Authors of today’s Ramble report: Linda and Don. Comments, edits, and suggestions for the report
can be sent to Linda at Lchafin@uga.edu
All photos are by Don Hunter except where otherwise indicated. His complete set of photos from today's Ramble are on Facebook here.
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Rainy morning at the Botanical Garden Photo of Impatiens by Aubrey Cox
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Today was a “rainy-day
ramble,” practicing the new Nature Ramble weather policy: we meet
regardless of the weather and see what happens. We’re pretty sure that, rain or
shine, we will have a good time. About 15 ramblers met in the Visitor Center and swapped
stories for a while.
Don shared an exciting piece of news with us. As many of us know, Don has
collaborated with Becky Hunt Griffin, Coordinator of the Great Southeast
Pollinator Census and UGA Extension entomologist, for several years, providing
detailed photographs of Georgia pollinators and insect identifications during
the census and throughout the year. Becky just posted this announcement on the
Pollinator Census Facebook page: “I am excited to announce that the 2023 Great
Southeast Pollinator Census Grand Marshal is Don Hunter. Don has been an
incredible advocate for the Census and pollinators. He enjoys helping
educate others about insects. He was the obvious choice for this year's
Grand Marshal and I was honored to present him the a plaque recognizing his
role. Thank you, Don Hunter, for all you do for pollinators! Look for
Don's video opening this year's Census early on August 18th.”
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Don proudly displaying his award
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Don joined the Nature Ramblers in the spring of 2013 and quickly took on the role of photographing and recording each ramble. Before then, he'd had no interest in insects but has since taught himself through studying field guides, iNaturalist, BugGuide.net, and other online sources. What is the secret to his success with photographing insects? "Just practice, practice, practice and picking up hints and techniques from friends and fellow photographers."
The Great Southeast Pollinator Census is a community science project created by UGA Extension, now in its sixth year
with thousands of participants all over the SE. The census will take place this
year August 18-19.
Sandy shared highlights from her
recent butterflying trip in Costa Rica. Below are seven photos of some of the butterflies,
plants, snakes, and birds she encountered. The complete set of her photos are here.
Linda shared this article about living in the natural world in a time of change.
Around 9:30, Ramblers ventured outside
into a barely detectable mizzle. Most of us wandered around the Herb and Physic
Garden as the sun came out, admiring the pollinators that were visiting
the medicinal and culinary herbs curated by Garden Curator Carol Dyer Rudow.
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Bumblebee on Oregano flowers photo credit |
Meanwhile Don was photographing
in the nearby beds and in the Heritage Garden, employing his new macro flash
diffuser to spectacular effect. All of Don’s photos are here on Facebook and a selection are below.
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As
members of the Aster family, Zinnia flower heads are a combination of small fertile flowers (in this photo, five-lobed yellow flowers) held on a central
disk and outer whorls of pink ray flowers. Many of the Zinnias at the Garden show a tendency to
have oddly shaped and colored ray flowers popping up among the disk flowers. |
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Versute
Sharpshooter resting on a Zinnia’s ray flower. |
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Ocola
Skipper visiting the disk flowers on a Coreopsis flower head. |
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Large Milkweed Bug on Butterfly weed flowers. |
Large
Milkweed Bugs exhibit aposematic coloration – bright orange or red colors that
warn potential predators that an insect is poisonous. Adults (above) are patterned with black and reddish-orange markings, juveniles are mostly red with a few black spots (below), and even their eggs are bright
orange.
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Ailanthus Webworm
Moth visiting the small fertile flowers of a Hydrangea inflorescence. The large
showy flowers in the foreground are sterile, existing only to attract insects
who quickly discover that pollen and nectar are available only in the small
flowers.
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Job’s Tears is an
odd-looking grass with wide, clasping leaves and bulbous swellings at the base
of the seed head. It is native to Southeast Asia and cultivated there at high
elevations where other grain crops do not grow well. The stem at the base of
the flower cluster is swollen into a hard, round ball called a pseuodocarp
("fake fruit"). Some varieties of Job’s Tears have hard pseudocarps
that are used to make beads; other varieties have soft pseudocarps that are
harvested and sold as Chinese pearl barley.
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Carpenter
Bee “robbing” a Salvia flower by chewing a hole in the base of the flower and sipping nectar. |
Don saw quite a few
Western Honeybees and one Eastern Carpenter Bee visiting Salvia flowers in
search of nectar. Dale wrote the following mini-essay (lightly edited)
about nectar robbing by bees in the Ramble Report of July 19, 2018. At that
time, we’d been watching large Carpenter Bees and small Honeybees visiting Salvia
flowers.
Dale: “The larger Carpenter Bees were
‘nectar-robbing,’ piercing the narrow bottom of the tubular flower, while only
the [smaller] Honeybees were attempting to access the nectar through the flower
opening. While visiting the flower in the ‘legitimate’ way, the smaller bee thrusts
its head into the opening at the front of the blossom to reach the nectar at
the base, thereby coming in contact with the anthers and picking up a load of
pollen on their head and thorax. They also contact the stigma, the flower
structure that receives pollen, and the pollen they carry from other
flowers gets deposited on that stigma, effecting pollination.
As the Carpenter Bee
visited each blossom, it avoided the opening of the corolla, instead heading straight
to the base of the flower. The nectar gland is inside the flower,
at the base of the corolla. If the blossom has been previously visited by a
nectar thief, there will be a hole there and the bee will insert its mouthparts
and sip up the available nectar. If there is no hole, the bee makes one by
biting the flower with its mandibles.
You might think
that nectar robbery would harm the ability of the robbed plant to produce
fruits or seeds. But several studies have shown that there is no difference
between the productivity of robbed and unrobbed plants. In some cases, there
may even be benefits from being robbed. How can robbery be beneficial? It has
been suggested that by depleting
the nectar supply of a flower it stimulates subsequent visitors to travel a
greater distance before they visit another flower. This would increase the
frequency of outbreeding by reducing the likelihood of self-fertilization. Self-fertilization
can occur when a bee carries pollen to another flower on the same plant – self-fertilization can
result in offspring with lower genetic fitness.
Mutualistic
relationships, like that of plants and their pollinators, can be sensitive to
cheating. The only way plants have of responding to a cheater is through
evolution or behavioral change. If nectar robbing were really damaging to a
plant, then plants that could reduce or prevent this behavior would be at an advantage.
They would produce more offspring than plants that experienced more robbery and
these offspring would be more resistant to robbing. Remember that a plant-pollinator
relationship is not isolated, it exists in a complex web of relationships.
There are many kinds of bees and flowers in an ecological community and each of
them interacts, directly or indirectly, with all the others. As long as there
are smaller bees around to pollinate a flower, it may not matter that Carpenter
Bees steal nectar. But if the only pollinator present was a Carpenter Bee, the long-term
presence of the plant would be in doubt. This discussion of nectar robbery in Wikipedia shows
how complex such an apparently simple behavior can be.” Thanks, Dale!
SUMMARY OF OBSERVED SPECIES
Oregano Origanum vulgare
Bumblebee Bombus sp.
Chamber Bitters Phyllanthus urinaria
Creeping Charlie, Ground Ivy Glechoma hederacea
Plumeria, Frangipani Plumeria sp.
Asparagus Asparagus officinalis
Lawn Pennywort Hydrocotyle bowlesioides
Zinnia Zinnia elegans
Versute Sharpshooter Leafhopper Graphocephala versuta
Ocola Skipper Panoquina ocola
Coreopsis, Tickseed Coreopsis sp.
Black-eyed Susan Rudbeckia hirta
Long-tailed Skipper Urbanus proteus
Fiery Skipper Hylephila phyleus
Lantana Lantana camara cultivar
Transverse-banded Flower Fly Eristalis transversa
Carpenter-mimic Leafcutter Bee Megachile xylocopoides
Fennel Foeniculum vulgare
Large Milkweed Bug Oncopeltus fasciatus
Ailanthus Webworm Moth Atteva aurea
Job's Tears Coix lacryma-jobi
Hydrangea Hydrangea sp.
Blue-green Bottle Fly Lucilia coeruleiviridis
Salvia cultivar 'Heatwave Blaze' Salvia microphylla
Common Eastern Bumble Bee Bombus impatiens
Eastern Carpenter Bee Xylocopa virginica
Carpenter-mimic Leaf Cutter Bee Megachile xylocopoides