Today’s Ramble was led by
Dale Hoyt; Here’s the link to Don’s Facebook album for today’s Ramble.
(All the photos in this post are compliments of Don; Today’s post was written
by Dale Hoyt with the assistance of Don Hunter.
Twenty-two Ramblers met
today – a chilly, windy spring morning!
Today’s reading: Rosemary read an excerpt from The Sound of a Wild Snail Eating by Elizabeth Bailey.
In the fourth
century BC,
in the History of Animals, Aristotle
noted that snail teeth are “sharp, and small, and delicate.” My snail
possessed around 2,640 teeth, so I’d add the word plentiful to Aristotle’s
description. The teeth point inward so as to give the snail a firm grasp on its
food; with about 33 teeth per row and maybe eighty or so rows, they form a
multi-toothed ribbon called a radula, which works much like a rasp. This explained my snail’s nodding head as it
grated away at a mushroom; it also ex- plained the odd squareness of the holes
I had discovered in my envelopes and lists. As the front row of teeth gets worn
down, a fresh new row is added at the back and the radula slowly moves forward,
being completely replaced over the course of four to six weeks. Radulae are
adapted to a particular snail’s diet and can be an identifying characteristic
of a species.
Today’s route:
Leaving the
arbor we made our way down through though the Shade Garden and across the road
and right-of-way on the White Trail. In
the woods we followed the White Trail through the woods, across the ROW and
took the Yellow Trail a short distance and back onto the White Trail. We crossed the ROW again and took a left on
to the Red Trail, which we followed until it reconnected with the White Trail
again. We then followed the White Trail
back to the ROW and back up through the Shade Garden to the parking lot. We adjourned the Ramble at this point since
the Visitor Center was closed for the Gala.
Shade Garden:
 |
|
| Cone galls on Witch Hazel leaf |
For several years we have seen galls appearing
on the leaves of the Witch Hazel shrubs. These conical growths are produced by
an aphid, the Witch Hazel Cone Gall aphid. (It’s probably easier to remember
the scientific name: Hormaphis
hamamelidis.) If you cut open one of the galls you will find inside a small
number of tiny aphids feeding on the gall tissue. These aphids can reproduce
asexually, giving birth to copies of themselves. Eventually they give birth to
winged forms that emerge from the gall and fly to an alternate host plant,
River Birch. There they feed on the Birch leaves and, in the fall, produce
another winged generation that flies back to a Witch Hazel host. These aphids
produce a sexual generation of males and females that mate and lay eggs on the
twigs of the Witch Hazel. The eggs overwinter and new aphids hatch out as the
leaves emerge in the spring, continuing the life cycle anew.
Right-of-way, White Trail:
 |
| Field Madder |
 |
|
| Small’s Ragwort |
Where the trail crosses
the power line right-of-way there are still many of the yellow-flowered Small’s
ragwort in bloom. Hidden among the grasses are inconspicuous plants with
numerous tiny pink to purple blossoms: Field madder, an introduced Eurasian
plant. It’s common name is due to it’s resemblance to a central Asian species,
called Madder, which was used as a natural dye to produce red color.
White Trail (Woods):
 |
|
| Orchard orb weaver |
Moving into the woods
someone spotted a small orb web, the product of a small spider named the Orchard
orb weaver.
Along the trail we found
a few plants that resemble puny bamboo shoots. These are River cane and are
related to the bamboos. Like many of the bamboos the River cane propagates by
runners and only seldom produces flowers. When they do flower they flower
synchronously – all the plants in a colony produce blossoms at the same time.
Then they set seed and die. The interval between germination of the seed and
flowering is long, 50 to 70 years! Some of the bamboos live as long as 120
years before flowering and dying. This type of synchronous mass reproduction,
called “big-bang reproduction,” is thought to be an adaptation to
insure the survival of seeds. By producing a prodigious quantity of seed on an
unpredictable schedule the local seed predators are overwhelmed. There is
simply more seed than they can eat or gather, thus guaranteeing that some seed
will survive to produce the next generation. In animals the same phenomenon is
exhibited by 17-year cicadas that emerge in staggering numbers every 17 years.
 |
| Cranefly |
Susie found a Crane fly
on her jacket. These look like giant mosquitoes but do not bite and are
harmless to humans. Crane flies are true flies and have a single pair of wings.
The hind wings of true flies are modified to form a tiny structure shaped like
a lollipop. It functions as a sense organ that enables a fly to sense its pitch
and yaw as it flies through the air. Unfortunately the Crane fly escaped before
we could pass it around for all to see.
White Trail, near ROW opening:
 |
|
| Witches broom |
In the second crossing of
the power line right-of-way we found a number of spring wild flowers: Venus’
Looking Glass, Lyre-leaf sage, Blue-eyed grass, and Venus’ Pride bluet. At the
edge of the ROW someone noticed a “Witches’ broom” on the end of a
Hophornbeam branch. A Witches’ broom is an abnormal growth of slender twigs
clustered near the end of a branch. We usually see these in the fall, after the
leaves have fallen, but today someone spotted a mass of tightly packed leaves.
They are caused by a fungal infection, possibly transmitted by mites, the
causes the tree to produce an abnormal number of twigs in a very short section
of the branch. It is probably caused by the infestation or infection
interfering with the normal plant hormones.
White Trail, back in woods:
 |
|
| Hawkweed |
Just inside the woods
again we noticed a few Rattlesnake hawkweeds. This plant is reputed to cure the
bite of rattlesnakes, but I wouldn’t recommend relying it. But hawkweed does
have an historical connection. Our modern understanding of genetics, how traits
are inherited, was discovered in the 19th century by the Austrian monk Gregor
Mendel who studied garden peas. After publishing his paper on the inheritance
of traits in peas Mendel turned his attention to Hawkweeds. Making crosses in
Hawkweeds is tremendously difficult because they are composites – their “flower”
is really a collection of tiny florets, each floret capable of producing a
single seed. In order to be sure that the pollen used in a cross is the only
pollen that can fertilize the egg the pollen recipient has to be emasculated.
The anthers must be removed before they are mature and releasing pollen. To do
this Mendel has to carefully dissect open the flowers while observing them with
a magnifying lens. It was tedious, time consuming work and led to his failing
eyesight. None the less, Mendel persevered for five years and discovered that
the patterns he had discovered in garden peas were not seen in hawkweeds. He
died disappointed and unappreciated, foiled by the fact, unknown to him and
other botanists of the time, that hawkweeds reproduce by parthenogenesis, a
type of asexual reproduction. All his painstaking crosses were futile because
the pollen made no contribution to the developing seed.
There are several small Paw
Paw saplings in this part of the trail and the leaves have a pointed projection
at the end, called a “drip tip.” It is thought that this aids in
allowing water to run off the leaf surface faster, which might prevent molds
from becoming established on the wet leaves. Consistent with this idea is that
many of the leaves of plants that grow in tropical rain forest have such drip
tips.
Hickory……talked about
compound leaves….these pinnately compound
 |
|
| Plantain leaf pussytoes |
 |
|
| Forest bedstraw |
We also found Plantain
leaf pussytoes, Mayapple, Green and gold, Forest bedstraw (also known as Wild
licorice) and Arrowleaf wild ginger, with its Little brown jug flowers hiding
under the leaf litter. They are thought to be pollination by ants and /or
beetles since the flowers normally never see the light of day.
The Bloodroot foliage
remains behind and much larger that it was when the flower was present. It
continues to photosynthesize, producing food that is stored in the root to be
used the following spring.
 |
|
| Maple leaf viburnum |
Another pleasant surprise
was Maple leaf viburnum with flowers. Without the flowers this plant is often
mistaken for a small maple tree.
 |
|
| Orange-patched smoky moth |
We found an orange and
black moth (Orange-patched smoky moth) resting on foliage. Whenever you find an insect that is brightly colored resting in a highly visible location you can be pretty certain that it may be
poisonous or distasteful or it might mimic a similar appearing insect, in this case a distasteful beetle (a Net-winged
beetle).
White Trail, far ROW
 |
|
| Lesser daisy fleabane |
At the third crossing of
the White trail and the power line right-of-way we found one of the spring
flowers: Lesser daisy fleabane
White Trail, back in woods:
 |
|
| Partridgeberry flowers |
Here the surprise was a
small patch of Partridgeberry in bloom. Each plant bears a pair of trumpet
shaped white petals, close together at their bases and diverging at the tops,
like a “V” for victory. From these two flowers a single red berry
will form. The two ovaries are so close together that, as they enlarge to form
a fruit, they fuse to form a single red berry with two little scars where the petals
were.
SUMMARY OF
OBSERVED SPECIES:
|
Witch |
Hamamelis |
|
Small’s |
Packera |
|
Field |
Sherardia |
|
Orb weaver |
Leucauge |
|
Hophornbeam |
Ostrya |
|
River |
Arundinaria |
|
Crane fly |
Diptera: Tipulidae |
|
Venus’ |
Triodanis |
|
Lyre-leaf |
Salvia |
|
Blue-eyed |
Sisyrinchium |
|
Large |
Houstonia |
|
Hawkweed |
Heiracium |
|
Paw Paw |
Asimina |
|
Hickory |
Carya |
|
Plantain-leaf |
Antennaria |
|
Mayapple |
Podophyllum |
|
Green-and-gold |
Chrysogonum |
|
Arrowleaf Little brown jugs |
Hexastylis |