Bombus melanopygus - Black tailed bumble bee.

How the bumble bee got its stripes https://www.eurekalert.org/news-releases/600078

Bombus melanopygu, a captivating bumblebee species that I recently began studying for my body of work, “Rumblings”. As an artist, my process begins with thorough research, delving into the intriguing world of each unique species. Despite the limited information available, I find myself captivated by Bombus melanopygus and its enchanting research qualities.

Incredible breakthroughs have been made by researchers in understanding the color differences within bumblebee species. A recent study, conducted by experts at Penn State, has revealed the presence of a specific gene that drives these variations in color patterns. This discovery not only sheds light on the astonishing diversity among bumblebees, but also provides insights into the evolution of mimicry, where individuals adopt similar color patterns within a given area. The gene resides in a highly conserved region of the genome, which serves as the blueprint for segmentation. This groundbreaking research was published in the renowned journal Proceedings of the National Academy of Sciences on April 29, 2019. -

A Turn of Events: My Dream Installation on hold.

This summer, I was presented with an incredible opportunity. A curator asked me to propose my dream installation, a chance to showcase something meaningful. The site owner was willing to support and fund the work.

After much contemplation, I decided on a proposal that filled me with passion and urgency. However, last week, it all came to a halt.

I am sincerely grateful for the curator’s interest in my work and the site owner’s support. Their initial inquiry inspired this proposal, and I cannot thank them enough for that. I believe that everything happens for a reason, I have an idea and I am hopeful that I will find the project a site and funding.

First a little background. While at Indiana University, I became aware that integrating ecological recovery with natural systems is a new academic direction and numerous educational institutions are interested in this area. After all, universities and school systems are the largest landowners in any city and having research students involved would be a great asset. Transforming the proposed installation into an art/environmental science installation would significantly enhance the social sculpture’s reach and benefit a university and society.

Below is my proposal.

Introduction-

Global warming, food security, drought/flooding, wildlife habitats, economic instability, and health – these problems are not new to humankind. The archeology of ancient civilizations has recorded connections between the longevity of civilizations and the health of their soil. The United Nations reported in 2014 that the world's topsoil would only last 60 more growing seasons. Soil scientists around the globe agree that solutions to these issues are rooted in our treatment of soil—the skin that covers our planet. 

In a moment of global uncertainty, I ask myself, what materials and forms would I use to create the greatest impact on society and the environment? As I think of ancient civilizations' architecture, art, and spiritual practices, pillars and vessels played an important role in shaping their understanding of the world. Much of my previous work has been about conservation issues, looking specifically at Earth’s natural systems of bees, at waterways, at bison, at native plants, at recovery from Hurricane Harvey, and now at the underground systems of Earth. And so, I would use roots as my material and pillars as my vessel.

standingGROUND

In standingGROUND, I propose a four-stage installation of 5’-10’ tall pillars of various shapes grown from the roots of long-rooted prairie plants.

These pillars will be created by stacking various shapes of clay vessels commonly purchased from home and garden stores. The vessels with the bottoms removed will be stacked and centered on a steel pole cemented in the earth with a small footing for stability. The pots will be filled with a leaf-mold compost and seeded with native grasses and plants known for their root depth. They are to be nurtured and watered for approximately twelve months or until the plants are rootbound in the clay pillars. The clay will then be delicately broken away and the above-ground plant material removed, leaving freestanding pillars of delicately intertwined roots bound in the shapes of the stacked vessels. The root pillars will stand erect on the hidden steel posts.

Drawing inspiration from the rhizomatic root structures of native grasses that give structure to Earht’s underground life, these sculptures, woven by natural systems, standing above ground, will bridge the gap between sky, earth, water, and modern humanity. These pillars offer a glimpse into the intricate workings of an underground prairie ecosystem, the upside-down rainforest for carbon sequestration of North America.

Four Stages

The first phase of standingGROUND will focus on the sculptural aesthetics of the work. I will carefully build the pillars composed of ready-mades to be strong sculptural elements on their own. Once a site is selected, I will choose a paint color that harmonizes with the surroundings and emphasizes the sculptural qualities of the pillars. Lighting will play a crucial role in showcasing the sculptures in relation to their environment. I will paint the pots before the installation, touch them up, and paint the joints afterward. Information on the site will discuss the ecological and social aspects not yet revealed.

The second phase will be to install the pillars into an immersive experience. The towering yet human-like pillars will be positioned strategically to create an intimate and inviting space for viewers. Within this space, a stone or stump will be placed as a reflective seat, provoking thoughts on how our actions impact climate and biodiversity and how humanity can find harmony within natural systems.

The third phase of standingGROUND is when I physically chisel the ceramic vessels away to reveal the social sculpture aspect, the delicate white lace-like intertwined roots bound in the shapes of the stacked ready-mades bridging the gap between sky, earth, water, and humanity.

The fourth phase encapsulates the cycle of life, decay, and regeneration. This crucial phase is essential for ensuring life on Earth. The root sculptures will gradually erode and disintegrate when exposed to the elements. Once the installation has reached the end of its visual lifespan, I will carefully remove the root sculptures. The poles and footings will be relocated from the site. This stripping away of the remnants will leave behind a cavity in the ground previously occupied by the footings. Remarkably, this void will serve as a space where the roots can be placed to rest-regenerate and give birth to new life.

I started experimenting with the shapes in their root form last week. I initially created six sketches in the form of watercolor monotypes. Then, I researched more pot shapes with larger mouths and created four more in round 2. The images of these sketches are below. I will continue experimenting with these shapes as I work on a site.

standingGROUND II

Watercolor monotype

30” X22”

StandingGROUND VI

Watercolor monotype

30” X22”

standingGROUND round 2 #1

Watercolor monotype

30” X22”

standingGROUND IV

Watercolor monotype

30” X22”

StandingGROUND round 2 #4

Watercolor monotype

30” X22”

StandingGROUND round 2 #3

Watercolor monotype

30” X22”

StandingGROUND round 2 #2

Watercolor monotype

30” X22”

standingGROUND V

Watercolor monotype

30” X22”

standingGROUND III

Watercolor monotype

30” X22”

standingGROUND I

Watercolor monotype

30” X22”

Living Llabyrinth- Building the grid

Building a Large Grid for Installing a Labyrinth: My Process. One reason I write these blog posts is to record my process. The other is to share information.

Constructing a labyrinth grid of this magnitude may seem like a daunting task. And it is for me. With the right strategy, it can be accomplished efficiently. As I embarked on this venture, I took the time to experiment and optimize my methods. Here's a breakdown of the process that was the most efficient.

To begin, gather the necessary materials: X-axis cords measuring 53 at 54' and Y-axis cords measuring 33 at 88' lengths. Keep in mind that the cords come in 100-foot lengths.

I wish I had of planned at 50’ by 100’ bison. The lighter is for singing the ends so they will not ravel. The tape is for tapeing the measured and twist-tied ropes for the installation.

I am making each cord that is a multiple of 5 a white cord. I think this will helpful the day of the installation.

1. X-axis cords: Start by unwinding the hundred-foot cord carefully, ensuring it doesn't become tangled. Here's a handy tip: tie a knot at one end and secure a twist tie next to it. Place the knotted end in a doorway and shut the door on it. This will hold it in place. Then, stick your arm through the middle of the looped cord and slowly unwind it, walking away from the door until it's completely straight.

2. Measure and cut the cord, leaving a few inches to knot and singe the ends to prevent unraveling. Tie another twist tie at the 54' mark. This will serve as the reference cord for measuring all other X-axis cords. Keep this cord secured in the door.

3. Take the leftover cord singe the end and knot it and tightly tie a twist tie inside the knot. Shut in the door with the reference length cord. Measure it against the reference cord and splice it with a piece of the next 100' wound-up cord to measure the 54' length accurately. Now you have a cord to start marking the grid on.

To mark the grid on the first cord—

The dining has been my studio work space. First I covered the 8’ table in a thick paper to protect it. Next I marked every 20” from end to end.

4. Prepare a long table by placing sheets of paper and securing them to the table so they will not slip. Measure and mark on the paper every 20". Lay the cord on the marked paper. To ensure stability, anchor the cord with a heavy object like a case of water.

I used a case of water to weigh down the cords.

Starting from the first knot, and twist tie secure each twist tie tightly along the edge of the table at the 20' marks. Continue tying twist ties until you reach the end of the 54' mark. You may have a little excess cord hanging after the last tie.

The 8’ mark of the table length and the last twist tie. I leave a few inches at the end just in case.

The first piece with every 20” tightly tied with a twisties.

5. Carefully wind up the cord, tape it securely, and mark it as X-axis 54'.

The first grouping of five- 4 red and the 5th white.

53 pieces - completed.

6. Finally, organize the cords by making four red and one white, keeping them grouped together.

IU - The labyrinth design - How will it be installed?

Once the grid is installed, the next step is to think about how to divide the work so that groups of student and volunteers can install my vision. .

Two options seem viable. The first idea is by marking the (X, Y) coordinates for each circuit of planting on individual pages. The other idea is by verticle rows.

Below I have marked the coordinates of the circuits. As I mark the coordinates I am not sure this is the way. I may need to break it down to smaller sections.

I can continue to consider how to breakdown the jobs as I begin building the grid.

The National Wildlife Federation - feature

Partnering with communities, schools, governments, and organizations across the country, the National Wildlife Federation is leading the charge for conservation.

Through their tireless commitment to protecting and restoring habitats, they have managed to breathe new life into endangered species like eagles, deer, elk, bighorn sheep, and whales.

I am deeply proud to have my work featured in the prestigious fall edition of the National Wildlife Federation magazine. It is a true honor to be recognized alongside such incredible conservation efforts.

IU - How do you draw a labyrinth?

During the first week of my residency at IU when I wasn’t exploring the city, University, art, museums, ecology, architecture, and landscapes I was experimenting with labyrinth designs.

Some sketches of three different types of kabyrintgs.

This design starts with a simple cross. I need to keep this simple.

Turning the cross/square labyrinth upside down I decided to attempted a seed labyrinth. I think a design less feminine will be better.

Call of The Crane

“When we hear his call we hear no mere bird. We hear the trumpet in the orchestra of evolution. He is the symbol of our untamable past, of that incredible sweep of millennia which underlies and conditions the daily affairs of birds and men.”

– Aldo Leopold on the call of the sandhill crane

During my Christmas day stroll with family and Tobi, I came across a crumbling old stump harboring an exquisite feathered creature. The majestic bird looked to be either a Whooping Crane or Sandhill crane - the two largest birds of North America.

While North America has many struggling ecosystems, it's so important that we remember the stories of hope and recovery too. The Sandhill crane is one such story - once endangered, their numbers have rebounded thanks to determined humans working to save them. Getting to know these creatures better can only inspire more hope for future environmental recoveries. I'm looking forward to learning more about the whooping cranes on my trip south this February with Curtis. If you know any other inspiring stories of environmental recovery please share them with me?

As found on Christmas day with it's natural patina.

In my garage studio after giving the bark a little wash to highlight the movement in the wood.

Detail

Golden-reined Digger Wasp - fascinating and gentle despite its sinister appearance.

This is one interesting creature, so interesting I pasted the article below.

Despite its vivid alarm coloration, the Great Golden Digger Wasp is not an aggressive species of wasp. They tend to mind their own business and can be found sipping on flower nectar during the summer, but in the early spring, females prepare to lay eggs.

Females will dig into loose soil and create many deep tunnels. When established, she then covers them to hide their existence. A female will track a small insect and sting them to paralyze them, but not to kill them. Once the prey is immobile, she will clutch it using her antennae and mandible (mouth parts) in order to fly it back to the tunnels. While in flight with her prey, it is not uncommon to see birds like robins or tanagers attempt to steal her meal from her by chasing her until she drops it. No other known species of Digger Wasp is known to be harassed by birds in this way. If the female is successful in returning to her tunnels with her catch, she will place the paralyzed prey aside to quickly inspect a tunnel. If it looks like it's still intact, she will pull the paralyzed insect, head first, down into it. She then lays an egg on the insect, exits the tunnel, and covers it over again. She repeats this process for each tunnel. Unlike other wasps, she does not actively defend her nest. Once hatched, the wasp larvae will feed on the living, yet immobile, insect until they are developed enough to leave the tunnel lair in the summer. Eventually, the parasitism of the paralyzed insect kills it.

Scientists are studying the behavior of this unique species. Great Golden Digger Wasps seem to display a type of internal programming. If their insect prey is moved away from the tunnel while the female inspects it, she will emerge, relocate it, bring it back to the tunnel entrance and start the inspection all over again. Every female exhibited the same repetitive 'start inspection again' behavior when tested in that way.

Females have also shown that they do not keep a tally of how many insects they catch versus how many tunnels they create. If some meals are stolen by birds, they do not realize that they are short on insects compared to tunnels.

With such gorgeous orange and black coloration, mild demeanor, and interesting behaviors, the Great Golden Digger Wasp is one to admire, not destroy. Perhaps a careful observer will discover even more fascinating things about this species.

Monotype- leafcutter (petalcutter)

Leafcutter (petal cutter) Megachile and the Blanket flower

Watercolor and pastel monotype

30” X 44”

Leafcutter bee flying to its nest just after cutting a petal from the Texas native Gaillardia pulchella aka blanket flowers. They use the petals to protect walls and to seal their nests. In exchange for the petals, the leaf cutter pollinates the blanket flowers bloom. It is one of my favorite relationships in “Symbiosis.”

Symbiosis - relationship 8/2022

Orange blister beetle and

Orange blister beetle and Ratibida columnifera

prairie cone flower. The beetle eats problem insects.

Gulf fritillary butterfly's mating and green anole ruins the mood.

Xylocopa virginica, the Eastern carpenter bee has evolved to the exact height to Maximize pollinating Passiflora incarnation. This relationship is one of my favorites in Symbiosis.

Soaking wet American bumble bee (endangered bee) using a Missouri ironweed leaf as an umbrella.

black mud daubersa, is a solitary wasp. This female his hunting for caterpillars to provision her mud nest. Plants recognize the vibrations of caterpillars chewing. This causes the plant to send out pheromones to attract wasp to keep the caterpillars down. She seems frantic.

Ascra bifida, exploring crabgrass and Marsh Fleabane (both volunteer plants) hunting for moths, caterpillars, harmful beetles, aphids and other pests. They are valued citizens in “Symbiosis”. Oddly there is very little online about this sweetheart of a stink bug.

American Mockingbird and American beauty berry.

On the left side of the image perched atop the dead olive tree a Mockingbird searches for insects. Camaflouged by the orange trick background a juicy dragonfly flies into to the upper right corner of the frame and catches the alert Mockibgbirds attention.

Cyathus stercoreus

Dung-loving birds nest fungus also known as splash cups.

Cyathus stercoreus

Dung-loving birds nest fungus also known as splash cups.

When a raindrop hits the cup's interior, the peridioles are ejected into the air tearing open the purse. In the lower part of the purse, the coiled funicular cord expands. The peridioles, followed by the sticky funicular cord and basal hapteron, land on a nearby plant stem or stick. Flying through the air, the line wraps around the plant's stem. The peridiole remains attached to the vegetation. In a natural setting, a grazing animal may eat it and later deposit it in that animal's dung to continue the life cycle. This amazing amazing creature breaks down dung, and captures raindrops.

Brown Anole

The ESTERN CARPENTER BEE AND PASSIFLORA INCARNATA

A dragonfly lays eggs in the still water of a trough pond. Her nymphs keep the mosquito larvae in check and are protein for the Texas mosquitofish.

Symbiosis - The first anniversary and a feisty or rebellious future.

What would the next twelve months look like?

A two-year-old can be feisty, or would it be more like a rebellious teenager coming into its sexuality?

April of 2021, I started installing the plant material in “Symbiosis.” Seeing, hearing and smelling the transformation has been a gift. This past spring marked the first anniversary. This post celebrates the relationships and natural systems I have documented from the first anniversary through mid-August.

Keep in mind that in the summer of 2020, when I agreed to install a site specific living sculpture, I went every day to observe the space. Sitting and looking — observational research is a big part of my work.

How did it function in the ecosystem? The mowed nonnative zoysia turf grass was neat within its “borders.” The nonnative shrubs and plants were in aligned rows amongst compressed dirt and it was static. As the summer days warmed the bare spaces, the rising heat never created any movement in the garden. It was designed in rows and easy to maintain with gas-powered mowers and edgers. The first soil test revealed that the garden was void of life. The lower food chain of earthworms and grubs was absent. That explained why the birds flew by without landing. There was nothing for them to forage or seek shelter from predators.  It did not soak up much water and sequestered little carbon. Lawndale’s Sculpture Garden was a dysfunctional plot of earth. It was green but not part of the coastal prairie ecosystem.

In a sea of Midtown asphalt and groomed properties in April of 2021, I questioned; would any wildlife find the small space? Failure was possible.

Nature was undeniably resilient in year one. Symbiosis was a living sculpture, a functioning part of the coastal prairie and the New World. The installation was not land art; it was a living ecosystem. It regenerated life.

 

On Mother’s day after the first big rain, the pond was full of white green treefrog eggs. The relationship between amphibians and clean water and important in building the lower food chain and keeping it in balance. for more details see the post Symbiosis — Green Treefrog Eggs.

Cricotopus rests on the Lawndale Art Centers building. This image is symbolic of a nonprofit art institution’s commitment to it's relationship with the natural world. Hopefully it will inspire others.

Large carpenter bee on a trumpet vine bloom.

Mutation of a rudbeckia hirta. A reminder that being different is beautiful.

the chemical free trough pond provides a habitat for toads to mate and leave their eggs. The tadpoles in return eat algae keeping the water clear and mosquito larvae. #social sculpture.

White-striped longtail enjoying a Rudebeckia hirta bloom.

Anole asserts his dominance on the trunk of a dead olive tree.

Ischnura hastata Citrine forktail on a frogfrut leaf.

Blue dock beetle enjoying the nutrition of a volunteer plant.

Spilosoma Virginia on a Rosinweed sunflower leaf.

Cricotopus Non biting midge on Rosinweed leaf.

Hippodamia convergens convergent lady beetle, on a volunteer plant.

unknown - But interesting

Celithemis fasciata and frogfruit.

Native bee _________ and Rosinseed sunflower.

Repipta taurus , Red bull assassin bug and painted blanket leaf.

Dolba hyloeus pawpaw sphinx and fall bedient plant

the perfect match a native carpenter bee’s body has evolved over the ages to fit the Passiflora incarnata perfectly.

Skipper on a dried volunteer plant.

Libellulidae- skimmer and docks. I often find skimmers perched on this past dried docks. They have a strong bond.

Mockingbirds and toads.

Mother Mockingbird feeding juvenile a tiny toad.

Juvenile Mockingbird perched on the manmade fence.

great blue skimmer (is a dragonfly) and the spent thimble flower.

2 Leafcutter bees mating.

2 Leafcutter bees mating and a spent painted blanket bloom.

Atalopedes campestris (called sachem in the United States and Canada) is a small grass skipper butterfly and frog fruit.

Another view

Hemiargus_ceraunus and frogdruit.

Umbrella paper wasp and spent sunflower.

Paper wasp and passion flower. PLANTS CALL WASPS TO THE RESCUE WITH AN AROMA THE INSECTS LOVE. This is a special relationship.

More (green eyed) leaf cutter bees mating again on spent painted blanket bloom.

Male Eastern Carpenter bee- check out those big green eyes and fall obedient plant.

Sphex Digger wasp. On passiflora incarnata

Obscure Bird Grasshopper shaded by the leaves of Turks cap.

Palpada vinetorum is a species of syrphid fly in the family Syrphidae.[1][2][3][4] It is a native flower fly species to North America, mainly found in Texas and parts of the east coast and fall obedient plant.

A pipevine swallowtail or Blue swallowtail laying eggs on a dried leaf of a red salvia. .

Battus philenor, the pipevine swallowtail or blue swallowtail and a morning glory vine.

Gulf fritillery butterfly and a passiflora incarnate

Dolba hyloeus (pawpaw sphinx) is a moth of the family Sphingidae and a fall obedient bloom.

Follow up post coming soon

Female common Whitetail skipper and a dried stem of a Rosin weed sunflower.

Leafcutter native bee and frogfruit.

Spiderweb that and dew . Does the quenching dew lure prey into the spiders web. I see a relationship between the spider and Earth’s closed water system.

Eastern carpenter bee and a rotting tree.

Eastern carpenter bee building a nest in a rotting wood.

Leafcutter bee and blanket flower.

Leafcutter bee with a petal of a blanket flower Gaillardia pulchella. They use the petals to build their nests.

American toad And Earth’s closed water system.

American toad out for a stroll during the rain.

Plushback fly and Salvia azure.

Another species of leadcutter bee cutting a bllanket flowr petal.

Swallowtail butterfly and white veined morning glory.

Swallowtail butterfly depositing an egg on white veined morning glory. Follow up post coming soin.

Jumping spider and fall obedient plant.

Plushback fly and blue salvia

The relationship between rainwater or dew and plants is a crucial part of any ecosystem. In this case the few is is on a stem of crabgrass. If you run your fingers down the stem you will notice the texture that slows water from running off it's surface too fast.

Dew and stems

Carpenter bee and Salvia azure

I have noticed that plant material on the edges of symbiosis stops garbage from blowing from the convenience store. I see this as another way plants are in partnership with our various ocean.

Anole safely camouflaged in the chaotic lines of the vines mixed with a diversity of plant stems.

Juvenile mocking bird on a dead olive tree branch. I saw about six of them hiding in the American beautyberry after the rain. Now that the installation is a year old, it is getting height and layers. This added heights provides the birds with more protection, berries and perches for hunting small prey.

Stink bug on American beauty very.

Carpenter bee getting a back rub wile collecting nectar and pollen on a purple passion flower.

Sunlight nesting in Rattlesnake master.

?

Subtribe Hesperiina And milkweed.

Subtribe Hesperiina And frogfruit

? Bee on Rattlesnake master

roseate skimmer and fall obedient plant.

Skipper on bloom less salvia stem.

New World Checkered skipper and everybody’s buddy frog fruit.

Sor ies of fly sleeping in butterfly faea Bush.

Rumblings - diversifying and implementing systems thinking.

All living and nonliving matter are connected in form or system. Through my work on “Symbiosis,”  I have witnessed the power of holistic management, also called systems thinking. I can see that Changing our decision making process to consider whole systems and connectedness is the solution to our environmental and social issues. Changing how society thinks is the driving force in my art.

With this new awareness I am inspired to consistently reflect it in my work. I have decided to rethink  “Rumblings,” which began as a collection of monotypes of 50 of the 10,000 bee species. It wasa mono crop of bees. However, you can’t separate the interconnection between bees, humans, or other living organisms and the earth's natural systems. We are all part of the living planet Earth. I will start applying systems thinking to all my installations. “Rumblings ” will celebrate the relationships among a diversity of species up and down the food chain.  I will weave into these pieces the relationships that whisper of Earths biological processes and Physical  and chemical Elements. The connections can be obvious or  subtle, they can be  unmeasurable or invisible. This will be fun.

Ragweed

Why we shouldn’t rag on ragweed? The seeds of ragweed are rich in fatty oils. Fats are not only Ebut also is for fattening up birds and small mammals such as Eastern Cottontail, Meadow Vole, grasshoppers which eat the leaves, Dark-eyed Junco, Brown-headed Cowbird, Northern Bobwhite, Purple Finch, Mourning Dove, American Goldfinch, and the Red-bellied Woodpeckers to get them through the lean winter months.

It is an ancient grain for humans and ragweed is a valuable food source for the caterpillars of many butterflies and moths including the striking wavy-lined emerald and the uniquely adapted bird dropping moths. The seeds of ragweed are rich in fatty oils. Birds and small mammals readily consume ragweed seeds to help fatten up for the lean months to come.

Ragweed

Endangered Knowledge: The Soul of Humus — The Bison in the Texaco Star

The Bison in the Texaco Star

The third pasture/exhibition

 As in agriculture that rejuvenates the soil, the bison has rotated to its third pasture/exhibition. It began in a historic grain silo/art venue in Sculpture Month Houston's Altamira, which considered modern caveman's materials and message to the future, followed by the Blue Norther exhibit, where the bison addressed extreme weather's connection to soil. Now it brings its message to the Houston Forever exhibition in the former Texaco Building in downtown Houston.

The Star building, former home of Texaco, the company that developed the Spindletop gusher in 1901 and took the US into the oil age, is a key location in the sculpture's rotation. The bison in the Star embodies our civilization's conflict "between" ecology and commerce. Before Spindletop, oil was primarily used for lighting and as a lubricant. With Spindletop's abundance, Texaco began marketing petroleum for mass consumption. What can we learn about natural carbon cycling through the soil from the herd's eating and waste habits — also called consumption and regeneration — contrasted with the development of the energy industry and our society's mass consumption without individual responsibility for regeneration? Comparing and contrasting these two energy sources, both receive energy from the earth: one where each consumer returns carbon to the soil and the other supplying a chain of energy but still trying to figure out how to repay its debt of carbon for future generations. Integrating natural systems of regeneration can steer our innovation and creative minds to a future in which consumption, conservation and regeneration of earth's resources are in balance.

 

Rosinweed sunflower bloom and spider.

Tiny spent sunflower bloom/seed head-the colors - suttle and faded, still rich and deep. The shapes of the seeds as they dried ❤️ The beauty of the natural world when you stop and look. I studied this dried object probably 4 minutes turning it in my fingers watching the white blooms from the crepe myrtle attached by the thread of a spider and then turning it over hiding underneath- a creature. As we enter the Anthropocene, saving insects is a priority in “Symbiosis.” When I edit out any materials such as this elegant, delicate, dried Rosinweed sunflower head from the garden, I do not bag them and put them in a trash can. I chop and drop. This tiny spider is evidence that chopping and dropping not only builds soil and saves money it also saves insects.

That Was Then This is Now.

July 2020 - the sculpture garden as it was when Stephanie and I first discussed the project.

February 2021. After the Texas freeze

May 2022 - 12 months from installation.