by TRC_Admin | Apr 27, 2023 | Etc.
“Michael Kirwan named President; Melinda B. Powers and Rebecca Williams join the Board.”
Michael Kirwan succeeds Susan Caven, who will continue to serve as an officer and immediate past president. Kirwan is a partner with the international law firm of Foley & Lardner and was recently awarded the firm’s national community impact award, the Lynford Lardner Award, for his community contributions. He has been with Scenic Jacksonville for ten years, leading the Underground Committee and the Great Cities Symposium. Caven was president of Scenic Jacksonville for two different terms spanning over eight years, and has been a longstanding civic advocate for trees, billboard removal, historic preservation, and scenic beauty.
Photo: Scenic Jacksonville
“Melinda B. Powers is the founder and manager of Intentional Professionals, LLC where she consults and coaches small business owners and corporate professionals. She is a member of the 2023 class of Leadership Jacksonville and has served on local nonprofit boards including the Ascension St. Vincent’s Foundation Shircliff Society, River City Education Organization, Jax Chamber’s Downtown Council and Junior League of Jacksonville. “
Photo: Scenic Jacksonville
“Rebecca E. Williams is the Founder and Chief Executive Officer of Fruit of Barren Trees, LLC, a neighborhood revitalization firm. After working for a number of years at Fannie Mae, she is focused on transforming communities through development, revitalization, and investment strategies.
Photo: Scenic Jacksonville
‘We are very fortunate to have such talented community leaders joining Scenic Jacksonville’s Board,’ said Michael Kirwan. ‘These new directors bring energy and enthusiasm to our already active and passionate board and will help us continue our mission of preserving, protecting and enhancing the scenic character of our city.’
— Scenic Jacksonville
Visit Scenic Jacksonville here
by TRC_Admin | Apr 27, 2023 | Environmental, Nature, Placemaking, Planting, Trees
Photo: Kim Frisbie
Photo: Kim Frisbie
“I was fortunate to have a recent tour of the wonderful Phipps Ocean Park. This exciting project will be a tremendous gift to the residents of Palm Beach.
The Preservation Foundation’s plans for the renovation of this 18-acre area include educational facilities and native landscaping to promote and restore environmental sustainability. In 1948, the Phipps family donated 1,200 feet of ocean frontage for use as a public park to ensure the land remained open in perpetuity. The park has not been well-managed in the intervening 75 years, is grossly underutilized, and currently consists of just some random paths and picnic tables with a few cabanas. Plantings are infested with invasive species including Brazilian pepper and melaleuca, and it is not an inviting area to visit.
Enter the Preservation Foundation of Palm Beach in 2019 with a master plan for the park, incorporating educational facilities with native landscaping to restore, protect and preserve the coastal and intracoastal vegetation. Unique, diverse, and extraordinary spaces will inspire visitors to understand and appreciate the importance of environmental sustainability. With Raymond Jungles’ vision to promote the park as a nature preserve, it will be planted with only native species, capturing the original spirit of the land as the Phipps family knew it. Visitors will gain exceptional education and information on plants they can add to their own landscapes, seeing how different species grow on coastal and inland areas…
Phipps Ocean Park will also embody an important coastal restoration center dedicated to growing native species for the park and for the Town of Palm Beach. This nursery/propagation facility will provide hands-on activities for children and adults for restoring coastal ecosystems throughout the island or in their own landscapes…
The historic Little Red Schoolhouse, built in 1886 and recently restored to its one-room glory, will interact with a new outdoor classroom sponsored by the Garden Club of Palm Beach to provide additional educational opportunities for children in an engaging native setting…”
— Kim Frisbie, Palm Beach Daily News
Read entire article
by TRC_Admin | Mar 2, 2023 | Trees
Photo: The man-made forest at Tokyo Electric Power Company’s Higashi-Ōgishima Thermal Power Station in Kawasaki, Kanagawa Prefecture. Starting in the 1980s, saplings were planted at the site, first just one plant per square meter, as shown at left. Later plantings increased this to three. More than 10 years later, the trees, which have yet to reach full height, have formed a dense forest. (Courtesy of Miyawaki Akira)
“The Miyawaki method is an innovative approach to planting forests garnering global attention as a quick way to ‘greenify’ cities. Its imitation of natural processes to create diverse woodland ecosystems makes it possible to reestablish native stands in a span of just a few decades. A student of plant ecologist Miyawaki Akira, the developer of the technique, explains the approach and talks about the importance of fostering urban forests.
Forests play a huge role in sequestering carbon dioxide, making them essential to offsetting emissions as the world races to achieve carbon neutrality. Japan has seen its forested land increase, the result of once closely managed areas like satoyama and secondary forests in rural farming communities being left to grow wild as populations in the countryside shrink. Green spaces in cities, on the other hand, continue to dwindle as urban areas swell. Below, I look at the benefits of urban forests, and describe how cities can regrow stands of native trees using the Miyawaki method. A Data-Driven Approach to Urban Forests
The Miyawaki method of afforestation is the invention of renowned plant ecologist Miyawaki Akira. Professor emeritus at Yokohama National University and former president of the International Association of Ecology, Miyawaki remained a staunch advocate of restoring indigenous forests to urban areas until his death in July 2021 at the age of 93…
Miyawaki first utilized his method to plant a forest at the Nippon Steel Corporation’s plant in Ōita Prefecture in 1972. This approach would later blossom into the creation of what he from the beginning called furusato no mori, ‘hometown forests,’ at locations other than factories throughout Japan. Following this inaugural project, he published an influential work in 1974 outlining his approach that focused on restoring native forests at Japanese educational institutions. Then in 1976, he put these ideas to work establishing another forest, this one on the campus of Yokohama National University in Kanagawa Prefecture.
Photo: (1) The site for the Miyawaki forest at Yokohama National University was a 2–3 meter embankment covered in invasive species of grass. (2) Topsoil was added and varieties of shii (Japanese chinquapin), tabu (Japanese bay tree), and kashi (Japanese oak) were planted. (3) Three years after planting, the trees had grown to 3 meters. (4) A decade after planting, the trees had reached 10 meters in height. (Courtesy of Miyawaki Akira) (1) The site for the Miyawaki forest at Yokohama National University was a 2–3 meter embankment covered in invasive species of grass. (2) Topsoil was added and varieties of shii (Japanese chinquapin), tabu (Japanese bay tree), and kashi (Japanese oak) were planted. (3) Three years after planting, the trees had grown to 3 meters. (4) A decade after planting, the trees had reached 10 meters in height. (Courtesy of Miyawaki Akira)
Since its inception, Miyawaki’s technique has drawn the attention of experts in Japan and from overseas who have studied the method and reported their findings in books, journals, and other publications, creating a significant body of literature. These include a recently released report by the Institute for Global Environmental Strategies Japanese Center for International Studies in Ecology, where Miyawaki served for many years as director.
A half century on, Miyawaki’s method has been used to restore forests around the globe. To date, some 900 projects in Japan have utilized the technique, including those to reestablish protective coastal forests devastated by the Great East Japan Earthquake’s tsunami in 2011, as well as more than 300 afforestation efforts in such far-flung places as Southeast Asia, the Amazon, Chile, and China. A Quick Path to Restoring Native Forests
The Miyawaki method is pioneering in its reliance on a large number of native species and the close proximity in which vegetation is planted. It mimics the natural distribution of plant varieties in native forests, enabling the biotopes to grow and mature more quickly than with traditional afforestation methods. The following are some of the defining characteristics of the technique.
1. Selecting Native Species
Core to the technique is the process of selecting native species that are best suited to the local ecosystem. In most cases, cities hoping to establish urban forests have to look elsewhere to identify plant species native to the area, including by surveying large old-growth trees in areas like the sacred forests (chinju no mori) of Shintō shrines. Another resource is overgrown satoyama and secondary forests in rural areas, which are seeing a return of broad-leaf evergreen varieties like native oak and chinquapin. However, differences in conditions like climate, terrain, and soil at survey areas and planting sites must be carefully considered when choosing tree varieties, and a diverse range of indigenous plant species—as many as 40—occupying different forest layers is required.
2. Collecting Seeds
Another important aspect of the Miyawaki method is its focus on keeping things local. Rather than ordering saplings from far off nurseries, native plants should be grown from seeds collected from adult specimens nearby the site. Old-growth trees of species like bay, chinquapin, and oak are abundant in rural areas and are excellent sources of seeds. Teaming up with local nurseries is another good option. However, there must be strict guidelines to prevent the accidental introduction of closely related species at a site in order to ensure the genetic integrity of a forest.
3. Hand-Grown Plants
Once seeds are collected, they are placed in trays to germinate. The sprouts are then transferred to plastic planting pots and are cared for until they have reached a size that they can be transplanted. When planting a Miyawaki forest, selecting saplings with robust root balls is crucial, as these have a better chance of surviving and quickly growing into adult trees…
4. Boosting Environmental Awareness
Planting takes place on reprepared embankments that have been fortified with materials that enrich and protect the soil and help with water retention. The planting area is divided into one-square-meter plots, on which three or more different species of plants, typically three-year-old saplings standing around 50 centimeters tall, are planted. The planting process is straightforward, consists mainly of digging holes with hand-held planting trowels and placing the sapling inside, and can easily be coordinated as a group activity. Large projects can be conducted as part of local efforts to raise environmental awareness, with planting volunteers being recruited from surrounding communities. At one such ‘planting festival’ to restore coastal woods destroyed by the tsunami in Iwanuma, Miyagi Prefecture, 10,000 volunteers came together and planted 100,000 saplings in a single day on a sprawling 50-by-100-meter site.
Planting events help raise community awareness of environmental issues and are especially suited to children, helping spur interest in similar projects. They also provide opportunities for like-minded people to meet, and there are many instances of participants going on to form dedicated groups that actively take part in planting events…
5. Tending Young Forests
Once planted, the closely spaced saplings compete with their neighbors for available resources, spurring plants to grow quickly. A newly planted site needs to be tended for the first few years, including regular watering and the addition of a layer of rice straw mulch to control weeds. After three to five years, though, Miyawaki forests are self-sustaining once trees develop to a size blocking sunlight from reaching the ground, making further human intervention like weed prevention unnecessary.
Miyawaki forests grow rapidly, around a meter a year in height. In as little as a decade, an area with no vegetation can be transformed into a native forest with trees standing 10 meters tall. And in another decade, it will be fully developed, with indigenous vegetation occupying the different layers, including a canopy soaring 20 meters or more in the sky. The Gold Standard of Urban Forests
Urban concentration is responsible for dwindling wooded areas in major cities. This trend needs to be reversed, though, as such green spaces play a number of vital roles beyond just beautifying the urban environment. Trees shade roads and buildings, helping to fend off the heat-island effect. Stands of trees also protect against natural calamities, an important characteristic in disaster-prone Japan. For instance, after major earthquakes, urban forest act as fire breaks, checking the spread of devastating conflagrations that follow powerful temblors, along with other disaster mitigation functions.
Cities wanting to ‘greenify’ can look to Tokyo’s Meiji Shrine forest for inspiration. Established in 1920, the man-made forest has flourished over the last century without intervention by humans. Considered the gold standard of urban reforestation, experts have rigorously studied the workings of the biotope and its effect on the surrounding urban environment.
There is no need—nor is it be practical—for cities to create something as grand as the Meiji Shrine forest, though. Instead, municipal authorities should utilize the Miyawaki method to strategically plant many smaller stands. Undertakings of this kind would make cities healthier for residents and increase biodiversity while also bolstering disaster readiness, decreasing noise pollution, and mitigating climate change…”
— Suzuki Shin’ichi, Nippon.com Environment
Read entire article
by TRC_Admin | Mar 2, 2023 | Trees
Photo: Daylina Miller, Wusfnews.edu
“Volunteers at Heritage Harbour Park in Bradenton drill holes, haul mulch and nutrient-rich dirt, and plant trees and shrubs to create the area’s first microforest.
Forests store more than a quarter of the earth’s carbon dioxide. But trees don’t grow fast enough to compete with the amount of fossil fuels released into the atmosphere. Lately, communities are learning that a small solution could make a big impact in fighting climate change.
It’s early morning in Bradenton, where about 100 volunteers armed with shovels and pruning shears kneel in about half an acre of fresh soil for a community planting.
Manatee County master gardener Norma Kisida, crouches down and grabs a sapling.
‘We’re going to clip these roots so it will come out of the pot,’ she says to a local school group. ‘Oh yeah, we don’t want big roots,’ answers an enthusiastic young volunteer.
By the end of the day, these gardeners will have planted about 1,800 shrubs and trees to create a microforest, a tiny densely-planted wooded area, at Heritage Harbor, a planned community just east of I-75.
Charles Reith, with the nonprofit group Sarasota Urban Reforesters, says a coalition of community groups, including Florida Veterans for Common Sense, Solutions to Avoid Red Tide, (START) and the Sarasota Bay Rotary Club, have established several microforests throughout the Gulf Coast region.
They hope that when these small but dense forests mature, they will make an impact in the fight against climate change.
The project was inspired by Japanese botanist Akira Miyawaki, who pioneered the technique of planting species close together so they compete for sunlight.
“Because of the density, the canopy trees get these shade signals in early morning and late afternoon light that stimulate hormones to grow as fast as possible,” Reith said.
That means a microforest will mature in just decades instead of up to a century.
Advocates for the Miyawaki method say the miniature forests grow 10 times faster and become 30 times denser and 100 times more biodiverse than those planted by conventional methods.
Reith, a self-described sustainability activist and former professor at Tulane University in New Orleans, says as a result, the trees planted in Bradenton will be able to absorb high levels of carbon much sooner than a traditional forest.
The team estimates that a microforest planted at the Celery Fields in Sarasota two years ago, will sequester approximately 600 tons of carbon in 30 years.
Gene Jones, the president of the nonprofit Florida Veterans for Common Sense, says another major benefit is that microforests intercept and filter rainwater and help reduce pollutants that flow into waterways.
‘Runoff contributes a lot to the nutrient load in our bay, which exacerbates red tide,’ he said.
These small forests are becoming increasingly popular, particularly in urban areas where space is tight, because they can fit pretty much anywhere. The one in Bradenton is the fifth of its kind in the Gulf Coast region.
Brad Oberle, a professor of biology and environmental studies at New College of Florida is helping organizers track the amount of carbon these microforests will eventually store.
Oberle helped create a food forest with New College students on just under an acre of the Sarasota campus in 2015.
“If we can understand how to make forests grow even better, we potentially have a really powerful tool to combat climate change,” he said.
The New College team measured their trees two years after the initial planting. Taking the soil and trees together, Oberle said the tiny food forest pulled 20,000 pounds of carbon dioxide out of the air. That’s equal to the amount produced by two households in a year.
At double the size, and with larger trees, the microforest in Bradenton should sequester a lot more…
‘These microforests create a zone certainly under them, but extending further out than one might expect, that cools the air down considerably, said Reith.
While the most obvious way trees cool the air is by shading, they also do it through transpiration, which happens when trees release water into the atmosphere from their leaves.
As the water turns from liquid into vapor, the surrounding air is cooled…”
— Cathy Carter, Daylina Miller, Wusfnews.edu
Read entire article
by TRC_Admin | Mar 2, 2023 | Trees
Photo: 200 fruit trees being planted at White Harvest Farms in Moncrief neighborhood, WJXT
“Volunteers are doing their part to ensure one part of Jacksonville has easy access to fresh food.
Fruit trees are being planted in that area [Moncrief] this weekend and Feb. 18.
Mikey Howell has been a farmer there for more than a year…
One part of the farm will be a citrus orchard. Volunteers spent the rainy and wet morning planting orange, lemon and grapefruit trees. Other food available includes apples, peaches, grapes, pears and blackberries.
There are also fall and spring crops, including collard greens, kale, herbs, broccoli, lettuces, tomatoes, peppers, eggplant and squash.
Nearly 600 residents shopped at either the White Harvest Farm’s market or Clara White Mission’s farmer’s market in 2022…
It was Katie Sims’ first time volunteering. Now, she wants this to become a weekly routine.
‘These trees are going to be here for hundreds of years,’ Sims said. ‘Families are going to be able to nourish their bodies. This is the beginning. This is the beginning of change for this community. People should not have to travel far to get good food…’
The city of Jacksonville completed a food desert study in 2019 that revealed 38% of Northwest Jacksonville census tracts were considered food deserts. That is compared to 23% for the entire city…”
On Feb. 18, there will be more tree planting at White Harvest Farms as well as the Black History Month Food Festival with the Clara White Mission.”
— Aaron Farrar, News4Jax
Read entire article
