a mystery
when Linda and, earlier, I were in school. A lot more is known about its cause
and function now. The curious among you can use Google to discover this for
yourself.
Oregon grape (Mahonia sp.)
The thick, leathery leaves of Mahonia resemble those of
Holly, leading to another common name for the plant: Oregon grape holly. This
attractive plant has a definite down side – it is very invasive in the
southeast (but less so in other parts of the country). Both the American and
the Asian species are considered invasive here and should not be planted.
Japanese stilt grass
Another invasive, Japanese
stilt grass can be found almost everywhere in the SBGG. It was probably
introduced when dried plants along with their seeds were used as packing
material in shipments of ceramics from Japan. It is an annual plant so it can
be partially controlled by pulling before it flowers. Unfortunately the seeds
remain viable in the soil for seven years, so an area of heavy infestation must
be revisited year after year to eliminate the newly germinated plants. The
seeds also appear to be easily transported via mud attached to the tread of
hiking shoes or tires. Linda told us that she sees it all along the Appalachian
trail and it is hard to imagine how else it would have gotten there except by
hitching a ride on the shoes of hikers.
Mulberry weed (Fatoua villosa)
I didn’t see this plant and Rosemary didn’t get a
photograph of it. A quick Google search reveals that it is a recent
“invasive” plant. I put the quotes around invasive because most of
the reports Google returned are from nurseries, gardens and green houses where
the plant has become a problem. These are artificial and disturbed habitats and
plants that grow in those situations may not threaten natural environments.
Many of the weeds in your lawns are seldom found in significant numbers in
natural areas. This makes them weeds, plants that are growing where we don’t
want them, but not invasive in the true sense of that word. Please feel free to
disagree with me in the comments at the end of this post.
Sassafras
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| Sassafras seedling; note variation in leaf shape — some are lobed, others not. (photo by DH) |
We spotted young seedlings of the Sassafras tree (or
shrub) in the Shade garden. The root bark of this plant was formerly used to
make, by all accounts, a wonderful tasting tea. But in 1960 the FDA banned the
use of the main ingredient, safrole, for human consumption because it had been
shown to produce liver damage and cancer in laboratory animals. The most common
commercial usage of safrole at the time was to flavor root beer and all manufacturers
had to alter their ingredients.
A Wikipedia entry
indicates that early English colonists harvested commercial quantities of the
bark for export to England and, in the process, rapidly depleted their source. (This
exploitation was echoed ~400 years later by the near extinction of Yew trees in
the Pacific northwest when it was discovered that a substance, taxol, in their
bark was an effective treatment for ovarian cancer.)
Beautyberry as Insect repellant
One of our new Ramblers from Savannah suggested using the
leaves of Beautyberry as a mosquito repellent. She crushes them and rubs them
over her arms.
White trail to Power line
Elephant’s foot
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| Elephant’s foot; basal rosette of leaves flat against the ground. |
Bottlebrush Buckeye
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| Bottlebrush buckeye; the thin white structure crossing the bottom of Linda’s fingernail is a pistil all the otherw are stamens with tan anthers at their ends. (photo by DH) |
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| Bottlebrush buckeye; whole plant with a single inflorescence |
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| Tiger Swallowtail nectaring on Bottlebrush buckeye (photo by Ed Wilde) |
In last week’s post I talked about the low number of
perfect flowers (flowers that have both stamens and pistils) among the many thousands of flowers with only stamens that are produced by
Bottlebrush buckeye. Now I want to talk about how these few bisexual flowers
may be pollinated. The stamens and pistils in the Bottlebrush buckeye project far forward of the
flower proper, so any small insect gathering nectar at the base of the petals
is unlikely to come in contact with the anthers on the stamens or the stigma of the pistil.
This arrangement of the sexual parts of the flower is similar to that seen in the Flame
azalea. The pollinator of Flame azalea has recently been identified: large
butterflies, especially Tiger Swallowtails. The way it works is this: the
pollen is collected on the butterfly’s wings as it sips nectar from the flower.
Swallowtails have the habitat of fluttering their wings as they visit flowers and the
opening and closing of the wings brushes against the anthers so that pollen
grains are dusted onto the wing surface. When the butterfly visits another flower
the same flapping behavior transfers pollen from its wings to the receptive
pistil of the flower. So, similar floral structure — perhaps similar pollinators. I need to emphasize that this is just my hypothesis and
has not been tested. Someone needs to see if Bottlebrush pollen is actually
carried by butterfly wings and also determine if it can be transferred by
visiting another flower. As additional evidence look at Ed Wilde’s photo above — a Tiger Swallowtail butterfly visiting a Bottlebrush buckeye.
A Bartram connection
One of the Ramblers here today, Brad Sanders, is a
Bartram authority. He has written an excellent book, Guide to William Bartram’s
Travels, and is in the process of revising the first edition. Brad told us that
William Bartram discovered Bottlebrush buckeye in the late 1700s at Fort
Mitchell, Alabama. Fort Mitchell was located across the Chattahoochee River
from modern day as Fort Benning.
Carolina Desert-chicory
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| Carolina desert-chicory |
This member of the Aster family has an intensely yellow
flower head, lacking any hint of the other pigments that dull by comparison the
similar flowers of Dandelion. Like Dandelion all the florets that make up the
flower head are ray florets, each tiny flower bearing a single, straplike
petal. When you peer into the center of the flower head you will find the dark
anthers emerging like little pencil leads from the outer whorls of florets.
Those at the extreme outside have smaller, whitish projections that are surrounded
by the anthers. These are the stigmas poking up above the encircling anthers.
A note about the common names: In some guides you will
find this plant called False Dandelion, which is a name used for other flowers
that appear similar to Dandelions, so a better name is needed to eliminate
confusion. This plant (Pyrrhopappus caroliniana)
is a member of a subgroup of the Aster family called the tribe Chicorieae, which consists of the
Chicories, which include Dandelions and Chicory as well as many other species. It includes other plants in the southwestern US that are known as desert
chicories. These are closely related to Pyrrhopappus, so the common name of Carolina desert-chicory is appropriate. You
could make an equally valid argument for Carolina chicory. Either way is less
confusing than False dandelion.
Wild petunia
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| Wild petunia |
Yellow trumpet vine
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| Yellow trumpet vine |
Powerline Right of Way
Deptford Pink
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| Deptford Pink; non-native, but non-invasive |
Horse nettle
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| Horse nettle; notice the pores at the end of the anthers; this is where the pollen is shaken out when the right kind of bee “buzzes” the flower. |
American Wild Carrot (our native Queen Anne’s lace)
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| Our native version of Queen Anne’s Lace lacks the purple floret in the middle of the smaller umbel of flowers. |
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| As the seeds mature the flowers are gathered into a “bird’s nest” formation to protect the developing seeds; when they are ripe the nest opens out to allow the seeds to disperse. |
Mountain mint
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| Mountain mint; leaves beginning to develop white frosting |
Stone mint
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| Stone mint flowers |
Wingstems
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| The thin, flat ridges on the stems give these plants their common name: Wingstems |
Chinese praying mantis
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| Chinese praying mantis; immature — note the small wings on back (photo by DH) |
The praying mantis is a sit-and-wait predator. It lurks among the foliage and when a suitable size prey item comes near it will slowly stalk until it comes within striking distance. Then the forelegs thrust forward and grip the prey in their thorny grasp. It is brought to the head and the mantis begins to eat, chewing its meal well. Like all insects, the mantis grows by molting its exoskeleton, growing larger with each shedding of its outer body covering. The wings, that are small and non-functional in this individual get a little larger with each molt, until, after the last molt, they become full size and functional. The female mantis is notorious for eating her mate. This doesn’t always happen — it depends on her nutritional state. When she does eat her mate she first starts with the head and consumes part of the brain. That immobilizes her mate and she can finish her meal without a struggle. It might seem cruel, but by becoming her meal the male increases her nutritional status and, therefore, increases the number and/or size of the eggs she can lay; after all, they are his children.
Wooly mullein
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| Wooly mullein; Tim says the soft, fuzzy leaves make good trail “Charmin”. |
Blue trail to clearing
On entering the woods we were all impressed with the
sudden sound of silence. The humidity, the leaves, the trees, everything seemed
to absorb sound.
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| Pines, the first to colonize abandoned farms will be replaced by more shade tolerant hardwoods. |
This part of the Garden was formerly farmed – cotton was
grown here, probably in the 1930’s. You can see the evidence farming from the
terraces that are still visible. Terracing was an attempt to control soil
erosion. Instead of simply plowing the land as it lay terraces were constructed
to slow down runoff in an attempt to retain more soil. We can all see how
effective that practice was every time we dig into our red clay. The area here
was farmed until the 1950’s at which time the land lay fallow. We now see the
result of almost 60 years of succession. The first few years after farming
ceased the land was colonized by annual plants and then perennials, probably
looking much like the power line right-of-way does today. The soil was still
poor and slowly recovering from the abuse of cotton. The early trees were
mostly pines which can survive on poor soil but are poor competitors. This is
why you see so many young pines scattered throughout this part of the Garden.
Pines, while good pioneers, do not grow well in the shade so their very
presence prevents them from replacing themselves. But the hardwoods, like oak,
hickory and beech are shade tolerant and slowly invade the pine forest. We are
living in the middle of this process and it will slowly change on a time scale
longer than a human lifetime, allowing us to see only a part of its unfolding.
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| Lone Star Tick on seed head of grass |
Lone star tick
We usually only see ticks only after we get home from a
Ramble, but I spotted this one hanging onto the end of a native grass.
This is a favored position for a tick. From that perch it can reach out and
grab any passing mammal that brushes against it.
Short leaf pine
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| Short leaf pine; cones are smaller than Loblolly, needles shorter – 2 to 3 needles per bundle. |
Short leaf pines used to be more common in the piedmont but have been replaced by Loblolly pines that are widely planted for commercial purposes. Loblollies were originally a coastal plain species and grew in low lying damp areas called Loblollies.
Access road to Green trail
Winged sumac
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| Winged sumac; the wings are the flat ridges running between the leaflets. |
Millipede
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| If you count carefully you’ll find that each segment has two pairs of legs. |
The orange and black coloration of this millipede signals the fact that it is chemically defended. Each segment has a pair of glands that produce cyanide gas when the animal is irritated. Millipedes are generally cylindrical — rounded in cross section, although some species have projecting flanges on their sides, making them look flatter. In contrast Centipedes, the other Order of Myriapods are flattened and have only one pair of legs per body segment. Centipedes are carnivorous hunters of invertebrates while millipedes are harmless eaters of decaying vegetable material. The millipedes also have in their guts symbiotic fungi that are found in no other organisms.
Green trail
Mockernut hickory
The alternate compound leaves have 5 to 7 leaflets; the stems are hairy and have a strong odor when scratched. The fruits are large and very thick walled.
American toad
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| Juvenile American toad; the warty skin and poison gland (swelling behind the eye) are characteristic of toads. |
Pignut hickory
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| Pignut hickory fruit; note the “nose” |
The name comes from farmers that turned their pigs out to forage on the fruits of these trees. The fruits also are pear shaped (have a little snout, like a pig). But not every fruit has a snout — all
pear-shaped fruits are pignut but not all pignut fruits are pear-shaped.
Shagbark hickory
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| Shagbark hickory leaflets are broadly oval |
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| Shagbark hickory; bark peels away from the trunk on upper and lower ends of bark plates. |
Shagbark hickory prefers soil where the pH is higher than is typical of our soils. So when you see them growing it’s usually a place where the underlying rock contains high levels of Magnesium and Calcium minerals that raise the pH.
The leaflets are
broadly oval and the bark is composed of plates that lift away from the trunk on one or both ends.
Summary of Observed Species
|
Common Name |
Scientific Name |
|
Shade Garden |
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Smooth spiderwort |
Tradescantia ohiensis |
|
American beautyberry |
Callicarpa americana |
|
Rice paper plant |
Tetrapanax papyrifera |
|
Oregon grape |
Mahonia bealii |
|
Sassafrass |
Sassafras albidum |
|
Jumpseed |
Persicaria virginiana cv. ‘Lance Corporal’ |
|
Black cohosh |
Actea racemosa |
|
Mulberry weed |
Fatoua villosa |
|
Japanese stiltgrass |
Microstegium vimineum |
|
White trail to woods |
|
|
Elephant’s foot |
Elephantopus |
|
Wild petunia |
Ruellia caroliniensis |
|
Bottle brush buckeye |
Aesculus parviflora |
|
Yellow trumpet vine |
Campsis radicans |
|
Carolina Desert Chicory |
Pyrrhopappus |
|
Deptford Pink |
Dianthus armeria |
|
Horse nettle |
Solanum carolinense |
|
American wild carrot |
Daucus pusillus |
|
Stink bug |
Hemiptera: Pentatomidae |
|
Mountain mint |
Pycnanthemum incanum |
|
Stone mint |
Cunila origanoides |
|
Ironweed |
Vernonia gigantea |
|
Wingstems |
Verbesina sp. |
|
Chinese praying mantis |
Tenodera sinensis |
|
Blue trail |
|
|
Wooly mullein |
Verbascum thapsus |
|
Shagbark hickory |
Carya ovata |
|
Violet-toothed polypore |
Trichaptum biforme |
|
Ebony spleenwort |
Asplenium platyneuron |
|
Lone star tick |
Amblyomma americanum |
|
Beech |
Fagus grandifolia |
|
Water oak |
Quercus nigra |
|
Short leaf pine |
Pinus echinata |
|
Access road to Green trail |
|
|
Winged Sumac |
Rhus copallina |
|
Millipede |
Myriapoda: Diplopoda |
|
Ebony spleenwort |
Asplenium platyneuron |
|
Green trail |
|
|
Mockernut hickory |
Carya tomentosa |
|
American toad |
Bufo (Anaxyrus) |
|
Pignut hickory |
Carya glabra |
|
Shagbark |
Carya ovata |
|
Winter creeper |
Euonymus fortunei |
|
Black Snakeroot |
Sanicula sp. |
|
Orchard grass |
Dactylis glomerata |