After forests, wetlands are the greatest terrestrial carbon sink. These boggy and busy pools of life used to be thought of as a nuisance for people and communities, drained of their water or dug up for peat fuel. Now, we understand the quiet service that wetlands provide us and … [Read more...] about Wetlands, the super carbon sink, and rewilding the Illinois River
Carbon sequestration
This student startup uses cremation ashes to rebuild oyster reefs
It's the surprising and beautiful nature of inspiration that brings us answers to our problems from the most unexpected places. Sometimes, an answer can come from another problem, or combining different concepts to create solutions to multiple issues. At the moment, we need to … [Read more...] about This student startup uses cremation ashes to rebuild oyster reefs
Study finds forests on indigenous lands sequester twice the carbon
We have written at length, in great volume, and with great enthusiasm about the importance of green spaces in cities, carbon sinks, and environmentally helpful trees in general. Forests are absolutely essential to sequestering carbon and our continued adaptation to a changing … [Read more...] about Study finds forests on indigenous lands sequester twice the carbon
How biochar can mitigate carbon from farmlands to urban centers
Biochar has long been hailed in the environmental community as a potent solution for mitigating certain aspects of climate change, from fixing soil erosion to upping water absorption and pulling carbon out of the atmosphere. Now, there is a growing list of industries that might … [Read more...] about How biochar can mitigate carbon from farmlands to urban centers
City trees may trap more CO2 than we thought
It’s becoming common knowledge at this point that trees greatly benefit cities and the people that call them home. City trees and urban green areas regulate temperature, improve mental health and reduce loneliness for urbanites, clean the air and even reduce crime rates. Our … [Read more...] about City trees may trap more CO2 than we thought