- Author: Kathy Keatley Garvey
We walked into our little pollinator garden in Vacaville, Calif., this afternoon to cut a few tropical milkweed stems to feed the indoor caterpillars, and there, hidden beneath a leaf, was a tiny caterpillar.
Well, hello, there! Aren't you a little late? The monarchs have been overwintering along coastal California for a couple of months. Your parents did not get the memo.
This uncharacteristic weather we're having--autumn temperatures soaring into the 70s here in recent weeks--means the milkweed is still growing and the caterpillars are, too.
We've pruned all of the tropical milkweed down to the ground except for one plant that's still flowering. We're keeping it. Food is scarce for the honey bees, syrphid flies and other pollinators.
Meanwhile, Tiny Caterpillar is a new addition to our indoor habitat. Ours is just a small-scale conservation project of rearing and releasing monarchs to help boost the declining monarch population. So far this season, our total is 54. That's 54 that may have been eaten by birds or consumed inside-and-out by parasitoids such as the tachinid flies, which lay their eggs inside the caterpillars or chrysalids. Overall, about 2 or 3 percent of the monarchs make it all the way through their life cycle, from egg to caterpillar to chrysalis to adult, scientists estimate.
Here are the basics of how we rear them, but all Monarch Moms and Monarch Dads do it differently.
- Grow milkweed species, the host plant of the monarchs. We have four different species in our pollinator garden:
--Asclepias fascicularis, narrowleafed milkweed
--Asclepias speciosa, broadleaf milkweed
--Asclepias tuberosa, a Midwest favorite
--Asclepias curassavica, tropical milkweed - In addition to milkweed, plant other nectar-producing plants for your monarchs and other pollinators. The monarch favorites, at least in our yard, include Mexican sunflower (Tithonia), an annual that grows here from April through November (in fact it's still blooming), butterfly bush (Buddleia), and Lantana.
- When you see caterpillars on the milkweed, you'll need to protect them from predators, such as birds, tachinid flies and wasps by bringing them indoors. Add water to a heavy, narrow-necked, flat-bottomed bottle (we use Patron tequila bottles, compliments of our friends). Tuck the milkweed stems, with the 'cats still on the stems, in the tequila bottle. Then place the bottle in a meshed, zippered butterfly habitat, such as the ones from the Bohart Museum of Entomology. You can also buy meshed, zippered laundry bags from stores.
- Be sure to keep the milkweed fresh. Mist it lightly, and add new milkweed daily. Clean the frass from the bottom of the habitat.
- Watch caterpillars eat their fill and then pupate. You'll see the jade-green chrysalids, rimmed in gold, hanging from the top of the habitat.
- When the monarchs eclose, wait for their wings to dry before releasing them. We usually release them after four or five hours--if it's not cold or rainy. Food? They usually won't eat for 24 hours. If the weather is inclement and we can't release them right away, we feed them. We dip a cotton ball into a mixture of honey and water, and place it on a tray, along with a fresh flower or a slice of fruit, such as cantaloupe or watermelon. Some folks feed them a sugar and water mixture. Some use sports drinks such as Gatorade. Mona Miller, administrator of the Facebook page, Raising Butterflies and Moths for Conservation, tells how to feed monarchs on her YouTube channel. She uses 2 tablespoons of water (heated) and 1/2 teaspoon of raw organic honey (more amino acids and protein). She cools the mixture and places in a colorful cap lid (yellow, red, orange).
- When it's time to release a monarch, we just unzip the container. Sometimes we gently cradle the monarch, and then open our hands and watch it go. Some monarchs take off immediately. Others linger on our hands or head for a nearby plant.
- After you release each batch of monarchs, clean the container with soapy water and a little bleach.
Some excellent resources to get you started and keep you going:
- Xerces Society: Monarchs for Conservation and Project Milkweed
- The Beautiful Monarch, Facebook page administered by Holli Webb Hearn
- Raising Butterflies and Moths for Conservation, Facebook page administered by Mona Miller
- Author: Kathy Keatley Garvey
Bruce Hammock, UC Davis distinguished professor of entomology who holds a joint appointment with the UC Davis Comprehensive Cancer Center, is fond of saying that in his many talks.
"Science is full of surprises."
His research clearly shows that basic science can lead to surprising findings.
A recently published news story, "From Caterpillars to Kidney Disease: Surprise Discoveries in Basic Science," on the Medical College of Wisconsin website chronicles how Hammock's basic research on caterpillars--how caterpillars become butterflies--led to key discoveries about chronic pain, including diabetic pain.
As an aside, Hammock suggested to communication specialist Karri Stock that the story could include a photo of a caterpillar and a butterfly, and did I have one?
I did, thanks to the Gulf Fritillary (Agraulis vanillae) population explosion on our passionflower vine (Passiflora). A caterpillar was doing what caterpillars do. Then two butterflies came along and started doing what males and females do. The three-in-one photo illustrates the article, along with a photo of Hammock and collaborator John Imig, professor of pharmacology and toxicology at the Medical College of Wisconsin, Milwaukee.
The gist of the news story is that Imig received a $2.3 million grant from the National Institute of Diabetes and Digestive and Kidney Diseases "to investigate the development of a drug to treat type 2 diabetes and metabolic syndrome."
"But what we didn't tell you is that this translational grant is all thanks to some caterpillars in California and decades of research," Stock wrote. "It's a tale of pure curiosity with a great lesson for budding scientists and the public alike: You can't always predict where basic science discoveries will lead."
She related how, more than 40 years ago, a young entomologist in California named Bruce Hammock found a key enzyme (epoxide hydrolase or EH) in the metamorphosis of caterpillars into butterflies. "The enzyme degrades a caterpillar's juvenile hormone, allowing it to move from the larval stage into an adult insect. Early in his career, Dr. Hammock found that if he exploited this EH and prevented larvae from becoming adults, he had on his hands an effective genetically engineered insecticide."
Then came the basic science and fundamental questions that Hammock asked. "Does the enzyme occur in plants? Does it occur in mammals?"
"And it turns out that it does, particularly as soluble epoxide hydrolase (sEH) in mammals, including mice and humans, and its distribution suggested it was involved in regulatory biology," Stock wrote. She went on to detail the collaboration of Hammock and Imig. Read the entire MCW story here.
Hammock's work has drawn national and international attention. Groundbreaking neuropathic pain research emanating from the Hammock lab made Discover magazine's Top 100 Science Stories of 2015 ranking among the Top 15 in the medicine/genetics category.
The UC Davis research was singled out for its “Endoplasmic Reticulum Stress in the Peripheral Nervous System is a Significant Driver of Neuropathic Pain,” published in July 2015 in the Proceedings of the National Academy of Sciences. (See UC Davis news story).
Highly honored by his peers, Hammock is a fellow of the National Academy of Inventors, which honors academic invention and encourages translations of inventions to benefit society. He is a member of the U.S. National Academy of Sciences, a fellow of the Entomological Society of America, and the recipient of the Bernard B. Brodie Award in Drug Metabolism, sponsored by the America Society for Pharmacology and Experimental Therapeutics. He directs the campuswide Superfund Research Program, National Institutes of Health Biotechnology Training Program, and the National Institute of Environmental Health Sciences (NIEHS) Combined Analytical Laboratory.
A native of Little Rock, Ark., Bruce earned a bachelor's degree in entomology from Louisiana State University in 1969 and his doctorate in entomology/toxicology from UC Berkeley in 1973, and then accepted a Rockefeller Postdoctoral Fellowship at Northwestern University. Hammock served as a member of the UC Riverside faculty for six years before joining UC Davis in 1980. In addition to maintaining a vigorous research program, Hammock teaches, mentors students, works with visiting scholars and enjoys rock climbing and kayaking.
And if you get a chance to hear him speak about his research, he's likely to say: "Science is full of surprises."
Because it is.
- Author: Kathy Keatley Garvey
Monarch 'cats seem to like to wander--and pupate on the most unlikely of places.
We have two small butterfly habitats on our kitchen counter. We pluck the wild caterpillars from our pollinator garden (before the predators and parasites find them), and take them inside. There they munch on milkweed and become chrysalids, those gold-studded green jewels that are nature's miracles. When the adults eclose (emerge), we release the monarchs back into the garden. It's monarch conservation on a small scale.
However, a couple of weeks ago, one of our caterpillars managed to wander out of its habitat and head for a wall. How it got out we'll never know.
It found a cord connecting a cell phone/tablet to an electrical outlet. There it formed a chrysalis on the dangling cord. We never spotted the chrysalis until we happened to walk by and check the charge. Surprise! A chrysalis on an electrical cord?
Yesterday afternoon, a beautiful monarch eclosed. A female. After she dried her wings, did she stay put? No. She crawled to the top of the cord. Hello, world...
Tomorrow (Saturday) we'll release our little wanderer so she can wing it to an overwintering site with the rest of her buddies. Maybe to Santa Cruz?
Thanks for the memories, Ms. Monarch. We hope you make it. Somehow or another, we think you will...
- Author: Kathy Keatley Garvey
Thank you, Mrs. Monarch.
Thank you for laying your eggs on our newly planted narrowleaf milkweed.
We planted the narrowleafed milkweed last spring, hoping we could coax you to come. We laid out a floral welcome mat for you with some of your favorite (adult) foods: a butterfly bush, Mexican sunflowers (Tithonia), and Lantana.
Then we watched. And waited. And watched. And waited.
We saw you nectaring the butterfly bush, the Tithonia and Lantana. We saw Gulf Fritillaries (Agraulis vanillae) chasing you. We saw territorial male sunflower bees (Melissodes aegilis) dive-bombing you. We saw female Valley carpenter bees trying to jerk you around.
You ignored our narrowleafed milkweed. Not a good-enough host plant? Too many oleander aphids for you? Too many lady beetles eating the aphids?
We went from informal to formal. Please, Mrs. Danaus plexippus, lay your eggs on the Asclepias fascicularis. Please. Do. So. Now.
This week we saw your evidence: You did it! You gave us the most beautiful caterpillars we've ever seen.
So, thank you, Mrs. Monarch.
And you, too, Mr. Monarch.
Please come again.
- Author: Kathy Keatley Garvey
--John Muir, My First Summer in the Sierra
Muir said it well.
Muir (1938-1914), the naturalist and conservationist known as "The Father of Our National Parks," was the driving force behind the establishment of our national parks, including Yosemite National Park.
But have you ever thought about what he said: ""When we try to pick out anything by itself, we find it hitched to everything else in the Universe"?
In our yard, we are rearing Gulf Fritillary butterflies (Agraulis vanillae) on their host plant, the passionflower vine. The Gulf Frit is a bright orangish-reddish butterfly with silver-spangled underwings. It's a member of the family Nymphalidae and subfamily Heliconiinae.
We also consider it part of our family. The females and males mate, the females lay eggs on the passionflower vine, the eggs become caterpillars and the caterpillars become adults. That is, if the Western scrub jays and the praying mantids and the European paper wasps let them.
Lately, the caterpillars seem to be multiplying faster than the proverbial rabbits. The Western scrub jays are missing. They no longer sit on the fence and cherry-pick their prey. Why are they MIA? Three resident juvenile Cooper's hawks (as identified by Andrew Engilis, Jr., curator of the UC Davis Museum of Wildlife and Fish Biology) possess an appetite for jays (among other prey). The result: too many caterpillars on our passionflower vine. The 'cats are defoliating the plant faster than we expected. In short, it's a veritable population crisis on our passionflower vine.
"When we try to pick out anything by itself, we find it hitched to everything else in the Universe."
We love the caterpillars. We love the butterflies. We love the praying mantids. And we are trying our best to love, or at least like, the wasps after hearing researcher Amy Toth of Iowa State University speak fondly of them at UC Davis. Read the 10 things we should like about wasps. Note that she's trying to popularize the hashtag, #wasplove.
Meanwhile, what about those hawks? It's hawk heaven here. We love seeing them cooling their toes, splashing around in our front-yard birdbath, and communicating with their siblings. It's a sign of the times. California's severe drought means an influx of critters, large and small, heading for urban birdbaths. In addition to hawks, our birdbath draws squirrels, doves, finches, woodpeckers, scrub jays, sparrows, crows, honey bees and even a passing wild turkey with a neck long enough to reach the water.
Lately, it's a hawk birdbath. The jays are gone. The caterpillars are thriving.
"When we try to pick out anything by itself, we find it hitched to everything else in the Universe."