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, unless otherwise credited.)
Today’s post was written by Dale Hoyt.
Today’s Focus:
Looking at how trees grow.
22 Ramblers met today.
Announcements:
- Eugenia said the Georgia DOT has decided to purchase native
and locally grown plants, where possible, for their highway beautification
projects, according to the latest Farmer’s Market Bulletin. - Jess Riddle will be at the local Barnes and Noble
bookstore tonight (4/18) at 7:00 p.m., to sign his book, Mountain Treasures, about old growth forest in unprotected wild
lands. - Jess Riddle will also be speaking next Thursday, May 2, at
the Oconee Rivers Audubon Society meeting. - Linda wants to share this posthumously published piece by
Oliver Sacks: The
Healing Power of Gardens.
Today’s reading:
No reading today
Show and Tell:
Dale passed around a twig from a Northern Red Oak tree. The new growth from the
apical bud was still green. More about this and why it was detached from the
tree later in the report.
Today’s route:
Through the conservatory and formal garden to the Purple Trail, then Purple
Trail to the Hi Water Trail. Hi Water Trail to Orange Trail and then left on
the Orange Trail back to the Visitor Center.
Tip for viewing photos in this blog: If you left click on any photo in this post it will pop up in its original, larger size! Below this enlarged photo you will find a row of thumbnail photos for all the photos in the blog post. This really helps if you’d like to see larger images for more detail.
(This works for me on my desktop Windows PC.)
How trees grow:
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| Northern Red Oak; new shoot; note the dark lateral buds where the leaf stems attach to the green stem of the new shoot. |
The photo above is a Northern Red Oak twig that we found
on the ground. Notice that the new growth emerges from the end of last years
twig, which is brown in color. This new “shoot” emerged from a bud at the very
end of the twig, which was last year’s new shoot. If you could examine every
twig on the tree two weeks ago you would find a small, dark bud, covered with
bud scales. Since last week the scales on the terminal buds have all fallen off
and the tiny shoots that were protected by the bud scales are rapidly
elongating and expanding. Each new shoot is a green twig with a variable number
of leaves. At the place where each of these leaves is attached to the twig (the
leaf’s axil) there is a new bud, called a lateral bud, because it is on the
side of the twig and not the end. The bud on the end of the new shoot is called
the terminal bud. Inside these buds shoots are beginning to develop – the
shoots for next years growth. The lateral buds contain either a leaf, a flower
or a shoot. If the lateral bud contains a shoot and the bud germinates it will
make a new branch. In the photo above you can see the new lateral buds in the
axils of the leaves. They are the dark dots where the leaf stems attach to the
shoot.
In many trees this elongation of the new shoot is the only
time when the tree grows during the year. Every branch and twig grows by adding
a new shoot at the end and that year’s growth ceases when the shoot stops
elongating.
When the terminal bud scales drop off the shoot they
leave a scar and by looking back on the twig you can find similar scars and
determine how much the twig grew for several years. But, as the twig elongates,
it also increases in diameter and expansion gradually erases the older terminal
bud scale scars. Therefore, you can only trace the growth for two or three
years.
In some trees the shoot growth is not completely preformed.
Instead, the new shoot can continue producing leaves at its terminal bud.
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|
| Hop Hornbeam terminal leaves on a new shoot; note lack of a terminal bud and the presence of new leaves. The white spot of the tiny leaf to the left is another, even smaller, leaf. |
An
example of this type of growth can be seen in the Hop Hornbeam where the
terminal bud continues to produce leaves. This type of growth occurs over a
longer period of time and is limited by the availability of external resources.
LIST OF
OBSERVATIONS:
Purple
Trail:
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|
| Developing Blueberries |
The Highbush Blueberry is
nearly finished blooming and berries in various stages of development are still
green.
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|
| Gray Squirrel with a late morning snack |
A Gray Squirrel was happily
grazing on the Wood Rush seeds growing on the roof of the little shed at the
head of the Purple Trail.
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|
| Erineum Patches on American Beech leaf lower surface. |
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| Erineum Patches on American Beech leaf upper surface. |
One of the ramblers noticed
numerous yellow blotches on the upper surface of some of the American Beech
leaves. On the underside of the leaf there was an irregular lump beneath each
blotch. An abnormal growth on a plant part is called a “gall” and can be
produced by the feeding activity of various insects and mites that attack
plants. Don discovered that these galls are called “erineum patches” and the
culprit is an eriophyid mite. Each patch is produced by the activities of a
colony of tiny mites. Visit
this website to see what these mites look like.
While we were busy examining the beech leaves another rambler spotted a Jack-in-the-pulpit, the first of several we would see today.The typical “Jack” produces a single leaf that has three leaflets, but many of the plants we see in the Garden have four or five leaflets. To find out more about the sex life of these interesting plants you should visit this page. There is also a lot of variation in the color of the “pulpit,” as you can see in these photos:
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| Jack-in-the-pulpit with a striped pulpit. |
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| Jack-in-the-pulpit with faint green stripes. Also note there are 4 leaflets on the leaf behind the pulpit. |
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| A cluster of Jack-in-the-pulpit seedlings, all with the typical three leaflets per leaf. These were probably all from seed produced by a single plant growing in this location. |
The typical Jack-in-the-pulpit leaf, with its three leaflets, can be mistake for a trillium. But the trillium leaflets are equally spaced, each leaflet separated by 120 degrees from the adjacent leaflets. In the Jack-in-the-pulpit two of the leaflets are opposite one another and the third leaflet is perpendicular to the other two.
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| Sap wells even occur on the roots. |
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| Sap wells on the trunk of Hop Hornbeam |
Many of the larger Hop Hornbeam
trees in the Garden have sap wells excavated by Yellow-bellied Sapsucker
woodpeckers. These appear as a horizontal series of holes that look as if they
were drilled in the bark. These are excavated by the aforementioned woodpecker
and their purpose is twofold: they exude sap that the sapsuckers eat and they
also eat insects that are attracted to the sap. The tree soon stops the flow of sap
from the wells and this requires the sapsucker to excavate another series of holes. Most trees
that have been used by sapsuckers are covered with sap wells from the ground up
to as far as you can see.
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|
| Muscadine Grape Vine with adventitious roots. |
Near the Hop Hornbeam tree
there is a large Muscadine Grape vine draped between two trees. The vine has
numerous aerial roots descending from its lower side. One is long enough to
have reached the ground but is not yet rooted there. What causes the vine to
produce these roots is not known, although some have suggested that they are
due to damage caused by cold weather.
ID tip: There are two kinds of
Grapes to be found in this region: Fox Grape and Muscadine Grape. The vines can
be distinguished easily: the Fox vine is covered with “shreddy” bark, whereas
the Muscadine vine has tight, smooth bark.
There is a clearing on the
Purple Trail that was formed several years ago when a large Northern Red Oak
fell. Many of the large fallen trees in the natural areas are of this species. Tall
trees are exposed to strong winds and this wind, acting on a tall trunk exerts
a large force on the root system. It like an adult and a child playing together
on a teeter-totter. A child can counter act the weight of the adult if the
child’s side of the teeter-totter is long enough. The taller the tree the
greater the force exerted on its root system when the wind blows on the crown.
Northern Red Oaks don’t have a strong taproot, so, eventually, they grow tall
enough to be pushed over by the wind.
Why twigs fall from trees:
At this time of year we often
find the ground littered with twigs, especially under oaks and hickories. A
careful examination of the broken ends reveals the reason.
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| A girdled Northern Red Oak twig. The insect responsible is a Long-horned beetle. |
Many of the fallen
twigs have been smoothly girdled. Something has carefully removed the outer
layer of wood from around the circumference of the twig, leaving it hanging by
just the central tissue. The weakened twig will easily fall from the force of
rain or wind. It doesn’t take a hurricane to bring them down.
The agent responsible for the
girdling is a beetle. The female chooses a twig and lays an egg toward the end.
She then walks toward the trunk, stops and starts to chew the outer layer of
wood away, circling the twig as she goes. This cuts through the vascular system
of the twig which supplies the end with water and that part of the twig dies.
When the egg hatches the beetle larva begins to consume the dry, dead wood.
Eventually the twig falls to the ground and the larva forms a pupa from which
an adult beetle emerges.
Not all twigs that fall are
infected with a beetle.
We passed by a little grove
of Horse Sugar that we always see when we wander down the Purple Trail. For at lease six years we have never observed these shrubs in flower. They pparently don’t get enough sunlight to trigger blooming.
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| Christmas Fern; the lowest frond will produce spores from the smaller pinnae at the end of the frond. |
Christmas Ferns have
unfurled their fiddleheads and are beginning to form their fertile fronds. Some
fronds show a distinct difference in the size of the pinnae (the “leaves”) in
the upper third of the frond. These pinnae are starting to develop structures that produce spores on the undersurface of the upper third of
the fronds.
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|
| Possum Haw Holly staminate (male) flowers |
Linda pointed out a Possum Haw
Holly, with flowers. It differs from the
native American Holly and most ornamental hollies in having deciduous leaves.
Most of the other native hollies in our area are also deciduous, such as
Winterberry and Sand Holly. Like all
hollies, Possum Haw Holly is dioecious, meaning that its female and male
flowers are produced on separate plants Dioecy occurs throughout the vascular
plant world and is thought to be an extreme solution to the problem of
self-pollination. Since the female and male flowers are on separate genetic
individuals, there is no chance of self-pollination.
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| Tuliptree flower; yellow objects are the stamens; the pistils are fused together to form the conical green structure in the center of the flower. |
Numerous Tulip Tree flowers could
be seen on the ground. We dissected one
to look at the flower structure, including the stamens that surround the
central “cone” composed of developing seeds.
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| Solomon’s Plume |
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| Violet Wood Sorrel |
Hi
Water Trail:
We saw the occasional Blue Eyed
Grass, a plant in the Iris family. Like other irises, the leaves are flattened.
An Eastern Tiger Swallowtail flew through the woods.
Kidney-leaved Buttercup and
Hooked Buttercup were common along the trail.
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|
| Aphids on Cut-leaf Coneflower |
Cut-leaf Coneflower is growing at the junction of the Hi Water
Trail with the Orange Trail, alongside the creek. Several of the plants had heavy infestations of
red aphids on the stems.
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| Sensitive Fern; it prefers moist situations. |
Orange
Trail:
Most of the Mayapples that were flowering two weeks ago are now
developing small fruits.
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| Rue Anemone is now setting fruit; only a few plants were still flowering. Note the Daddy Longlegs on the leaf to the right. |
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| Violet Wood Sorrel; only a few flowers were blooming in the large patches of purple-centered leaves. |
Our big surprise of the day was to find a hundred or more small, dark colored bees swarming back and forth across the stream bank next to the trail. Sometimes as small knot of bees formed on the ground, but mostly they seemed to be patroling the area, rapidly flying back and forth, as if searching for something.
I don’t know what species of bee these are, but I have read accounts of such behavior and I’m confidant I know what is happening here.
These are solitary bees. “Solitary,” here means that the bees are not members of a hive like honeybees. Instead, each female bee digs a tunnel in the soil, provisions it with pollen and nectar and lays an egg on the food mass. The chamber is then sealed and another tunnel dug. (In some cases each tunnel may have more than one chamber.) The female bees do not cooperate with each other even though they may build their tunnels in the same area of suitable soil. It’s like an apartment building for single mothers where each child has its own room and the mother only feeds her own child. No one looks after their neighbors kids. The female bees die after a short time, leaving their offspring in the sealed tunnels. By the following spring each larva in its tunnel has become an adult bee. The male bees emerge first and immediately begin searching the area for emerging females. They appear to be able to detect the presence of female bees through odor. As a female digs her way to the surface the males pounce and soon she is surrounded by a group of males, each eager to mate. Those clusters of bees you may have seen are the “mating balls.” After mating the males die and the females begin digging tunnels and foraging for food to feed the new generation of bees.
Don was able to take a video of a mating swarm.
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| Only a few Wild Geranium are still blooming. |
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| Wild Chervil; note the carrot-like foliage. |
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| Female Dobsonfly |
Tom found a female Dobsonfly on the handrail of the bridge. The larval stage, called by fishermen a hellgramite, lives in a fast moving stream for a couple of years before pupating and metamorphosing into the adult stage. The hellgramite is the voracious top predator of the creek. It feeds on all the other invertebrates that live in the stream. The adult Dobsonfly is sexually dimorphic; i.e., males and females look different. The male has an enormous pair of mandibles, but they are so large that he can’t really bite with any force. The female, with much smaller mandibles, can give a much more forceful pinch. If you would like to see what the male looks like, just Google “Dobsonfly” and click on any ot the videos that appear in the search results.
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| Rattlesnake Fern; the fertile frond is in the center, projecting upward and bearing structures that will produce spores. |
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| Broad Beech Fern |
Crossvine flowers were seen on the ground, setting off a search for the vine. It was finally located near the creek bank, the flowering part high in the trees.
SUMMARY
OF OBSERVED SPECIES:
|
Highbush |
Vaccinium |
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Gray |
Sciurus |
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Wood Rush |
Luzula echinata |
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Hickory |
Carya |
|
American |
Fagus |
|
Jack-in-the-Pulpit |
Arisaema |
|
American |
Ostrya |
|
Grape |
Vitis |
|
Northern |
Quercus |
|
Girdler |
Oncideres |
|
Horse Sugar |
Symplocos |
|
Christmas |
Polystuchum |
|
Possum Haw |
Ilex |
|
Tulip Tree |
Liriodendron |
|
Solomon’s |
Maianthemum |
|
Violet Wood |
Oxalis |
|
Blue Eyed |
Sisyrinchium |
|
Poa Grass |
Poa annua |
|
Eastern |
Papilio |
|
Kidney-leaf |
Ranunculus |
|
Hooked |
Ranunculus |
|
Cut-leaf |
Rudbeckia |
|
Sensitive |
Onoclea |
|
Aphids |
Order |
|
Mayapple |
Podophyllum |
|
Rue Anemone |
Thalictrum |
|
Daddy |
Order |
|
Common Wood |
Oxalis |
|
Solitary |
Order |
|
Wild |
Anthriscus |
|
Eastern |
Order Megaloptera, Corydalus cornutus |
|
Rattlesnake |
Botrypus |
|
Broad Beech |
Phegopteris |
|
Crossvine |
Bignonia |