Tag Archives: 2015 Lab Highlights

Invasive Species, Moths, Odd Insects, Ornamental Pest, Outdoor Worms, Pollinators, Shrubs, Tree Insects, Uncategorized

Wisconsin’s Top Insect Trends of 2015 (#5 – #1)

February 2, 2016 pliesch

In this post, we’re continuing to count-down 2015’s top insect trends in the state. This is the final post in a three part series. Part I (2015’s diagnostic lab statistics) can be found here and Part II (Top Insect Trends Numbers 10-6) can be found here.

5) Pollinators
With all the headlines about bees, it’s not surprising to see pollinators in the top insect stories again in 2015. Similar to other years in the recent past, honeybees and other pollinators have been facing declines. Unfortunately, Wisconsin saw some of the highest honeybee losses in the country, with over 60% colony loss during the 2014-2015 period. Some good news over the past year has been the development and release of pollinator protection plans. A federal pollinator protection plan was released in May with the goals of reducing honeybee losses, increasing the population of Monarch butterflies, and increasing pollinator habitat. In addition, a Wisconsin pollinator protection plan was announced in 2015, and was just released in January of 2016. Due to the recent declines and their importance to agriculture in the state and nation, pollinators will continue to be in the spotlight in the future.

A ground nesting bee (Colletes sp.) near the stump of the former President's Oak on the UW-Madison campus. Photo Credit: PJ Liesch — A ground nesting bee near the stump of the former President’s Oak on the UW-Madison campus. Photo Credit: PJ Liesch

4) Spring caterpillars
An unexpected insect trend in the spring of 2015 was the surprising abundance of a number of caterpillar species feeding on plants in the landscape. Caterpillar species, such as the humped green fruitworm, speckled green fruitworm, eastern tent caterpillar, forest tent caterpillar, gypsy moth caterpillar, and the euonymous caterpillar are typically present to some extent, although their numbers have been low the past few years. For a number of potential reasons, these species had a great spring and during a period in May and June, caterpillars made up roughly 30% of the cases coming in to the diagnostic lab. Weather patterns (i.e., rainy weather) and natural predators/parasites/diseases can have significant impacts on caterpillar populations each year, so it’ll be interesting to see if we’re faced with a plethora of caterpillars again in 2016. Additional details of this story were featured in a blog post last June.

3) Viburnum Leaf Beetle
In terms of a new emerging pest with the potential to impact a commonly planted landscape shrub, Viburnum Leaf Beetle is near the top of the list. As of late 2014, we only knew of a single infested viburnum bush in northern Milwaukee County, which raised the question: is the infestation small enough to contain and/or eradicate? Some ground truthing this past spring identified many new infestations in SE Wisconsin, in many cases miles from the original site. At the moment, the viburnum leaf beetle seems to be centered around the four county area where Milwaukee, Waukesha, Washington, and Ozaukee counties meet. While this insect only feeds on viburnums (and related plants like Arrowwood), the damage can be significant. It may be some time before this pest spreads elsewhere in the state, but if you have viburnum plants in your yard in SE Wisconsin, be weary! Additional details of this case were featured in a post last June.

VLB Damage — “Skeletonizing” feeding damage from adult viburnum leaf beetles. Photo courtesy of Paul Weston, Cornell University, Bugwood.org

2) Brown Marmorated Stink Bug
Populations of the invasive Brown Marmorated Stink Bug increased dramatically in 2015 and this insect takes the overall #2 spot in this list (up from #8 last year). This invasive species was first spotted in the state in 2010, and each year a handful of lone adults have been found in Wisconsin. In the fall of 2015, we had more sightings of BMSB (30+), than in the past 5 years combined! (Spoiler: this trend has continued into early 2016) At this point, the “hot spots” in the state are: Dane County, the greater Milwaukee area, and the Fox River Valley. In addition to being an indoor nuisance pest, BMSB can also feed on and damage a wide variety of plants in home gardens, agricultural fields and orchards. In other places in the country, the first reports of plant damage have typically been noted ~3-5 years after the initial detection of this species. With that said, 2016 could be the year that BMSB really takes off and starts wreaking havoc for gardeners and agricultural growers alike. Additional details of this case can be found in this post from last October.

1) Magnolia Scale
While scale insects have already been mentioned in the “sucking insects” section (#9 on the list), one species in particular, the Magnolia scale (Neolecanium cornuparvum), seemed to stand out amongst all other insects in 2015. This species is often present in low numbers in the state, but the conditions must have been perfect for their populations to explode last year. During the months of June and July, reports of Magnolia scale were coming in on almost a daily basis. Being one of the unusual scale insects, Magnolia scale adults look more like a fungus than an insect (note the whitish blobs in the image below). Not only did this bizarre looking species pummel Magnolia shrubs and trees in many parts of the state, but the honeydew produced by these insects rained down below, attracting ants and yellowjackets and leading to the growth of unsightly black sooty mold. A number of predators, parasites, and diseases typically keep Magnolia scale in check, but with the extremely high infestations noted last year, it’s likely that we’ll continue to see some Magnolia scale activity into 2016. If you experienced magnolia scales first hand, there’s a helpful factsheet available here.

Magnolia twig coated with whitish, fuzzy magnolia scale adults.

Beetles, Biting Insects, Bugs, Invasive Species, Moths, Ornamental Pest, Tree Insects, Wasps and Bees

Wisconsin’s Top Insect Trends of 2015 (#10 – #6)

January 22, 2016 pliesch

What were Wisconsin’s top insect trends of 2015? In this post, we’ll look at the first half of our count-down.

This is the second post in a three part series. The first post of the series (2015’s diagnostic lab statistics) can be found here.

10) Mosquitoes and ticks:
Like most years, Wisconsin had a pretty good mosquito season. Overall, we were close to the average rainfall mark during much of the year, which meant the typical batch of mosquitoes starting after Memorial Day. In many parts of the state, mosquitoes were prevalent throughout June, July, and August. However, this is Wisconsin after all, and mosquitoes seem to be one pillar of summer culture along with beer, cookouts, and fishing. The silver lining of the mosquito story is the fact that West Nile Cases were low for the year, with only four confirmed human cases reported in the state in 2015.

While there wasn’t anything out of the ordinary with the mosquitoes last year, ticks seemed to have a particularly good year in the state. Deer ticks, which can vector Lyme disease can be found essentially statewide. From the standpoint of an emerging health threat, deer tick populations have exploded in the past few decades (our first deer tick wasn’t found in the state until the 1960’s). A recent nation-wide study found that deer ticks were found in nearly half of the counties in the U.S. One of the more alarming trends is urban encroachment. Historically, ticks seemed to be the type of creature you’d pick up if you were out hunting or hiking through the woods. In the recent past, we’ve noticed an increase of ticks found in more urban environments, such as parks and backyards. With roughly 40% of the adult ticks in Wisconsin carrying the microorganism responsible for Lyme Disease, this is an issue that will continue to exist in the state for years to come.

9) “Sucking Insects”
A certain group of insects (the Order Hemiptera) are sometimes known as the “sucking insects” because they possess tube-like mouthparts which are used by many species use to drink fluids from plants. Two of the members of this group, the aphids and the scale insects had a great year in 2015. When these insects feed on plants, a common sign is the presence of sticky, sugary honeydew, which attracts ants and yellowjackets, and can result in the growth of black sooty mold. Aphids and scale insects are common and typically present in low numbers, but the conditions must have been just right for their populations to thrive in 2015. As a result, there were many reports throughout the state of honeydew “raining” down from trees and shrubs onto vehicles, decks, outdoor furniture, and people below. If you felt “rain” on a sunny day last summer, the actual cause may have been honeydew dripping down from aphids or scales in the trees above!

Lecanium Scale — Lecanium scales producing sticky honeydew (clear droplets). Photo credit: Ronald S. Kelley, Vermont Department of Forests, Parks and Recreation, Bugwood.org

8) Long Lost Pests: Japanese Beetle and Gypsy Moth
Two of our best-known landscape pests, the Japanese Beetle and the Gypsy Moth had been very quiet in 2014, but resurfaced last year. Japanese beetles had been low across the state in 2014, likely due to the brutal winter of 2013-14 killing many of the soil-dwelling grubs. While we did see an increase in beetle activity in 2015 compared to 2014, their numbers still seemed low compared to the long term average. However, with a milder el Niño winter, it’s possible that we could see increased winter survival and higher Japanese beetle populations in 2016.

Gypsy Moth populations have been low the past few years in Wisconsin. Damp spring conditions can result in a fungal disease killing many of the caterpillars, which likely helped lessen populations in the recent past. It’s also not unusual for some long-term cyclic patterns to be involved with insect populations. For a number of potential reasons, Gypsy Moth populations seemed to rebound a bit in 2015, and many reports of sightings and damage came in to the diagnostic lab, particularly from the south central portion of the state (Dane, Rock, Walworth Counties). Because Gypsy Moth can be a destructive defoliator of hardwood trees, it’ll be good to keep an eye out for this one in 2016 to see if the populations continue to climb.

7) Emerald Ash Borer
This is our most destructive forest pest in the state, and unfortunately, there doesn’t seem to be anything capable of completely stopping this pest. While we didn’t see many additional counties added to the quarantine map in 2015, there were many municipalities that detected EAB for the first time. At the moment, 39 of the 72 Wisconsin counties are quarantined for EAB and this number will continue to increase over time. Like Dutch Elm Disease in the past, Emerald Ash Borer is changing and will continue to change the appearance of our urban forests and woodlands for years to come.

Adult emerald ash borer. Photo Credit: Howard Russell, Michigan State University

6) Spotted Wing Drosophila
This invasive pest first showed up in the state in 2010, and became a significant fruit pest almost immediately. Since its introduction, SWD has spread widely and can be found in most counties in Wisconsin. Very similar to 2014, SWD was detected in dozens of counties across the state. SWD can attack a wide variety of fruit, but due to the fact that this insect doesn’t seem to become active until July, the late-season raspberry and blackberry crops are hit the hardest. Luckily Wisconsin’s famous cranberry crop does not seem to be favored by this invasive pest.

Up Next, Part III: Wisconsin’s Top Insect Trends of 2015 (Numbers 5-1)

Bugs, Outdoor Insect Invaders, Pine Insects

Conifer Seed Bugs

October 21, 2015 pliesch

Since last week’s press release on the Brown Marmorated Stink Bug by the Wisconsin Department of Agriculture, Trade and Consumer Protection (DATCP) and my own blog post on this invasive pest, I’ve been getting many reports of this insect from Wisconsin residents. It’s always great to get reports from the community as it helps us keep track of this invasive pest.

Brown Marmorated Stink Bug ID — Identifying features of the Brown Marmorated Stink Bug; click for larger version. Photo Credit: PJ Liesch, UW-Entomology

Interestingly, there have also been many cases of an insect that somewhat resembles BMSB: the Western Conifer Seed Bug. Both insects try sneaking into buildings to look for shelter and possess “checkerboard” patterns at the back of the body. However, when you have the insects side by side, they can be easily separated. The western conifer seed bug is longer and more slender in appearance, has dull reddish and orange patches on the body, and has distinctly dilated hind legs (think “bell-bottoms”). In addition, these insects possess a unique zig-zag (“lightning bolt”) pattern on each wing, which can easily be seen with the naked eye as illustrated in the ID guide below.

Western Conifer Seed Bug-ID Guide_opt — Distinguishing features of the Brown Marmorated Stink Bug and Western Conifer Seed Bug; click for larger version. Photo Credit: PJ Liesch, UW-Entomology

While the western conifer seed bug can sneak into buildings in the fall, they tend to invade in relatively low numbers. This species feeds on the seed cones of pines and other conifers, but doesn’t seem to cause much (if any) harm to the trees. Overall, they can be a bit of a nuisance, but that’s about it, unlike BMSB, which can potentially damage many different types of plants.

Have western conifer seed bugs around the house and want to know more about their biology and management? Check out this handy factsheet from UW-Extension.

Bugs, Invasive Species, Ornamental Pest, Outdoor Insect Invaders

Why Such a Stink About a Bug?

October 15, 2015 pliesch

Every fall, residents throughout Wisconsin and many other parts of the country face an invasion by a number of insects: boxelder bugs, multicolored Asian lady beetles, western conifer seed bugs and cluster flies, to name a few. With the coming frosts, these insects are simply trying to find a sheltered location to settle for the winter. Out in nature, many of these insects would simply crawl into a rock pile or beneath the loose bark of a dead tree to overwinter.

MALB Overwintering_opt — Multicolored Asian Lady Beetles often spend the winter in sheltered spots, such as beneath the bark of dead trees. However, they can just as easily sneak into buildings. Photo Credit: PJ Liesch, UW-Entomology

But why rough it out in nature if there are perfectly good buildings to sneak in to? Next time you’re cleaning the gutters, take a moment to peek around the outside of your house. Small gaps in siding, soffit areas, around door and window frames, and cracks in the foundation are all potential spots for insects to sneak through. And if they make it through? Well, you could be in for some extended visitors. . .

In addition to the usual fall invaders, a relative newcomer starting to pop up in Wisconsin and other parts of the Midwest is the invasive Brown Marmorated Stink Bug (Halyomorpha halys). Like the boxelder bugs and multicolored Asian lady beetles, brown marmorated stink bugs (BMSB) like to find their way indoors for the winter. This Asian species was first detected in Wisconsin back in 2010 and for reasons we don’t fully understand, their numbers have been quite low the past few years. As of late 2014, BMSB has been confirmed or suspected in 10 Wisconsin counties, with most of the reports coming out of the Madison and Milwaukee area. A handful of sightings each year has been the pattern.

Unfortunately, we may be at the beginning of a shift in BMSB populations in the state. In early 2015, there were at least 6 specimens found in Wisconsin by early March. Despite the quiet summer, the sightings have started popping up again in late September and October of this year. What’s more concerning is that we’re starting to see groups of these insects clustered together (previous sightings had consisted almost exclusively of lone individuals).

Not only are these unwanted houseguests a nuisance, but quite frankly, they smell bad. True to their title of “stink bug”, brown marmorated stink bugs possess glands that can emit a pungent odor. Some consider the odor to be coriander-like, while others say it resembles musty gym socks. Invasive species [check]. Nuisance invader [check]. Smells bad [check]. That’s all, right? Unfortunately, not quite. Just like a bad late-night infomercial: Wait! There’s more!

It turns out that brown marmorated stink bug has the potential to be quite a nasty plant pest and rivals the Japanese beetle in the breadth of its palate. Brown marmorated stink bug seems to feed on just about anything under the sun: field crops like corn and soybeans, vegetables like tomatoes and peppers, and even ornamental trees and shrubs. Fruits like apples and grapes can be hit especially hard. In some cases, the mere presence of BMSB can be a problem: imagine being a vintner and having your batch of wine tainted by the presence of a few squished stink bugs! In the eastern U.S. there are regular reports of agricultural problems and growers have to spray to control these insects. We haven’t had any reports of plant damage in Wisconsin yet, but that could change over time if BMSB populations continue to climb.

So what can you do about brown marmorated stink bugs? For starters, learning to tell them apart from our native stink bugs is relatively easy. Look for the alternating “checkerboard” pattern along the back edge of these half-inch long insects and the two light bands on the otherwise brown antennae.

With relatively few sightings in Wisconsin at this point, we’re still trying to get a feel for where this insect is. If you suspect that there may be brown marmorated stink bugs around your house, take a picture of the insect and email it to me at (pliesch@wisc.edu) for identification. Another option is to collect a physical sample and mail them in to the Insect Diagnostic Lab for identification (instructions on how to submit samples can be found here).

If brown marmorated stink bugs or other fall invading insects are trying to get into your house, one of the best things to do is to inspect the outside of your home and physically seal up cracks and crevices where they’re trying to sneak in. Once fall invaders are indoors, hauling out the hose attachment on the vacuum cleaner is often one of the best steps to remove them.

Wasps and Bees

Yellowjacket Season

September 10, 2015 pliesch

It happens every year in August and September: someone takes their lawnmower over a nest in the ground and really “stirs up the hornet’s nest”. Shortly thereafter, I get a call regarding these black and yellow stinging “ground bees”. Technically, these nests are neither the work of hornets nor bees, but rather yellowjackets. [There are actually ground-nesting bees, although they tend to be docile, solitary creatures; see this post from April].

Ground nesting Yellowjackets — Ground-nesting yellowjacket workers at the entrance of their nest. Photo Credit: Jeff Hahn, University of Minnesota

Yellowjackets are a type of wasp, related to paper wasps and bald-faced hornets—all of which can be abundant this time of the year. In fact, wasps are one of the most common insects reported to the diagnostic lab in late summer each year. Depending on the species, yellowjackets (Vespula species) can nest in pre-existing cavities in the ground, above ground, or in hollow voids (such as wall voids and soffit areas of roofs). Bald-faced hornets (Dolichovespula maculata) are the larger cousins of our common yellowjackets, and can produce basketball-sized papier-mâché style nests that can often go unnoticed until the leaves fall off the trees in fall. Paper wasps (Polistes species) are more slender in appearance than yellowjackets and build the open, umbrella-like nests that often hang from soffit areas.

Bald Faced Hornet Nest — Aerial, papier-mâché style nest of the bald-faced hornet. If you click to see the enlarged version, you’ll notice the head of a lone worker peering out from the entrance of the nest. Photo Credit: Pat Malone, Trempealeau County UW-Extension

Yellowjackets, bald-faced hornets, and paper wasps are what we refer to as social wasps, meaning that they live and work together as a colony. Each species varies in its particular traits (body size and coloration, nest location, colony size, etc.) and we have dozens of species in our area. An interesting point about the biology of social wasps is that a queen starts her colony from scratch each spring and the colonies die out in the fall. A small group of females designated to become queens the following year does make it through the winter in sheltered locations such as rotting logs. The tiny colonies from spring build up in size throughout the summer, reaching their maximum size this time of the year. This can give the impression that the insects appeared abruptly, when in reality, the colonies have been there and the wasp populations have built up rapidly over the past few weeks.

Paper Wasp Nest — Paper wasps on their open, “umbrella” style nest. Photo Credit: Jeff Hahn, University of Minnesota

Because the colonies die out in the fall, if a wasp nest is located in an infrequently visited back corner of your yard, simply waiting for a few hard frosts will ensure that the colony has met its demise. If a colony is located in a spot where you’ll likely have run-ins, there are some reliable ways to eliminate them, but choosing the correct tool for the job can be critical!

To learn more about the biology of social wasps as well as how to manage wasp nests, check out this webpage: https://extension.umn.edu/insects-infest-homes/wasps-and-bees

Caterpillars, Moths, Outdoor Worms

Spring is Caterpillar Season

June 16, 2015 pliesch

Caterpillars, and the moths and butterflies they become (Order Lepidoptera), normally make up less than 20% of the cases in the diagnostic lab, while beetles (Order Coleoptera) usually make up the largest chunk of the pie (almost 30%). However, spring often tells a slightly different story around the lab:So what does this mean? Well, as far as caterpillars are concerned, it’s been a great spring in Wisconsin. Perhaps you’ve even noticed some happily munching on the trees and shrubs in your yard. If you’re curious to meet the culprits, there’s a good chance they’re on this list:

1) Speckled Green Fruitworm
2) Humped Green Fruitworm
3) Linden Looper
4) Gypsy Moth
5) Eastern Tent Caterpillar
6) Forest Tent Caterpillar
7) Euonymus Caterpillar

Of all the caterpillar species that have popped up this spring, the speckled green fruitworm (Orthosia hibisci) has been the biggest surprise. It’s usually present, but in low enough numbers that damage isn’t common. Despite having the word “fruit” in its name, this species feeds on more than just fruit trees—it also feeds on a long list of hardwood trees and shrubs and even some conifers. This spring I’ve had reports of it damaging: maples, oaks, hackberry, lindens, elm, serviceberry, apple, spruce, peonies, roses, and other plants.

The humped green fruitworm (Amphipyra pyramidoides), has a similar feeding pattern to its speckled cousin and has also been common this spring. An interesting thing about the green humped fruitworm is that the caterpillars turn into copper underwing moths. Perhaps that name sounds vaguely familiar? If you’ve been following this blog, you may remember the invasion of the copper underwings from last summer. It’s too early to tell, but with the numbers of green humped fruitworm caterpillars I’ve been seeing, I wonder if we might see the copper-colored adults sneaking into buildings again in the coming months. . .

Green Humped Fruitworm — Green humped fruitworm on a rock near Coloma, WI. Photo credit: PJ Liesch, UW-Entomology

Like the fruitworms, the linden looper (Erannis tiliaria; a type of inchworm) and the nefarious gypsy moth (Lymantria dispar) also feed on a wide range of plants and have been popping up this spring. I haven’t had any reports of large-scale significant defoliation by gypsy moth, but there are pockets of damage and gypsy moth certainly seems to be more active than last year at this time. Hopefully with the rains we’ve had lately, the fungal disease, Entomophaga maimaiga, will pop up to smack down the gypsy moth numbers.

Then there are the “tent” caterpillars, which have also been common this spring: the eastern tent caterpillar (Malacosoma americana) and the forest tent caterpillar (Malacosoma disstria). The eastern tent caterpillar is the species that makes the silken tents in apple, crabapple, and black cherry trees where the branches meet the trunk of the tree. Despite its name, the closely related forest tent caterpillar doesn’t make any tents…

Eastern tent caterpillar near Coloma, WI. Photo credit: PJ Liesch, UW-Entomology. — Eastern tent caterpillar near Coloma, WI. Photo credit: PJ Liesch, UW-Entomology

Forest tent caterpillar near Coloma, WI. Photo credit: PJ Liesch, UW-Entomology. — Forest tent caterpillar near Coloma, WI. Photo credit: PJ Liesch, UW-Entomology

Lastly, if you’ve got a burning bush (Euonymus alatus) or another type of euonymus, you might have noticed some webbing on your plant from the euonymus caterpillar (Yponomeuta cagnagella). In some cases, the webbing from these polka-dotted caterpillars can cover the entire plant, making you think that giant mutant spiders have taken over. Complete defoliation can occur with this species, but thankfully, most healthy plants leaf out again and are generally fine.

Euonymus caterpillar and webbing on burning bush near Cambridge, WI. Photo Credit: PJ Liesch, UW-Entomology

Now for some good news: while all of these spring caterpillars have the potential to significantly damage plants, they only have a single generation per year—meaning that they’re just about done wreaking havoc for the year in the southern part of the state. That’ll give us just enough time to get ready for the next batch of insects coming up soon: squash vine borer, squash bugs, Japanese beetles and many more!

Butterflies, Pollinators

The Plight of the Monarchs

May 20, 2015 pliesch

Just like the bees, the beloved Monarch (Danaus plexippus), is facing declines in North America. Unlike the bee declines, which seem to be the result of a complex amalgam of factors, a major factor jumps out when it comes to monarch declines: habitat loss. Simply put, we’ve gotten rid of much of the formerly ubiquitous milkweed in the Midwest. There’s a number of reasons for this, ranging from continued land development, farm subsidies that have resulted in the cultivation of non-crop land, and heavy use of herbicide resistant crop varieties. One scientific report suggests that the Midwest has lost nearly 60% of its milkweed over the past fifteen years.

Reared adult monarch prior to release, August 2008; Photo credit: PJ Liesch

We all probably learned the general story of the monarch in elementary school: a spring northward migration, milkweed, eggs, more milkweed, striped caterpillars, even more milkweed, orange and black butterflies, and finally migration down to Mexico after a few generations (there’s a great migration video here). It’s bad enough that the sole summer food source of the monarchs (milkweed) has been disappearing, but monarchs are actually fighting a multi-front battle, as their overwintering habitat is disappearing as well. Over the past few decades, much of the overwintering territory in Mexico has been lost, degraded, and fragmented by logging (both large and small scale). What’s really concerning is that the overwintering territory isn’t all that big to begin with, making the insects vulnerable to extreme weather events. A brutal winter storm in January of 2002 killed roughly 75% of the monarchs at some overwintering sites. If monarchs keep getting squished into smaller and smaller areas, all it could take is a few bad winter storms to crash their numbers. Talk about putting all your eggs into one basket. . .

So why the fuss about monarchs now?
Over the past two years, the number of monarchs overwintering in Mexico has been the lowest in the history of the annual surveys.

With enough support, could we also pull the iconic monarch out of harms way? Having the assistance of the President of the United States certainly helps. Just yesterday, the white house announced that the Pollinator Task Force (created in 2014) has released its plan to help pollinators. The three main goals of the plan are: 1) reduce honey bee losses to sustainable levels, 2) preserve the monarch population in the US, and 3) increase and improve pollinator habitat (full details here).

This isn’t the first time we’ve recognized a species at risk and created a recovery plan. A classic success story: the iconic bald eagle. It’s estimated that in the mid 1900’s there were just over 400 pairs of bald eagles left in the contiguous US. These days, anyone passing through Sauk City, can tell you bald eagles have certainly rebounded.

While the Pollinator Task Force’s plan will take some time, there are things we can all do to immediately provide assistance for monarchs:
1) Plant milkweed to create a habitat for monarchs
2) Get involved with citizen science projects to educate ourselves and others
3) Use caution when using pesticides in the landscape to minimize impacts to monarchs, bees, and other beneficial species

Flowers, Pollinators

Busy as a (Native) Bee

April 14, 2015 pliesch

I think it’s safe to say that just about everyone knows and appreciates honey bees (who doesn’t love honey after all). Humans have a long history with honey bees and European settlers purposefully brought them over to the Americas. However, there’s another piece of the pollinator picture which is often overlooked and under appreciated: our many native bees.

Native Bee_opt — *A native bee visiting flowers in the Allen Centennial Gardens on the UW-Madison campus, July, 2014. Photo Credit: PJ Liesch*

How could they go unnoticed? A bee’s a bee, right?
Not quite—If you take the time to learn about Wisconsin’s bees, you might be surprised to discover that we have approximately 500 species of bees in Wisconsin alone. (Then there are the many flies and wasps that are often mistaken for bees, but I’ll save mimicry for another day.) A common example of a native bee would be the metallic green “sweat bees” (Family Halictidae), although many different species exist within that family alone.

Most of our bee species are native, solitary creatures with their own unique habits. With their solitary nature, each female makes her own nest and there’s no colony of relatives to defend (unlike honeybees). With that said, our native bees tend to be rather docile, allowing for plenty of opportunities to observe them foraging at flowers or constructing their nests. Depending on the species, our native bees tend to nest in the ground (the females dig tunnels) or inside of hollow chambers. These hollow chambers could be a tunnel made in wood or a hollow plant stem. Regardless of the nesting site, the story is similar: the female bees gather food (pollen and nectar) to stash away in the nests for their young. Depending on the species of native bee and the type of plants in the area, native bees can actually be more effective at pollinating than honey bees. Thus, the importance of these native bees is often overlooked and under appreciated.

Like honey bees, many native bees are facing declines for a number of reasons. One of the best things to do is to learn about native bees and other pollinators and to make your yard pollinator friendly by providing floral resources and nesting habitat.

Outdoor Insect Invaders

Hedgehogs of the Microscopic World

March 11, 2015 pliesch

The case load is generally pretty quiet around the UW-Madison Insect Diagnostic Lab during the first few months of the year. There are still the cases of conifer seed bugs or multicolored Asian lady beetles which are the norm for January, February and March. Occasionally I get some interesting specimens (like the cedar tree borer) which emerge from firewood that had been brought in and stored next to the fireplace. My most interesting case lately has been a sample which I was convinced contained small, hairy carpet beetle larvae. I placed the specimen under the microscope to confirm my suspicions, only to be surprised to find that it had a lot more than six legs. With that one glance, the mundane had become the bizarre. I vaguely recognized the creatures I was staring at through the microscope, as I must have seen them in a book once before.

A few minutes of digging and I had my ID: an unusual type of millipede called a “duff millipede” or “dwarf millipede” from the genus Polyxenus. At only a millimeter or two long, these millipedes are hardly noticeable unless they’re moving against a light colored background. Typically, when I hear of millipedes, I think of the slow-moving, dark-colored, creatures that curl up when disturbed and are frequently associated with moisture and decaying organic matter. When it comes to duff millipedes, you have to take most of your preconceptions about millipedes and throw them out the window. Not only are they incredibly small, but their armature of spines makes them resemble a miniature hedgehog (cuteness, included) or some kind of character from the Muppets.

Polyxenidae — *A “duff millipede” (Polyxenus species). Photo Credit: PJ Liesch*

So what do these little spine-balls do anyways? If you dug into the literature, you’d find that they’re often associated with tree bark, leaf litter, or old stone walls and are thought to feed on algae. Other than that, there isn’t much known about them—except for their fascinating defensive mechanisms. Most millipedes rely on chemical defenses to keep predators at bay (including the ability to secrete cyanide). Some polyxenids take a very different approach and use a physical defense consisting of detachable, barbed spines reminiscent of those novelty “finger trap” toys from childhood. Thomas Eisner and colleagues found that these detachable spines can get hooked on the bodies of would-be predators (such as ants), allowing the millipede to escape while the hungry predator attempts to extricate itself. Like the “finger trap” toys, the more the predator struggles to free itself, the more entangled the barbs become. In some cases, the predators can even die from this entanglement. [You can read a detailed description of this defensive mechanism here: http://www.pnas.org/content/93/20/10848.full.pdf]

Entanglement by microscopic millipedes: what a way to go. . .

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University of Wisconsin Madison