Tag Archives: Gray Hairstreak

Butterflies Eat Their Peas

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Silver-spotted Skippers are wide-ranging butterflies that are active from May through early fall. When their wings are folded or when they’re in flight, a large silvery patch on their otherwise mostly brown wings makes them easy to identify.  The butterfly is named for this marking.

Silver-spotted Skipper

Silver-spotted Skippers open the upper (dorsal) side of their wings to the sun when they are basking, revealing markings that resemble a stained-glass window.

Silver-spotted Skipper, basking in the sun.

I have to wonder if the silvery wing spot is an adaptation to make this butterfly resemble bird droppings. Insects, even butterflies, can be an important source of food for birds and some predatory insects.  This disguise would likely give Silver-spotted Skippers some protection from these predators, since bird droppings don’t attract them.

Silver-spotted Skipper, eating minerals from bird droppings. Does that silver splotch on the wings seem like a good disguise?

Silver-spotted Skippers can be seen drinking nectar from a variety of blossoms in meadows, along roadsides, marsh edges, and open woodlands, any place where they can also find the food their caterpillars require.

Silver-spotted Skipper drinking nectar from Indian Hemp (Apocynum cannabinum)

Silver-spotted Skipper drinking nectar from Common Milkweed (Asclepias syriaca)

So what’s the connection to peas?  While Silver-spotted Skipper butterflies drink nectar from many different plants, it’s their caterpillars that ‘eat their peas’. Silver-spotted Skipper caterpillars specialize on certain members of the Pea (Fabaceae) family, including Black Locust (Robinia pseudoacacia) trees, and several herbaceous (not woody) plants  called Tick-trefoils (Desmodium species).  The caterpillars typically munch on the foliage, flowers or buds of these plants, but they do it in such a discreet way that you would only notice if you were looking for it.

The Tick-trefoils all have three-parted leaves, and a tall-stemmed flower cluster. The pollinated flowers produce a chain of fruits that break apart when they’re ripe.  Fruits disperse as hitchhikers on passing animals, including humans.  I’ve often warn them home after a walk in the woods. This dispersal habit is the reason for the ‘tick’ part of the common name of these plants, since the fruits cling to an animal’s fur or clothing like a tick might.

Naked-flowered Tick-Trefoil (Desmodium nudiflorum) flowers and fruit

Naked-flowered Tick-Trefoil (Desmodium nudiflorum) flowers and fruit

Naked-flowered Tick-Trefoil (Desmodium nudiflorum) foliage

Naked-flowered Tick-Trefoil (Desmodium nudiflorum) foliage

Some of the food plants on which the Silver-spotted Skipper caterpillars depend are especially garden-worthy. Blue False Indigo (Baptisia australis), also called Blue Wild Indigo, and other plants of this genus are potential food plants for Silver-spotted Skipper caterpillars.  Its vivid purplish-blue flowers are primarily pollinated by Bumble Bees, but they are visited by other insects as well.  Blue False Indigo can grow to a maximum height of about 4 to 5 feet (1.25 to 1.5 meters), likes full sun to part shade, and can tolerate dry and clay soils.

Blue False Indigo (Baptisia australis) with likely pollinator

Blue False Indigo (Baptisia australis) with Silver-spotted Skipper

American Wisteria (Wisteria frutescens) is another favorite of Silver-spotted Skippers.  It is a deciduous vine with long hanging clusters of violet flowers in early summer, great for use on an arbor or fence.  If its flowers are pollinated, they are replaced by long pea pods later in the season.

American Wisteria (Wisteria frutescens)

American Wisteria (Wisteria frutescens) fruit

Female Silver-spotted Skippers lay eggs on the leaves of their caterpillar food plants. The caterpillars hatch from the eggs, spinning silk to pull the leaves of their host plants together to create a shelter.

Silver-spotted Skipper caterpillar in a shelter it created using its own silk and American Wisteria (Wisteria frutescens) leaves

Silver-spotted Skippers are not alone in their dependence on Pea family members. Gray Hairstreaks and Eastern-tailed Blues are among the other butterflies whose caterpillars ‘eat their peas’, using some of these same plants.

Female Gray Hairstreak butterfly preparing to lay an egg on flower buds of a Tick-trefoil

Eastern-Tailed Blue butterflies mating

Resources

Brock, Jim P.; Kauffman, Ken. Kaufman Field Guide to Butterflies of North America.  2003.

Cech, Rick; Tudor, Guy. Butterflies of the East Coast.  2005.

Glassberg, Jeffrey. Butterflies through Binoculars A Field Guide to Butterflies in the Boston-New York-Washington Region.  1993.

Rhoads, Ann Fowler; Block, Timothy A. The Plants of Pennsylvania.  2007

Spira, Timothy A. Wildflowers & Plant Communities of the Southern Appalachian Mountains & Piedmont.  2011.

Stearn, William T. Stearn’s Dictionary of Plant Names.  1996

Illinois Wildflowers

Missouri Botanical Garden

 

 

 

 

Life in Dead Wood

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‘Getting rid of dead wood’ or ‘Cutting out the dead wood’ are phrases that are so commonly used that they have become ubiquitous when referring to a ‘reduction in force’ in the corporate world. These phrases have their origin in advice for maintaining landscaping. In a formal setting where neatness is desired, or where a dead tree or branch poses a threat to people, property or power lines (why don’t they bury those power lines, anyway?), removing dead wood is certainly a prudent thing to do.

But is ‘getting rid of dead wood’ always a good idea? Does dead wood have any function or benefit in a less formal or a natural setting?

Well, let’s think about it. On the plus side, dead wood does provide a home for many species of fungi, some of which are eaten by insects, mammals (including people!) and other critters.

Mushrooms on dead wood

Mushrooms on dead wood

Some insects even develop inside mushrooms, like the puffballs pictured below.

Puffballs

Puffballs

At first glance these snails seem to be using the mushrooms as a sun deck, but a closer look shows that they are feeding here.

Snails feeding on mushrooms

Snails feeding on mushrooms

The young edges of the colorful Chicken of the Woods mushroom are edible, and taste like, well, chicken.

Chicken of the Woods

Chicken of the Woods

Many insect species, including ants, wasps, bees, beetles and even butterflies make dead wood their home for at least part of their life cycle.

Eastern Commas, Question Marks and Mourning Cloaks survive the cold northern winter as adults, often taking shelter in a woodpile or underneath loose bark.

Eastern Comma

Eastern Comma

Mourning Cloak

Mourning Cloak

Some species of solitary bees may make their nests in dead wood, like the sweat bee pictured below sipping nectar in the company of a Gray Hairstreak butterfly. This little sweat bee and other solitary bees are important pollinators, many providing free pollination services for food crops. Some of our native bees are more efficient pollinators than Honey Bees, because the native bees are a better anatomical match for the plants with which they evolved.  Providing habitat for native bees can reduce the need to pay to truck in Honey Bees, the migrant workers of the insect world.  It may also increase pollination rates and crop yield.

Sweat Bee and Gray Hairstreak on Indian Hemp (Apocynum cannabinum)

Sweat Bee and Gray Hairstreak on Indian Hemp (Apocynum cannabinum)

Most wasps are predators of other insects, helping to keep their populations in balance. Mason wasps, for example, provision their nests with caterpillars on which their larvae feed as they develop. They usually nest in borings made in dead wood by other insects like beetles or bees.

Mason Wasp (Monobia quadridens) on Hoary Mountain Mint (Pycnanthemum incanum)

Mason Wasp (Monobia quadridens) on Hoary Mountain Mint (Pycnanthemum incanum)

There are ant species that make their homes in rotting wood. Ants don’t cause wood to rot, and they don’t eat the wood. They excavate spaces for their nests in wood that is already soft, moist, and decaying. Ants are important seed dispersers for many plants, including violets, trilliums, Dutchman’s Breeches, Spring Beauty, and many more.

Ant with Canada Violet (Viola canadensis)

Ant with Canada Violet (Viola canadensis)

Ants and wood boring beetle larvae are favorite foods of many woodpeckers. Among them are the largest woodpeckers in North America, the Pileated Woodpecker. Have you have ever had a Pileated Woodpecker attack the siding of your home? If so, it’s because the bird has detected the presence of a delectable meal of carpenter ants there, which would only be present if you had rotting wood. So think of it as a free consultation, courtesy of nature, to let you know that you have some maintenance to do. Replace, paint or otherwise seal the wood to prevent moisture from getting in, and your problems with ants and woodpeckers will go away. They’ll go back to feeding on insects in the naturally rotting wood found in nature.

Pileated Woodpecker feeding on insects in dead tree

Pileated Woodpecker feeding on insects in dead tree

In the photo below a Pileated Woodpecker is peeking out from his nest hole. Can you tell what type of tree this is?

Pileated Woodpecker looking out of nest hole

Pileated Woodpecker looking out of nest hole

If you said ‘dead’, you’re correct! In addition to providing a bountiful source of insect protein, dead wood offers real estate for homes for many birds, including Downy, Hairy, and Red-bellied Woodpeckers, and Flickers. Even Chickadees excavate holes in very soft, rotting wood for their nests. Titmice, White- and Red-breasted Nuthatches, Carolina and House Wrens all nest in holes in dead or living trees, sometimes using abandoned woodpecker holes. All of these birds also forage for insect protein, a bounty of which is available in or on dead wood.

Carolina Chickadee

Carolina Chickadee

Eastern Gray Squirrels are among the small mammals that may make their homes in hollows in dead or living wood. Their diet depends heavily on tree nuts, but it also includes insects and fungi, as does that of Eastern Chipmunks.

Eastern Gray Squirrel

Eastern Gray Squirrel

Chipmunks often dig underground burrows, but they also use tree cavities for shelter. Larger mammals, like Red Fox or even Black Bear may use fallen or hollowed out trees as a shelter.

Eastern Chipmunk peeking out of tree stump

Eastern Chipmunk peeking out of tree stump

The chipmunks and squirrels may become a meal for a Red Fox …

Red Fox, hunting

Red Fox, hunting

or a Red-tailed Hawk …

Red-Tailed Hawk

Red-Tailed Hawk

… or a Great Horned Owl. Dead broken trees, called snags, are a favorite nesting place for these large predators.

Great Horned Owl in snag

Great Horned Owl in snag

All of this activity contributes to the breakdown and decomposition of the wood, which provides valuable nutrients to the soil. This makes a new generation of plants possible, keeping the cycle of life going.

Tree stump with mushrooms, mosses, ferns and Canada Mayflower (Maianthemum canadense)

Tree stump with mushrooms, mosses, ferns and Canada Mayflower (Maianthemum canadense)

Dead wood provides shelter and food for insects and other arthropods, birds, and large and small mammals, including people. With the assistance of all of the inhabitants who avail themselves of these services, dead wood gradually breaks down, enhancing the soil for a new generation of plants.

Dead wood also helps to divert and slow the flow of water in heavy rainstorms, allowing the water to slowly penetrate into the soil where it falls, rather than rapidly running off into creeks, rivers, streams and storm sewer systems, contributing to flash flooding along the way.

So, what do you think, should we ‘get rid of the dead wood’?

Resources:

http://www.carnegiemnh.org/mollusks/palandsnails/ecology-diet.html

http://bugguide.net/node/view/5345

Cech, Rick; Tudor, Guy. Butterflies of the East Coast. 2005.

Eastman, John. Birds of Forest, Yard, & Thicket. 1997.

Eiseman, Charley; Charney, Noah. Tracks & Sign of Insects and Other Invertebrates. 2010.

Elbroch, Mark; Rinehart, Kurt. Behavior of North American Mammals. 2011.

Eaton, Eric R.; Kauffman, Ken. Kaufman Field Guide to Insects of North America. 2007.

Harrison, Hal H. Eastern Birds’ Nests. 1975

Mader, Eric; Shepherd, Matthew; Vaughan, Mace; Black, Scott Hoffman; LeBuhn, Gretchen. Attracting Native Pollinators: Protecting North America’s Bees and Butterflies. 2011.