Fossil greenhouse-gas emission from microbial use of rock-derived organic carbon
Author:
Publisher
Springer Science and Business Media LLC
Subject
General Earth and Planetary Sciences
Link
https://www.nature.com/articles/s41561-023-01199-y.pdf
Reference5 articles.
1. Galy, V., Beyssac, O., France-Lanord, C. & Eglinton, T. Recycling of graphite during Himalayan erosion: a geological stabilization of carbon in the crust. Science 322, 943–945 (2008). This paper reports rock organic carbon (re)cycling after erosion.
2. Guillemette, F., Bianchi, T. S. & Spencer, R. G. M. Old before your time: ancient carbon incorporation in contemporary aquatic foodwebs. Limnol. Oceanogr. 62, 1682–1700 (2017). A Review article on the conundrum of old organic carbon utilization.
3. Petsch, S. T., Eglington, T. I. & Edwards, K. J. 14C-dead living biomass: evidence for microbial assimilation of ancient organic carbon during shale weathering. Science 292, 1127–1131 (2001). This paper describes the method we have used in our work, and reports early evidence for rock organic carbon utilization.
4. Delaney, I. & Adhikari, S. Increased subglacial sediment discharge in a warming climate: consideration of ice dynamics, glacial erosion, and fluvial sediment transport. Geophys. Res. Lett. 47, e2019GL085672 (2020). This paper discusses changing subglacial sediment dynamics.
5. Cui, X. et al. Global fjords as transitory reservoirs of labile organic carbon modulated by organo-mineral interactions. Sci. Adv. 8, eadd0610 (2022). This paper illustrates the potental impacts of increased sediment mobilization on the milennial scale.
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