Scale and diversity of the physical technosphere: A geological perspective-Reference-Cited by-同舟云学术

Scale and diversity of the physical technosphere: A geological perspective

Published:2016-11-28 Issue:1 Volume:4 Page:9-22
ISSN:2053-0196
Container-title:The Anthropocene Review
language:en
Short-container-title:The Anthropocene Review

Author:

Zalasiewicz Jan¹,Williams Mark¹,Waters Colin N¹²,Barnosky Anthony D³,Palmesino John⁴,Rönnskog Ann-Sofi⁵,Edgeworth Matt⁶,Neal Cath⁷,Cearreta Alejandro⁸,Ellis Erle C⁹,Grinevald Jacques¹⁰,Haff Peter¹¹,Ivar do Sul Juliana A¹²,Jeandel Catherine¹³,Leinfelder Reinhold¹⁴,McNeill John R¹⁵,Odada Eric¹⁶,Oreskes Naomi¹⁷,Price Simon James²¹⁸,Revkin Andrew¹⁹,Steffen Will²⁰,Summerhayes Colin²¹,Vidas Davor²²,Wing Scott²³,Wolfe Alexander P²⁴

Affiliation:

1. Department of Geology, University of Leicester, UK

2. British Geological Survey, UK

3. Jasper Ridge Biological Preserve, Stanford University, USA

4. Architectural Association School of Architecture, UK

5. Oslo Centre for Urban and Landscape Studies, Norway

6. School of Archaeology and Ancient History, University of Leicester, UK

7. University of York, UK

8. Universidad del País Vasco, Spain

9. University of Maryland, USA

10. IHEID, Switzerland

11. Duke University, USA

12. Federal University of Rio Grande, Brazil

13. LEGOS (CNRS/CNES/IRD/Université Paul Sabatier), France

14. Freie Universität Berlin, Germany

15. Georgetown University, USA

16. University of Nairobi, Kenya

17. Harvard University, USA

18. Department of Geography, University of Cambridge, UK

19. Pace University, USA

20. The Australian National University, Australia

21. Scott Polar Research Institute, Cambridge University, UK

22. Fridtjof Nansen Institute, Norway

23. Smithsonian Institution, USA

24. University of Alberta, Canada

Abstract

We assess the scale and extent of the physical technosphere, defined here as the summed material output of the contemporary human enterprise. It includes active urban, agricultural and marine components, used to sustain energy and material flow for current human life, and a growing residue layer, currently only in small part recycled back into the active component. Preliminary estimates suggest a technosphere mass of approximately 30 trillion tonnes (Tt), which helps support a human biomass that, despite recent growth, is ~5 orders of magnitude smaller. The physical technosphere includes a large, rapidly growing diversity of complex objects that are potential trace fossils or ‘technofossils’. If assessed on palaeontological criteria, technofossil diversity already exceeds known estimates of biological diversity as measured by richness, far exceeds recognized fossil diversity, and may exceed total biological diversity through Earth’s history. The rapid transformation of much of Earth’s surface mass into the technosphere and its myriad components underscores the novelty of the current planetary transformation.

Publisher

SAGE Publications

Subject

Geology,Ecology,Global and Planetary Change

Link

http://journals.sagepub.com/doi/pdf/10.1177/2053019616677743

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