Latest news with #carbonsequestration
Sustainability Times
13-07-2025
- Science
- Sustainability Times
'These Trees Turn CO2 Into Stone': Amazed Scientists Hail Kenya's One-of-a-Kind Forest as the Ultimate Breakthrough Against Climate Change
IN A NUTSHELL 🌍 Kenyan trees have been discovered to convert atmospheric carbon dioxide into stone, offering a natural solution to climate change. have been discovered to convert atmospheric carbon dioxide into stone, offering a natural solution to climate change. 🦠 These trees, with the help of bacteria , transform CO2 into calcium carbonate, effectively sequestering carbon in a solid form. , transform CO2 into calcium carbonate, effectively sequestering carbon in a solid form. 🌱 The process not only reduces carbon emissions but also enriches soil nutrients, promoting healthier ecosystems and sustainable agriculture. 🔍 While promising, further research is needed to determine the scalability and effectiveness of this method in global climate strategies. The marvels of nature never cease to amaze us, particularly when it comes to combatting the pressing issue of climate change. In a groundbreaking discovery in Kenya, certain trees have been found to possess the unique ability to convert carbon dioxide (CO2) from the air into stone. Researchers from the University of Zurich highlighted this fascinating phenomenon at the Goldschmidt Conference, showcasing how these remarkable trees could offer a promising solution to one of our planet's most critical challenges. This revelation underscores the potential of natural processes in providing sustainable environmental solutions. The Magic of Kenyan Trees and Bacteria Throughout history, trees have played a crucial role in maintaining ecological balance. They absorb CO2, a significant contributor to global warming, and convert it into oxygen. However, the discovery of certain fruit-bearing trees in Kenya, specifically the Ficus wakefieldii, adds a new dimension to this natural process. These trees, also found in Tanzania, Zambia, Uganda, and the Democratic Republic of the Congo, have been observed to convert CO2 into calcium oxalate. What makes these trees exceptional is their collaboration with bacteria. After the CO2 is transformed into calcium oxalate, bacteria present in the trees and surrounding soil convert it further into calcium carbonate. This compound is a primary component of limestone and chalk, effectively turning gaseous CO2 into a solid form. While the Kenyan fig trees stand out, they are not alone in this capability. The iroko tree, found in tropical Africa, shares this remarkable trait, though it is not a fruit-bearing variety. The European CBAM : an attempt to regulate carbon imports The Effectiveness of Stone Conversion in Fighting Climate Change One of the challenges with traditional carbon sequestration by trees is that the CO2 they store can be released back into the atmosphere when the trees die. However, the unique process observed in Kenyan fig trees ensures that the CO2 is locked away for much longer, even after the tree's life ends. This finding was emphasized by Mike Rowley from the University of Zurich at the Goldschmidt Conference, highlighting the potential of this method as a long-term climate change mitigation strategy. Moreover, the transformation of CO2 into stone offers additional environmental benefits. The mineralization of carbon in the soil raises the pH level, enriching the soil with essential nutrients. This process not only supports the growth of future vegetation but also enhances the overall health of the ecosystem. The enriched soil thus becomes a fertile ground for new trees, ensuring a continuous cycle of carbon sequestration. The potential of replicating this process globally raises questions about the scalability and efficiency of such natural solutions. 'We've Never Faced Heat Like This': Meteorologists Warn of Historic Heatwave Set to Scorch the U.S. With Record-Breaking Temperatures Challenges and Future Prospects While the scientific community is optimistic about these findings, several challenges remain. The primary concern is determining the exact amount of CO2 that these trees can sequester throughout their lifetime. Without this crucial data, it is challenging to assess the full impact of this method on a global scale. Organizing large-scale plantations of these trees could be a potential strategy, but it requires careful consideration and further research. The environmental benefits of these trees go beyond carbon sequestration. As they improve soil quality, they could play a significant role in sustainable agriculture, particularly in regions facing soil degradation. However, understanding the ecological balance and ensuring the preservation of biodiversity is crucial before implementing widespread planting. Collaborative research efforts are needed to explore these aspects and develop a comprehensive strategy for utilizing these trees as a natural solution to climate change. 'They Said It Was Impossible—Now Robots Grow 1.2 Million Strawberries a Year': Inside Dyson's Sci-Fi Mega-Farm Shocking the Entire Agriculture Industry Exploring the Role of Nature in Climate Solutions This discovery in Kenya invites us to reconsider the potential of natural processes in addressing environmental challenges. While technological solutions to climate change are vital, integrating natural methods offers a complementary approach. The ability of certain trees to transform CO2 into stone presents a promising avenue for exploration and implementation. The journey to combating climate change is complex and multifaceted. As we delve deeper into understanding natural phenomena like the Kenyan fig trees, we must ask ourselves: How can we best harness the power of nature to create a sustainable future for generations to come? This article is based on verified sources and supported by editorial technologies. Did you like it? 4.4/5 (22)
Yahoo
04-07-2025
- Business
- Yahoo
Hempalta Secures 90-Day FCC Forbearance Extension as Company Completes Certification of 2024 Carbon Credits
Company reinforces strategic pivot to carbon credit market with expanded global footprint and verified removals Calgary, Alberta--(Newsfile Corp. - July 4, 2025) - Hempalta Corp. (TSXV: HEMP) ("Hempalta" or the "Company"), a Canadian-based provider of nature-based carbon credit solutions, is pleased to announce that Farm Credit Canada ("FCC") has granted a 90-day extension to its current forbearance agreement (the "Extension"). The Extension runs to September 30, 2025, providing the Company with critical flexibility as it advances several strategic initiatives, including a planned equipment sale, ongoing carbon credit inventory sales, and new investor engagement efforts. "We appreciate the additional runway this extension provides as we focus on delivering value for our stakeholders through our monetization plan and the continued growth of our carbon-first strategy under the Hemp Carbon Standard," said Darren Bondar, President and CEO of Hempalta. 2024 Carbon Credits Certified by Control Union Hempalta is pleased to announce that its 2024 carbon credit inventory has now been fully certified by third-party auditor Control Union. A total of 29,448 Verified Carbon Credits ("VCCs") were issued under the Company's ISO 14064-2 certified methodology, bringing its total verified carbon sequestration to 44,773 tonnes of CO₂ over the past two years. The 2024 program included: 38 farms across 209 sites 12,669 monitored acres Global operations spanning Canada, USA, UK, Ukraine, Sweden, Germany, and Australia Hempalta continues to deploy advanced MRV technology, including remote sensing, satellite monitoring, and AI-based data aggregation to ensure transparency and scientific integrity. Forward Outlook With the Extension and the completion of its 2024 credit certification, Hempalta is now well-positioned to accelerate the sale of its current processing equipment and execute the next phase of its carbon-first growth strategy. The Company continues to advance its 25,000-acre Alberta hemp and biochar carbon removal program, which is projected to generate 100,000 verified carbon credits annually. This initiative represents one of Canada's largest nature-based carbon projects, and Hempalta is actively seeking strategic partners and long-term offtake buyers to support its multi-year scaling efforts. In parallel, Hempalta's 2025 monitoring and field data collection is already underway across farms in Canada, USA, UK, Ukraine, Sweden, Germany, and Australia. "The market is demanding higher-integrity removal credits, and that's exactly what we deliver," said Bondar. "Our expanded global footprint, certified methodologies, and growing buyer interest position us to lead the next generation of nature-based carbon solutions." Organizations interested in partnering or purchasing credits can contact: carboncredits@ About Hempalta Corp. Hempalta Corp. (TSXV: HEMP) is advancing scalable, nature-based carbon removal through industrial hemp and on-farm biochar deployment. Through its subsidiary Hemp Carbon Standard, the Company provides ISO-certified carbon credits verified via AI, satellite monitoring, and blockchain infrastructure. Media Contact:Darren BondarCEO, Hempalta | | | TSXV: HEMP Neither the TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this press release. Forward-Looking Information This news release contains statements and information that, to the extent they are not historical fact, may constitute "forward-looking information" within the meaning of applicable securities legislation. Forward-looking information is typically, but not always, identified by the use of words such as "expects," "plans," "continues," "intends," "anticipates," "potential," "aims," "will," and similar words, including negatives thereof, or other similar expressions concerning matters that are not historical facts. Forward-looking information in this news release includes, but is not limited to, statements regarding: the Company's ability to secure new strategic partnerships; the Company focusing on nature-based carbon credit generation; the Company scaling carbon credit issuance, including its Alberta-based program targeting 100,000 credits annually; the successful sale of verified 2024 carbon credits; the success of the 2025 monitoring program; the Company's ability to complete its planned equipment sale; the ongoing support from Farm Credit Canada during the forbearance period; the Company seeking to establish multi-year offtake agreements; and Hempalta's focus on unlocking long-term value through its pivot to carbon markets, including the development of a scalable platform to support nature-based climate solutions. Such forward-looking information is based on various assumptions and factors that may prove to be incorrect, including, but not limited to: continued support from major shareholders and new investors; demand for nature-based carbon removal credits; successful onboarding of additional farmers and Indigenous partners; favorable regulatory conditions; availability and deployment of biochar systems at scale; supportive market conditions and regulatory alignment in Alberta and internationally; the Company's ability to maintain forbearance terms and execute its strategic plan; and the successful certification and sale of carbon credits. Although the Company believes that the assumptions and factors on which such forward-looking information is based are reasonable, undue reliance should not be placed on the forward-looking information because the Company can give no assurance that it will prove to be correct or that any of the events anticipated will transpire or occur, or if any of them do so, what benefits the Company will derive therefrom. Actual results may vary from those currently anticipated due to a number of factors and risks, including, but not limited to: economic conditions and capital market volatility; changes in carbon credit market demand or pricing; regulatory changes; operational risks, including the ability to implement the Hemp Carbon Standard program at scale; the Company's limited financial resources and ongoing need for capital; the risk that the Company may not generate sufficient revenue or complete its asset sale; delays in technology deployment or verification; inability to retain key personnel; and weather-related challenges impacting hemp cultivation. The forward-looking information included in this news release is made as of the date of this release and the Company does not undertake an obligation to publicly update such forward-looking information to reflect new information, subsequent events, or otherwise, except as required by applicable law. NOT FOR DISTRIBUTION IN THE UNITED STATES OR OVER U.S. NEWSWIRES To view the source version of this press release, please visit
Yahoo
25-06-2025
- Business
- Yahoo
Regenerative Agriculture Market to Reach USD 30.3 Billion by 2032 - Exclusive Report by Meticulous Research®
Climate-Smart Farming Practices, Soil Health Enhancement, and Carbon Sequestration Drive 14.2% CAGR Growth Across Agricultural Sectors Worldwide REDDING, Calif., June 25, 2025 /PRNewswire/ -- The regenerative agriculture market is valued at USD 10.63 billion in 2024. This market is estimated to reach USD 30.3 billion in 2032 from USD 11.98 billion in 2025, at a CAGR of 14.2%, according to the latest research report "Regenerative Agriculture Market Size, Share, Forecast, & Trends Analysis by Practice (Agroforestry, Biochar & Terra Preta) Product Type (Cover Crops, Cash Crops, Perennial Crops), Application (Biodiversity), End-user (Farmers) - Global Forecast to 2032", published by Meticulous Research®. This growth reflects the agricultural industry's fundamental transformation toward sustainable, climate-resilient farming systems that restore soil health, enhance biodiversity, and sequester carbon while maintaining productive yields and economic viability. Access your FREE sample report: Climate Crisis Drives Agricultural Transformation The regenerative agriculture market stands at the forefront of addressing global climate challenges, driven by farmers' urgent need to adopt sustainable practices that restore ecosystem health while ensuring food security for a growing global population. Soil Health Revolution Creates Resilient Food Systems Agricultural producers worldwide are implementing regenerative practices that rebuild soil organic matter, enhance water retention capacity, and restore natural nutrient cycling. Cover cropping, rotational grazing, and reduced tillage systems create healthier soil microbiomes that support increased crop yields while sequestering atmospheric carbon dioxide. Carbon Sequestration Unlocks New Revenue Streams The emergence of carbon credit markets provides farmers with additional income opportunities for implementing regenerative practices that remove CO2 from the atmosphere. Agricultural carbon sequestration programs, including those established by major corporations and government initiatives, incentivize widespread adoption of soil-building practices across diverse farming operations. Government Policies Accelerate Sustainable Agriculture Adoption National climate action plans, including the European Union's Green Deal and the United States' climate-smart agriculture initiatives, provide substantial policy support and financial incentives for farmers adopting regenerative technologies. These programs recognize sustainable agriculture as critical for achieving carbon neutrality goals and enhancing rural economic development. Practice Integration Drives Market Leadership Across Segments Cover Cropping Emerges as Fastest-Growing Practice Cover cropping represents the fastest-growing regenerative practice category, leveraging advances in seed technology, species selection, and precision planting equipment to maximize soil health benefits. The versatility of cover crops across applications including nitrogen fixation, soil erosion prevention, and weed suppression makes them essential components in modern farming systems. Precision agriculture technologies and soil monitoring systems complement cover crop deployments by providing real-time data on soil health metrics and optimizing seeding rates and species selection throughout growing seasons. Crop Production Applications Lead Market Revenue Crop production applications account for the largest market share, driven by regenerative practices' ability to enhance soil fertility, reduce input costs, and improve crop resilience to climate variability. No-till farming systems, integrated pest management, and diverse crop rotations revolutionize field management while maintaining productive yields. The increasing consumer demand for sustainably produced food creates sustained market opportunities for regeneratively grown crops. Industry leaders including General Mills, Danone, and Nestlé continue investing heavily in regenerative agriculture supply chains, sustainable sourcing programs, and farmer training initiatives. Explore customization options: Food and Beverage Industry Pioneers Regenerative Sourcing Consumer Goods Sector Demonstrates Market Leadership The food and beverage industry maintains its position as the largest end-user segment, building on decades of sustainability commitments to implement comprehensive regenerative sourcing strategies. Modern food production systems integrate regenerative agriculture principles throughout supply chains, from ingredient sourcing to packaging and distribution networks. Plant-based food production introduces new opportunities for regenerative agriculture through diverse crop rotations, soil-building legumes, and innovative protein sources that enhance agricultural sustainability while meeting evolving consumer preferences. Pharmaceutical and Nutraceutical Industries Show Rapid Growth Trajectory The pharmaceutical and nutraceutical sectors exhibit high growth potential as demand for naturally derived compounds and botanical ingredients requires sustainable cultivation practices. Regenerative agriculture enables consistent quality of medicinal plants while preserving biodiversity and traditional knowledge systems essential for pharmaceutical research and development. Regional Dynamics Shape Global Market Evolution North America Establishes Regenerative Agriculture Leadership North America dominates the global regenerative agriculture market, leveraging extensive agricultural infrastructure in the United States, Canada, and Mexico. The region's commitment to climate-smart agriculture, combined with substantial government investments in conservation programs, positions North America for continued market leadership throughout the forecast period. Rapid adoption across Midwest grain production and Great Plains ranching operations creates significant growth opportunities as these agricultural systems demonstrate regenerative practices' economic and environmental benefits. The focus on carbon sequestration and soil health drives accelerated implementation across diverse farming enterprises. Europe and Asia-Pacific Advance Innovation Developed markets in Europe lead innovation in regenerative agriculture technologies while addressing food security challenges through sustainable intensification strategies. These regions demonstrate sophisticated implementations of precision agriculture systems and pioneering applications of biological soil amendments. Asia-Pacific markets show tremendous growth potential as smallholder farmers adopt regenerative practices supported by government programs and international development initiatives. Countries including India, China, and Australia implement large-scale regenerative agriculture programs that enhance food security while addressing climate change mitigation goals. Technology Innovation Unlocks Future Opportunities Precision Agriculture Integration Optimizes Regenerative Practices The convergence of regenerative agriculture with precision farming technologies enables data-driven decision-making for optimal practice implementation. GPS-guided equipment, soil sensors, and satellite monitoring systems provide farmers with detailed information for maximizing regenerative practices' effectiveness while maintaining operational efficiency. Biological Solutions Transform Soil Health Management Advanced microbial inoculants, biofertilizers, and biological pest control products enhance soil health restoration while reducing synthetic input dependencies. These biological solutions work synergistically with regenerative practices to accelerate soil organic matter development and improve nutrient cycling efficiency. View complete market analysis: Key Players in Regenerative Agriculture Market The regenerative agriculture market features intense collaboration among agricultural input companies, technology providers, and sustainability-focused organizations. Leading players include Cargill Inc. (USA), Bayer AG (Germany), Syngenta Group (Switzerland), Corteva Inc. (USA), Nutrien Ltd. (Canada), Yara International ASA (Norway), FMC Corporation (USA), BASF SE (Germany), Archer Daniels Midland Company (USA), General Mills Inc. (USA), Danone S.A. (France), and Nestlé S.A. (Switzerland). Related Reports: Precision Agriculture Market Size, Share, Forecast, & Trends Analysis Biodiversity and Natural Capital Credit Market Size, Share, Forecast, & Trends Analysis Agricultural Biologicals Market Size, Share, Forecast, & Trends Analysis Certified Organic Agricultural Inputs Market Trends 2025–2032 About Meticulous Research® Meticulous Research® was founded in 2010 and incorporated as Meticulous Market Research Pvt. Ltd. in 2013 as a private limited company under the Companies Act, 1956. Since its incorporation, the company has become the leading provider of premium market intelligence, strategic insights, and consulting services to serve clients across 11 major industries globally. Meticulous Research® offers comprehensive market research reports, custom research, and consulting services. Our research studies help clients make informed business decisions and understand emerging business trends and opportunities. The company's expertise spans across various domains, enabling it to provide accurate insights and strategic recommendations to its clients. Contact:Mr. Khushal BombeMeticulous Market Research Pvt. Ltd.1267 Willis St, Ste 200 Redding,California, 96001, +1-646-781-8004Europe: +44-203-868-8738APAC: +91 744-7780008Email: sales@ Source: Logo: View original content: SOURCE Meticulous Market Research Pvt. Ltd.
Forbes
25-05-2025
- Science
- Forbes
Subsurface Sea Mud Is The Unsung Hero In The Climate War
Old growth forests usually get a lion's share of the credit for their role in sequestering Earth's atmospheric carbon. But subsurface sea mud is finally coming into its own as the potential unsung hero in the climate change wars. Trouble is, oceanographers don't really have a full handle on when and how these important mud deposits formed, much less how they can be fully protected. To answer such questions, researchers from the U.K. are focusing on three subsurface sea mud sites that date back thousands of years. All lie on what is known as the Northwest European Shelf, a shallow continental shelf area in the Northeast Atlantic. Continental shelf sediments are really important for storing organic carbon over an enormous area, Zoe Roseby, a sedimentologist at the U.K.'s University of Exeter in Penryn, tells me at the European Geosciences Union General Assembly 2025 in Vienna. We've produced a model that has the capacity to predict the location of muddy deposits and consider how they've evolved over time, she says. We can then can identify potential hotspots of carbon storage, says Roseby. In fact, in a recent paper published in the Journal of Geophysical Research: Oceans, the authors note that three mud centers in the northwest European shelf seas are all effectively sequestering carbon. There are potentially hundreds of kilometers of such mud at depths of tens of meters, which is effectively helping sequester carbon, says Roseby, one of the paper's co-authors. They're a really important part of our global carbon cycle, she says. The Celtic Deep is in what we call the Celtic Sea, and that is offshore southeast of Ireland and southwest of Cornwall in the U.K., Sophie Ward, the paper's lead author and an oceanographer at Bangor University in the U.K., tells me at the European Geosciences Union General Assembly 2025 in Vienna. The Western Irish Sea mud belt is in the northwestern Irish Sea, which is in a semi enclosed body of water between mainland of the Republic of Ireland, Northern Ireland, and Great Britain, she says. In the Celtic Deep, most mud accumulation has occurred in the past 10,000 years, with earlier tidal conditions too energetic for fine sediment deposition, the authors write. The Fladen Ground --- located some 160 km north of Aberdeen, Scotland, appears to have been tidally quiescent since the region was fully submerged some 17,000 years ago, they note. Muds are important because they have a greater capacity to store organic carbon than sands and gravels, says Roseby. But here's where there is an important distinction. The formation of organic carbon in the marine environment has the potential to draw down carbon dioxide from Earth's atmosphere (a carbon sink), says Ward. The same cannot be said for inorganic carbon. Organic carbon on the seafloor is derived from both terrestrial and marine sources of living (or once living) matter, whereas the inorganic carbon in the sedimentary environment is largely made up of broken shells and skeletons. The latter (mostly calcium carbonate) can have a very negative impact on the ecosphere by releasing CO2 from the marine environment back into our atmosphere. This is why these precious sea muds are so important. But what is subsurface sea mud? Mud is any sediment that's less than 63 microns; the scientific cut off between mud and sand, says Roseby. Sand grains larger than 63 microns is what you're seeing on the beach, she says. How does this mud build up over time? Muds have this capacity to form very thick deposits which can then store quite large volumes of carbon, says Roseby. It's a combination of the surface area of the muds, but there's also a tendency to form thick deposits that makes them important for carbon storage, she says. Thousands of years ago, when the shelf seas were a lot shallower because so much water was locked into ice sheets in some areas, the tidal dynamics were very different to what they are now, says Ward. Over time, the water depth has changed and the configuration of the land, the shapes of the shelf seas have changed massively, she says. It's important that we know where these muddy deposits are, so that we can quantify carbon stocks, says Ward. But going out and sampling these muddy deposits can be a very expensive research campaign; expensive ships and large coring equipment is required, with lots of post-sampling analysis in the labs, she says. As for the biggest threat to this subsurface mud? That's probably trawling for shrimp on the sea bottom, says Ward. So, it's really important that we understand exactly what's going on when these muddy deposits are trawled and the potential effects for carbon that is stored and locked up in these muddy deposits, she says. Like most mud deposits around the U.K., the Celtic Deep is intensively trawled for Nephrops prawns in a fishery that grew rapidly from the 1970s, the authors note. The Fladen Ground, a heavily trawled and organic carbon‐rich area, was highlighted as experiencing relatively high losses of organic carbon, the authors write. The shrimp burrow into the mud which they use as a habitat, but the act of trawling itself causes significant amounts of the sequestered carbon to be released. In the future, we hope that sediments considered worthy of protection will go hand in hand with protecting subsurface habitat and living marine biology, says Roseby.
E&E News
22-05-2025
- Politics
- E&E News
Illinois lawmakers ban CO2 injection under aquifer
A bill to protect a key source of drinking water in Illinois from carbon dioxide injection will go to Gov. JB Pritzker after it overwhelmingly passed by the House on Tuesday. S.B. 1723 provides what many lawmakers viewed as key protections for the Mahomet Aquifer in central Illinois, which supplies drinking water to nearly a million people in 14 counties. It comes a year after Pritzker, a Democrat, signed into law a moratorium on CO2 pipelines in Illinois. Pritzker is expected to sign the bill but a spokesman couldn't be reached for comment Wednesday. Advertisement The measure prohibits carbon sequestration above, below or through a sole-source aquifer, defined by EPA as one that supplies at least half the drinking water for an area and where no alternative source exists. But the bill would allow an ongoing CO2 injection project in an aquifer recharge area to continue after labor and business interests insisted it be carved out of the prohibition.
