Newsletter

Volume26,Numbe

M _ ■ ■

Milwaukee Public Museum Hosts
Butterflies ALIVE Exhibit

1VS

bright
clothing.

Speak in
whispers .

Stand as still as you can.

And then — enjoy the magic.

Live butterflies have
returned to the Milwaukee
Public Museum.

“The Pueliche r
Foundation presents
Butterjlies ALIVE!” opened
July 10 and runs through
Jan. 2, 2000 in the

Museum's second floor
Steigleder Special Exhibits
Gallery. Created by
Museum staff, the exhibit
debuted in 1997, attracting
an unprecedented number
of visitors during its five-month run.

People of all ages are awed as
they stand amidst hundreds of live
butterflies flying freely in the
exhibit's 1 ,000-square-foot garden,
complete with flowering plants and a
waterfall. This environment offers
the opportunity for visitors to see
butterflies sip nectar from plants
and lay eggs. Twenty-five species of
butterflies native to Wisconsin and
North America are featured. Two
transformation stations in the
garden allow visitors to see
butterflies emerge from the chrysalis
right before their eyes.

The butterfly garden offers a
tranquil setting with a circular path
around a colorful flowerbed and

waterfall where hundreds
of butterflies fly freely.
Many of the butterflies will
land on the heads,
shoulders, arms, and
backs of visitors. That
“personal” butterfly
experience generates great
enthusiasm, according to
Susan Borkin, curator of
Lepidoptera and project
coordinator of the exhibit.

“ These delicate
trisects, all weighing less
than l/50th of an ounce,
clearly take the spotlight
and create the magical
atmosphere,” Borkin said.
“ Adults and children will
stand with outstretched
arms, hoping to entice a
butterfly to land on them. That
experience for many is the highlight
of the visit.”

The visitor’s “personal" butterfly
experience is intended to serve as
the catalyst to learn more about
butterflies and moths, according to
Borkin. Eight educational stations,
designed with colorful graphics and
easy-to-read interpretive text panels,
circle the rest of the 7,000-square-
foot gallery.

Visitors will learn that
butterflies taste with their feet and
that a butterfly’s skeleton is on the
outside of its body. Hands-on
interactive stations outline the

Please see BUTTERFLIES, Page 2

WES Annual Meeting
to be held at the
Milwaukee Public
Museum

T he next meeting of the
Wisconsin Entomological
Society will be held on Saturday,
Nov. 13, 1999 at the Milwaukee
Public Museum (map and direc-
tions appear on page 8). The
meeting will begin at 1:30 p.m,, in
the ground floor Education Lab
(signs will be posted). WES
members will need to register at
the Security Desk before pro-
ceeding to the lab.

The main focus of this meeting
will be a guided tour through the
Butterflies ALIVE Exhibit. The
program will also feature our
annual photo salon. Any
members having slides of
entomological subjects are
encouraged to participate. Each
entrant may submit up to five
slides, labeled with the subject
and name of photographer. The
slides will be evaluated by the
audience, which will vote to select
the winning entries. The winner’s
name will be added to the William
E. Sieker Memorial Plaque, and a
print of the first place slide is
added to the display in the
Entomology Department office,
and is also awarded to the
photographer. Short pres-
entations are scheduled.

Also on the agenda is the
election of officers for 2000.
Nominations are welcome, and
can be made at the meeting. W

The Wisconsin Entomological Society Newsletter is published three times a year, at irregular intervals. It is provided to encourage
and facilitate the exchange of information by the membership, and to keep the members informed of the activities of the organization.
Members are strongly encouraged to contribute items for inclusion in the newsletter. Please send all news items, notes, new or
interesting insect records, season summaries, and research requests to the editor:

Janice Stiefel, W631 1 Mullet Lane, Plymouth, WI 53073. e-mail: jstiefel@excel.net
NOTE: Please report any address changes to Les Ferge, 7119 Hubbard Ave., Middleton. WI 53562. e-mail: ferge@chorus.net

Wisconsin Entomological Society Newsletter — November 1999

BUTTERFLIES, from Page 1

difference between butterflies and
moths and help visitors better
understand the impact these
animals have on biological diversity.
For example, learn that 50 to 90% of
a butterfly or moth’s offspring will
not survive to become adults.
Instead, they will become an integral
part of the food web, fueling many
other species’s survival.

The return of “Butterflies
ALIVE!" provides the Museum staff
the opportunity to build on the
earlier success of the exhibit in
preparation for the Museum’s
permanent butterfly wing, scheduled
to open in spring of 2000. William
Moynihan, president of the Museum
stated, “The exhibit is intended to
educate and increase sensitivity to
the natural world we live in" &

1999 Bees PJotice

Several of our members are
past due in their annual dues
payment for membership in WES.
To determine your status, please
check the address label on this
newsletter. Appearing after your
name will be the last year dues were
paid and your membership category:

Individual ($5/yr.), Family ($10/yr.),
Sustaining ($15/yr.), or Patron
($25fyr.)

Dues are to be sent to
treasurer, Tom Rocheleau, 3100
Buena Vista St., Madison, WI 53704.
Be sure to notify us of any address
changes or corrections.

Butterjly sketches on Pages 1 and 5
are by artist and naturalist,
Therese Randall of Greenbush, WI.

Reqtmest fioar IMcDmmttoiiJis
Crickets, ESsitydids and Cicadas

by Karl Legler

I am gathering information on the distribution
and abundance in Wisconsin of various
species of Crickets, Katydids and Cicadas. I
would like to hear from anyone who has a
private collection (or observational
records) that contain any of the species
listed below. I am interested in the
COUNTY where the species was collected (or observed)
and, if possible, the date of collection. I am also
Interested in corresponding with anyone who is
especially interested in these three groups of insects.

Bush Katydids (PHANEROPTERINAE) : AMBLYCORYPHA
oblongifolia, rotundifolia; MICROCENTRUM rhombifolium;
SCUDDERIA curvicauda, septentrionalis, texensis.

Cone-headed Katvkids fCOPIPHORINAE): NEOCONOCEPHALUS
robustus, lyristes.

Meadow Katydids ( CONOCEPHALINAE) : ORCHELIMUM
campestre, concinnum, delicatum, nigripes, volantum;
CONOCEPHALUS attenuatus, nemoralis, strictus.

Northern True Katydid: PTEROPHYLLA camellifolia.

Field Crickets (GRYLLINAE): GRYLLUS pennsylvanicus, veletis.

Ground Crickets (NEMOBIINAE) : ALLONEMOBIUS allardi,
griseur, maculatus; NEONEMOBIUS palustris.

Tree Crickets (OECANTHINAE): OECANTHUS niveus, quadri-
punctatus, argentinus.

Bush Crickets ( TR1GONIDIINAE ) : ANAXIPHA exigua.

Cicadas (HOMOPTERA: CICADIDAE): ALL cicadas (except
TIBICEN canicularis).

Karl Legler, 429 Franklin St., Sauk City, WI 53583
Phone: (608) 643-4926 e-mail: karlndot@bankpds.com
Photos: Janice Stiefel, Sheboygan County. WI (9/13/94)

Female Tree
Cricket

Male Tree
Cricket

Page 2

To tflne Editor:

I read the June WES
Newsletter from cover to cover and
delight in its crisp new format.
There's even a quotation from H.D.
Thoreau which, like so much of
his writing, is perfectly apropos
today. I'm also motivated to write
by the two articles concerning the
Multi-colored Asian Lady Beetle.
Both Phil Pellitteri and you wrote
that this animal is harmless. I
disagree: I believe it is harmful

hereabouts. This species is not
native to eastern North America,
though many other species of lady
beetles are native here. This
species feeds on aphids and scale
insects, many of which are native
here. Given the astonishing
abundance of the Multi-colored
Asian Lady Beetle, It seems
probable that some native aphid
or scale species may disappear,
that some parasitoids using these
aphids or scale species may dis-
appear, and that some native lady
beetles that would have fed upon
these aphids and scales may also
disappear. Locally, our ecosystems
are already burdened with the
common Seven-spotted Lady
Beetle, another large alien
predator.

Both of these alien species
were introduced by economic ento-
mologists, who generally fail to
look beyond the immediate short-
term affects to their target crop
pest. I think the time has come to
value the conservation of bio-
diversity of native organisms much
more highly than we have in the
past.

To paraphrase your H.D.
Thoreau quotation: “These native
species, living here in concert,
present the greatest of God's gifts
seen from this vantage point, and
the influence of introduced alien
taxa is usually caustic. Though
God may have pronounced His
work good, we are shamelessly
dismantling it as we homogenize
Earth's fauna and flora.”

Sincerely,
Andrew H. Williams
Fellow in the Entomology Dept.
University of Wisconsin — Madison

Wisconsin Entomological Societu Newsletter — November 1999

Page 3

M t was a very warm, sunny
IH j|I day and my Job was to
IssfcBj send the rocks I had just
washed, along with mortar, up to my
husband who was positioned on the
roof of our Door County building
project. He was constructing the
masonry on the Anal 5 ft. of the
outside wall on our fleldstone
fireplace. This was not the most
exciting job I’ve had in my life — but
that was about to change...

We have observed that butter-
flies like wet rocks and are drawn to
them like magnets. Obviously, they
are seeking the minerals and
moisture that the rocks contain.
We’ve had White Admirals, Red
Admirals, Mourning Cloaks, Pearl
Crescents, Meadow Fritillaries, Great
Spangled Fritillaries, Gray Commas,
Question Marks, and occasionally a
Monarch, visit our wet rock pile. We
don’t need a butterfly garden, we
have rocks ! On the 18th of
September (1998), around 1 o’clock
in the afternoon, an unusual, striking
butterfly was fluttering around the
rock pile. It didn’t match any of the
pictures in my butterfly books but it
came closest to the description of a
Common Buckeye — shades of tan,
prominent eye spot along the margin
of both forewing and hindwing, and
two orange bars (outlined in black
lines) at the top edge of the forewing.
It lacked the bright cream patches on
the forewing that are shown in most
butterfly books. On this one the
patches were quite subdued and
almost unnoticeable. The Common
Buckeye Is migratory and somewhat
rare in our part of the country, being
much more prevalent in the southern
states and the tropics. When it does

appear in Wisconsin, especially Door
County, It would probably be in the
autumn. There are some fifty species
of Buckeyes throughout the world;
only one of them is found in North
America.

Courtship on the
Rocks!

by Janice Stiejel

...To continue... this butterfly
took a position on one of the rocks
and just sat there. Within a few
minutes another butterfly appeared,
very similar, with bright cream
patches on its forewing (matching
the description of the Buckeye in my
books), then another one arrived,
and another. Now there were three
Buckeyes with bright cream patches
and one without the cream. It was
quite obvious that the one without
the cream patches was the female
and the other three were males. The
three males positioned themselves in
equal distances from the female
(about 6 in.). As soon as one tried to
get closer to her, the other two
would attack him and the three
males would fly off in a “dog fight” to
settle their dispute In the air. In a
few seconds they would be back,
completely encircling her again, at
equal distances. This courtship went
on for three hours . All she ever did
was flick her wings slightly, which
sent the males into a frenzy, but she
did not move from her position
during all that time. The guys were
continually fighting or encircling her .
Finally at 4 o’clock, with no mating
taking place, she flew
away — leaving the
males. It looked like
they said, “She's
gone t What
happened ?” After a
few minutes, when
she didn’t return,
they left. I never saw
them again.

As I was
observing this court-
ship, which I will
probably only see
once In my lifetime, I
recalled something

my mother told me many years ago.
She had a girl friend who was so
beautiful that the guys went crazy
over her. They fought over her
continuously, so much so that she
never had one real boyfriend . This
went on for several years, until she
was so disgusted with men that she
wanted nothing to do with them.
Ultimately, she never married. I
remembered this true story, when
the female Buckeye flew away, leaving
the males to fight among themselves.

During this three-hour court-
ship, my husband was patiently
waiting for me to send rocks and
mortar up to him on the roof. I did
manage to sneak these materials to
him by a much longer route— around
the butterflies. It’s fortunate that my
labor comes cheap, because he
certainly had grounds to fire me for
lack of attention to my work,
incompetence, and just laying down
on the job. &

© 1 998 Janice Sttefel

^BUG BYTES... ^

f / Backyard and field
observations,

information

if S==! \ interes t

From: Ann Shebesta
Mishicot, WI

I thought I would tell you about a
web site that may be worthy of the
WES’s attention. The web site
address is:

http ;//www. learner , org/J north
This is my favorite web site because
I’ve been following it all spring. It is
an organization that tracks the
migration of the Monarch Butterflies
as they move north (and south) each
season. It is updated each week as
they are migrating. This site also
tracks hummingbirds, robins,
whales, etc. I hope the Wisconsin
Entomological Society enjoys this fun
technological wonder.

For inclusion in the next BUG BYTES
column, please send field observations or
notes to the editor,

Male Common Buckeye (9/18/98) Photo: Janice Stiejel

Wisconsin Entomological Society Newsletter — November 1999

Phil Pellitteri

E arwigs have large, pincers-
like protrusions at the
rear of the body, which
give them an evil appearance, but
they don't harm people directly. Still,
they can cause people problems by
feeding on flowers and vegetables
outdoors, by crawling into the home,
and by congregating under well caps.

The first American report of a
European Earwig ( Forftcula
auricularia) came from Newport,
Rhode Island in 1901. Until 1982
European Earwig reports in
Wisconsin were limited to the Lake
Michigan shoreline.

But in the years since, earwig
infestations have spread fast across
Wisconsin. The name "earwig"
derives from a false European
superstition according to which
these insects enter the ears of
sleeping people and bore into the
brain. In fact, earwigs rarely
bite — usually when sat upon or
handled — and their bite is only
mildly painful.

Identification and Life Cycle
Adult European Earwigs are reddish
brown and about 3 A inch long. Their
most distinctive feature is the
prominent, pincers-like cerci
(pronounced "sir-see") on the end of
the abdomen. Earwigs use their cerci
for defense, capturing prey, and
sensing the environment. The cerci
can pinch you if you stick a finger
between them, but they can't break
the skin. Male earwigs have curved
cerci that are thicker at the base,
while females have thin, straight
cerci. In Wisconsin, pairs of earwigs
overwinter by digging 2-3 inches into
the soil to hibernate. Sometime
during the winter or early spring the
female lays 25-30 eggs. Males leave
the hibernation sites first, and the
females follow in late May. You may
see your first earwig of the summer
by mid-June. In some parts of the
country the females enter the soil
again to deposit a second set of eggs,
but Wisconsin earwigs most likely
produce just one generation per

European Earwig Photo: Janice Stlefel

year. Unusually wet springs and
summers often intensify earwig
infestations.

Earwigs eat an omnivorous diet
of other insects and plants. This diet
can be beneficial: earwigs feed on
aphids, mites, fleas, and insect eggs.
Unfortunately, in gardens they
munch on dahlias, marigolds,
lettuce, potatoes, and hostas. They
will also feed on mosses, lichens,
and algae. Earwigs are active at night
and hide during the day in almost
any dark, confined space,
particularly if it is moist.

Female earwigs exhibit an
instinct that is very rare among
insects: they care for eggs and young.
The females turn, lick, and
reposition their eggs. They also bring
food to the newly hatched young and
protect them in the nest. It takes
about 2 months for nymphs to
mature. Earwigs' nocturnal activity,
quick movements, size, and color
often cause them to be mistaken for
cockroaches. Although, like some
cockroaches, earwigs have wings,
they fly very badly. Earwigs spread
largely by infested plant material, cut
flowers, and other human activities.

Earwig Problems
The earwigs' habit of hiding leads
them into trouble with people. They
often come indoors to hide, or they

Page 4

conceal themselves under outdoor
furniture, hoses, garbage cans, or
poor-fitting well caps. They do not
breed indoors but simply hide, then
become active at night.

Well Problems

Loose-fitting well caps provide an
ideal hiding place for earwigs: dark
and damp during the day. Once
inside a well cap, an earwig may fall
into the water, die, and decay,
thereby increasing bacterial
contamination of the well. Earwigs
are not considered a public health
threat and are not associated with
any disease; nevertheless, you
should replace poor-fitting well caps
with vermin-proof caps to prevent
any insects from contaminating the
water.

Plant Damage

Earwigs eat small holes in plant
leaves during the night. Earwig
damage often appears small
compared to the large pest
populations present, and it can be
confused with injuries caused by
slugs, cutworms, or even rabbits.
Larger plants will tolerate the
feeding, but seedlings and flowering
plants can be severely damaged or
killed by dense populations.

You should suspect earwig
problems if you find damage during
the day but can’t find any insects on
the plants. Confirm the presence of
earwigs by checking the plants at
night, or by looking for them
congregated under boards, firewood,
or tree bark next to your plants.

Control

Earwigs congregate in areas that are
shaded or filled with lush plant
material, boards, debris, or organic
mulch. Exposed, sunny yards have
fewer problems. Two species of
parasitic fly, including Dtgontchaeta
setipennis , have been introduced to
help control earwigs naturally. In
good years these parasites attack
and kill over Vh of the earwig
population.

You can trap earwigs in rolled
up newspapers or in old tuna fish
cans baited with fish oil or vegetable
oil. Place traps near the problem
areas and check them each morning.

Please see EARWIGS, Page 5

Wisconsin Entomological Societu Newsletter — November 1999

Page 5

EARWIGS, from Page 4

Shake live insects into a pail of
soapy water to kill them. Converting
the backyard to a dry, sunny
environment with few hiding places
will also help control earwigs. Re-
move any shelter sites, prune low-
growing bushes, avoid growing the
earwigs' favored food plants, and
destroy moss and algae. Avoid over-
watering and don't use thick organic
mulches.

Chemical

A variety of insecticides available to
homeowners are labeled for earwig
control. You can use the following
materials as baits, liquid sprays,
granules, or dust: diazinon, carbaryl
(Sevin), chlorpyrifos (Dursban), and
propoxur (Baygon). Read the label to
determine the proper sites and
vegetable restrictions. Applying
insecticides to the daytime hiding
places will give more successful
control. Insecticide applications
made late in the day are most
effective. Wettable powders and
granular formulations perform
better. A common recommendation
is to apply insecticides as a barrier
treatment. Sprays or dust are
applied to the exterior foundation
walls and a 2-3 foot swath along the
adjacent ground. Flower beds and
mulches can also be treated. Many
lawn insecticides could be used on
grass, but that would be an extreme
response to this problem.

Indoor

If earwigs are getting into your home,
caulk cracks and crevices and
weather-strip doors to prevent their
entry. Check windows, the Junction of
the siding with the foundation, and
all outdoor water faucets for openings
that earwigs can squeeze through.
Remove firewood, unneeded plant material,
and organic mulches from the
foundation area. Create a clean, dry
border along the foundation and
consider replacing wood chips or
bark mulch with stones or other
material that will be less attractive to
earwigs. Clear debris and leaves
from the troughs of eaves. W

Phil Is president of WES and District
Outreach Specialist at the Insect
Diagnostic Lab, V. W. Madison, Dept, of
Entomology.

Swallowtail Tale...

A Summer Play in Three Acts

by Pat Seawell

Act I

Few things are as rewarding as
sharing nature’s wonders with
children. With that thought in
mind, I planted Trailing Lantana
and Parsley in the narrow space
between the sidewalk and the curb
in front of my San Antonio home.

Act III

Ding-dong!

Philip: “Mrs. Seawell, Avenger

has eaten almost all the parsley
you gave me yesterday, may I
have some more, please?"

Husband: “ Pat-teeee , what’s going Ding-dong!

on mourfront yard? Every time I - M rs. Seawell. guess what?

look out there are kids I ve never w J ercolor has madeachrysaltsr
seen before squatting around that 9

plantl" Ding-dong!

Me: “ Mmmmm , word travels fast
in this neighborhood 1 My lab
project is working even better
than I thought it would! This
morning I showed the Eastern
Black Swallowtail eggs to my ten-
year-old neighbor, Theo. By
evening, every child in the
neighborhood has been by to peer
at them, ”

ActU

Because of previous experiences
with wasps, assassin bugs, anoles,
and fire ants, 1 make a “ protective
custody cage ” for Theo’s baby
caterpillar. I showed him how to
keep the Parsley fresh. He sets up
his project on his living room
coffee table. Seven-year-old Philip
wants a pet. His nine-year-old
sister, Amy, wants a pet. They
bring their mom over. We discuss
the responsibilities involved in
raising a pet caterpillar.

Me: u No, you won’t have to make
emergency trips to the super-
market like I did last year. I’ve
planted enough parsley for the
whole neighborhood." I make
another protective custody cage.
Philip and Amy are ecstatic.

Theo's mom: “Pat, guess what?
Theo's butterfly came out of the
chrysalis this morning! We put it
on a bush like you said and in a
few minutes tt flew away. It was
so exciting! Thank you for doing
this! We’re all enjoying it!"

Ding-dong!

Philip & Amy's dad: “We

appreciate what you're doing for
our children. They’re learning so
much. We never thought to do
anything like this. Actually,
Katherine and I are learning a lot,
also!”

Ding-dong!

Theo*s dad: “ Theo and Philip

both had butterflies this morning !
We had a double launch! And I got
it all on video!”

Husband (in an aside to me):
"When is this project scheduled to
end?”

Me: 7 thought they'd be bored
with it after the first caterptllar. ”

Husband: " How many launches
have YOU had so far this
summer? Twenty-six? Twenty-
eight?”

Me: "Mmmmm, I suppose I’d

better plant some more parsley!”

Pat is a WES member residing in San Antonio, TX. By planting native shrubs and
grasses, she is attracting an astonishing variety of moths and butterflies to the
" wilderness ” of her suburban backyard. A retired high school English teacher, she
reads, writes books for children, and watches caterpillars graze.

Wisconsin Entomological Societu Newsletter — November 1999

Page 6

, . here is no better place I

v ^know to find Humming-
bird Moths { Hermarts
thysbe ) than a several-
acre tail-grass prairie remnant in
Racine County. There, Hummingbird
Moths are often seen nectaring on
Field Thistle and Blazing Stars and
their favorite flower, Wild Bergamot.
On the last weekend in July 1997,
when the bergamot was in peak
bloom, I headed out to see the
moths.

The largest clump of
Wild Bergamot on this
prairie measures about
four by five feet. For
many years, I have
watched day-flying
Hummingbird Moths
nectar on this plant
between the hours of
1 1 :00 a.m. and 4:00 p.m.

Today, just before noon,
two moths, flashing
iridescent green in the
summer sun, fly past me
and begin to nectar on
the flowers. As I
approach, one of them
flies off. The other
remains, hovering over
flower spurs, sipping
nectar.

A spider web,
connecting the
undersides of two heads
of the tubular lavender flowers,
catches my eye. In a corner of the
web, not two inches in from the
flowers, a large Cross Spider
(Araneus diadematus) waits. As the
moth nectars above, gettting closer
to the flower above the spider’s web,
the spider moves towards the moth.
At the outermost tubular flower, the
moth hovers within two inches of the
spider. In a flash, the moth
drops — the large spider appears to
have jumped out and grabbed it. In a
fraction of a second, the spider is
back on its web, wrapping the moth
in spirals of silk.

As usual, I’ve forgotten a
camera. But I have brought my
sketchbook and I quickly sketch the
spider at work. Several days later,
while looking at my sketch and
reading over my field notes, I start to
think about what I’ve seen. An orb-
weaving spider, like the Cross

Spider, responds only to vibrations
on its web. The moth was not on the
spider’s web. How, then, did the
spider catch its prey? I call Joan
Jass at the Milwaukee Public
Museum and explain what I’ve seen.
Joan confirms that orb-weaving
spiders cannot find prey unless it is
touching their web. She asks me
what I think happened.

Me? I’m neither spider nor moth
expert. I’m merely an observer. But I

aim

Catena a Myflnag Moth?

by Babette Kis

Sketch: Babette Kis

describe what I have seen and Joan
and I come up with this possible
explanation. Although the wings of a
flying moth give off appetizing
vibrations to a spider, an orb-
weaving spider only responds to
these vibrations when they are
transmitted through its web. To the
best of my recollection, the moth was
not touching the spider’s web when
it was caught. However, one of the
moth’s legs could have brushed the
web, triggering the spider’s response.

It may have been this way, but
the moth showed no distress or
erratic flight prior to being caught. Is
there a way that the spider could
have caught the moth if the moth
didn’t touch its web? With Joan’s
encouragement, I go through what I
have seen again, this time focusing
on how the vibrations of the moth
could have been transmitted to the
web without the moth actually

touching the web. The spider’s web
was intertwined between flowers the
moth nectar ed on just before it was
caught. While the moth nectared, the
vibrations from its wings were
carried through its proboscis, into
the nectar in the flower. The
vibrations passed through the walls
of the flower to the web. Could the
spider have felt the direction and
intensity of the vibrations through
the web? Feeling these vibrations,

could the spider then

have reached out and
grabbed the moth as it
hovered within a fraction
of an inch of its web?

The whole episode of
a spider “jumping out” to
catch a moth seems
somehow familiar to me.
I pester my ever-patient
husband to drag boxes of
my old field notes out of
the attic. After many
evenings of reading
through them, I find this
old journal entry:

“Sunny, about 80,
no wind. A few cumulus
clouds. Saw four
Hummingbird and three
Bumblebee Moths. There
is a European (Cross)
Spider in a web under
the wild pink mints (Wild
Bergamot). I was very
close, and a Hummingbird Moth
came and sipped nectar just over the
spider. The spider jumped out and
caught the moth. I hit the spider’s
web. The moth fell to the ground,
then it flew off. How did it (the
spider) know about the moth being
there? How can a European spider
catch a flying moth? I never saw
these spiders catch anything that
didn’t get caught in Its (their) web
until now." — August 1963

Where did I make my August
1963 childhood observation? At the
same place I saw the Cross Spider
catch the Hummingbird Moth in July
1997. W

Babette ts a wife and mother of three
children, full-time project architect at
the City of Milwaukee, part-time
naturalist, writer, artist, and former
sctence teacher. She has written notes
and made sketches of her field
observations from the time she was
eight years old.

Wisconsin Entomological Society Newsletter — November 1999 Page 7

1999 MEMBERSHIP

BALOGH

GEORGE

1999-1

6275 LITEOLIER

PORTAGE

Ml

49002

BARINA

TOM

1999-1

15050 VERA CRUZ

NEW BERLIN

Wl

53151

BEHNKE

CHARLES

1998-1

2760 S HERMAN ST

MILWAUKEE

Wl

53207-2239

BELLIN

DEENA

1999-1

1372 DENEYS PL

GREEN BAY

Wl

54303

BENJAMIN

DANIEL

1999-S

1656 CHADWELL DR

SANTA MARIA

CA

93454-3400

BOLLES

J CRAIG

1997-1

3934 MANITOU WAY

MADISON

Wl

53711

BORKIN

SUSAN S

1999-1

2119 E WOOD PL

SHOREWOOD

Wl

53211

BORTH

ROBERT

1999-1

6926 N BELMONT LN

FOX POINT

Wl

53217

BOSSERT

FREDERICK

1997-1

3392 SILVER LAKE DR

WEST BEND

Wl

53095

BOYER

DOROTHY

1999-1

1969 LAKEFIELD RD

CEDARBURG

Wl

53012-9110

BRUST

MATHEW

1999-1

1717 E KANE PL APT 22

MILWAUKEE

Wl

53202

BRYANT

ROBERT

1999-1

522 OLD ORCHARD RD

BALTIMORE

MD

21229

BUCHLI

BYRON

1999-F

3055 FADNESS RD

DEERFIELD

Wl

53531

BUSLAFF

JOY

1999-1

S89 W22630 MILWAUKEE AVE

BIG BEND

Wl

53103

CARPENTER

ANITA

1999-1

304A SCOTT AVE

OSHKOSH

Wl

54901

CONWAY

PATRICK

1998-1

17053 N 290TH AVE

GALVA

IL

61434

COPPEL

HARRY

1999-1

5025 SHEBOYGAN AVE APT 212

MADISON

Wl

53705-2815

DAUB

ED

1999-1

4258 MANITOU WAY

MADISON

Wl

53711

DERNEHL

NANCY

1998-1

UW-WAUKESHA

1500 UNIVERSITY DR

WAUKESHA

Wl

53188

DICKE

ROBERT

2001-1

3717 COUNCIL CREST

MADISON

Wl

53711

Dim

TIMOTHY

1999-1

1721 BOB-O-LINKCT

WISCONSIN RAPIDS

Wl

54494

DRECKTRAH

GENE

1999-S

BIOLOGY DEPT

UW - OSHKOSH

OSHKOSH

Wl

54901

DUNFORD

JIM

1999-1

3143 MAPLE VALLEY DR APT 112

MADISON

Wl

53719-3164

EBNER

JIM

1999-S

N57W34476 NICKELS POINT RD

OKAUCHEE

Wl

53066-2538

EVANS

MARK

1998-1

217 ISLAND DR

MADISON

Wl

53705

FAMILY

CHAUDOIR

1999-F

N3856 LOSS RD

WEYAUWEGA

Wl

54983

FERGE

LES & CAROL

1999-F

71 19 HUBBARD AVE

MIDDLETON

Wl

53562

GRIMEK

HERBERT

1999-1

1101 TEMKIN AVE

MADISON

Wl

53705

GRIMSTAD

PAUL

1997-1

UNIV OF NOTRE DAME

DEPT BIOLOGICAL SCI

NOTRE DAME

IN

46556-0369

HAINZE

JOHN

1999-1

4747 N LAKE DR

MILWAUKEE

Wl

53211-1257

HANSEN

DEAN

1999-1

402 SOUTH 6TH ST

STILLWATER

MN

55082

HEMPEL

JOHN C.

2000-1

3007 COLTMAN LN

EAU CLAIRE

Wl

54701-7589

HENDERSON

RICH & KATHY

1999-F

2845 TIMBER LN

VERONA

Wl

53593

HILSENHOFF

WILLIAM

1998-1

DEPT OF ENTOMOLOGY

1630 LINDEN DR

MADISON

Wl

53706

HOFFMAN

RANDY

1999-1

305 5TH ST

WAUNAKEE

Wl

53597

HOGG

DAVID & SUSAN

1996-S

DEPT OF ENTOMOLOGY

1630 LINDEN DR

MADISON

Wl

53706

JAVOREK

JEFF

1999-1

886 S COUNTY ROAD X

MOSINEE

Wl

54455

KAISER

KURTR

1997-F

CHERYL L BARRETT

1320 W WASHINGTON

CLEVELAND

Wl

53015-1429

KHITSUN

ANDREY

1999-1

409 EAU CLAIRE AVE APT 207

MADISON

Wl

53705-2846

KIRK

KATHRYN

1999-1

DNR - ENDANGERED RESOURCES

PO BOX 7921

MADISON

Wl

53707

KLEIN

MICHAEL

1996-P

1520 SILVER RD

WOOSTER

OH

44691

KMENTT

WALDEMAR

1999-S

4330 E WOOD TR

BELOrT

Wl

53511-7828

KRUSE

JAMES

1999-1

1305 SOLANO AVE APTB

ALBANY

CA

94706-1845

KUGLER JR

WALTER M

2002-1

525 PIPER DR

MADISON

Wl

53711

LEARY

ROBERT

1999-1

612 S WESTFIELD ST

OSHKOSH

Wl

54901-5540

LEGLER

KARL

1999-1

429 FRANKLIN ST

SAUK CITY

Wl

53583

LEVIN

ANN

1999-1

3101 104TH ST

KENOSHA

Wl

53142

LIBRARY

REFERENCE

1999-1

MILWAUKEE PUBLIC MUSEUM

800 W WELLS ST

MILWAUKEE

Wl

53233

LILLIE

RICHARD A

1999-1

8609 SCHOEPP RD

SAUK CITY

Wl

53583

LINTEREUR

LEROY J

1998-1

1428 MARY ST

MARINETTE

Wl

54143

LUKES

ROY

1999-1

3962 HILLSIDE RD

EGG HARBOR

Wl

54209

MACARTHUR

KENNETH

1997 -S

15900 W MONTEREY DR

NEW BERLIN

Wl

53151

MARTIN

ROBERT

1999-1

1310 ORANGE ST

RACINE

Wl

53404-2932

MATZKE

CURTIS

1998-1

1817 WESLEY AVE

JANESVILLE

Wl

53545

MAXWELL

JUDI

1997-1

5834 BALSAM RD APT 3

MADISON

Wl

53711-4248

MERKHOFER

RICHARD

1999-S

39 PARKVIEW DR

APPLETON

Wl

54915

MERT1NS

JAMES

1999-1

3028 NORTHRIDGE PKWY

AMES

IA

50010

NIELSEN

MOGENS

1999-S

3415 OVERLEA DR

LANSING

Ml

48917

OTTO

LORRIE

1999-1

9701 N LAKE DR

MILWAUKEE

Wl

53217-6103

PARKINSON

JAMES C

1999-1

1951 JAMES ST

MOSINEE

Wl

54455

PEACOCK

JOHN W

1999-1

185 BENZLER LUST RD

MARION

OH

43302-8369

PELLfTTERI

PHIL

1999-1

DEPT OF ENTOMOLOGY

1630 LINDEN DR

MADISON

Wl

53706

PFUTZENREUTER

MARY A

1999-1

E2249 ROCKLEDGE RD

LUXEMBURG

Wl

54217-9702

PHELPS

LAURENCE

1998-S

6472 WILSON RD

ROCK SPRINGS

Wl

53961

RABE

MARY

1998-1

Ml NATURAL FEATURES INV

PO BOX 30444

LANSING

Ml

48909-7944

RADKE

DAVID

1999-P

1076 W MURRAY LN

HUBERTUS

Wl

53033

RANDALL

THERESE

2000-1

N6065 HILLTOP LN

GLENBEULAH

Wl

53023

ROCHELEAU

TOM & NINA

1999-F

DEPT OF ENTOMOLOGY

3100 BUENA VISTA

MADISON

Wl

53704

ROMEYN

RICHARD

1999-1

W5306 EMERALD CT

LACROSSE

Wl

54601

SCHABEL

HANS G

1997-1

COLL OF NATURAL RESOURCES

UNIV OF WISCONSIN

STEVENS POINT

Wl

54481-3897

SEAWELL

PAT

1999-1

1114 TRANQUIL TRAIL

SAN ANTONIO

TX

78232

SHEBESTA

ANN L.

1999-1

651 CHURCH ST

MISHICOT

Wl

54228-9618

SIEKER

KATHERINE T

1999-P

P 0 BOX 1032

MADISON

Wl

53701-1032

STIEFEL

JOHN & JANICE

1999-F

W6311 MULLET LA

PLYMOUTH

Wl

53073

SULLIVAN

RAYMOND

1999-1

125 N 123RD ST

MILWAUKEE

Wl

53226-3809

SWENGEL

ANN B & SCOTT

1999-F

909 BIRCH ST

BARABOO

Wl

53913

THRELFALL

ANNAM

2000-1

N3438 WOOD LAWN RD

KENNAN

Wl

54537-9476

TRICK

JOEL A

1999-1

351 CLEMENT ST #6

GREEN BAY

Wl

54302-6000

TURNBULL

JAY

1997-S

N1632 SUGARBUSH RD

ANT1GO

Wl

54409

VOGEL

THOMAS

1999-1

522 WISCONSIN AVE

KEWAUKEE

Wl

54216

WATERMOLEN

DREUX

1999-1

PO BOX 302

MADISON

Wl

53701-0302

WEISMAN

KEN

2000-1

2893 HUMBOLDT RD

GREEN BAY

Wl

54311-5746

WESTOVER

DAVE

1997-1

324B N. MONROE ST

WATERLOO

Wl

53594

WILLIAMS

ANDREW H

1999-F

413 COLUMBIA AVE

DEFOREST

Wl

53532

YOUNG

DR DANIEL K

1999-1

DEPT OF ENTOMOLOGY

1630 LINDEN DR

MADISON

Wl

53706

YOUNG

ALLEN M

1999-1

MILWAUKEE PUBLIC MUSEUM

800 W WELLS ST

MILWAUKEE

Wl

53233

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Wisconsin Entomological Societv Newsletter — November 1999

Page 8

DIRECTIONS

From North:

South on 1-43
Exit 1R (right)
Civic Ctr. / Wells St.
Weils St. to 8th St.

From South:

North on 1-94 / 1-43
Exit 1R (right)

Civic Ctr, / Kilbourn Ave.
Left on 6th St.

Left on State St.

Left on 7th St.

From West:

East on 1-94
Exit 1H (right)
Civic Ctr. / 7th St.
3 Blocks North on
7th St. to Wells St.