Protecting

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Protecting nitrogen-fixing bacteria from heat and humidity
CategoriesSustainable News

Protecting nitrogen-fixing bacteria from heat and humidity

By Zarkon Group,

Spotted: At present, global food security relies on the use of nitrogen fertilisers, but their production and use are responsible for around five per cent of global greenhouse gas (GHG) emissions, along with pollution and soil depletion. One possible solution is to use bacteria that convert nitrogen gas to ammonia to provide the nutrients that plants need and regenerate the soil. However, these bacteria are sensitive to heat and humidity, so it’s difficult to scale up their production and use.

Now, researchers at MIT, led by Ariel Furst, the Paul M. Cook Career Development Assistant Professor of Chemical Engineering, may have a solution that could remove this limitation. They have devised a metal-organic coating that protects bacterial cells from damage without affecting their growth or function. The coating contains food-safe metal and polyphenol compounds, and can self-assemble into a protective shell.

In their study, the researchers created and tested 12 different coatings. They encapsulated a nitrogen-fixing bacterium that also protects plants against pests. All of the coatings protected the bacteria from high temperatures and humidity and improved the seed germination rate by 150 per cent compared to seeds treated with uncoated microbes.

The research received funding from a number of sources, including the Army Research Office and a National Institutes of Health New Innovator Award. Furst has also launched a company called Seia Bio to scale up and commercialise the coated bacteria.

Regenerative agriculture is gaining steam, as farmers realise that it is not only more sustainable but also less costly. Recent innovations in regenerative agriculture spotted by Springwise include a company rejuvenating exhausted soils using bacteria and solar-powered trackers that help farmers efficiently manage herd location.

Written By: Lisa Magloff

Reference

Digital reefs for protecting vulnerable coasts
CategoriesSustainable News

Digital reefs for protecting vulnerable coasts

By Zarkon Group,

Spotted: Rising demand for leisure trips is fuelling a rapid growth in global coastal and maritime tourism, with a market size worth more than $2.9 trillion (around €2.7 trillion). Many of these coastal destinations rely on reefs to protect wildlife, beaches, and communities from erosion and severe climate events. But the world’s reefs are in danger – around 14 per cent of the world’s coral was lost between 2009 and 2020.

CCell is working to heal damaged reefs, with artificial reefs powered by renewable energy that allow corals, bivalves, and other organisms to thrive. The company’s reefs use a steel frame and calcareous rock is grown around this, acting as a substrate for plants and coral to attach. Units are constructed in sections and transported to reefs that need repair.

Once in place, a safe low-voltage current is passed between a small metal anode and the steel structure. At the anode, oxygen is produced, nourishing marine life. On the main steel structure, which acts as the cathode, the pH rises and prompts the precipitation of dissolved minerals in seawater. The result is a calcareous rock, mainly Aragonite and Brucite, that fills in missing reef sections. The electrolysis is powered using energy from the waves.

CCell’s innovation relies on a digital management system – CCell Sense – allowing power output to be optimised and renewable energy to be distributed carefully across a structure.

Research and development of CCell’s concept was funded using £2 million (around €2.3 million) in government, non-equity funding last year. In 2022, the company also launched various pilot projects to prove the viability of its solution, including in Yucatan, Mexico.

Saving the world’s coral reefs is the subject of a wide range of recent innovations, from using natural antioxidants to stop coral bleaching to 3D-printed reefs made from cremated remains.

Written By: Lisa Magloff

Reference

Protecting Florida’s coral reefs by making leather out of lionfish
CategoriesSustainable News

Protecting Florida’s coral reefs by making leather out of lionfish

By Zarkon Group,

Spotted: Inversa, a sustainable Florida-based fashion brand, has announced a new type of sustainable leather with a unique selling point. The exotic leather is made from lionfish, a species that is highly invasive. Native to the tropical waters of the Indian and South Pacific Oceans, lionfish were first detected in US waters in the 1980s, potentially as a result of aquarium releases. The increasing presence of the highly predatory fish in Florida’s Atlantic waters is believed to be having a significant impact on the health of coral reefs and the ecosystems they support.

The idea of using the fish for leather was inspired by indigenous practices, and the goal of the initiative is to reduce the pressure on marine ecosystems while also providing an alternative to cow leather – a material criticised by many on ethical and environmental grounds.

Inversa’s leather is extremely versatile and flexible. It can be used in a variety of applications, from fashion to furniture. The company is partnering with a number of brands, including Italian footwear brand P448 and Teton Leather, who will produce accessories using the lionfish leather.

In addition to helping the environment by removing a damaging invader, Inversa’s innovative tanning process for the leather has a very small footprint using just 200 millilitres of water per skin.

The startup was recently a finalist for the Ocean Resilience Innovation Challenge grant by the Ocean Risk and Resilience Action Alliance (ORRAA).

Springwise has spotted numerous sustainable leather innovations including the world’s first cell cultivated leather, leather made from grape skins, and plastic-free leather made from hemp.

Written By: Katrina Lane

14th July 2022

Website: inversaleathers.com

Contact: inversaleathers.com/contact-us

Reference

Protecting Europe’s forests with AI and data management
CategoriesSustainable News

Protecting Europe’s forests with AI and data management

By Zarkon Group,

Spotted: If forests are managed sustainably, they can be an invaluable asset in the fight against climate change. Earlier this year the Food and Agriculture Organization of the United Nations (FAO) published a report outlining how wood-based innovations and sustainable forest use can help to tackle the climate crisis and achieve the UN’s Sustainable Development Goals. Timbeter, an Estonian startup, is on a mission to make forestry sustainable ‘one log at a time’. By doing so, it is helping to ensure that forests deliver the potential outlined in the report.  

The startup specialises in timber measurement and data management, using artificial intelligence (AI) and machine learning technologies to provide greater accuracy in its services. The technology makes it possible to quickly measure log diameters, log count, and log pile density through a smartphone, providing a valuable resource for companies who need to have greater oversight of their forestry data. It could also be used by forestry professionals to track the health of trees and prevent illegal logging.

In a recent study conducted by Poznan University, Timbeter was found to be 95 per cent accurate in its timber measurements. This high level of accuracy is made possible by machine learning technologies that allow Timbeter to constantly refine and improve its algorithms. 

Earlier this month, the startup announced that it has raised €500,000 in funding. The round was led by Future Investment Initiative (FII) Institute, a non-profit organisation run by Saudi Arabia’s main sovereign wealth fund. The company plans to use the funding to continue developing its technology and expanding its team. In addition, Timbeter hopes to raise awareness of the importance of forests and the need to protect them.

Other sustainable forestry innovations, spotted by Springwise, include a network of intelligent sensors helping emergency response teams respond to climate change impacts, and digital ‘smart forest’ technology that helps with forest management and research. 

Written By: Katrina Lane

27th June 2022

Website: timbeter.com

Contact: timbeter.com/contact

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