Your search keyword '"Waters, Colin N."' showing total 28 results

1. The meaning of the Anthropocene: why it matters even without a formal geological definition

Author

Zalasiewicz, Jan, Adeney Thomas, Julia, Waters, Colin N., Turner, Simon, and Head, Martin J.

Abstract

Even though geologists have rejected the designation of an Anthropocene epoch, the idea of a major planetary transition in the mid-twentieth century remains useful across physical and social sciences, the humanities and policy.

Published

2024

2. The San Francisco Estuary, USA as a reference section for the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., Himson, Stephen, Williams, Mark, Zalasiewicz, Jan, Waters, Colin N, McGann, Mary, England, Richard, Jaffe, Bruce E, Boom, Arnoud, Holmes, Rachael, Sampson, Sue, Pye, Cerin, Berrio, Juan Carlos, Tyrrell, Genevieve, Wilkinson, Ian P, Rose, Neil, Gaca, Pawel, and Cundy, Andrew

Abstract

A San Francisco Estuary core was analysed at high resolution to assess its component stratigraphic signatures of the Anthropocene in the form of non-native species, Hg, spheroidal carbonaceous particles, δ13Corg, δ15N, radiogenic materials, and heavy metals. Time series analysis of the core using Ti data provides a chronology to depth 167 cm into the 1960s. Below this, to depth 230 cm, the lowermost part of the core may extend to the 1950s or potentially a little earlier. The earliest anthropogenic marker recorded in the core is the excursion in Hg (beginning at 190 cm) which may denote the early 1960s and is the closest stratigraphic marker in the core to the proposed mid-20th century timing for the onset of the Anthropocene. Biostratigraphical signatures of non-native species arriving in the 1970s–1980s are widespread key markers and are significant tools for the correlation of Anthropocene deposits across the estuary. The absence of signals that indicate pre-1950s deposits precludes the use of the core to mark the Holocene–Anthropocene boundary. However, the core provides an important reference section to demonstrate the palaeontological distinctiveness of Anthropocene series deposits.

Published

2023

3. Evidence and experiment: Curating contexts of Anthropocene geology

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., Rosol, Christoph, Schäfer, Georg N, Turner, Simon D, Waters, Colin N, Head, Martin J, Zalasiewicz, Jan, Rossée, Carlina, Renn, Jürgen, Klingan, Katrin, and Scherer, Bernd M

Abstract

Together with research teams from around the world, the Anthropocene Working Group (AWG) has been meticulously quantifying and scrutinizing the global stratigraphic imprint of human activities, the results of which are gathered in this thematic collection of papers in The Anthropocene Review. How can such empirical research, which so impressively articulates the end of a relatively stable Earth System in the mid-20th century, inform our ways of understanding and responding to the planetary crisis that the geological samples quietly represent? In this afterword to the collection we report and reflect on the joint undertaking of the AWG, Haus der Kulturen der Welt and the Max Planck Institute for the History of Science to bring geoscientific evidence, cultural experimentation and historical contextualization together in a shared public framework.

Published

2023

4. Candidate sites and other reference sections for the Global boundary Stratotype Section and Point of the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., Waters, Colin N, Turner, Simon D, Zalasiewicz, Jan, and Head, Martin J

Abstract

We review and compare proposals for 12 reference sections submitted to the Anthropocene Working Group of the International Subcommission on Quaternary Stratigraphy, of which one will be recommended as the Global boundary Stratotype Section and Point (GSSP) to define the base of the Anthropocene as a series within the Geological Time Scale. The sites span five continents and are located in diverse environments, with all but one sampled by coring. Many sites show annually resolved laminae (here considered optimal for GSSP selection) that can be independently dated radiometrically to confirm a complete succession over the critical interval. An extensive range of proxies, documenting profound human modification of the Earth System at around the mid-20th century interval, has been analysed. Airborne signals (e.g. radioisotopes, fly ash, stable carbon and nitrogen isotopes) provide the most widespread and near-isochronous proxies, applicable across most environments. Additional means of correlation include the appearance of microplastics and persistent organic pollutants, and shifts in heavy metal concentrations and lead isotope ratios. Assemblage changes of microfossils (and some macrofossils) in marine, estuarine and lake settings reflect environmental changes and biological introductions. These systematic and comprehensive datasets, with correlation established between sections, provide the basis for a proposal to formalize the Anthropocene.

Published

2023

5. The Ernesto Cave, northern Italy, as a candidate auxiliary reference section for the definition of the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., Borsato, Andrea, Fairchild, Ian J, Frisia, Silvia, Wynn, Peter M, and Fohlmeister, Jens

Abstract

Annually laminated stalagmites ER77 and ER78 from Grotta di Ernesto provide an accurate annual record of environmental and anthropogenic signals for the last ~200 years. Two major transitions are recorded in the stalagmites. The first coincides with the year 1840 CE, when a change from porous and impurity-rich-laminae to clean, translucent laminae occurs. This is accompanied by a steady increase in the growth rate, a decrease in fluorescence and a sharp increase in δ13C values. These changes concur with the end of the Little Ice Age. The second transition takes place around the year 1960 CE and corresponds with an increase in both annual growth rate and sulfur concentration in stalagmite ER78 at 4.2 mm from the top, and with the deflection point in the 14C activity curve in stalagmite ER77 at 4.8 mm from the top. This latter is the stratigraphic signal proposed as the primary guide for the definition of the Anthropocene series. The following shift toward depleted δ34S–SO4in stalagmite ER78 suggests that industrial pollution is a major source of sulfur. The interpretation of atmospheric signals (S, δ34S, 14C) in the stalagmites is affected by attenuation and time lags and the environmental signals are influenced by soil and ecosystem processes, while other anthropogenic signals (δ15N, 239Pu) are not recorded. For these reasons, the stalagmite record is here proposed as an auxiliary (reference) section rather than a global standard. In summary, Grotta di Ernesto contains one of the best stalagmite records documenting the Anthropocene, and one of only two stalagmite records where the S peak has been measured at high resolution.

Published

2023

6. The Sihailongwan Maar Lake, northeastern China as a candidate Global boundary Stratotype Section and Point for the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., Han, Yongming, Zhisheng, An, Lei, Dewen, Zhou, Weijian, Zhang, Luyuan, Zhao, Xue, Yan, Dongna, Arimoto, Richard, Rose, Neil L, Roberts, Sarah L, Li, Li, Tang, Yalan, Liu, Xingqi, Fu, Xuewu, Schneider, Tobias, Hou, Xiaolin, Lan, Jianghu, Tan, Liangcheng, Liu, Xingxing, Hu, Jing, Cao, Yunning, Liu, Weiguo, Wu, Feng, Wang, Tianli, Qiang, Xiaoke, Chen, Ning, Cheng, Peng, Hao, Yifei, Wang, Qiyuan, Chu, Guoqiang, Guo, Meiling, Han, Mei, Tan, Zhihai, Wei, Chong, and Dusek, Ulrike

Abstract

Sihailongwan Maar Lake, located in Northeast China, is a candidate Global boundary Stratotype Section and Point (GSSP) for demarcation of the Anthropocene. The lake’s varved sediments are formed by alternating allogenic atmospheric inputs and authigenic lake processes and store a record of environmental and human impacts at a continental-global scale. Varve counting and radiometric dating provided a precise annual-resolution sediment chronology for the site. Time series records of radioactive (239,240Pu, 129I and soot 14C), chemical (spheroidal carbonaceous particles, polycyclic aromatic hydrocarbons, soot, heavy metals, δ13C, etc.), physical (magnetic susceptibility and grayscale) and biological (environmental DNA) indicators all show rapid changes in the mid-20th century, coincident with clear lithological changes of the sediments. Statistical analyses of these proxies show a tipping point in 1954 CE. 239,240Pu activities follow a typical unimodal globally-distributed profile, and are proposed as the primary marker for the Anthropocene. A rapid increase in 239,240Pu activities at 88 mm depth in core SHLW21-Fr-13 (1953 CE) is synchronous with rapid changes of other anthropogenic proxies and the Great Acceleration, marking the onset of the Anthropocene. The results indicate that Sihailongwan Maar Lake is an ideal site for the Anthropocene GSSP.

Published

2023

7. North Flinders Reef (Coral Sea, Australia) Poritessp. corals as a candidate Global boundary Stratotype Section and Point for the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., Zinke, Jens, Cantin, Neal E, DeLong, Kristine L, Palmer, Kylie, Boom, Arnoud, Hajdas, Irka, Duprey, Nicolas, Martínez-García, Alfredo, Rose, Neil L, Roberts, Sarah L, Yang, Handong, Roberts, Lucy R, Cundy, Andrew B, Gaca, Pawel, Milton, James Andy, Frank, Grace, Cox, Adam, Sampson, Sue, Tyrrell, Genevieve, Agg, Molly, and Turner, Simon D

Abstract

Corals are unique in the suite of proposed Anthropocene Global Boundary Stratotype Section and Point (GSSP) archives, as living organisms that produce aragonite exoskeletons preserved in the geological record that contain highly accurate and precise (<±1 year) internal chronologies. The GSSP candidate site North Flinders Reef in the Coral Sea (Australia) is an offshore oceanic reef, and therefore less vulnerable to local human influences than those closer to the coast. Here, we present geochemical records from two Poritessp. corals sampled at an annual to pluri-annual (i.e. 3–5 years) resolution that shows clear global and regional human impacts. Atmospheric nuclear bomb testing by-products (14C,239+240Pu) show a clear increase in the Flinders Reef corals coincident with well-dated nuclear testing operations. By contrast, the radionuclides 241Am and 137Cs are present at low or undetectable levels, as are spheroidal carbonaceous fly-ash particles. Coral δ13C shows centennial variability likely influenced by growth effects in the 18th century and with a progression to lower values starting in 1880 CE and accelerating post-1970 CE. The latter may be related to the Suess effect resulting from 13C-depleted fossil fuel burning. Coral δ15N decreased between 1710 and 1954 CE with a reversal post-1954 CE. Coral temperature proxies indicate prominent centennial variability with equally warm conditions in the 18th and end of 20th century. However, the exact mechanisms responsible for the mid-20th century changes in these parameters need to be scrutinised in further detail.Plain Language summary: This work proposes a candidate natural archive for the official marker of the Anthropocene that geologists will use to mark this important interval in time. Our candidate is a live coral from North Flinders Reef in the Coral Sea (Australia), located 150 km east of the Great Barrier Reef, a location that is remote from direct local human influences. Corals are a unique archive of tropical ocean change because they incorporate the geochemical signature from seawater into their limestone skeleton during their long life-spans. Here we investigated a number of geochemical markers in yearly growth layers of the corals to define several markers for the Anthropocene based on changes in temperature, water chemistry, chemicals from pollution and fertilisers, radioactive products from nuclear bomb testing, and by-products from burning fossil fuels. We have detected clear human influences in several of these markers.

Published

2023

8. The Palmer ice core as a candidate Global boundary Stratotype Section and Point for the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., Thomas, Elizabeth R, Vladimirova, Diana O, Tetzner, Dieter R, Emanuelsson, Daniel B, Humby, Jack, Turner, Simon D, Rose, Neil L, Roberts, Sarah L, Gaca, Pawel, and Cundy, Andrew B

Abstract

The remote Antarctic continent, distant from human industrial activity, should be one of the last places on Earth to capture Anthropogenic change. Hence, stratigraphic evidence of pollution and nuclear activity in the Antarctic provides proof of the global nature of the Anthropocene epoch. We propose an Antarctic Peninsula ice core candidate for the Global boundary Stratotype Section and Point (GSSP) to the onset of the Anthropocene. The Palmer ice core captures the first evidence of spheroidal carbonaceous fly ash particles (SCPs), resulting from high temperature combustion deposited in Antarctic ice. SCPs first appear in 1936 CE, preceding the rise in plutonium (239+240Pu) concentrations from 1945 CE onwards. GSSP 1952 CE occurs at a depth of 34.9 m, coincident with the peak in 239+240Puthe primary marker for this site.

Published

2023

9. The Flower Garden Banks Siderastrea sidereacoral as a candidate Global boundary Stratotype Section and Point for the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., DeLong, Kristine L, Palmer, Kylie, Wagner, Amy J, Weerabaddana, Mudith M, Slowey, Niall, Herrmann, Achim D, Duprey, Nicolas, Martínez-García, Alfredo, Jung, Jonathan, Hajdas, Irka, Rose, Neil L, Roberts, Sarah L, Roberts, Lucy R, Cundy, Andrew B, Gaca, Pawel, Milton, J Andrew, Yang, Handong, Turner, Simon D, Huang, Chun-Yuan, Shen, Chuan-Chou, and Zinke, Jens

Abstract

The proposed Anthropocene Global Boundary Stratotype Section and Point (GSSP) candidate site of West Flower Garden Bank (27.8762°N, 93.8147°W) is an open ocean location in the Gulf of Mexico with a submerged coral reef and few direct human impacts. Corals contain highly accurate and precise (<±1 year) internal chronologies, similar to tree rings, and their exoskeletons are formed of aragonite and can be preserved in the rock record. Here we present results from a large Siderastrea sidereacoral (core 05WFGB3; 1755–2005 CE) sampled with annual and monthly resolutions that show clear markers of global and regional human impacts. Atmospheric nuclear bomb testing by-products (14C, 239+240Pu) have clear increases in this coral starting in 1957 for 14C and the first increase in 1956 for 239+240Pu (potential bases for the Anthropocene GSSP). Coral δ13C declined especially after 1956 consistent with the Suess effect resulting from the burning of fossil fuels. Coral skeletal δ15N starts to increase in 1963 corresponding with the increase in agricultural fertilizers. Coral Hg concentrations (1933–1980) loosely track fluctuations in industrial pollution and coral Ba/Ca increases from 1965–1983 when offshore oil operations expand after 1947. Coral temperature proxies contain the 20th-century global warming trend whereas coral growth declines during this interval.

Published

2023

10. The Searsville Lake Site (California, USA) as a candidate Global boundary Stratotype Section and Point for the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., Stegner, M Allison, Hadly, Elizabeth A, Barnosky, Anthony D, La Selle, SeanPaul, Sherrod, Brian, Anderson, R Scott, Redondo, Sergio A, Viteri, Maria C, Weaver, Karrie L, Cundy, Andrew B, Gaca, Pawel, Rose, Neil L, Yang, Handong, Roberts, Sarah L, Hajdas, Irka, Black, Bryan A, and Spanbauer, Trisha L

Abstract

Cores from Searsville Lake within Stanford University’s Jasper Ridge Biological Preserve, California, USA, are examined to identify a potential GSSP for the Anthropocene: core JRBP2018-VC01B (944.5 cm-long) and tightly correlated JRBP2018-VC01A (852.5 cm-long). Spanning from 1900 CE ± 3 years to 2018 CE, a secure chronology resolved to the sub-annual level allows detailed exploration of the Holocene-Anthropocene transition. We identify the primary GSSP marker as first appearance of 239,240Pu (372–374 cm) in JRBP2018-VC01B and designate the GSSP depth as the distinct boundary between wet and dry season at 366 cm (6 cm above the first sample containing 239,240Pu) and corresponding to October-December 1948 CE. This is consistent with a lag of 1–2 years between ejection of 239,240Pu into the atmosphere and deposition. Auxiliary markers include: first appearance of 137Cs in 1958; late 20th-century decreases in δ15N; late 20th-century elevation in SCPs, Hg, Pb, and other heavy metals; and changes in abundance and presence of ostracod, algae, rotifer and protozoan microfossils. Fossil pollen document anthropogenic landscape changes related to logging and agriculture. As part of a major university, the Searsville site has long been used for research and education, serves users locally to internationally, and is protected yet accessible for future studies and communication about the Anthropocene.Plain Word Summary The Global boundary Stratotype Section and Point (GSSP) for the proposed Anthropocene Series/Epoch is suggested to lie in sediments accumulated over the last ~120 years in Searsville Lake, Woodside, California, USA. The site fulfills all of the ideal criteria for defining and placing a GSSP. In addition, the Searsville site is particularly appropriate to mark the onset of the Anthropocene, because it was anthropogenic activities–the damming of a watershed–that created a geologic record that now preserves the very signals that can be used to recognize the Anthropocene worldwide.

Published

2023

11. Beppu Bay, Japan, as a candidate Global boundary Stratotype Section and Point for the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., Kuwae, Michinobu, Finney, Bruce P, Shi, Zhiyuan, Sakaguchi, Aya, Tsugeki, Narumi, Omori, Takayuki, Agusa, Tetsuro, Suzuki, Yoshiaki, Yokoyama, Yusuke, Hinata, Hirofumi, Hatada, Yoshio, Inoue, Jun, Matsuoka, Kazumi, Shimada, Misaki, Takahara, Hikaru, Takahashi, Shin, Ueno, Daisuke, Amano, Atsuko, Tsutsumi, Jun, Yamamoto, Masanobu, Takemura, Keiji, Yamada, Keitaro, Ikehara, Ken, Haraguchi, Tsuyoshi, Tims, Stephen, Froehlich, Michaela, Fifield, Leslie Keith, Aze, Takahiro, Sasa, Kimikazu, Takahashi, Tsutomu, Matsumura, Masumi, Tani, Yukinori, Leavitt, Peter R, Doi, Hideyuki, Irino, Tomohisa, Moriya, Kazuyoshi, Hayashida, Akira, Hirose, Kotaro, Suzuki, Hidekazu, and Saito, Yoshiki

Abstract

For assessment of the potential of the Beppu Bay sediments as a Global boundary Stratotype Section and Point (GSSP) candidate for the Anthropocene, we have integrated datasets of 99 proxies. The datasets for the sequences date back 100 years for most proxy records and 1300 years for several records. The cumulative number of occurrences of the anthropogenic fingerprint reveal unprecedented increases above the base of the 1953 flood layer at 64.6 cm (1953 CE), which coincides with an initial increase in global fallout of 239Pu+240Pu. The onset of the proliferation of anthropogenic fingerprints was followed by diverse human-associated events, including a rapid increase in percent modern 14C in anchovy scales, changes in nitrogen and carbon cycling as recorded by anchovy δ15N and δ13C, elevated pollution of heavy metals, increased deposition of novel materials (spheroidal carbonaceous particles, microplastics, polychlorinated biphenyls), the occurrence of hypoxia (Re/Mo ratio) and eutrophication (biogenic opal, TOC, TN, diatoms, chlorophyll a), unprecedented microplankton community changes (compositions of carotenoids, diatoms, dinoflagellates), abnormally high spring air temperatures as inferred from diatom fossils, and lithological changes. These lines of evidence indicate that the base of the 1953 layer is the best GSSP level candidate in the stratigraphy at this site.

Published

2023

12. The urban sediments of Karlsplatz, Vienna (Austria) as a reference section for the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., Wagreich, Michael, Meszar, Maria, Lappé, Kira, Wolf, Janis, Mosser, Martin, Hornek, Katrin, Koukal, Veronika, Litschauer, Constance, Piperakis, Nikolaos, and Hain, Karin

Abstract

Anthropogenic strata form the layered urban archive in the underground of large cities. In a transdisciplinary project involving geosciences, isotope physics and urban archaeology, we looked for artificial isotopes and anthropogenic trace metals. The tested archaeological site Karlsplatz is situated in the city of Vienna (Austria). Archaeology and historical data sets provide age constraints around 1922, post-1945 and at 1959. A layer on top of the WW2 rubble that covers foundations of a 1922 building post-dates 1945, and pre-dates the levelling of the artificial park ground in 1959. The fine-grained sediment matrix of these layers is mixed with backfilled soil material. Samples were analysed for trace elements such as lead, copper and zinc, and prepared for chemical separation of actinides analysed by Accelerator Mass Spectrometry (AMS). Several artificial radionuclides, including the plutonium and uranium isotopes 239Pu, 240Pu and 236U, were found in the post-1945 layer, and the 240Pu/239Pu isotope ratio clearly points to the presence of atmospheric atomic bomb fallout material of the 1950s. Thus, the bomb-spike can be identified and used as a primary stratigraphic marker even in coarse urban anthropogenic sediments, exemplifying the correlation potential of these radionuclide markers and marking a correlative reference section for the Anthropocene series.

Published

2023

13. The East Gotland Basin (Baltic Sea) as a candidate Global boundary Stratotype Section and Point for the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., Kaiser, Jérôme, Abel, Serena, Arz, Helge W, Cundy, Andrew B, Dellwig, Olaf, Gaca, Pawel, Gerdts, Gunnar, Hajdas, Irka, Labrenz, Matthias, Milton, James A, Moros, Matthias, Primpke, Sebastian, Roberts, Sarah L, Rose, Neil L, Turner, Simon D, Voss, Maren, and Ivar do Sul, Juliana A

Abstract

The short sediment core EMB201/7-4 retrieved from the East Gotland Basin, central Baltic Sea, is explored here as a candidate to host the stratigraphical basis for the Anthropocene series and its equivalent Anthropocene epoch, still to be formalized in the Geological Time Scale. The core has been accurately dated back to 1840 CE using a well-established event stratigraphy approach. A pronounced and significant change occurs at 26.5 cm (dated 1956 ± 4 CE) for a range of geochemical markers including 239+240Pu, 241Am, fly-ash particles, DDT (organochlorine insecticide), total organic carbon, and bulk organic carbon stable isotopes. This stratigraphic level, which corresponds to a change in both lithology and sediment colour related to early anthropogenic-triggered eutrophication of the central Baltic Sea, is proposed as a Global boundary Stratotype Section and Point for the Anthropocene series.

Published

2023

14. The varved succession of Crawford Lake, Milton, Ontario, Canada as a candidate Global boundary Stratotype Section and Point for the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., McCarthy, Francine MG, Patterson, R. Timothy, Head, Martin J, Riddick, Nicholas L, Cumming, Brian F, Hamilton, Paul B, Pisaric, Michael FJ, Gushulak, A. Cale, Leavitt, Peter R, Lafond, Krysten M, Llew-Williams, Brendan, Marshall, Matthew, Heyde, Autumn, Pilkington, Paul M, Moraal, Joshua, Boyce, Joseph I, Nasser, Nawaf A, Walsh, Carling, Garvie, Monica, Roberts, Sarah, Rose, Neil L, Cundy, Andy B, Gaca, Pawel, Milton, Andy, Hajdas, Irka, Crann, Carley A, Boom, Arnoud, Finkelstein, Sarah A, and McAndrews, John H

Abstract

An annually laminated succession in Crawford Lake, Ontario, Canada is proposed for the Global boundary Stratotype Section and Point (GSSP) to define the Anthropocene as a series/epoch with a base dated at 1950 CE. Varve couplets of organic matter capped by calcite precipitated each summer in alkaline surface waters reflect environmental change at global to local scales. Spheroidal carbonaceous particles and nitrogen isotopes record an increase in fossil fuel combustion in the early 1950s, coinciding with early fallout from nuclear and thermonuclear testing – 239+240Pu and 14C:12C, the latter more than compensating for the effects of old carbon in this dolomitic basin. Rapid industrial expansion in the North American Great Lakes region led to enhanced leaching of terrigenous elements by acid precipitation during the Great Acceleration, and calcite precipitation was reduced, producing thin calcite laminae around the GSSP that is marked by a sharp decline in elm pollen (Dutch Elm disease). The lack of bioturbation in well-oxygenated bottom waters, supported by the absence of fossil pigments from obligately anaerobic purple sulfur bacteria, is attributed to elevated salinities and high alkalinity below the chemocline. This aerobic depositional environment, highly unusual in a meromictic lake, inhibits the mobilization of Pu, the proposed primary stratigraphic guide for the Anthropocene.

Published

2023

15. The Śnieżka peatland as a candidate Global boundary Stratotype Section and Point for the Anthropocene series

Author

Waters, Colin N., Turner, Simon D., Zalasiewicz, Jan, Head, Martin J., Fiałkiewicz-Kozieł, Barbara, Łokas, Edyta, Smieja-Król, Beata, Turner, Simon, De Vleeschouwer, Francois, Woszczyk, Michał, Marcisz, Katarzyna, Gałka, Mariusz, Lamentowicz, Mariusz, Kołaczek, Piotr, Hajdas, Irka, Karpińska-Kołaczek, Monika, Kołtonik, Katarzyna, Mróz, Tomasz, Roberts, Sarah, Rose, Neil, Krzykawski, Tomasz, Boom, Arnoud, and Yang, Handong

Abstract

The subalpine, atmospherically fed Śnieżka peatland, located in the Polish part of the Sudetes, is one of the nominated candidates for the GSSP of the Anthropocene. Data from two profiles, Sn1 (2012) and Sn0 (2020), from this site are critical for distinguishing the proposed epoch, while an additional core Sn2 is presented to support main evidence. The Sn0 archive contains a wide array of critical markers such as plutonium (Pu), radiocarbon (F14C), fly ash particles, Hg and stable C and N isotopes which are consistent with the previously well documented 210Pb/14C dated Sn1 profile, which provides a high-resolution and comprehensive database of trace elements and rare earth elements (REE), Pb isotopes, Pu, Cs, pollen and testate amoebae. The 1952 worldwide appearance of Pu, owing to its global synchronicity and repeatability between the cores, is proposed here as a primary marker of the Anthropocene, supported by the prominent upturn of selected chemostratigraphic and biostratigraphic indicators as well as the appearance of technofossils and artificial radionuclides.

Published

2023

16. Sediment Soot Radiocarbon Indicates that Recent Pollution Controls Slowed Fossil Fuel Emissions in Southeastern China.

Author

Yongming Han, Zhisheng An, Arimoto, Richard, Waters, Colin N., Schneider, Tobias, Peng Yao, Sarli, Eirini, Weijian Zhou, Li Li, and Dusek, Ulrike

Published

2022

17. Sediment Soot Radiocarbon Indicates that Recent Pollution Controls Slowed Fossil Fuel Emissions in Southeastern China

Author

Han, Yongming, An, Zhisheng, Arimoto, Richard, Waters, Colin N., Schneider, Tobias, Yao, Peng, Sarli, Eirini, Zhou, Weijian, Li, Li, and Dusek, Ulrike

Abstract

Fossil fuel (FF) combustion emissions account for a large, but uncertain, amount of the soot in the atmosphere, play an important role in climate change, and adversely affect human health. However, historical estimates of FF contributions to air pollution are limited by uncertainties in fuel usage and emission factors. Here, we constrained FF soot emissions from southeastern China over the past 110 years, based on a novel radiocarbon method applied to sedimentary soot. The reconstructed soot accumulations reflect the integrated effects of increased FF use caused by economic development and reductions in emissions due to pollution controls. A sharp increase in FF soot started in 1950 as southeastern China industrialized and developed economically, but decreased FF soot fluxes in recent years suggest that pollution controls reduced soot emissions. We compare FF soot history to changes in CO2emissions, industrial and economic activities, and pollution controls and show that FF soot fluxes are more readily controlled than atmospheric CO2. Our independent FF soot record provides insights into the effects of economic development and controls on air pollution and the environmental impacts from the changes in soot emissions.

Published

2022

18. Geological evolution of the Mississippi River into the Anthropocene

Author

Turnbull, Thomas, Rosol, Christoph, Renn, Jürgen, Russell, Catherine, Waters, Colin N, Himson, Stephen, Holmes, Rachael, Burns, Annika, Zalasiewicz, Jan, and Williams, Mark

Abstract

The Mississippi River maintains commercial and societal networks of the USA along its >3700 km length. It has accumulated a fluvial sedimentary succession over 80 million years. Through the last 11,700 years of the Holocene Epoch, the wild river shaped the landscape, models of which have become classic in geological studies of ancient river strata. Studies of the river were led by the need to develop infrastructure and to search for hydrocarbons, through which, these models have become quite sophisticated. However, whilst the models demonstrate how the wild river behaves, a monumental shift in fundamental controls on the entire fluvial system, broadly coinciding with the proposed mid-20th century onset of the Anthropocene Epoch, has generated new geological patterns that are becoming globally ubiquitous, and which the Mississippi River typifies. As such, whilst classic Holocene river models may be comparedto human-modified systems such as the Lower Mississippi River (and others worldwide), locally the models may now only directly apply to its fossilized components preserved in the sub-surface. Such river models need adapting to better understand the present dynamics, and future evolution of these landscapes.

Published

2021

19. Eugenio Luciano

Author

Zalasiewicz, Jan, Waters, Colin N., Williams, Mark, and Summerhayes, Colin P.

Published

2019

20. Humans are the most significant global geomorphological driving force of the 21st century

Author

Cooper, Anthony H, Brown, Teresa J, Price, Simon J, Ford, Jonathan R, and Waters, Colin N

Abstract

The transformation of the Earth’s land surface by mineral extraction and construction is on a scale greater than natural erosive terrestrial geological processes. Mineral extraction statistics can be used as a proxy to measure the size of the total anthropogenic global sediment flux related to mineral extraction and construction. It is demonstrated that the annual direct anthropogenic contribution to the global production of sediment in 2015 was conservatively some 316 Gt (150 km3), a figure more than 24 times greater than the sediment supplied annually by the world’s major rivers to the oceans. The major long-term acceleration in anthropogenic sediment flux started just after the Second World War and anthropogenic sediment flux overtook natural fluvial sediment flux in the mid-1950s. Humans are now the major global geomorphological driving force and an important component of Earth System processes in landscape evolution. The changing magnitude of anthropogenic sediments and landforms over time are significant factors in the characterisation of the proposed new epoch of geological time – the Anthropocene.

Published

2018

21. Making the case for a formal Anthropocene Epoch: an analysis of ongoing critiques

Author

Zalasiewicz, Jan, Waters, Colin N., Wolfe, Alexander P., Barnosky, Anthony D., Cearreta, Alejandro, Edgeworth, Matt, Ellis, Erle C., Fairchild, Ian J., Gradstein, Felix M., Grinevald, Jacques, Haff, Peter, Head, Martin J., Sul, Juliana A. Ivar do, Jeandel, Catherine, Leinfelder, Reinhold, McNeill, John R., Oreskes, Naomi, Poirier, Clément, Revkin, Andrew, Richter, Daniel deB., Steffen, Will, Summerhayes, Colin, Syvitski, James P.M., Vidas, Davor, Wagreich, Michael, Wing, Scott, and Williams, Mark

Abstract

A range of published arguments against formalizing the Anthropocene as a geological time unit have variously suggested that it is a misleading term of non-stratigraphic origin and usage, is based on insignificant temporal and material stratigraphic content unlike that used to define older geological time units, is focused on observation of human history or speculation about the future rather than geologically significant events, and is driven more by politics than science. In response, we contend that the Anthropocene is a functional term that has firm geological grounding in a well-characterized stratigraphic record. This record, although often lithologically thin, is laterally extensive, rich in detail and already reflects substantial elapsed (and in part irreversible) change to the Earth System that is comparable to or greater in magnitude than that of previous epoch-scale transitions. The Anthropocene differs from previously defined epochs in reflecting contemporary geological change, which in turn also leads to the term's use over a wide range of social and political discourse. Nevertheless, that use remains entirely distinct from its demonstrable stratigraphic underpinning. Here we respond to the arguments opposing the geological validity and utility of the Anthropocene, and submit that a strong case may be made for the Anthropocene to be treated as a formal chronostratigraphic unit and added to the Geological Time Scale.

Published

2017

22. Scale and diversity of the physical technosphere: A geological perspective

Author

Zalasiewicz, Jan, Williams, Mark, Waters, Colin N, Barnosky, Anthony D, Palmesino, John, Rönnskog, Ann-Sofi, Edgeworth, Matt, Neal, Cath, Cearreta, Alejandro, Ellis, Erle C, Grinevald, Jacques, Haff, Peter, Ivar do Sul, Juliana A, Jeandel, Catherine, Leinfelder, Reinhold, McNeill, John R, Odada, Eric, Oreskes, Naomi, Price, Simon James, Revkin, Andrew, Steffen, Will, Summerhayes, Colin, Vidas, Davor, Wing, Scott, and Wolfe, Alexander P

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.

Published

2017

23. Colonization of the Americas, ‘Little Ice Age’ climate, and bomb-produced carbon: Their role in defining the Anthropocene

Author

Zalasiewicz, Jan, Waters, Colin N, Barnosky, Anthony D, Cearreta, Alejandro, Edgeworth, Matt, Ellis, Erle C, Galuszka, Agnieszka, Gibbard, Philip L, Grinevald, Jacques, Hajdas, Irka, Ivar do Sul, Juliana, Jeandel, Catherine, Leinfelder, Reinhold, McNeill, JR, Poirier, Clément, Revkin, Andrew, deB Richter, Daniel, Steffen, Will, Summerhayes, Colin, Syvitski, James PM, Vidas, Davor, Wagreich, Michael, Williams, Mark, and Wolfe, Alexander P

Abstract

A recently published analysis by Lewis and Maslin (Lewis SL and Maslin MA (2015) Defining the Anthropocene. Nature519: 171–180) has identified two new potential horizons for the Holocene-Anthropocene boundary: 1610 (associated with European colonization of the Americas), or 1964 (the peak of the excess radiocarbon signal arising from atom bomb tests). We discuss both of these novel suggestions, and consider that there is insufficient stratigraphic basis for the former, whereas placing the latter at the peak of the signal rather than at its inception does not follow normal stratigraphical practice. Wherever the boundary is eventually placed, it should be optimized to reflect stratigraphical evidence with the least possible ambiguity.

Published

2015

24. Can nuclear weapons fallout mark the beginning of the Anthropocene Epoch?

Author

Waters, Colin N., Syvitski, James P. M., Galuszka, Agnieszka, Hancock, Gary J., Zalasiewicz, Jan, Cearreta, Alejandro, Grinevald, Jacques, Jeandel, Catherine, McNeill, J. R., Summerhayes, Colin, and Barnosky, Anthony

Abstract

Many scientists are making the case that humanity is living in a new geological epoch, the Anthropocene, but there is no agreement yet as to when this epoch began. The start might be defined by a historical event, such as the beginning of the fossil-fueled Industrial Revolution or the first nuclear explosion in 1945. Standard stratigraphic practice, however, requires a more significant, globally widespread, and abrupt signature, and the fallout from nuclear weapons testing appears most suitable. The appearance of plutonium 239 (used in post-1945 above-ground nuclear weapons tests) makes a good marker: This isotope is rare in nature but a significant component of fallout. It has other features to recommend it as a stable marker in layers of sedimentary rock and soil, including: long half-life, low solubility, and high particle reactivity. It may be used in conjunction with other radioactive isotopes, such as americium 241 and carbon 14, to categorize distinct fallout signatures in sediments and ice caps. On a global scale, the first appearance of plutonium 239 in sedimentary sequences corresponds to the early 1950s. While plutonium is easily detectable over the entire Earth using modern measurement techniques, a site to define the Anthropocene (known as a “golden spike”) would ideally be located between 30 and 60 degrees north of the equator, where fallout is maximal, within undisturbed marine or lake environments.

Published

2015

25. Can nuclear weapons fallout mark the beginning of the Anthropocene Epoch?

Author

Waters, Colin N., Syvitski, James P. M., Gałuszka, Agnieszka, Hancock, Gary J., Zalasiewicz, Jan, Cearreta, Alejandro, Grinevald, Jacques, Jeandel, Catherine, McNeill, J. R., Summerhayes, Colin, and Barnosky, Anthony

Abstract

Many scientists are making the case that humanity is living in a new geological epoch, the Anthropocene, but there is no agreement yet as to when this epoch began. The start might be defined by a historical event, such as the beginning of the fossil-fueled Industrial Revolution or the first nuclear explosion in 1945. Standard stratigraphic practice, however, requires a more significant, globally widespread, and abrupt signature, and the fallout from nuclear weapons testing appears most suitable. The appearance of plutonium 239 (used in post-1945 above-ground nuclear weapons tests) makes a good marker: This isotope is rare in nature but a significant component of fallout. It has other features to recommend it as a stable marker in layers of sedimentary rock and soil, including: long half-life, low solubility, and high particle reactivity. It may be used in conjunction with other radioactive isotopes, such as americium 241 and carbon 14, to categorize distinct fallout signatures in sediments and ice caps. On a global scale, the first appearance of plutonium 239 in sedimentary sequences corresponds to the early 1950s. While plutonium is easily detectable over the entire Earth using modern measurement techniques, a site to define the Anthropocene (known as a “golden spike”) would ideally be located between 30 and 60 degrees north of the equator, where fallout is maximal, within undisturbed marine or lake environments.

Published

2015

26. The technofossil record of humans

Author

Zalasiewicz, Jan, Williams, Mark, Waters, Colin N, Barnosky, Anthony D, and Haff, Peter

Abstract

As humans have colonised and modified the Earth’s surface, they have developed progressively more sophisticated tools and technologies. These underpin a new kind of stratigraphy, that we term technostratigraphy, marked by the geologically accelerated evolution and diversification of technofossils – the preservable material remains of the technosphere (Haff, 2013), driven by human purpose and transmitted cultural memory, and with the dynamics of an emergent system. The technosphere, present in some form for most of the Quaternary, shows several thresholds. Its expansion and transcontinental synchronisation in the mid 20th century has produced a global technostratigraphy that combines very high time-resolution, great geometrical complexity and wide (including transplanetary) extent. Technostratigraphy can help characterise the deposits of a potential Anthropocene Epoch and its emergence marks a step change in planetary mode.

Published

2014

27. A stratigraphical basis for the Anthropocene?

Author

Waters, Colin N., Zalasiewicz, Jan A., Williams, Mark, Ellis, Michael A., and Snelling, Andrea M.

Abstract

Recognition of intimate feedback mechanisms linking changes across the atmosphere, biosphere, geosphere and hydrosphere demonstrates the pervasive nature of humankind's influence, perhaps to the point that we have fashioned a new geological epoch, the Anthropocene. To what extent will these changes be evident as long-lasting signatures in the geological record?To establish the Anthropocene as a formal chronostratigraphical unit it is necessary to consider a spectrum of indicators of anthropogenically induced environmental change, and to determine how these show as stratigraphic signals that can be used to characterize an Anthropocene unit and to recognize its base. It is important to consider these signals against a context of Holocene and earlier stratigraphic patterns. Here we review the parameters used by stratigraphers to identify chronostratigraphical units and how these could apply to the definition of the Anthropocene. The onset of the range of signatures is diachronous, although many show maximum signatures which post-date 1945, leading to the suggestion that this date may be a suitable age for the start of the Anthropocene.

Published

2014

28. Can an Anthropocene Series be defined and recognized?

Author

Zalasiewicz, Jan, Williams, Mark, and Waters, Colin N.

Abstract

We consider the Anthropocene as a physical, chronostratigraphic unit across terrestrial and marine sedimentary facies, from both a present and a far future perspective, provisionally using an approximately 1950 CE base that approximates with the ‘Great Acceleration’, worldwide sedimentary incorporation of A-bomb-derived radionuclides and light nitrogen isotopes linked to the growth in fertilizer use, and other markers. More or less effective recognition of such a unit today (with annual/decadal resolution) is facies-dependent and variably compromised by the disturbance of stratigraphic superposition that commonly occurs at geologically brief temporal scales, and that particularly affects soils, deep marine deposits and the pre-1950 parts of current urban areas. The Anthropocene, thus, more than any other geological time unit, is locally affected by such blurring of its chronostratigraphic boundary with Holocene strata. Nevertheless, clearly separable representatives of an Anthropocene Series may be found in lakes, land ice, certain river/delta systems, in the widespread dredged parts of shallow-marine systems on continental shelves and slopes, and in those parts of deep-water systems where human-rafted debris is common. From a far future perspective, the boundary is likely to appear geologically instantaneous and stratigraphically significant.

Published

2014