posted on 2016-02-22, 10:17authored byMark Williams, Jan Zalasiewicz, C. N. Waters, Matt Edgeworth, Carys Bennett, A. D. Barnosky, E. C. Ellis, M. A. Ellis, A. Cearreta, P. K. Haff, J. A. I. do Sul, R. Leinfelder, J. R. McNeill, E. Odada, N. Oreskes, A. Revkin, D. deB Richter, W. Steffen, C. Summerhayes, J. P. Syvitski, D. Vidas, M. Wagreich, S. L. Wing, A. P. Wolfe, A. Zhisheng
Biospheric relationships between production and consumption of biomass have been resilient to changes in the Earth system over billions of years. This relationship has increased in its complexity, from localised ecosystems predicated on anaerobic microbial production and consumption, to a global biosphere founded on primary production from oxygenic photoautotrophs, through the evolution of Eukarya, metazoans, and the complexly networked ecosystems of microbes, animals, fungi and plants that characterise the Phanerozoic Eon (the last ~541 million years of Earth history). At present, one species, Homo sapiens, is refashioning this relationship between consumption and production in the biosphere with unknown consequences. This has left a distinctive stratigraphy of the production and consumption of biomass, of natural resources, and of produced goods. This can be traced through stone tool technologies and geochemical signals, later unfolding into a diachronous signal of technofossils and human bioturbation across the planet, leading to stratigraphically almost isochronous signals developing by the mid-20th century. These latter signals may provide an invaluable resource for informing and constraining a formal Anthropocene chronostratigraphy, but are perhaps yet more important as tracers of a biosphere state that is characterised by a geologically unprecedented pattern of global energy flow that is now pervasively influenced and mediated by humans, and which is necessary for maintaining the complexity of modern human societies.
History
Citation
Earth's Future, 2016, 4, 34–53
Author affiliation
/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Geology