Lupine

Field Note: Rx for Restoration? Fire??? Yes, Indeed!

/ Cam Mannino / 2 Comments
Some of the fire crew gathered under the Big Oak during a pause in this spring’s burn. Note that the crew kept the fire from singeing the oak’s trunk, though it’s fire-adapted like all oaks. It was done out of deference to all the changes the Big Oak has experienced this year. Photo by Ben VanderWeide.
Text and some photos by Cam
Mannino

Eight years ago, when I first heard about prescribed burns, I thought “What? That’s pretty counter intuitive. Why would anyone apply fire to help plants?” Luckily, I learned about these restorative burns from Dr. Ben VanderWeide, our township stewardship manager; he had the answers.

After recent highly successful prescribed burns at Bear Creek Nature Park, I thought it might be time to discuss this seemingly strange process once more.

[Please Note: Due to an absurd mistake on my part, nearly all my photos of this spring’s Bear Creek burn were lost. I heartily thank volunteers Bob Schrader and John Reed as well as Grant VanderLaan and Ben for sharing their photos for this blog. My apologies to the fire crew for messing up big time!]

The History of Fire in our Prairies

For thousands of years, rolling prairies and oak savannas, dotted with native wildflowers and widely spaced oaks, carpeted our area of southeast Michigan. Lightning strikes periodically set the trees and fields ablaze, creating large wildfires. The Anishinaabek people that lived here also made regular use of fire, clearing land for crops and attracting game with the tender new plants that rise after a fire.

An oak with minimal competition at Charles Ilsley Park in spring. This landscape of rolling prairies and big oaks is similar to the landscapes of the past in Oakland Township.

As a result, our native plants became fire-adapted. They “learned to live with” fire and even benefit from it. Trees like the oak in the photo above developed thick bark, especially at the base. Some like jack pines (Pinus banksiana) even require fire to trigger their pine cones to release seeds. For others the chemicals in smoke, the heat of the fire itself, or removing accumulated thatch cues dormant seeds to germinate.

Jack Pine farther north in Michigan is regularly managed for Kirtland’s warblers with harvesting and prescribed fire. Photo by Ray Snook (CC BY-NC)
Big Bluestem that emerged at Bear Creek Nature Park after an earlier prescribed burn.

Fire Becomes an Ally in Restoration

Today, while renewing our native plants, fire also discourages or even eliminates many aggressive non-native, non-productive plants that invaded our fields, forests, and remnant prairies after agriculture ended. Their leaves and fruits are either toxic or drastically less nutritious for our native birds, native insects and their caterpillars. Fire acts as an ally in restoration by knocking back these plants that didn’t evolve with fire and therefore never adapted to it. Other invasive plants like crown vetch, Phragmites, invasive bittersweet, and swallow-wort respond positively to fire, so burning is often paired with other management techniques if these plants are found in area to be burned. Our native plants can then provide the nourishing, healthy food on which our wildlife depends.

Western Slope of Bear Creek Nature Park invaded by Autumn Olive shrubs.
The Western Slope in fall of 2022 after shrubs were top-killed by fire and removed by mowing.

Planning the Prescribed Burn

As Stewardship Manager, Ben plans the burns long ahead of time, choosing areas with good potential for restoration, especially ones with invasive and/or non-native vegetation. If the burn will encompass flat or gently sloped land, Ben often uses his staff plus trained volunteers to set and manage the fire. (Look for our annual training day each February if you’re interested!) He hires licensed contractors to conduct burns that involve large areas, forests with lots of dead wood, or steep hills which present more challenges. [Please note that any prescribed burn should only be done by trained personnel! Detailed knowledge and experience are required for a safe burn.]

Volunteer fire crew preparing to burn, March 2016.

Volunteers meet with Ben and the stewardship crew before the fire to review his burn plan in detail. The Parks and Recreation Commission provides our local crew with hard hats, fire-resistant clothing and face shields, as well as walkie-talkies so that crew members can communicate with one another during the burn. All members are trained to acknowledge instructions given to them by the crew leaders and to report any changes in their location or fire behavior during the burn. Once the neighbors have been notified, prescribed fires occur on days with the right wind speed, wind direction, and humidity. A fire weather forecast also gives the crew clues about how well the smoke will rise and disperse. Before the burn begins, the crew removes logs and large fallen branches near the edge of the burn unit and/or douses them with water from backpack canisters that can be refilled from a large tank carried in the crew’s truck .

Volunteer Bob Schrader carrying a water cannister while monitoring the fire. (Photo by an unidentified crew member)
Ben walking with a water tank through the burn unit. A large water tank for refills is in the background. Photo by Bob Schrader.

Ben monitors the wind before and during the burn to prevent the smoke as much as possible from carrying into nearby neighborhoods. The natural areas stewardship staff creates or checks “burn breaks” around the perimeter of the “burn unit” days, weeks, or months before the burn day. A burn break can be pond, stream, or other naturally occurring feature, or it might be a trail, road, parking lot or other human-constructed thing that doesn’t have fuel for the fire to burn across. Burn breaks are also created around bird nest boxes, utility poles, or other fire-sensitive objects inside the burn unit.

Igniting and Monitoring the Fire

The crew first ignites the fire on the downwind side of the burn unit, creating a slow “back burn” that creeps against the wind into the burn unit. Fire slips in droplets from the tip of a drip torch as crew members walk slowly around the edges of the unit, carefully starting the fire. The crew allows the fire to create a wide burned area on the downwind side before moving around to the edges, or “flanks.”

The crew lights a back burn on the downwind side of a burn unit to create a safe, wide burned area.

As the crew spreads the fire around the flanks, it slowly spreads inward toward the center of the burn unit.

North of Bear Creek’s Center Pond, volunteer Vinnie Morganti spreads fire with a drip torch while Grant Vander Laan monitors with a water backpack. Photo by Bob Schrader.
Fire moving to the center of the slope from two directions near the Bear Creek Nature Park lookout point. Photo by John Reed.

The fire burns around and under trees and shrubs. Most larger trees have thick bark that easily protects them from a quickly passing fire. Many small trees and shrubs are top-killed by fire, but most resprout vigorously afterward. In fact sumacs, willows, and some other native shrubs grow better if they are occasionally pruned back by fire. In my photos below, fire burned right under a fire-adapted small oak during the second burn and when it passed on, the little oak and its spring leaf buds showed no damage. If small oaks are top killed by fire, they resprout vigorously from their huge roots.

The fire travels right across a small oak which Grant had sprayed with water a few minutes earlier.
Being rinsed with water and being fire-adapted, the fire left the little tree unscathed.
The little oak’s leaf buds survived a fire at its feet!

While the basic tools of prescribed burns are water tanks and drip torches, some crew members carry tools like a flat-backed fire rake or a fire flapper to separate burning embers or rub sparks or embers into the ground. Once the fire dies down, these tools and the water tanks are used to put out any smoldering material during “mop up.”

Smoldering embers being doused with water after a 2021 burn at Bear Creek.
A fire rake for separating embers or pushing them into the ground.
Photo by Grant VanderLaan.
A fire flapper made of rubbery material that suppresses sparks and small embers.
Photo by Grand VanderLaan

Wondering about the Impact on Wildlife?

I worried about this, too! But having witnessed many burns at this point, I’ve learned that once the smoke starts, creatures move quickly out of the burn units. The fire crews never burn a whole park in one day, so there are always unburnt areas in the park where moles, snakes, mice and insects can find refuge quickly. In fact, the crew tries to work the fire upwind so that rabbits, squirrels and other creatures smell the smoke sooner and have time to escape to other areas in the park or beyond.

Some animals and insects retreat to underground nests, like the ants. Remember that our native insects have been dealing with fire for thousands of years and react quickly to smoke. Our pollinators and their caterpillars will benefit greatly in future weeks from the increased population of nutritious native plants created by the longer growing season and the natural fertilizer as the nutrients in the dead plant material are returned to the soil. Many native plants flower more vigorously after a burn, creating a bountiful buffet for our pollinators.

Of course, I’ve also seen a Red-tailed Hawk (Buteo jamaicensis) and an American Kestrel (Falco sparverius) high in the trees calmly ignoring the smoke blowing across their eyes as they watch carefully for possible prey.

At a prescribed burn in 2016, I saw a female Red-tailed Hawk looking out into a burned field with an intense stare!
At the 2016 burn, an American Kestrel found a mole. Poor mole, but we all have to eat, right?

Ben checked one of the burned fields at Bear Creek a few days after the March 21 burn this spring, and found American Robins, Red-winged Blackbirds, and others enjoying the easy food options on the Western Slope. Here’s his video of what he heard as he looked across the blackened field! Quite a chorus! The nearby unburned fields were much quieter.

A chorus of excited birds after the first burn at Bear Creek Nature Park this spring. Video by Ben VanderWeide.

Smaller birds and other animals benefit by foraging in the burn unit after the fire is out. The morning after the first burn, I came back to find American Robins (Turdis migratorious) all over the fields, snatching up worms or insects and a few Dark-eyed Juncos (Junco hyemalis) busily pecking their way around the blackened areas.

One of the many Robins foraging in the burn units after the burn.
A Dark-eyed Junco looking a bit exasperated at being interrupted during breakfast in a burned meadow.

Sowing Native Seed After A Burn

After the second burn at Bear Creek Nature Park this year, Ben sent this assessment to volunteers and staff:

“The burn jump-started the next phase of our restoration work in these burn units! Today [March 31, 2023] between breaks in the rain, we will spread a locally-collected native seed mix on the burned areas to help increase the native plant diversity. It usually takes 3-5 years for plants growing from seed to establish and become noticeable, so you won’t see the results of this seeding for a while. You will see the response from naturally occurring native plants, and from native plant seed that we spread years ago! Look for more growth and flowering from our native wildflowers and prairie grasses this summer!”

Ben sowing seed on the western slope at Bear Creek in 2018. We may see native blooms from this seed this summer.
Volunteer George Hartsig spreading seed this spring after the first burn at Bear Creek. Photo by Ben VanderWeide.
Stewardship Specialist Grant Vanderlaan spreading seed after the last burn at Bear Creek this spring. Photo by Ben VanderWeide.

More from Ben: “In a few weeks you’ll start to see green growth emerging in the burn units. Early season burns often take a bit longer to green up compared to areas burned in April or early May. Later this spring and early summer we’ll scan through the burn units to look for invasive plants like crown vetch, teasel, and swallow-wort. Later summer or early fall the stewardship crew plans to scan through the burn units to spot treat invasive shrubs that were top-killed by the fire. Next spring we hope to repeat the burn, seed, and invasives monitoring sequence. This process has produced good results as an alternative prairie restoration technique for old field/pasture in Wisconsin (check out this webinar for more info – https://www.youtube.com/watch?v=hvMy–MMM2c), so we’re trying it in the fields at Bear Creek Nature Park.”

Ben was so right about the greening up process. Here’s the Western Slope after the March 21 burn and what it looked like about a month later on April 22.

Western Slope at Bear Creek Nature Park after the March 21 burn.
Western Slope on April 22, about a month after the burn.

Fire’s Big Payoff

As Ben says above, planting native seeds means a 3-5 year wait for the full bloom to appear while the plants grow deep roots. But if conditions are right, the result can be just amazing and well worth the wait!

Here’s one example that I cherish. In April of 2014, Ben burned the Eastern Prairie at Charles Isley Park. I didn’t get there in time to get a photo that year, but on the left below is a burn photo there from another year. After the 2014 burn and other work to prepare the field, Ben planted native wildflower and grass seed in fall 2015. And look at what a glorious show we had by 2018!

Eastern Prairie at Charles Ilsley Park after a prescribed burn.
Glorious bloom at the Eastern Prairie of Charles Isley Park in July of 2018!

Of course every park, every habitat is different, so we can’t quite expect such a magnificent bloom every time. And the flowers calm down and thin out a bit over time as they sort out their competition and wait for another fire. But I think this 2014 to 2018 transformation is what made me a convert to prescribed fire.

Sometimes I find an even bigger thrill simply seeing a native plant emerge whose seeds were waiting in the soil for years, or small, stunted plants that persisted for years under invasive shrubs. Freed of thatch and invasive shrubs, warmed, fertilized, showered with rain, they finally emerge again into the sunlight. And I love that renewal. Here are just a few wildflowers from different parks that have staged a comeback after prescribed burn and other restoration efforts over recent years.

  • Michigan Lily (Lilium michiganense) at the Wet Prairie
  • A Field Sparrow on Foxglove Beardtongue (Penstemon digitalis) at Charles Isley Park
  • The bell-shaped blossoms of Great Blue Lobelia (Lobelia siphilitica) at Charles Isley Park
  • Bee Balm (Monarda fistulosa) lining the path at Stony Creek Ravine Nature Park
  • Hepatica (Hepatica americana) at Lost Lake Nature Park.
  • Common Blue-eyed Grass (Sisyrinchium albidum) at Lost Lake Nature Park
  • Hoary Puccoon (Lithospermum canescens) along the Paint Creek Trail
  • Lupine (Lupine perennis) along the Paint Creek Trail after a burn in 2017

The Inspiring Persistence of Nature

Native trees, shrubs and wildflowers are an inspiration for me. They’re tough, seasoned survivors, having lived here for thousands of years while coping with Michigan’s changeable weather and rocky, glacier-scraped soil. Native Wood Poppies (Stylophorum diphyllum) in our backdoor garden, some buried unceremoniously under huge piles of dirt by utility workers shortly after planting, just came back and kept on blooming. When our native Clematis (Clematis occidentalis) arrived from the grower looking like a bent, possibly dead stick, I planted it anyway. It bloomed with lavender blossoms during June last year. Insects skeletonized the leaves of our Zigzag Goldenrods(Solidago flexicaulis) its first year, but they leafed out and bloomed a year later.

Wood Poppy, a tough survivor which came back from being buried under a dirt pile shortly after it was planted.
Our native Clematis arrived looking like a tiny dead and broken stick and look at it this spring!
Our Zigzag Goldenrod survived being skeletonized by insects, but its blooms weren’t yet as showy as this one by Alexandre Dumas (CC BY-NC) at iNaturalist.org

Once native plants establish their deep roots, they take care of themselves and their needs are few. They can thrive in poor soil, tolerate drought, fight off predatory insects with their own chemicals and insist on survival without frequent watering or fertilizer. And as you can see in our parks, they can even thrive after fire, for heaven’s sake!

It’s a sad fact that native plants face a host of challenges caused by us, the brilliant but heedless species, Homo sapiens. Invasive trees, shrubs, grasses and flowers from afar were transported or purchased here by you, I and our forebears. When they escape from our yards into natural areas, they transform our fields and woodlands into dense thickets of a few non-native species. Our native habitat relies on pollinators for survival, but their numbers continue to plummet because we unwittingly chose, and in most cases continue to choose, pretty non-native plants whose leaves malnourish or kill caterpillars, the next generation of insects. And of course few of us have seriously reduced our reliance on fossil fuels which create the newly extreme and erratic climate that wreaks havoc on the complex relationships that sustained nature in a healthy, finely tuned ecosystem for millennia.

But now we know, right? And here in Oakland Township, we’re doing our best to provide native plants with a new lease on life. First, we preserve open areas and then we work to restore them to health. So when Ben and the stewardship crew ignite their drip torches, I’m delighted. We’re taking nature’s side, trying to restore native habitats in our parks and for many of us, in our yards and gardens. That’s the side I want to be on – and I’m betting you do, too. I mean, it makes so much sense! After all, nature can survive without us, but we definitely cannot survive without nature! So let’s just do what we can with what we know now. Let’s see how much progress we can make in our little green corner of the world before we leave it to the next generation.

False sunflower and bee balm flowering at the Paint Creek Heritage Area – Wet Prairie the summer after a 2016 burn.

Bees and “Wannabees”: Native Pollinators Tend Early Summer Blooms

/ Cam Mannino / 6 Comments

European Honey Bee on Goldenrod, summer of 2015

When most of us think of pollinators, the European Honey Bee (Apis mellifera) comes to mind first – and with good reason. These hive bees work industriously in agricultural fields and orchards. And we benefit from the fruits, vegetables and of course flowers they visit.  According to MSU Extension, though, they are active in temperatures above 60 °F and prefer clear, sunny, placid weather. In case you haven’t noticed (or don’t live in Michigan), that’s not yet our weather here this year.

Luckily, native bees and hoverflies come to our rescue, and the rescue of countless wildflowers. Bumblebees (genus Bombus), our chunky native bees, only require temperatures above 50° and will fly in wet, dark and windy weather – the kind we’re living with this year! And along side them are other native bees and the ever-present hoverflies who look like bees but aren’t. So let’s see who’s out and about in our parks pollinating plants on these cool, damp days of early summer.

[A Disclaimer: I’m a learner when it comes to insect identification, but I’ve done my best to figure out what I’m seeing. Let me know in comments if you think I’ve erred. And if you’d like more detailed info, check out my two main sources: a fine book by Heather Holm entitled Pollinators of Native Plants and this excellent web article by Jason Gibbs from MSU Dept. of Etymology.]

[Warning! Corrections below!  A kind and knowledgeable reader helped me out by commenting on 3 bee species that he believed were misidentified in this blog.  I checked them with Dr. Gary Parsons from at Michigan State University and a fellow there who is a bee curator and they determined that the reader is correct.  Thanks to the reader and to Dr. Parsons!  You’ll see the corrections below and links to more information on the correct bees!  My apologies.  I will be much more careful in the future when trying to ID native bees, which it turns out can only to be positively identified as to species with a microscope and using identification keys – and not through photos!]

Native Bees Happily Take on the Job of Spring Pollination

Female bees of all species carry most of the load when it comes to pollination, because they feed pollen to themselves and their young. Some species stash it on hairs or in pollen baskets on their hind legs. Others let it spread thickly across the stiff hairs of their abdomen. Wasps, like Yellow Jackets or Hornets, can look like bees but they don’t collect or eat pollen. (They are predators who keep insect numbers in check, including some garden pests.) So if you see lots of yellow or orange pollen on the leg or abdomen of an insect, it’s a bee! Where are these bees finding pollen now?

Native Wild Lupine (Lupine perennis) rises elegantly within the restored prairie at Charles Ilsley Park in early June. Look for them near the observation deck at Gallagher Creek Park as well. They are a popular stop on the pollen route for our native bees right now.

Lupines at Charles Ilsley Park where prairies are being restored

A Metallic Green Sweat Bee (genus Agapostemon) found the Lupine blossoms irresistible. These very small bees are solitary; they don’t live in hives. Instead, they make tunnels in bare soil and tend their young alone. Sweat bees are occasionally attracted to human sweat on hot, dry days but their sting is not as severe as a bee or wasp. They are normally docile while foraging but can be aggressive if you get near their nests. But please don’t use pesticides on them. These little bees do a lot of pollinating! Creating a spot of bare soil on your property away from your garden and house where they can nest will make both you and them feel safer.

A metalic green sweat bee finds its way into a lupine blossom.

One cool afternoon, I watched a couple of sweat bees [Edit:  Correction by a reader! The two small bees below are in the genus Ceratina, family Apidae, a genus according to Wikipedia that is “often mistaken for sweat bees! For information on these small bee, use this link] make the proverbial “beeline”  for the native Daisy Fleabane (Erigeron annuus), a close relative of asters and daisies, but a different genus. These tiny, sun-faced flowers are one of the first blooms to emerge in spring and they last all summer. So it seems that the two sweat bees heading in from the right on the photo below know a reliable source of nectar and pollen when they see one!

Two metallic green[bees from the genus Ceratina]  heading for a tiny Daisy Fleabane.

A native Bumblebee (genus Bombus) used its long tongue to reach inside the lavender lips of the Lupine blossoms at Gallagher Creek Park and then flew off with its pollen load tucked neatly into the pollen sacks on its legs. According to author Heather Holm, bumblebees sometimes use a technique called “buzz pollination” in which they release pollen from tight places by clinging onto a plant’s anthers (the tip of the male stamen that holds the pollen) and activating their flight muscles, making a buzz. Poof! Out comes the pollen. Neat trick. (Click on photos to enlarge; hover cursor for captions.)

 

Carpenter Bees (genus Xylocopa) shape their nests by patiently shaving off wood bit by bit to make perfectly round holes, usually on the underside of branches, or at our house, under deck railings! They lay their eggs inside, sealing each egg in separately with neat plugs of pollen to keep the young larvae fed. Later, the young bees will overwinter in these nests to emerge for mating the following spring. Here’s what I’m quite sure is an Eastern Carpenter Bee (Xylocopa virginica) nuzzling a Blackberry blossom (Rubus allegheniensis). It looks a lot like a native Bumblebee, but its abdomen is shiny black instead of fuzzy and it has a dot in the center of its yellow thorax.

A Carpenter Bee collects pollen or nectar from a blackberry blossom.

The blackberry bush also hosted another bee. I believe it’s a Masked/Cellophane Bee (genus Hylaeus).  [Edit:  Correction!  These bees are from the genus Halictidae whereas the Cellophane bee is in the genus Megachilidae.  Thanks to an expert reader for the correction! For information on Halictidae use this link]These solitary bees are the only ones that transport pollen in a crop like some birds do with seed.  These bees use exisiting cavities in wood for nesting, and wrap their larvae in a thin membrane that evidently gave them the name “cellophane bees” – and they also have white patches on their heads, hence the “masked” name.

A masked/cellophane bee carries pollen in its crop.

Native Golden Alexanders (Zizia aurea), an early summer flower, attracted the attention of another native pollinator, the solitary Leafcutter Bee (genus Megachilidae). [Correction:  This is a “mining bee,” species Andrena from the genus Andrenidae.  For information on them, see this link. ]They can be very active within blossoms, making what some sources describe as a “swimming motion.” Evidently, that also releases  a lot of pollen that they carry on stiff hairs on their abdomen. Their nests are built vertically in hollow plant stems or other natural cavities. They neatly cut and then chew bits of leaves to line each cell. Entomologists suppose that the leaves may preserve the moisture in the pollen plug at the end of each cell, so it will last until the larvae hatches to eat it. The larvae then pupates, emerges for a short life of a few weeks and starts the cycle again.

A Leafcutter Bee searches for both nectar and pollen on a Golden Alexanders blossom

And then there are the “Wannabees”

I love Jason Gibb’s term “wannabees” for the ubiquitous Hoverflies – also called flower flies – members of the genus Taxomerus (family Syrphidae).  Hoverflies visit flowers frequently and are commonly mistaken for bees. Many of them mimic bees and wasps, being patterned in white, black and  yellow (or orange). But they differ from bees in one important way; hoverflies do not have stingers. They just want their predators to think they do! They feed on both pollen and nectar. Though hoverflies don’t carry as much pollen on their smooth bodies as bees do on their fuzzy ones, they may make up for that by visiting flowers more often. As a result, they are considered the second most effective plant pollinators. Another great benefit of hoverflies is that their larvae eat aphids like crazy, much like ladybugs do. So they can keep plants healthy as well as do some pollinating.

Drama Unfolds on Daisy Fleabanes!

It’s not a surprise that the nodding stalks of Daisy Fleabane (Erigeron annuus) show up in every field in the spring. Hoverflies move constantly from one to the next since not many different wildflowers bloom in this cold spring! As they land, of course, they drop pollen on the waiting stigmas of the flower, just what’s needed to produce more Daisy Fleabane. From my observation, the flowers in bright sunlight get more attention from hoverflies than those in the shade. Perhaps they see in ultraviolet like bees and the flowers look much more inviting in the sunshine?

But more than just pollination is taking place on those sunny little blooms! It turns out that a Daisy Fleabane can be a stage for high drama – birth and death among the petals! One tiny fleabane flower featured the mating of two hoverflies while a third ignored them in its avid search for a good meal. The dispassionate female seems to be casually having a snack as well.

Two hoverflies mated on a Daisy Fleabane while one ignored them in the interest of finding nectar or pollen

And on another Fleabane blossom, an ambush!  I’ve just learned about Crab Spiders (genus Thomisidae). These crafty arachnids don’t spin webs. They simply sit on or just under the edges of flowers waiting to grab unwary insects. Those long curved front legs do look a bit crab-like!

A crab spider sitting on a fleabane blossom hoping, no doubt, to snag a careless insect.

The Bluebottle Fly (genus Calliphora) in the photo below seems to have been oblivious to a crab spider until it was grabbed around the middle by one of the long legs of its hidden predator. Those big fly eyes look vaguely shocked, don’t they? The hoverfly on the blossom above  seems unconcerned, its head deep in the pollen. And what I think is the green sweatbee flying in may choose to do the same on a different bloom. I doubt they stayed around long enough to be a second and third meal for the spider!

A crab spider under the edge of a fleabane has grabbed a fly for lunch, while an uninterested hoverfly eats nearby. And what I think is  another green sweat bee speeds in on the right.

What about the Butterflies?

Well, butterflies are arriving, or hatching or coming out from under bark after overwintering. But not many are present yet. And let’s face it; the flowers available now are not especially tempting when compared to the variety and plentitude of summer. So the butterflies that appear in the parks make do with other food sources – sweet tree sap, rotting fruits from last fall, carrion, even occasionally the nutrition left in animal scat! Here’s  a selection of the butterflies I’ve seen so far and not one of them was pollinating a flower! (Click on photos to enlarge; use pause button for captions.)

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I’ve also seen three different Monarchs but they didn’t stop to have photos taken. And the very tiny White-striped Black moth (Trichodezia albovittata) is a first sighting ever for me. Its miniscule black and white wings flutter so fast that when flying, it looks like a blurry signal of dots and dashes! I was so happy when it paused for a few moments!

Native Plants + Native Insects = Caterpillars + More Well-fed Bird Hatchlings

Two-day-old Eastern Bluebird hatchlings (Sialis sialis)

You’ve probably noticed that I’ve used the word “larvae” several times in this piece. The common term for these squiggly young is “caterpillar.” Caterpillars (as I’ve mentioned before) are the preferred food that birds stuff down the tender throats of their hatchlings. They are great baby food for birds, full of protein and fat and easy to swallow.

So let’s be glad that our native insects are out gathering pollen for two reasons. Our bees and wannabees keep the wildflowers (and eventually fruits and vegetables) reproducing year after year. But by also feeding pollen to all those larval bees and flies, they feed the young of clever birds who winkle them out of holes and pluck them off of leaves and limbs. Yes, we may get a few cut, chewed or even defoliated leaves in our garden. But many of those caterpillars will nourish the next generation of glorious birds singing the morning chorus! Now doesn’t that make you appreciate insects just a wee bit more?

Stewardship Manager Dr. Ben VanderWeide and volunteer Stephanie Patil with hundreds of native plants purchased by township residents through the Parks and Recreation Commission.