Award Abstract # 0719911
Collaborative Research: Comparative Geochemistry of the Late Cambrian (SPICE) and Toarcian (Jurassic) Positive Carbon Isotope Excursions: New Perspectives on Paleozoic OAEs

NSF Org: EAR
Division Of Earth Sciences
Recipient: REGENTS OF THE UNIVERSITY OF CALIFORNIA AT RIVERSIDE
Initial Amendment Date: August 10, 2007
Latest Amendment Date: August 10, 2007
Award Number: 0719911
Award Instrument: Standard Grant
Program Manager: Enriqueta Barrera
EAR
 Division Of Earth Sciences
GEO
 Directorate for Geosciences
Start Date: September 1, 2007
End Date: August 31, 2010 (Estimated)
Total Intended Award Amount: $164,803.00
Total Awarded Amount to Date: $164,803.00
Funds Obligated to Date: FY 2007 = $164,803.00
History of Investigator:
  • Timothy Lyons (Principal Investigator)
    timothy.lyons@ucr.edu
Recipient Sponsored Research Office: University of California-Riverside
200 UNIVERSTY OFC BUILDING
RIVERSIDE
CA  US  92521-0001
(951)827-5535
Sponsor Congressional District: 39
Primary Place of Performance: University of California-Riverside
200 UNIVERSTY OFC BUILDING
RIVERSIDE
CA  US  92521-0001
Primary Place of Performance
Congressional District:
39
Unique Entity Identifier (UEI): MR5QC5FCAVH5
Parent UEI:
NSF Program(s): GLOBAL CHANGE,
Geobiology & Low-Temp Geochem
Primary Program Source: app-0107 
Program Reference Code(s): OTHR, 7295, 0000, EGCH, 1304, 4444
Program Element Code(s): 157700, 729500
Award Agency Code: 4900
Fund Agency Code: 4900
Assistance Listing Number(s): 47.050

ABSTRACT

The Paleozoic record is punctuated by multiple, large positive carbon isotope excursions that are expressed regionally if not globally. In younger records, similar excursions are often linked through direct observation to ocean-scale events of enhanced organic carbon burial--typically under well-characterized anoxic conditions. In older sequences, lacking preserved deep seafloor, the nature of oceanic redox on the broad scale can only be surmised through use of geochemical proxies that are typically ground-truthed in younger settings. In particular, our work and that of other researchers has illuminated the great potential of the molybdenum isotope proxy for quantifying global deep-ocean redox, when applied with careful consideration to local oxygen conditions and the basinal Mo inventory.

In this study we expand the concept of an Oceanic Anoxic Event--first defined for episodes of pervasive deep-ocean and epicontinental black shale deposition during the Mesozoic--to address the nature of ocean-scale redox in the Paleozoic. We focus on the Late Cambrian SPICE event (Steptoean Positive Carbon Isotope Excursion), suggested by our preliminary C and S isotope data from shelf carbonates and our geochemical box model to be a prime candidate for an early Paleozoic OAE. The Alum black shale in Sweden shows clear signs of the SPICE excursion in the organic C fraction and evidence for at least local euxinia before, during, and after the event--making it an ideal candidate for Mo isotope analysis. A central goal, then, is to extrapolate the OAE concept to the Paleozoic, which has numerous positive C isotope excursions of varying global expression but little physical evidence for conditions in the deep ocean. We will specifically test whether the SPICE is an OAE. Strongly analogous patterns of C and S isotope behavior, black shale geochemistry, and biotic extinction have been described from the better-known Toarcian event. We therefore seek to compare the shale geochemistry and supporting carbonate proxies for seawater composition for these two intervals to ask: 1) Do Mo isotope records from the Upper Cambrian Alum Shale in Sweden point to the globally expanded anoxia inferred from our high-resolution delta13C and delta34S carbonate data from the United States? 2) Do the SPICE and Toarcian C isotope excursions show analogous Mo isotope and C-S-Fe-trace metal behavior, such that significant new light is shed on the nature of the Cambrian event? 3) Do organic biomarker patterns associated with the SPICE match those observed from the Toarcian OAE, suggesting that euxinia shallowed as its areal extent increased? 4)By analogy, can we extrapolate models for the Toarcian to understand invertebrate extinction patterns in the early Paleozoic, including problematic trilobite extinctions? 5)Using our integrated data for the SPICE as a template, are Paleozoic intervals of pronounced positive delta13C and epicontinental black shale deposition analogous to the OAEs of the Mesozoic?
All of these questions will be addressed through collaboration with experts on each time interval and through use of the geochemical proxies that are staples in our combined research groups--specifically Fe speciation, trace metal chemistry (emphasizing Mo), and novel isotope approaches for S, Fe, and Mo.

Broader Impacts. In a sincere effort to extend the impact of this study beyond the Lyons/Anbar research groups, we have designed a two-pronged approach for outreach in the greater Riverside-LA area. First, Lyons/Anbar/Gill will participate during each of the project years in the UCR Mentoring Summer Research Internship Program, whereby students from ethnic groups historically underrepresented in the sciences (particularly the earth sciences) will receive hands-on experience in the two labs. Second, Lyons/Anbar/Gill will work with the Aquarium of the Pacific in Long Beach, CA, to design an exhibit centered on the global epidemic of anthropogenic coastal hypoxia. Happily, the LA area has seen an improvement in its coastal water quality in recent years. Building from this success and lessons learned from the past--including the very deep past--we expect to reach out to the public about the health of coastal environments in an informative, optimistic, and hopefully entertaining way. Given the 1.3 million annual visitors to the aquarium, we are certain our message will spread widely.

PUBLICATIONS PRODUCED AS A RESULT OF THIS RESEARCH

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B. Gill, T. Lyons, M. Saltzman "Parallel, high-resolution carbon and sulfur isotope records of the evolving Paleozoic" Palaeogeography, Palaeoclimatology, Palaeoecology , v.256 , 2007 , p.156
Gill, B.C., Lyons, T.W., Frank, T. "Behavior of carbonate-associated sulfate during meteoric diagenesis and implications for the sulfur isotope paleoproxy" Geochimica et Cosmochimica Acta , v.72 , 2008 , p.4699
Gill, B.C., Lyons, T.W., Frank, T. "Behavior of carbonate-associated sulfate during meteoric diagenesis and implications for the sulfur isotope paleoproxy" Geochimica et Cosmochimica Acta , v.72 , 2008 , p.4699
J. Ries, D. Fike, L. Pratt, T. Lyons, J. Grotzinger "Superheavy pyrite (d34Spyr > d34SCAS) in the terminal Proterozoic Nama Group, southern Namibia: A consequence of low seawater sulfate at the dawn of animal life" Geology , v.37 , 2009 , p.743
Lyons, T.W., Gill, B.C. "The worm turned, and the ocean followed" Proceedings of the National Academy of Sciences , v.106 , 2009 , p.8081
Lyons, T.W., Gill, B.C. "The worm turned, and the ocean followed" Proceedings of the National Academy of Sciences , v.106 , 2009 , p.8081
T. Lyons, B. Gill "Ancient sulfur cycling and oxygenation of the early biosphere" Elements , v.6 , 2010 , p.93

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