science backed Carbon sequestration
Deep-root crops offer the most effective carbon capture possible.
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Duluth Carbon: Pioneering Sequestration
At Minnesota-based Duluth Carbon, we deliver worldwide science-backed soil carbon sequestration methods that help mitigate climate change. We develop confirmed, reliable solutions that align with policymakers and corporate interests to achieve net-zero emissions goals.
Duluth Carbon oversees the planting and carbon measuring management of Northern U.S. grown perennial crops that are left undisturbed after planting, driving strong root systems deep into the ground. Carbon sequestration is confirmed at the rate of 65,000 tons per 100,000 acres planted.
Consulting with worldwide interests to realize net-zero emissions goals.
Policymakers and industries worldwide require scientifically-backed soil carbon sequestration solutions based on proven methods that are backed by historic USDA-derived data.
It's a fact that merely covering farm fields with annual cover crops does not capture carbon at high rates, it simply blocks emissions. Only crops that develop deep root systems can capture and sequestration carbon from the atmosphere and pull it down into the earth, like trees in a forest, or kelp in the ocean can do.
Robust, soil building perennial crops like Kernza capture carbon at a confirmed rate of .65 tons per acre, making it the first and leading worldwide crop available to plant for true carbon sequestration.
Duluth Carbon manages northern United States based plantings, and is actively involved in trade relationships to export seed and solutions to northern European/Scandinavian countries seeking to accelerate their positive climate and soil/environmental solutions impact.
For countries desiring to harvest the resulting high protein, high fiber cereal grain as a Kernza whole grain and flour for one of the most promissory healthy food options available, see the northern U.S. solutions for food, climate, and environmental health at Arcola, Inc
As the data science continually improves and is deployed, the US based county-level modeling system currently used estimates the yearly average amount of soil carbon sequestered in a five-year Kernza® rotation following a transition from an annual grain crop (wheat and corn).
Duluth Carbon deploys the latest estimation platform model that simulates data and management information from the USDA National Resource Inventory and DayCent Ecosystem Model, which the USDA’s COMET-Planner and COMET-Farm also use.
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