Lück, SarahCallaghan, MaxBorchers, MalgorzataCowie, AnnetteFuss, SabineGidden, MatthewHartmann, JensKammann, ClaudiaKeller, David PKraxner, FlorianLamb, William F.Mac Dowell, NiallMüller-Hansen, FinnNemet, Gregory F.Probst, Benedict SRenforth, PhilRepke, TimRickels, WilfriedSchulte, IngridSmith, PeteSmith, Stephen MThrän, DanielaTroxler, Tiffany GSick, Volkervan der Spek, MijndertMinx, Jan C.2025-11-032025-07-18Lück, S, Callaghan, M, Borchers, M, Cowie, A, Fuss, S, Gidden, M, Hartmann, J, Kammann, C, Keller, D P, Kraxner, F, Lamb, W F, Mac Dowell, N, Müller-Hansen, F, Nemet, G F, Probst, B S, Renforth, P, Repke, T, Rickels, W, Schulte, I, Smith, P, Smith, S M, Thrän, D, Troxler, T G, Sick, V, van der Spek, M & Minx, J C 2025, 'Scientific literature on carbon dioxide removal revealed as much larger through AI-enhanced systematic mapping', Nature Communications, vol. 16, 6632. https://doi.org/10.1038/s41467-025-61485-82041-1723ORCID: /0000-0002-3784-1124/work/195919380https://hdl.handle.net/2164/26361Acknowledgements We thank Christiane Hamann, Doménica Michelle Jaramillo Sánchez, Ronja Kelch, Fariha Mawla, Fabian Metz, Leon Stephan and David Verdugo-Raab for their effort in coding most of the documents.123100004engSDG 13 - Climate ActionQH301 BiologySupplementary DataDASLinkSupplementary InformationQH301Journal article10.1038/s41467-025-61485-8