Month: August 2025

creativity

Planet of the Grapes: The Future of Sustainable Materials is Found in a Vineyard

Christa Avampato
Planet of the Grapes clutch and the wine waste that made it. Image from https://planetofthegrapes.fr/.

In the sun-drenched vineyards of Provence, France, where winemaking is an age-old tradition, a new kind of harvest is taking place. Instead of producing bottles of Rosé, one innovative company is collecting the leftover grape skins, seeds, and stems — known as “grape marc” — to create a revolutionary biomaterial. This is the story of Planet of the Grapes, a company proving that the solution to fashion’s waste problem might just be found at the bottom of a wine barrel.

Founded by Samantha Mureau, a fashion industry veteran, Planet of the Grapes was born out of her desire to counteract the devastating environmental and social impacts of fast fashion. She found her inspiration close to home when she realized the abundant grape marc left over from winemaking could be given a second life. Instead of being discarded or composted, it could be transformed into a high-performance, eco-friendly alternative to traditional leather and textiles.

The process is as fascinating as it is sustainable. Planet of the Grapes sources its grape marc from local, organic vineyards in Provence, fostering a low-carbon, community-driven supply chain. The grape waste is then dried, ground into a powder, and mixed with other natural ingredients to create a paste. This paste is spread out to create a supple, leather-like material. The entire process is designed to be as animal-free and petroleum plastic-free as possible, adhering to strict EU regulations.

The resulting biomaterial is not just a sustainable substitute; it’s a new material with its own unique character. Designers who have worked with it say you can feel the subtle texture of the broken-down grape marc, a tangible reminder of its natural origin. This “grape leather” can be colored using a palette inspired by different wine shades, from a rich merlot to a crisp chardonnay, making it a beautiful and versatile material for fashion and lifestyle products.

Planet of the Grapes is a prime example of the growing “biomaterials” movement, where companies are finding creative ways to turn agricultural waste into valuable resources. By valorizing what was once considered waste, they are creating a more circular economy and reducing the fashion industry’s reliance on harmful materials. It shows how innovation can be a powerful force for change, proving that a more beautiful, responsible, and nature-friendly future is within reach.

Follow Planet of the Grapes on Instagram to see their behind-the-scenes process.

creativity

Copenhagen: From Concrete Jungle to Sponge City 🌊

Christa Avampato
Photo by Nick Karvounis on Unsplash

Copenhagen, the vibrant capital of Denmark, is renowned for its design, cycling culture, and high quality of life. But beneath the charming canals and green spaces, a pressing challenge looms: managing increasingly intense rainfall due to climate change. Rather than relying solely on traditional infrastructure like pipes and sewers, Copenhagen is embracing nature-based solutions, transforming itself into a “sponge city.”

The sponge city concept, originating in China, focuses on absorbing and retaining rainwater where it falls, mimicking how nature manages water. This involves integrating nature-based solutions into the urban landscape to capture, filter, and slowly release stormwater to mitigate flooding.

“If you want to survive, you have to be spongy,” says Yu Kongjian, dean of Peking University’s College of Architecture and Landscape Architecture, and founder of Turenscape, one of China’s largest landscape architecture firms. “Trying to protect cities with hard, gray infrastructure made of concrete is doomed to fail.”

Copenhagen is a frontrunner in the spongey revolution, and its journey offers valuable lessons for cities worldwide grappling with similar climate-related challenges. My dear archipelago home city of New York, I’m looking at you!

One of the key elements of Copenhagen’s sponge city transformation is the creation of what’s known as green infrastructure. Parks and green spaces are being redesigned to function as rainwater retention basins during heavy downpours. These areas, often featuring sunken lawns and permeable surfaces, can temporarily store significant volumes of water, reducing the strain on the city’s human-made drainage system and reducing the risk of flooding. For example, Enghaveparken has been renovated to include a large underground reservoir capable of holding approximately 22,700 cubic meters of water. This dual-purpose space serves as a recreational area for residents while providing crucial stormwater management capacity.

Beyond parks, Copenhagen is incorporating blue infrastructure into its urban fabric, giving water a place to flow. The city’s numerous canals and harbors are being leveraged to manage excess water. Innovative solutions like floating wetlands and constructed ponds not only enhance biodiversity but also help to filter and retain stormwater. Furthermore, permeable pavements are being increasingly adopted in streets and public squares, allowing rainwater to seep into the ground rather than running off into drains. This reduces surface runoff and helps to replenish groundwater levels.

The driving force behind Copenhagen’s commitment to becoming a sponge city is its ambitious Cloudburst Management Plan, developed after a severe storm in 2011 caused widespread flooding. This comprehensive plan outlines a series of long-term projects aimed at making the city more resilient to extreme weather events. It emphasizes a collaborative approach involving the municipality, utility companies, businesses, and citizens in implementing nature-based solutions across the urban landscape.

The benefits of Copenhagen’s sponge city approach are manifold. Beyond reducing flood risk and alleviating pressure on drainage systems, these green and blue infrastructure initiatives enhance the city’s livability. They create more green spaces for recreation, improve air quality, support biodiversity, and even help to cool urban heat islands during hot summer months.

Copenhagen’s journey to becoming a sponge city is not without its challenges. Retrofitting existing urban areas with green and blue infrastructure requires careful planning, investment, and community engagement. However, the city’s proactive and integrated approach serves as an inspiring model for how other cities can adapt to the increasing impacts of climate change by working with nature, rather than against it. As extreme weather events become more frequent, the lessons learned in Copenhagen offer valuable insights for building more resilient and sustainable cities for the future.

You can read more about Copenhagen’s plans to manage climate change at https://urbandevelopmentcph.kk.dk/climate.

creativity

Living Roman

Christa Avampato
Photo of St. Peter’s through Rome’s Aventine Keyhole by my sister, Maria Avampato Waldrep

Italians have their priorities straight. I had the privilege to be in Rome for a week with my sister. It’s her favorite city and I see why. (Also huge thanks to her for arranging our entire trip and for taking this photo of St. Peter’s through Rome’s Aventine Keyhole with a line of ornery, inpatient teenagers behind her!) It was so fun to see dear friends, Julie and Brian, who were also in Rome. And Julie was one of the people who encouraged me to take this whole trip!

Rome is a thriving, livable city. It feels comfortable and easy. Forgiving. It takes its time because it knows it has time. Weathering thousands of years of history, often brutal and bloody, gives Romans perspective. People don’t rush in a place that’s eternal. They go out late. They linger. They rest.

Art is everywhere. Everything is art – a statue, the way the water runs through a fountain, a twirl of spaghetti, the language, the winding of a road, a sculpted scoop of gelato, a swirl of rich balsamic vinegar in green-tinted, earthy olive oil. A Roman life is a masterpiece that goes on and on.

Only take what you need. Just enough food. Just enough water. Your salad doesn’t need to drown in dressing. Your house doesn’t need to make a statement. Your tiny car is parked sideways to make room for more people traveling via different modes of transport. Take what you need and leave the rest for others. It’s a minimalist life, not a maximalist one, that offers a greater reward – freedom from the weight of physical things and knowing that neighbors have what they need because you didn’t overindulge.

Walk the streets at any time and be entertained, be joyful, be at ease. It’s not about spectacle. It’s just about living every simple, singular moment. That’s all there is. That’s all there needs to be.

There’s fresh spring water from fountains available to everyone all over the city. More hydration, less plastic bottle trash. Laughter and live music provide the soundtrack for the streets. On these days of simple microjoys, I wanted for nothing. Everything I needed was here. In a city of abundance, I found it made me want less because I wasn’t worried about having enough. What a gift.

Now back home in America, I’m going to keep Roman living top of mind and close to my heart. It has much to teach us about living well and sustainably, thriving in hard times, and caring for our neighbors.

creativity

How Fungi Are Illuminating a Sustainable Future

Christa Avampato
Photo by Igor Omilaev on Unsplash

Imagine a future where the gentle, natural glow of wood guides you along a park path or illuminates your home, all without a single watt of electricity. This isn’t a scene from a fantasy movie; it’s a groundbreaking reality being forged by scientists who are harnessing the power of nature itself to create a sustainable alternative to traditional lighting. At the forefront of this innovation is Francis Schwarze, a fungal researcher at the Swiss Federal Laboratories for Materials Science and Technology (Empa), and his team, whose work on bioluminescent wood is nothing short of revolutionary..

In their research, Schwarze’s team demonstrated a remarkable example of biomimicry, the practice of drawing inspiration from nature to solve human design challenges. They looked to the forest floor and the eerie phenomenon of “foxfire,” the natural glow emitted by certain fungi in decaying wood. By isolating and studying the ringless honey fungus (Desarmillaria tabescens), they were able to understand and then replicate this process in a controlled laboratory setting. The team discovered that this particular fungus could be introduced into wood in a way that maintains the wood’s structural integrity while it is imbued with the fungus’s natural ability to glow.

The magic of the glow comes from a natural chemical reaction involving an enzyme called luciferase, the very same enzyme that makes fireflies light up the night. When the fungus-treated wood is exposed to air, the enzyme triggers a reaction that produces a soft, green light. The result is a completely self-sustaining, non-toxic, and non-electric light source that could one day transform our approach to lighting.

While the current glow is comparable to the light of a candle and lasts for about 10 days, the research represents a crucial proof of concept. The team, including researcher Giorgia Giovannini, is actively working on optimizing the process to increase the brightness and longevity of the luminescence.

The practical applications of this innovative material are as numerous as they are inspiring. Imagine urban spaces where bus shelters and street signs are naturally illuminated, reducing light pollution and energy consumption. Think of a park where benches and pathways glow gently, eliminating the need for harsh electric lamps. In homes, this biohybrid material could be used for designer furniture, artistic wall panels, or even subtle safety markers, all glowing without a power source. This innovation could also inspire a new class of biomimicry products, moving beyond wood and into other materials that could be made to self-illuminate or possess other natural properties.

Ultimately, this research highlights the immense potential of looking to nature for solutions. By collaborating with living organisms, scientists are not just creating a new product; they are pioneering a new field of sustainable materials science. The work of Schwarze and his team is a shining example of how understanding and working in harmony with the natural world can lead to a brighter, more sustainable future for us all. It reminds us that some of the most profound innovations aren’t about building something entirely new, but about learning from and enhancing what already exists.