BREAKING NEWS: Amazon expedition stuns researchers

Conservation International researchers in Peru have uncovered a wealth of wildlife, including species new to science.

Read More

Continue to conservation.org

 

  All articles

Opinion: We need biosphere stewardship that protects carbon sinks and builds resilience

Johan Rockström, Tim Beringer, David Hole, Bronson Griscom, Michael B. Mascia, Carl Folke, Felix Creutzig

Proceedings of the National Academy of Sciences of the United States of America, 118, e2115218118

September 15, 2021

Earth’s biosphere, its extraordinary and complex web of species and ecosystems on land and in the oceans, drives the life-sustaining cycles of water and other materials that enable all life on Earth to thrive. The biosphere is also a principal driver of immense negative feedback loops in the Earth system that stabilize atmospheric CO2 concentrations and thereby global climate—including carbon sequestration by vegetation, soils, and the oceans. As such, Earth’s ecosystems have played a central role in keeping our planet’s climate system unusually stable throughout the last 11,700 years (i.e., the inter-glacial Holocene). During this epoch, global mean temperatures have oscillated only about 1 °C around the pre-industrial average, providing the unique conditions that allowed human civilizations to flourish. Today, ocean and land ecosystems remove around 50% of anthropogenic CO2 emissions from the atmosphere each year (1), an extraordinary biophysical feat, given that these emissions have risen from approximately 4 gigatonnes of carbon (GtC) per year in 1960 to around 11 GtC per year today. Put another way, half our “climate debt” is removed, for free, by the biosphere every year—a vast subsidy to the world economy.

Read More

CITATION

Rockström, J., Beringer, T., Hole, D., Griscom, B., Mascia, M. B., Folke, C., & Creutzig, F. (2021). Opinion: We need biosphere stewardship that protects carbon sinks and builds resilience. Proceedings of the National Academy of Sciences, 118(38), e2115218118. doi:10.1073/pnas.2115218118