Biophysical and economic limits to negative CO2 emissions

2015

Smith, Pete

Davis, Steven J

van Vuuren, Detlef P

Rogelj, Joeri

Ciais, Philippe

Milne, Jennifer

Canadell, Josep G

McCollum, David

Peters, Glen

Andrew, Robbie

Krey, Volker

Shrestha, Gyami

Creutzig, Felix

Friedlingstein, Pierre

Gasser, Thomas

Grübler, Arnulf

Heidug, Wolfgang K

Jonas, Matthias

Jones, Chris D

Kraxner, Florian

Littleton, Emma

Lowe, Jason

Moreira, José Roberto

Fuss, Sabine

Nakicenovic, Nebojsa

Obersteiner, Michael

Patwardhan, Anand

Rogner, Mathis

Rubin, Ed

Sharifi, Ayyoob

Torvanger, Asbjørn

Yamagata, Yoshiki

Edmonds, Jae

Yongsung, Cho

Minx, Jan

Gabrielle, Benoit

Kato, Etsushi

Jackson, Robert B.

Cowie, Annette

Kriegler, Elmar

Journal Article

en

Publication

Nature Publishing Group

United Kingdom

10.1038/nclimate2870

une:21971

To have a >50% chance of limiting warming below 2 °C, most recent scenarios from integrated assessment models (IAMs) require large-scale deployment of negative emissions technologies (NETs). These are technologies that result in the net removal of greenhouse gases from the atmosphere. We quantify potential global impacts of the different NETs on various factors (such as land, greenhouse gas emissions, water, albedo, nutrients and energy) to determine the biophysical limits to, and economic costs of, their widespread application. Resource implications vary between technologies and need to be satisfactorily addressed if NETs are to have a significant role in achieving climate goals.

link

Nature Climate Change, 6(1), p. 42-50

1758-6798

1758-678X

42

50