On a warm September afternoon, 2024, Pam and I passed a planting of shimmering grasses along the Cayuga Lake shore, the tips of their feathery plumes swaying in a gentle breeze. Amidst the verdant tapestry, my eyes caught a flash of delicate green—a Monarch chrysalis, hanging like a precious jewel beneath one of the seed heads. It was an unexpected encounter, a moment of grace that felt almost otherworldly. The chrysalis, pale jade with gold accents, looked like something born of magic rather than biology. For a moment, time paused.
The only Monarch chrysalis we found in 2024, notable for the absence of caterpillars around our home. Tompkins Park, Ithaca, New York, Finger Lakes Region
I knelt carefully, mindful not to disturb the fragile life suspended before me. As I leaned in closer, I marveled at the perfection of its design. The intricate gold dots along its casing seemed impossibly precise, as though a divine hand had painted them there. Yet, this chrysalis was also a paradox: it was a shield of stillness, promising the coming transformation of a creature known for motion and migration.
The significance of this discovery didn’t escape me. Just two years ago, the International Union for Conservation of Nature officially classified the Monarch butterfly as “endangered.” Habitat destruction, pesticide use, and climate change have decimated their numbers. Monarchs, once so plentiful they seemed a seasonal certainty, now teeter on the edge of disappearance. To find this chrysalis was to witness a quiet rebellion against those odds, a solitary emblem of resilience in a world fraught with loss.
I thought of their epic journey—a migration that spans thousands of miles, linking Canada to the forests of central Mexico. For generations, these butterflies have followed ancestral paths with unerring precision, defying every obstacle in their way. How can something so small carry the weight of such immense journeys? And how, in a world that seems to grow harsher each year, do they still persist?
This chrysalis, tucked in the grasses of Stewart Park, felt like an answer to those questions. It was a reminder of the resilience of life, the determination of nature to continue despite all that works against it. And yet, it also felt like a fragile promise. The Monarch’s survival is no longer assured; its future, like the butterfly within this chrysalis, hangs by a thread.
As I rose and continued our walk, I carried the image of the chrysalis with me, letting its quiet beauty settle in my mind. I thought of the interconnectedness of all things: the milkweed plants that sustain Monarch caterpillars, the winds that guide their migrations, and the people whose choices shape the landscapes they traverse. Stewardship is not just a responsibility; it is a privilege—an opportunity to ensure that these miraculous creatures continue to grace our skies.
By the time I left the park, the sun had sunk toward the west, its light no longer graced the grasses. I looked back one last time, hoping that this chrysalis would complete its transformation safely. In its stillness, I saw not just hope, but a call to action. The Monarch’s story is not just about survival; it’s about the courage to evolve and adapt, even when the odds seem insurmountable. And perhaps, in witnessing this moment of metamorphosis, we too are reminded of our capacity to change—to become better stewards of the world we share.
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Copyright 2025 All Rights Reserved Michael Stephen Wills
The trails of Taughannock Falls State Park always hold surprises, and on that July day, they did not disappoint. As I paused to take in the tranquility of the woods, my gaze fell upon a plant whose graceful arch and clusters of berries demanded attention. Its broad, lance-shaped leaves alternated along the stem, framing the stem’s terminal cluster of small green berries. Recognizing the plant as Maianthemum racemosum, commonly known as False Solomon’s Seal, I took a moment to admire its understated elegance.
False Solomon’s Seal, scientific name Maianthemum racemosum, is common in the Finger Lakes Region. I found this specimen during a walk with the grandchildren in a local fen among the post-glacial terrain of the Finger Lakes Region. Eames Memorial Natural Area, Cornell Botanic Gardens, Town of Dryden, Tompkins County, Finger Lakes Region, New York State
Characteristics of the Plant
False Solomon’s Seal is a perennial herbaceous plant belonging to the asparagus family (Asparagaceae). It can grow up to three feet tall, its arching stems giving it a unique and recognizable silhouette. The leaves are broad and lance-shaped, with prominent veins running their length, arranged alternately along the stem. At the tip of each stem is a cluster of tiny, spherical green berries, which later in the season ripen to a speckled reddish hue. The plant blooms in late spring to early summer, producing delicate, star-shaped white flowers before transitioning to its fruiting phase.
Found throughout much of North America, Maianthemum racemosum thrives in moist, shaded woodlands, making the lush forests of Taughannock Falls State Park an ideal home. Its ability to grow in the dappled light beneath the forest canopy highlights its adaptability to varying light conditions.
Etymology of the Name
The genus name, Maianthemum, comes from the Greek words “mai” (May) and “anthemon” (flower), reflecting the plant’s tendency to bloom in late spring or early summer. The species name, racemosum, refers to the plant’s inflorescence, which forms a raceme—a cluster of flowers or berries along a single stem. Its common name, False Solomon’s Seal, derives from its superficial resemblance to Solomon’s Seal (Polygonatum spp.), though the latter has bell-shaped flowers hanging beneath its stems, in contrast to the terminal clusters of Maianthemum racemosum.
History and Folklore
False Solomon’s Seal has long been valued for its medicinal and culinary uses by Indigenous peoples and early settlers. The young shoots were harvested and cooked as a vegetable, while the ripe berries were sometimes used in jellies or preserves, though their slightly bitter flavor limited their appeal. Medicinally, teas made from the roots and leaves were used to treat a variety of ailments, including digestive issues, coughs, and sore throats. The roots were also applied as poultices for cuts and bruises, reflecting the deep understanding of natural remedies held by those who lived in harmony with the land.
The plant’s name has sparked legends. While the “false” in its name denotes its distinction from Solomon’s Seal, some folklore suggests that the plant was used to counterfeit the medicinal properties of its namesake. Others believe that its graceful arch and persistent berries symbolize resilience and adaptability, qualities often attributed to those who lived in its native habitats.
Uses and Ecological Role
Although not widely cultivated, Maianthemum racemosum is a valuable plant in its native ecosystems. Its flowers provide nectar for pollinators such as bees and butterflies, while the berries are a food source for birds and small mammals. Its rhizomatous roots also play a role in stabilizing soil in forested environments, preventing erosion and supporting the health of the woodland floor.
For those contemplating harvesting these plants be advised that collection of plants from New York State Parks is prohibited to protect natural resources and maintain ecological balance. According to the New York State Office of Parks, Recreation and Historic Preservation (OPRHP) regulations, “No person shall… remove… any… plant life” within state parks without proper authorization. Therefore, collecting plants in state parks without explicit permission is not allowed. If you have a specific research or educational purpose, you may contact the park administration to inquire about obtaining the necessary permits. However, for casual visitors, it’s best to enjoy the flora from a distance. False Solomon Seal ecological contributions are significant. In addition to its pollinator support and soil stabilization, the plant’s presence is an indicator of a healthy woodland ecosystem.
A Moment of Reflection
As I rose from my crouched position, having taken in the details of Maianthemum racemosum, I felt a quiet gratitude for the opportunity to encounter such a plant. False Solomon’s Seal, with its graceful leaves and unassuming berries, serves as a reminder of the interconnectedness of life in the forest. Its role in the ecosystem, its history with humans, and its understated beauty all speak to the richness of the natural world.
Walking onward, I carried with me a sense of awe for the intricate web of life that thrives in the woods. The False Solomon’s Seal, standing quietly among the ferns and leaf litter, seemed to embody the resilience and balance of the forest—a gentle presence in a vibrant community.
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Copyright 2024 All Rights Reserved Michael Stephen Wills
It was a high summer day as I enjoyed a customary hike around of Taughannock Falls State Park on the South and North Rim trails. Here sunlight filtered through the dense canopy, dappling the forest floor with shifting patches of light. Along the trail, my attention was drawn to a cluster of pink blossoms rising on slender, upright stems. Intrigued by their delicate beauty, I crouched down for a closer look. The plant rose above the forest floor, its trifoliate leaves broad and prominently veined, each leaflet slightly larger than I would have expected. These leaves seemed to anchor the plant to the shaded understory, while its flowers reached upward, as though eager to catch the fleeting rays of sun. I captured the plant in this photographs, later used it to identify Hylodesmum glutinosum, or Large-Flowered Tick Trefoil.
Characteristics of the Plant
The Large-Flowered Tick Trefoil is a striking member of the pea family (Fabaceae). Its pink, pea-like flowers are arranged in graceful racemes along the upper portions of its stems, their vibrant color contrasting beautifully with the green foliage around them. The leaves, broad and trifoliate, lend the plant its distinctive appearance. The name “tick trefoil” refers to the plant’s seed pods, which are flat and segmented, equipped with tiny hooks that cling stubbornly to passing animals or hikers, hitchhiking their way to new locations.
The plant is native to eastern North America, including the forests and trails of New York State. Its preference for rich, well-drained soils in partially shaded woodlands makes it a common sight in places like Taughannock Falls State Park. Blooming from mid to late summer, it provides an essential nectar source for bees and other pollinators, playing its part in the intricate web of the forest ecosystem.
Etymology of the Name
The genus name, Hylodesmum, was established only twenty-five years ago when the plant was reclassified from the genus Desmodium to a new genus within the tribe Desmodieae. The name reflects its forested habitat, with “hylo” derived from the Greek word for “wood” or “forest.” Previously described in 1802 as Hedysarum glutinosum and later placed in Desmodium, the species name glutinosum remains unchanged, meaning “sticky” in Latin. This aptly describes the plant’s seed pods, which adhere to anything that brushes past them. Together, these names encapsulate both the botanical structure and the unique dispersal strategy of this plant.
History and Folklore
Native Americans and early settlers were intimately familiar with tick trefoils. The plant’s seeds, notorious for clinging to clothing and fur, earned it a reputation as a nuisance, but its resilience and utility could not be overlooked. Indigenous peoples utilized various parts of the plant for medicinal purposes. The roots and leaves were brewed into teas to treat fevers and digestive ailments, while poultices made from the leaves were applied to wounds to promote healing. Such uses highlight the depth of knowledge early inhabitants had about their environment.
The plant’s sticky seed pods also became the subject of folklore. Children in rural communities would playfully call it “hitchhiker’s weed,” competing to see who could collect the most seeds on their clothing during outdoor adventures. These seeds, so adept at attaching themselves to passersby, were seen as symbols of persistence and adaptability, traits that many admired.
Uses and Ecological Role
While Hylodesmum glutinosum is not commonly cultivated, its ecological contributions are significant. As a member of the Fabaceae family, it has the ability to fix nitrogen in the soil through a symbiotic relationship with rhizobia bacteria in its root nodules. This makes it a valuable plant in maintaining soil fertility in its native ecosystems. Its flowers attract pollinators like bees and butterflies, ensuring that the forest remains vibrant and full of life.
In addition to its ecological importance, the plant’s seeds have a curious modern use: they’ve been studied for their ability to help detect movement in the environment. Researchers have examined the sticky pods’ structure as a natural model for creating adhesives and tracking devices, proving once again that even the smallest details in nature can inspire human ingenuity.
A Moment of Reflection
As I rose to my feet, brushing the leaf litter from my hands, I felt a renewed sense of wonder for the intricate lives of the plants surrounding me. The Large-Flowered Tick Trefoil, with its vivid pink flowers and ingenious seed pods, seemed to embody the essence of the forest: a harmonious blend of beauty, resilience, and interconnection.
Walking away, I carried with me not just the memory of its vibrant blooms, a deep respect for its role in the natural world. In the quiet of Taughannock’s wooded trails, Hylodesmum glutinosum had shared its story, a tale of persistence, adaptation, and the hidden wonders that flourish when we take the time to notice.
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Copyright 2024 All Rights Reserved Michael Stephen Wills
As I wander through our yard, my gaze is irresistibly drawn to a mesmerizing carpet of white blossoms, illuminated by the dappled sunlight filtering through the graceful boughs of our hemlocks. Each bloom, delicate and intricately ruffled, resembles a cluster of tiny, pure clouds resting gently atop a vibrant sea of green. These are Anemone nemorosa, affectionately known as wood anemone or windflower. This particular patch, adorned with a double-flowered variety, owes its presence to the thoughtful hands of our parents, who landscaped the property during the 1970s and 1980s. Their vision continues to bloom each spring, as the cascading petals exude an understated elegance that feels both luxurious and unpretentious—a living legacy woven into the fabric of this place we call home.
The wood anemone is a perennial plant, its rhizomatous growth weaving an intricate tapestry under the dappled sunlight of the forest floor. Each flower arises on its slender stem, surrounded by finely divided trifoliate leaves, their fresh green hue amplifying the purity of the blossoms. The flowers themselves, with their many layers of petal-like sepals, are a marvel of nature’s design, combining elegance and resilience.
The scientific name, Anemone nemorosa, carries echoes of ancient understanding. The genus name Anemone originates from the Greek word ánemos, meaning “wind.” According to classical mythology, these flowers were said to spring forth from the tears of the goddess Venus as she mourned the death of Adonis. The appellation of “windflower” ties to this myth, suggesting that the blooms open only at the bidding of the wind. The species name nemorosa comes from the Latin nemorosus, meaning “of a wooded grove,” aptly describing its preferred habitat.
There is a certain humility in the way the wood anemone thrives—spreading slowly but persistently through deciduous woodlands, forming colonies that greet the spring with their pristine blooms. While the double-flowered variety lacks the simplicity of the single-layered wild form, it retains all the grace that has inspired poets and naturalists alike. It is as if each bloom whispers its secrets to the passing breeze, stories of centuries gone by when druids and herbalists revered the plant as a symbol of protection and healing.
Culturally, the wood anemone has deep roots. In folklore, it was believed to bring luck to those who carried it, while others regarded it as a harbinger of illness if picked prematurely. The flowers were said to close tightly in response to rain, a trait lending them an air of sentience as they interact with their environment.
In medieval herbalism, the plant was thought to possess medicinal properties, though its potent compounds also rendered it toxic if mishandled. It was used cautiously to treat ailments such as rheumatism and respiratory issues. Modern understanding has largely relegated these medicinal uses to history, but the plant’s ability to captivate the senses remains undiminished.
Looking at this verdant patch before me, I am reminded of the transient beauty of spring. Anemone nemorosa emerges briefly, a fleeting celebration of life before retreating into its quiet dormancy beneath the soil. It thrives in the undisturbed spaces of the world, reminding us of the importance of preserving the ecosystems that allow such delicate wonders to flourish.
Today, as the soft May sunlight streams through the trees, illuminating each ruffled blossom, I am filled with gratitude for the enduring gift left by our parents, who lovingly planted these flowers decades ago. The wood anemone, whether viewed as a mythological symbol, a natural marvel, or a fleeting delight, offers a gentle reminder to cherish the beauty that surrounds us. Its ephemeral blooms, returning each spring, stand as a testament to nature’s quiet yet profound artistry—a living masterpiece and a poignant connection to the legacy of those who shaped this cherished landscape here in Ithaca, New York.
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Copyright 2024 All Rights Reserved Michael Stephen Wills
Taughannock Falls, a majestic 215-foot waterfall, showcases nature’s beauty and power, intertwining geological history with vibrant ecosystems in New York.
Introduction Nestled in the heart of the Finger Lakes region of New York, Taughannock Falls stands as a testament to the delicate balance of power and beauty in nature. This iconic waterfall plunges 215 feet—one of the tallest single-drop waterfalls east of the Rocky Mountains—into a gorge whose story is written in stone. The park surrounding this natural wonder offers a symphony of sights, from towering cliffs to lush greenery, inviting visitors to explore its ancient secrets and vibrant life.
View of taughannock Falls from the South Rim Trail. Taughannock Falls New York State Park, Trumansburg, Tompkins County, Finger Lakes Region
A Story Written in Stone The rocks of Taughannock Falls tell a story that stretches back 380 million years to the Devonian Period, a time when the region was submerged beneath a shallow inland sea. Layer upon layer of shale, sandstone, and limestone formed as sediment settled to the ocean floor, preserving the fossils of marine life that once thrived here. These rocks have endured the passage of eons, but the gorge itself is a far more recent creation.
Limestone Steps on the South Rim Trail descend to the gorge floor.
It was the retreat of the mighty Laurentide Ice Sheet, approximately 10,000 years ago, that set the stage for Taughannock’s grandeur. As glaciers melted, torrents of water carved the U-shaped valleys that now cradle the Finger Lakes. Taughannock Creek, a tributary of Cayuga Lake, began its work, etching its path through ancient rock, sculpting the gorge we see today. In just 10,000 years—a fleeting moment in geological time—the relentless force of water carved its way 3/4 of a mile upstream, creating the awe-inspiring chasm and waterfall that continue to evolve even now.
Taughannock Creek carved this landscape over thousands of years.
The Gorge’s Living Tapestry Beyond its geological wonders, Taughannock Falls State Park bursts with life. Along the North and South Rim Trails, Eastern Hemlocks (Tsuga canadensis) stand tall, their evergreen branches weaving shadows that dance across stone stairways and forest floors. These silent sentinels are habitats for myriad creatures and protectors of the delicate ecosystem.
Wildflowers were planted by park staff at the Falls Overlook. The bright yellow of Black-eyed Susans (Rudbeckia hirta) and the vibrant purple of Coneflowers (Echinacea purpurea) attract bees and butterflies, their nectar fueling the intricate web of life that thrives here. Along the trail, on the forest floor, mosses and ferns cling to rocks, softening the edges of the gorge with their verdant touch.
Cone FlowersCone Flowers gone to seedFrom a walk around Taughannock Falls State Park “Rim Trails” October 22nd, 2024. Trumansburg, Tompkins County, Finger Lakes Region, New York State.
The Fall’s Eternal Dance At the heart of the park is the waterfall itself, its roar both a hymn and a whisper of time’s passage. The view from the North Rim Trail reveals the waterfall framed by steep cliffs, their striations like pages in a book written by water, wind, and time. The plunge pool below, shimmering in sunlight, seems almost sacred—a place where the forces of nature meet in harmony.
Viewed from the North Rim Trail on a summer morning. Taughannock Falls New York State Park, Trumansburg, Tompkins County, Finger Lakes Region
Even as we marvel at its beauty, the falls are a reminder of the earth’s constant transformation. Each drop of water that cascades down the cliff face carries away tiny fragments of rock, continuing the slow, deliberate work of reshaping the land. What we witness today is but one moment in an ongoing process—a fleeting glimpse of a masterpiece in progress.
A Place of Wonder To stand at the edge of Taughannock Falls is to feel both small and connected. The cliffs, formed over hundreds of millions of years, whisper of ancient seas and forgotten worlds. The gorge, carved in the blink of an eye by geological standards, speaks to the power of water and time. And the vibrant life that fills the park reminds us of nature’s resilience and beauty.
As the sun filters through the trees, illuminating the mist that rises from the falls, it’s easy to believe that this place holds magic. Perhaps it’s in the way the water sparkles like diamonds in the sunlight or the way the breeze carries the scent of pine and earth. Or maybe it’s in the knowledge that here, in this park, we are witnesses to a story billions of years in the making.
Conclusion Taughannock Falls State Park is a place of wonder where geology, ecology, and history converge. It invites us to reflect on the immense forces that shape our world and to cherish the fleeting beauty of each moment. Whether you come to marvel at the towering waterfall, walk among the hemlocks, or simply stand in awe of the gorge, Taughannock Falls leaves an indelible mark on the heart—a reminder of nature’s power, resilience, and enduring grace.
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Copyright 2024 All Rights Reserved Michael Stephen Wills
After 25 years of visiting Cocoa Beach, a discovery of coquina clams transformed my appreciation for the ecosystem, revealing its beauty, complexity, and intrinsic connections to life.
For nearly two and a half decades, I’ve strolled the sands of Cocoa Beach—since my first visit in March 2001—comforted by the rhythmic Atlantic waves and the familiar stretch of shoreline. I thought I knew this beach intimately; from the way the sunrise paints the water orange to the feel of wet sand under my feet. Yet it wasn’t until a clear morning in February 2025 that I recognized one of its tiniest treasures: the coquina clam. In the past, I might have walked past countless little shells and the tiny siphons and feet in the sand without a second glance. Now, with newfound awareness, I realize an entire world had been bustling at my toes all along.
February 2025: Discovering the Coquina Clams
Early one February morning, as the high tide receded, I noticed something magical happening at the water’s edge. Tiny coquina clams—each no larger than a fingernail—were emerging from the sand only to swiftly burrow down again between each wave.
These living coquina clams were found in the receeding high tide on a February 2025 morning on Cocoa Beach, Brevard County, Florida
Their small wedge-shaped shells, in colors of pastel pinks, purples, yellows, and whites, peeked out for a moment and then vanished, synchronized with the pulse of the ocean. It was as if the beach itself had come alive with confetti-like jewels, re-positioning themselves with every ebb and flow. I stood entranced, wondering how I’d missed this subtle dance for so many years. That morning marked the beginning of my quest to learn about these little clams that had been hiding in plain sight.
Life Beneath the Sand
Once my eyes were opened, I began observing and researching the coquina clams’ hidden world. I learned that each delicate clam is a filter feeder, siphoning in microscopic phytoplankton, algae, and organic particles from the surf. This constant filtering not only feeds the clam but also helps clean and clarify the coastal waters by removing excess nutrients. Coquinas live a fast-paced, transient life by necessity: they typically survive 1–2 years in the wild and can endure a mere few days without the ocean’s moving water.
No wonder they race to burrow when the waves recede—staying submerged is a matter of life and death, as they rely on the surf for both food and oxygen. In their brief lifespan, they continually ride the tides, migrate in swarms up and down the beach, and rebury themselves between each wave to avoid being swept away.
I found it astonishing that such small creatures possess the agility and tenacity to “surf” the waves and dig themselves back into wet sand within seconds, a graceful routine I had unknowingly witnessed that February morning.
Beyond their daily habits, coquina clams also undergo a remarkable life cycle beneath the sand. They spawn in the warmer months, releasing gametes into the water for external fertilization. The resulting larvae drift as plankton for a time before settling into the sand and metamorphosing into tiny clams. With no parental care to guide them these young coquinas must immediately fend for themselves in the surf zone. Perhaps it’s this independent, perilous beginning that drives them to cluster in large colonies—while they aren’t social in a communicative sense, hundreds of coquinas often live side by side in favorable spots, turning patches of wet sand into vibrant mosaics of color and life.
Walking the beach now, I recognize these patches: slightly raised, pebbly areas that, when a wave washes over, suddenly bristle with tiny siphons and feet as the clams feed and reposition. It’s humbling to realize that under each footstep, an entire hidden ecosystem of coquinas might be thriving.
Shells on the Shore: Beauty and Predation
With my new awareness, even the empty shells strewn along the high tide line told a story. I began to collect some of the colorful coquina shells scattered on the sand, marveling at their variety—no two looked exactly alike. Some were solid orange or yellow, others striped with purple and white, each as delicate as a butterfly wing. Many of these shells were intact, evidence of clams that had lived out their short lives or perhaps fallen prey to gentle endings. Others, however, bore mysterious perfectly round holes on their surfaces. At first glance, I thought a tiny drill had punched through them, and in a way, I was right. Those small holes are the signature of predatory snails that haunt the sands: creatures like moon snails (also known as shark’s-eye snails) and whelks that prey on coquinas by literally boring into their shells. These sand-dwelling snails wrap themselves around a clam and use a tongue-like organ called a radula—akin to a miniature saw—to drill a neat hole through the coquina’s shell, aided by acidic secretions to soften the calcium carbonate. Once the hole is complete, the snail devours the clam from within, leaving behind an empty, perforated shell as a grim calling card of the food chain in action.
Seeing those tiny “murder holes,” as beachcombers jokingly call them, on coquina shells transformed my perspective on the shell collections I had casually admired for years. Each shell in my hand represented a life that had been an integral part of the beach ecosystem. Some had been snatched by shorebirds or fish the instant they were exposed by the retreating tide, becoming breakfast for a sanderling or a pompano. Others, as the holes revealed, had been victims of an even stealthier predator under the sand. It struck me that every fragment and hollowed shell on the beach is evidence of a relationship—predator and prey, life and death intertwined on the shore. Instead of seeing a random assortment of pretty shells, I now saw a record of the beach’s vibrant food web written in calcium carbonate. The realization filled me with both wonder and respect: this sunny tourist beach holds quiet tales of survival as dramatic as any wilderness, if one knows where to look.
The Coquina’s Ecological Role
As I dug deeper (both into the sand and the literature), I discovered that coquina clams are far more than a footnote in the beach ecosystem—they are a keystone of coastal ecology. By filtering plankton and detritus from the surf, countless coquinas collectively act as tiny water purifiers, helping maintain water quality along the shore. Their presence in large numbers indicates a beach’s health; in fact, abundant coquina populations signal that the beach environment is robust and unspoiled. A stretch of sand teeming with coquina clams suggests natural, shifting sands and minimal human interference, as these clams thrive best where coastal processes remain undisturbed. In this way, coquinas are like a barometer for the shoreline: if I continue to find them at Cocoa Beach, it means the beach is still alive and supporting complex life.
Coquina clams also form a critical link in the food chain. Numerous shorebirds rely on them as a food source—those flocks of little sandpipers and plovers skittering at the water’s edge have, all along, been feasting on coquinas right under my nose. Fish that patrol the surf, like the Florida pompano and various kinds of drum (whiting), gulp them up as the waves churn the sand.
These coquina clam shells were found February 2025 on Cocoa Beach, Brevard County, Florida
Even ghost crabs and other scavengers benefit, feeding on clams that wash ashore. And of course, the predatory snails under the sand have a specialized taste for them. It’s a reminder that even a creature only an inch long can be a cornerstone of an entire food web, sustaining animals up the chain from mollusks to birds to fish. Standing on the beach now, I often pause and watch the frenetic chase of the shorebirds in the surf, aware that without the coquina clams beneath the foam, that familiar coastal ballet could cease to exist.
Humanity and the Coquina: Intertwined Histories
It’s not only animals that have interacted with coquina clams—we humans have a longstanding relationship with them as well. Historically, Floridians made use of coquinas as a food source. Local folklore and old recipes describe coquina broth and chowder, a delicate soup made by briefly boiling these tiny clams to extract their flavor.
Because each clam is so small, you’d need hundreds to make a pot of soup, so it’s not a common dish today except perhaps as a novelty. Still, the idea that the sands I walk on could literally be cooked into a chowder is a charming and earthy connection between food and place. Early indigenous peoples and European settlers alike would have recognized coquinas as an edible bounty in times when every bit of protein counted.
For best experience, click on “Watch on YouTube”
Humans have also found value in the shells of coquinas beyond admiring their beauty. Over time, vast deposits of coquina shells on ancient beaches hardened into a soft limestone rock called coquina stone (the term “coquina” itself comes from the Spanish for “shellfish” or “cockle,” reflecting its composition).
In a fascinating twist of fate, this sedimentary rock—essentially millions of fused clam shells—became a building material. Here in Florida, coquina stone was quarried and used to construct some of our oldest structures. The historic fortifications in St. Augustine, like Fort Matanzas and Castillo de San Marcos, were built from coquina stone, their walls made resilient by a matrix of coquina clam shells.
I find it poetic that the same little clams I only just learned to appreciate have literally been the building blocks of human shelters that have stood for centuries. Even today, crushed coquina shells are used in landscaping and as decorative ground cover—perhaps you’ve seen driveways or garden paths that gleam with fragments of pink and purple shells.
Our lives overlap with the coquina in subtle ways: from the architecture of coastal Florida to the aesthetics of our beach towns.
Modern conservationists note another connection: by protecting natural beach dynamics, we also protect coquina populations, which in turn supports the whole ecosystem. This means being mindful about coastal development, beach renourishment projects, and even how many shells tourists collect. I’ve become more aware that picking up a few pretty coquina shells as souvenirs is fine, but we must leave plenty behind for the beach to recycle and for other creatures to use. For example shorebirds glean minerals from them. The humble coquina clam has given me a new appreciation for how intimately tied human activity is to the smallest inhabitants of the shore.
Reflections: Wonder in the Little Things
My journeys to Cocoa Beach were enhanced: what began as a casual observation in 2025 has blossomed into a profound shift in the way I experience the beach. I feel as if I’ve been given new eyes—now I notice the glint of tiny shells in the sand and know there’s life (or a story of life) attached to each one. The joy of discovery I felt upon noticing the coquina clams has reignited a childlike curiosity in me. It’s astounding that after decades of visits, there was still a secret to uncover on those familiar shores. This realization makes me wonder: What else have I been missing? It’s a reminder that nature has layers upon layers of wonder, even in places we think we know intimately. Sometimes it just takes a shift in perspective, a bit of knowledge, or a quiet moment of attention to peel back the veil.
In reflecting on the coquina clams of Cocoa Beach, I’ve learned not only about a specific species and its role in the world, but also about myself and the value of lifelong learning. These clams, in their smallness and ubiquity, taught me to slow down and appreciate the intricate tapestry of life at my feet. Now, each time I visit the beach, I smile seeing the waves bring in that rush of foam and sand, knowing a hidden troupe of coquinas is hard at work filtering water, dodging predators, and holding up the very balance of the shore. I often kneel down now, running my fingers gently through the wet sand to feel them retreat, and I silently thank them — for cleaning the water, for feeding the birds and fish, for building historic forts (unbeknownst to themselves), and for showing me that wonder can be found in the smallest of places. Cocoa Beach, through the lens of the coquina clam, feels like a brand new world I’ve been lucky enough to discover, even after all these years
I look forward to other hidden marvels awaiting discovery on my next visit.
References
Abbott, R. T. (1974). American Seashells: The Marine Mollusca of the Atlantic and Pacific Coasts of North America. Van Nostrand Reinhold Company.
Andrews, J. (1994). Shells and Shores of Texas. University of Texas Press.
Brusca, R. C., & Brusca, G. J. (2003). Invertebrates (2nd ed.). Sinauer Associates.
Denny, M., & Gaines, S. (2000). Encyclopedia of Tidepools and Rocky Shores. University of California Press.
Futch, C. R., & Burger, J. (1976). The ecology of coquina clams (Donax variabilis) in the southeastern United States. Marine Biology Journal, 34(2), 157-168.
Leal, J. H. (2002). Seashells of Southern Florida: Living Marine Mollusks of the Florida Keys and Adjacent Regions. Smithsonian Institution Press.
Mikkelsen, P. M., & Bieler, R. (2008). Seashells of Southern Florida: Marine Bivalves, The Bivalvia. Princeton University Press.
Morton, B. (1988). Particulate Matter Processing in Bivalves: An Overview. Journal of Marine Ecology, 19(3), 103-123.
Ruppert, E. E., Fox, R. S., & Barnes, R. D. (2004). Invertebrate Zoology: A Functional Evolutionary Approach (7th ed.). Cengage Learning.
Stanley, S. M. (1970). Relation of shell form to life habits of the Bivalvia. Geological Society of America Memoir, 125, 1-296.
Voss, G. L. (1980). Seashells of the Gulf and Atlantic Coasts. Houghton Mifflin Harcourt.
Wells, H. W., & Gray, I. E. (1960). Habitat selection and the distribution of the coquina clam (Donax variabilis). Ecological Monographs, 30(1), 55-77.
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A hoverfly buzzing with cheer, Lands softly, no sting to fear. With wings all a-glitter, It’s no wasp, just a critter, Whose mimicry tricks year to year.
The photo shows the hoverfly on a smooth surface, possibly resting or feeding. Hoverflies are abundant in the fall as they are drawn to late-blooming flowers for nectar and pollen.
A hoverfly stopped for a snack, On a table, just taking a crack. It posed for a shot, Not moving a lot, Then flew off to plan its next act.
A hoverfly thought it was sly, As it zipped ‘round, too quick for the eye. “Are you a bee?” folks said, With confusion widespread, “Just a poser!” it said with a sigh.
Some useful facts about this relatively harmless visitor
This insect is a Hoverfly (family Syrphidae). Hoverflies are often mistaken for bees or wasps due to their yellow and black striped body, but they are harmless and lack the ability to sting. They are beneficial pollinators and are common in gardens, meadows, and near flowers.
Some key identifying features include:
Large compound eyes that meet at the top of the head in males.
Two clear wings (unlike bees/wasps, which have four wings).
A short, stubby antennae.
Mimicry coloration (yellow and black stripes) that helps them avoid predators.
I had a haunting experience at Cocoa Beach, witnessing a rare fogbow—a ghostly arc formed by fine mist—evoking emotions and reflections on nature’s beauty.
The fog haunted Cocoa Beach for days, softening the edges of the afternoon. I had been walking along Cocoa Beach, feeling the cool ocean breeze on my face, when I noticed a change in the light. It was a little after four, the sun drifting lower in the western sky, its warmth fading into a hazy glow. The air smelled of salt and mist, and waves lapped gently at the shore, their rhythm unbroken by the deepening fog.
And then I saw it.
A pale arc stretched across the horizon, a ghost of a rainbow bending above the waves. At first, I wondered if my eyes were playing tricks on me—where were the usual bright bands of red, orange, and violet? But no, the arc was real, a fogbow, forming where sunlight met the fine sea mist. Unlike the rainbows that appear after summer storms, this one was almost entirely white, as if the ocean had conjured it from air and silence.
Sailors once whispered of such things—a white rainbow at sea, a sign of hidden land or wandering souls. Some believed it to be a bridge between realms, a fleeting passage where the living and the lost might momentarily brush against one another. Others saw it as an omen, a spectral warning of treacherous fog ahead. I wondered what the mariners of old might have thought, standing at the bow of a ship, watching a pale arc rise from the mist, its edges dissolving like breath against glass.
I stood still, watching, as the science of the moment unfolded before me. Unlike traditional rainbows, which form when light bends through large raindrops, fogbows are born from infinitesimally smaller droplets, often less than 0.1 millimeters in diameter. Their size diffuses the light, scattering it so finely that the colors blend together into a spectral whisper rather than a vibrant shout. The physics of it fascinated me—this was diffraction in action, nature bending light in a way that rendered it nearly colorless.
The effect was surreal. The fogbow arched over the breaking waves like something out of a dream, a halo of sea and sky, momentary yet timeless. It seemed to pulse in the shifting mist, visible one moment, fading the next, as if deciding whether to reveal itself fully or slip back into the fog’s embrace.
For several minutes, I just stood there, taking it in. The world felt different inside that mist, quieter, more reflective. The fog dampened the usual sounds of the beach—the calls of shorebirds, the laughter of distant walkers—leaving only the hush of the waves and the distant hum of the ocean’s breath.
I knew that fogbows were rare, requiring just the right balance of thin fog, moisture, and a low-angled sun. I was lucky to be in the right place at the right time, a witness to something subtle yet profound.
And just as silently as it had appeared, the fogbow began to dissolve. The mist thickened, swallowing its arc, the sky shifting back to its usual muted gray. But the memory of it lingered—a white rainbow over the sea, ephemeral and elusive, like a secret the ocean had briefly chosen to share.
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Walking along the shoreline of Cocoa Beach in the early morning light, I encountered a remarkable sight—a Nine-armed Sea Star (Luidia senegalensis) sprawled on the damp sand. Its long, slender arms stretched outward in a perfect starburst pattern, each limb tapering to a fine point. The sandy beige coloration of its body blended with the surrounding beach, accentuated by a darker stripe running down the center of each arm. Scattered around it were small shells and fragments, remnants of the ocean’s ebb and flow, testifying to the high tide that had deposited this fascinating creature ashore.
The scientific name Luidia senegalensis provides insight into the taxonomy and classification of this intriguing sea star. The genus Luidia is named after the 18th-century Portuguese naturalist Francisco Luid, who contributed significantly to marine biology. The species name senegalensis refers to its first recorded discovery along the coast of Senegal in West Africa. As a member of the phylum Echinodermata and the class Asteroidea, the Nine-armed Sea Star shares lineage with other starfish, sea urchins, and sand dollars, distinguished by their radial symmetry and water vascular system used for movement and feeding.
As I paused to observe it more closely, I marveled at the intricate details of its structure. Unlike the more familiar five-armed sea stars, this specimen had nine arms radiating from a small central disc. The surface of its body appeared smooth, with tiny tube feet lining the underside of each arm—a biological marvel designed for locomotion and feeding.
This starfish washed up on high tide. I seemed alive so I returned it to the surf during ebb tide, hoping the ebb current would return it to deeper water.
The Nine-armed Sea Star, common along Florida’s coastline, is a voracious predator within the benthic ecosystem. It primarily preys on bivalves such as clams and mussels, using a fascinating feeding strategy. Unlike most predators that rely on speed and strength, this sea star employs patience and ingenuity. It wraps its flexible arms around a bivalve, exerting a slow and steady force to pry the shell open. Once a small gap is achieved, the sea star everts its stomach through its mouth and into the prey’s shell, secreting digestive enzymes that liquefy the soft tissues within. This external digestion allows the sea star to consume its prey without the need for teeth or jaws—a perfect example of nature’s ingenuity.
Despite its delicate appearance, the Nine-armed Sea Star plays a crucial role in the marine ecosystem. By preying on bivalves, it helps regulate their populations, preventing overgrazing of seagrass beds and maintaining a balanced food web. Additionally, it serves as a food source for larger marine predators, such as fish and sea turtles. Its presence signifies a healthy intertidal environment, where nutrient cycles and predator-prey relationships are in dynamic equilibrium.
As I considered the sea star’s role in the ecosystem, I wondered about its journey to this point. These creatures undergo a fascinating life cycle, starting as tiny, free-swimming larvae that drift with ocean currents. Over time, they undergo metamorphosis, settling onto the seabed and gradually developing into their iconic star shape. The resilience and adaptability of these creatures are truly astounding, capable of regenerating lost arms and thriving in diverse habitats.
Realizing that this sea star likely found itself stranded by the receding high tide, I felt a sense of responsibility to help it return to its natural environment. Picking it up gently, I carried it toward the water’s edge, where the ebb tide was beginning to pull the sea back into its vast domain. With a final look at its striking form, I placed it carefully into the shallow waves, hoping that the ebb current would carry it back to the sandy seabed where it belonged.
As the waves lapped around my feet, I imagined the sea star resuming its journey, gliding along the ocean floor in search of its next meal. The interconnectedness of all marine life became evident in that moment—each creature playing its part in an intricate and delicate dance of survival.
Walking back along the shoreline, I reflected on the experience. My fleeting encounter with the Nine-armed Sea Star was a reminder of the wonders hidden beneath the ocean’s surface and our role in preserving them. Every tide brings new discoveries, and every ebb offers a second chance—for the sea star, and perhaps for us as well.
Cocoa Beach, with its gentle waves and abundant life, had once again provided an unforgettable encounter with nature. The starfish, now safely returned to the ocean, would continue its unseen work beneath the waves, a quiet but essential denizen of the underwater world.
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The Pulse Bridge model embodies Paolo Soleri’s vision, merging architecture and philosophy to inspire adaptability, connection, and beauty in urban landscapes.
For me room was hushed, as if holding its breath in reverence for the dreams of a man who dared to reimagine not just buildings, but entire landscapes. I stood before the model of the Pulse Bridge, a work envisioned by the inimitable architect and philosopher Paolo Soleri. This was a living, breathing entity in miniature—a whisper of the city’s heartbeat rendered in metal and form.
PULSE BRIDGE is conceived for the New York cityscape and designed so as to alter its own stress configuration according to the traffic loads it carries and the temperature and wind variations. It does not so much react to such stresses as it dynamically adapts to them. This is achieved by suspending the whole structure on two sets of hinges and altering the weight distribution by way of four ballast spheres, constantly changing in weight because of the water volume they contain and is pouring in or spilling out of each. Temperature differential and wind loads will suggest asymmetrical ballast content.
The bridge stretched across the table, a golden ribbon suspended in perpetual motion. Its delicate cables, taut and slender, mirrored the veins of a great urban organism. I leaned closer, catching the glint of light on the brass framework, which seemed to hum with possibility. The slanted pylons, bold and angled at 45 degrees, rose like colossal compass points charting a path into a future yet unbuilt. Their elegant incline gave the structure a sense of poise and power, as though it were both rooted in the earth and ready to leap skyward.
At either end of the model, spherical ballast weights gleamed like captive suns, their surfaces smooth and luminous. These orbs symbolized adaptability, a dynamic response to the unpredictable forces of wind, weight, and weather. Soleri’s genius was palpable in these spheres—each a small, controlled impulse that could tip, pour, or hold water to balance the bridge’s pulse, much like the human heart adjusts its rhythm to life’s demands.
As I circled the model, I noticed how the bridge’s levels—three distinct layers—seemed to invite a diversity of life. The uppermost level promised a vista for pedestrians and the rhythmic flow of cars. Beneath, a middle layer hinted at a mix of vehicles and trucks, and the lowest level seemed destined for the silent hum of trains, utilities, and unseen infrastructure. It was a symphony of movement, each level contributing its own notes to the city’s harmony.
And yet, the most captivating feature was not the mechanics or the engineering marvels, but the philosophy embedded within. Soleri’s vision was not just to build a bridge, but to craft an experience—a structure that could breathe, flex, and adapt to the ever-changing pulse of New York. He imagined the pylons as cultural hubs, housing optical museums, exhibitions on bridge history, and even gift shops. The bridge was as much about connecting people as it was about connecting places.
Standing there, I felt the weight of Soleri’s ambition. The Pulse Bridge was a manifesto, a declaration that utilitarian structures could inspire wonder and nurture life. I imagined walking across its span, the city stretching out on either side, the bridge subtly shifting beneath my feet as it responded to the flow of traffic and the gusts of wind. It would be a conversation between structure and environment, a dialogue that reminded me of the living world we so often take for granted.
The longer I stood before the model, the more I realized it was not just a reflection of Soleri’s imagination but a challenge to our own. Could we build a future where beauty and function danced together, where even a bridge could sing of resilience and grace? The Pulse Bridge dared us to try.
In that quiet room, with sunlight streaming through the windows and casting delicate shadows across the model, I felt the profound allure of what could be. Soleri’s bridge was an idea—a luminous thread connecting visionaries across time, urging us all to dream bigger, build better, and embrace the pulse of life in all its complexity.
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Michael Stephen Wills Photography 