Biochar: Difference between revisions
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===Carbon Sequestration=== | ===Carbon Sequestration=== | ||
Biochar has been identified as a key means of sequestering carbon dioxide from the atmosphere into the Earth's soil. A group of scientists published in Nature in 2019 identified Biochar as one of only a few negative emissions technologies, standing out for being "the one at the highest technology readiness level."[1] According to their research, the global carbon sequestration potential of biochar (when using potassium as a low-concentration additive) is over 2.6 billion tons of CO2/year.[1] | |||
===Soil Amendment=== | ===Soil Amendment=== | ||
===Feed Additive=== | ===Feed Additive=== | ||
Revision as of 23:40, 5 April 2022
OVERVIEW COPY TEXT
Definition
Technical
Crystal
Cavity
Historical
Ancient
Modern
Production
Feedstocks
How To
Application
Use Case
Carbon Sequestration
Biochar has been identified as a key means of sequestering carbon dioxide from the atmosphere into the Earth's soil. A group of scientists published in Nature in 2019 identified Biochar as one of only a few negative emissions technologies, standing out for being "the one at the highest technology readiness level."[1] According to their research, the global carbon sequestration potential of biochar (when using potassium as a low-concentration additive) is over 2.6 billion tons of CO2/year.[1]