{"id":154,"date":"2023-08-18T13:19:56","date_gmt":"2023-08-18T20:19:56","guid":{"rendered":"https:\/\/dornsife.usc.edu\/corsettilab\/?page_id=154"},"modified":"2023-08-22T16:16:15","modified_gmt":"2023-08-22T23:16:15","slug":"publications","status":"publish","type":"page","link":"https:\/\/dornsife.usc.edu\/corsettilab\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\n\n\n\n \n \n\n\n\n\n\n\n\n
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Peer-Reviewed Journal Articles\u00a0<\/span><\/h2>\n

(chronologic, students underlined)<\/span><\/h3>\n
\n

2021<\/span><\/strong><\/p>\n

103.\u00a0<\/span>Ferrer<\/span>, F.M., Rosen, M.R.,\u00a0<\/span>Feyhl-Buska, J., Russell, V.V., S\u00f8nderholm<\/span>, F., Loyd, S.J., Shapiro, R., Stamps, B.W., Petryshyn, V.A.,\u00a0<\/span>Demirel-Floyd<\/span>, C., Bailey, J.V., Johnson, H.A., Spear, J.R.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A. (2021) Potential role for microbial ureolysis in the rapid formation of carbonate tufa mounds, Geobiology (currently early publication online)<\/span>\u00a0<\/span>https:\/\/doi.org\/10.1111\/gbi.12467<\/span><\/a><\/p>\n

102.\u00a0<\/span>Larina, E.<\/span>, Bottjer, D.J.,\u00a0<\/span>Corsetti<\/span>, F.A., Thibodeau, A.M., Berelson, W.M., West, A.J.,\u00a0<\/span>Yager, J.A.<\/span>, Ecosystem change and carbon cycle perturbation preceded the end-Triassic mass extinction. Earth and Planetary Science Letters 576 (2021) 117180.<\/span>\u00a0<\/span>https:\/\/doi.org\/10.1016\/j.epsl.2021.117180<\/span><\/a><\/p>\n

101. Mors, R.A., Gomez, F.J., Astini, R.A., Celestian, A.J.,\u00a0<\/span>Corsetti<\/span>\u00a0F.A. (2021) Assessing the origin of pisoids within a travertine system in the border of Puna Plateau, Argentina, Sedimentology,<\/span>\u00a0<\/span>https:\/\/doi.org\/10.1111\/sed.12946<\/span><\/a><\/p>\n

100.\u00a0<\/span>Perl<\/span>, S.M., Celestian, A.J., Cockell, C.S.,\u00a0<\/span>Corsetti<\/span>, F.A., Barge, L.M., Bottjer, D.J., Filiberto, J., Baxter, B.K., Kanik, I., Potter-McIntyre, S., Weber, J.M., Rodriguez, L.E., and Daswani M.M. (2021) A Proposed Geobiology-Driven Nomenclature for Astrobiological In Situ Observations and Sample Analyses, Astrobiology v. 21 p. 954-967<\/span>\u00a0<\/span>http:\/\/doi.org\/10.1089\/ast.2020.2318<\/span><\/a><\/p>\n

99. Petryshyn, V.A.,\u00a0<\/span>Junkins<\/span>, E.N., Stamps, B.W., Bailey, J.V., Stevenson, B.S., Spear, J.R.,\u00a0<\/span>Corsetti<\/span>\u00a0F.A. (2021) Builders, tenants, and squatters: the origins of genetic material in modern stromatolites, Geobiology v. 19 p. 261-277<\/span>\u00a0<\/span>https:\/\/doi.org\/10.1111\/gbi.12429<\/span><\/a><\/p>\n

98.\u00a0<\/span>Yager, J.A.<\/span>, Bergquist, B.A., Berelson, W.M., Bottjer, D.J.,\u00a0<\/span>Corsetti<\/span>, F.A., Greene, S.E., Ibarra, Y., Jadoul, F., Rigo, M., Ritterbush, K.A., Rollins, N., Rosas, S., Di Stefano, P., Sulca, S., Thibodeau, A.M., Todaro, S., West, A.J.,\u00a0<\/span>Wynn, P.<\/span>, Zimmerman, L. (2021) Mercury contents and isotope ratios from diverse depositional environments across the Triassic\u2013Jurassic Boundary: Towards a more robust mercury proxy for large igneous province magmatism. Earth Science Reviews.<\/span>\u00a0<\/span>https:\/\/doi.org\/10.1016\/j.earscirev.2021.103775<\/span><\/a><\/p>\n

 <\/p>\n

2020<\/span><\/strong><\/p>\n

97. Jarett, J.K., D\u017eunkov\u00e1, M., Schulz, F., Roux, S., Paez-Espino, D., Eloe-Fadrosh, E., Jungbluth, S.P., Ivanova, N., Spear, J.R., Carr, S.A., Trivedi, C.B.,\u00a0<\/span>Corsetti<\/span>, F.A., Johnson, H.A., Becraft, E., Kyrpides, N., Stepanauskas, R., and Woyke. T. (2020) Insights into the dynamics between viruses and their hosts in a hot spring microbial mat, The ISME Journal, v. 14 p. 2527\u20132541<\/span>\u00a0<\/span>https:\/\/doi.org\/10.1038\/s41396-020-0705-4<\/span><\/a><\/p>\n

96. Petryshyn, V.A., Greene, S.E., Farnsworth, A.,\u00a0<\/span>Gammariello<\/span>, R., Ibarra, Y., Lunt, D.J., Bottjer, D.J., Tripati, A.E. and\u00a0<\/span>Corsetti<\/span>, F.A. (2020) The role of temperature in the initiation of the end-Triassic mass extinction, Earth Science Reviews, v. 208 p.<\/span>\u00a0<\/span>https:\/\/doi.org\/10.1016\/j.earscirev.2020.103266<\/span><\/a><\/p>\n

 <\/p>\n

2019<\/span><\/strong><\/p>\n

95. Chan, M.A., Bowen, B.B.,\u00a0<\/span>Corsetti<\/span>, F.A., Farrand, W., Law, E.S., Newsome, H.,\u00a0<\/span>Perl, S.M.<\/span>, Spear, J.R., Thompson, D.R. (2019) Exploring, Mapping, and Data Management Integration of Habitable Environments in Astrobiology, Frontiers in Microbiology v. 10 p. 147.<\/span>\u00a0<\/span>https:\/\/doi.org\/10.3389\/fmicb.2019.00147<\/span><\/a><\/p>\n

94.\u00a0<\/span>Junkins, E.<\/span>N., Stamps, B.W.,\u00a0<\/span>Corsetti<\/span>, F.A., Oremland, R.S., Spear, J.R., Stevenson, B.S. (2019) Draft Genome Sequence of Picocystis sp. Strain ML, Cultivated from Mono Lake, California, Microbiological Resource Announcements v. 8 e01353-18.\u00a0<\/span>\u00a0<\/span>https:\/\/doi.org\/10.1128\/MRA.01353-18<\/span><\/a><\/p>\n

93.\u00a0<\/span>Larina, E.<\/span>, Bottjer, D.J.,\u00a0<\/span>Corsetti<\/span>, F.A., Zonneveld, J.P., Celestian, A.J., Bailey, J.V. (2019) Uppermost Triassic phosphorites from Williston Lake, Canada: link to episodic euxinia in northeastern Panthalassa. Scientific Reports. 9(1), pp. 1-9.<\/span>\u00a0<\/span>https:\/\/doi.org\/10.1038\/s41598-019-55162-2<\/span><\/a><\/p>\n

92.\u00a0<\/span>Wilmeth, D.T.<\/span>,\u00a0<\/span>Corsetti<\/span>, F.A., Beukes, N.J., Awramik, S.M., Petryshyn, V.A., Spear, J.R., Celestian, A.J. (2019) Neoarchean (2.7 Ga) lacustrine stromatolite deposits in the Hartbeesfontein Basin, Ventersdorp Supergroup, South Africa: Implications for oxygen oases, Precambrian Research v. 320 p. 291-302.<\/span>\u00a0<\/span>https:\/\/doi.org\/10.1016\/j.precamres.2018.11.009<\/span><\/a><\/p>\n

 <\/p>\n

2018<\/span><\/strong><\/p>\n

91. Dellinger, M., A. Joshua West, Guillaume Paris, Jess F. Adkins, Philip Pogge Von Strandmann, Clemens V. Ullmann, Rob A. Eagle, Pedro Freitas, Marie-Laure Bagard, Frank A.\u00a0<\/span>Corsetti<\/span>, Justin B. Ries, Alberto Perez-Huerta, Anthony R. Kampf (2018) Li isotope composition of marine biogenic carbonates,<\/span>\u00a0<\/span>https:\/\/doi.org\/10.1016\/j.gca.2018.03.014<\/span><\/a>.<\/span><\/p>\n

90.\u00a0<\/span>Medina Ferrera, F.<\/span>, Jake V.Bailey, Frank A. Corsetti, Michael Moldowan, Silvana M. Barbantic, David Caron, Joe Bryant-Hupperte (2018) Assessing biomarker syngeneity: An in situ approach using monoclonal antibodies, Organic Geochemistry,<\/span>\u00a0<\/span>https:\/\/doi.org\/10.1016\/j.orggeochem.2018.05.006<\/span><\/a><\/p>\n

89.\u00a0<\/span>Kraus E.A., Beeler S.R., Mors R.A., Floyd J.G.,\u00a0<\/span>GeoBiology 2016, Stamps B.W., Nunn H.S., Stevenson B.S., Johnson H.A., Shapiro R.S., Loyd S.J., Spear J.R. and\u00a0<\/span>Corsetti<\/span>\u00a0F.A. (2018) Microscale Biosignatures and Abiotic Mineral Authigenesis in Little Hot Creek, California. Frontiers in Microbiology 9:997. doi: 10.3389\/fmicb.2018.00997.<\/span><\/p>\n

88.\u00a0<\/span>Liddy, Hannah M<\/span>., Sarah J. Feakins, Frank A.\u00a0<\/span>Corsetti<\/span>, Rowan Sage, Nancy Dengler, Xiaoming Wang (2018) Photosynthetic pathway of grass fossils from the upper Miocene Dove Spring Formation, Mojave Desert, California, PALEO-3, https:\/\/doi.org\/10.1016\/j.palaeo.2017.10.019.<\/span><\/p>\n

87. Stamps, B.W., Nunn, H.S., Petryshyn, V.A., Oremland, R.S., Miller, L.G., Rosen, M.R.,\u00a0<\/span>Bauer, K.W., Thompson, K.J., Tookmanian, E.M., Waldeck, A.R<\/span>., Loyd, S.J., Johnson, H.A., Stevenson, B.S., Berelson, W.M.,\u00a0<\/span>Corsetti<\/span>, F.A., Spear, J.R., (2018) The Metabolic Capability and Phylogenetic Diversity of Mono Lake During a Bloom of the Eukaryotic Phototroph Picocystis strain ML. Applied Environmental Microbiology, doi:10.1128\/AEM.01171-18<\/span><\/p>\n

86.\u00a0<\/span>Wilmeth D.T.,\u00a0<\/span>Johnson H.A., Stamps B.W., Berelson W.M., Stevenson B.S., Nunn H.S.,\u00a0<\/span>Grim S.L., Dillon M.L., Paradis O.<\/span>,\u00a0<\/span>Corsetti<\/span>\u00a0F.A. and Spear J.R. (2018) Environmental and Biological Influences on Carbonate Precipitation Within Hot Spring Microbial Mats in Little Hot Creek, CA. Frontiers in Microbiology 9:1464. doi: 10.3389\/fmicb.2018.01464<\/span><\/p>\n

 <\/p>\n

2017<\/span><\/strong><\/p>\n

85. Bradley, James A.;\u00a0<\/span>Daille<\/span>, Leslie K.;\u00a0<\/span>Trivedi<\/span>, Christopher B.\u00a0<\/span>Bojanowski<\/span>, Caitlin L.; Stamps, Blake W.; Stevenson, Bradley S., Nunn, Heather S.; Johnson, Hope A.; Loyd, Sean J.; Berelson, William M.;\u00a0<\/span>Corsetti<\/span>, Frank A.; Spear, John R. (2017) Carbonate-Rich Dendrolitic Cones: Insights into a Modern Analogue for Incipient Microbialite Formation, Little Hot Creek, Long Valley Caldera, California, Nature Publishing Group Biofilms and Microbiomes, https:\/\/doi.org\/10.1038\/s41522-017-0041-2.\u00a0<\/span><\/p>\n

84.\u00a0<\/span>Yager, J. A.,\u00a0<\/span>West, A. J.,\u00a0<\/span>Corsetti<\/span>, F., Berelson, W. M., Rollins, N. E., Rosas, S, Bottjer, D. J., 2017, Duration of and decoupling between carbon isotope excursions during the end-Triassic mass extinction and Central Atlantic Magmatic Province emplacement. Earth and Planetary Science Letters v. 473, p. 227-236; doi: 10.1016\/j.epsl.2017.05.031.\u00a0<\/span><\/p>\n

 <\/p>\n

2016<\/span><\/strong><\/p>\n

83.\u00a0<\/span>Fedorchuk<\/span>, N.D., Stephen Q Dornbos, Frank A\u00a0<\/span>Corsetti<\/span>, John L Isbell, Victoria A Petryshyn, Julie A Bowles,\u00a0<\/span>Dylan T Wilmeth<\/span>\u00a0(2016) Early non-marine life: Evaluating the biogenicity of Mesoproterozoic fluvial-lacustrine stromatolites, Precambrian Research, v. 275 p. 105-118.<\/span><\/p>\n

82.\u00a0<\/span>Ibarra, Y.<\/span>, and\u00a0<\/span>Corsetti<\/span>, F.A. (2016) Lateral Comparative Investigation of Stromatolites: Astrobiological Implications and Assessment of Scales of Control, Astrobiology, v. 16 p. 271-281.<\/span><\/p>\n

81.\u00a0<\/span>Ibarra, Y<\/span>,\u00a0<\/span>Corsetti<\/span>, F.A., Greene, S., and Bottjer, D.\u00a0 (2016) A microbial carbonate response in synchrony with the end-Triassic mass extinction across the SW UK, Scientific Reports (Nature Publishing Group) v. 6, 19808.<\/span>\u00a0<\/span>http:\/\/doi.org\/10.1038\/srep19808<\/span><\/a>.<\/span><\/p>\n

80.\u00a0<\/span>Petryshyn, V.A.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., Frantz, C. M., Lund, S., Berelson, W. (2016) Magnetic susceptibility as a biosignature in stromatolites, Earth and Planetary Science Letters (EPSL), v. 437 p. 66-75.<\/span><\/p>\n

79. Petryshyn, V.A.,, Marisol Juarez Rivera, Heda Agi\u0107, Carie M. Frantz, Frank A.\u00a0<\/span>Corsetti<\/span>, Aradhna E. Tripati, Stromatolites in Walker Lake (Nevada, Great Basin, USA) record climate and lake level changes ~ 35,000 years ago, PALEO-3, v. 451, p. 140-151.<\/span><\/p>\n

78. Thibodeau, A.M., Kathleen Ritterbush,\u00a0<\/span>Joyce A Yager,<\/span>\u00a0A Joshua West, Yadira Ibarra, David J Bottjer, William M Berelson, Bridget A Bergquist, Frank A\u00a0<\/span>Corsetti<\/span>\u00a0(2016) Mercury anomalies and the timing of biotic recovery following the end-Triassic mass extinction, Nature Communications, v. 7 doi:10.1038\/ncomms11147.<\/span><\/p>\n

 <\/p>\n

2015<\/span><\/strong><\/p>\n

77.\u00a0<\/span>Corsetti<\/span>, F.A.,<\/span>\u00a0<\/span>Ritterbush, K.A., Bottjer, D.J., Greene, S., Ibarra, Y., Yager, J.A., West, A.J., Berelson, W.M., Rosas, S., Becker, T.W., Levine, N.M., Loyd, S.J., Martindale, R.C., Petryshyn, V.A., Carroll, N.R., Petsios, E., Piazza, O., Pietsch, C., Stellmann, J.L., Thompson, J.R., Washington, K.A., Wilmeth, D.T., 2015. Investigating the Paleoecological Consequences of Supercontinent Breakup: Sponges Clean Up in the Early Jurassic. The Sedimentary Record, 13: 4-10<\/span><\/p>\n

76.\u00a0<\/span>Corsetti<\/span>, F.A. (2015) Life Durning Neoproterozoic Snowball Earth, Geology, v. 43 DOI: 10.1130\/focus062015.1.<\/span><\/p>\n

75.\u00a0<\/span>Frantz, C.M,<\/span>\u00a0V. Petryshyn, F.\u00a0<\/span>Corsetti<\/span>. Grain trapping and binding by filamentous cyanobacterial and algal mats: Implications for stromatolite microfabrics through time, Geobiology v. 13 p. 409-423.<\/span><\/p>\n

74.\u00a0<\/span>Ibarra<\/span>, Y.,\u00a0<\/span>Corsetti<\/span>, F.A., Feakins, S.J., Rhodes, E.J., Kirby, M.E., Fluvial tufa evidence of Late Pleistocene wet intervals from Santa Barbara, California, U.S.A (2015), PALAEO-3, v. 422 p. 36-45.\u00a0<\/span><\/p>\n

73. Loyd, S, Corsetti, FA, Eagle, R., Hagadorn, JW, Shen, Y, Zhang, Xiaolin, Bonifacie, M, Tripati, A (2015) Evolution of Neoproterozoic Wonoka-Shuram Anomaly-aged carbonates; evidence from clumped isotope paleothermometry, Precambrian Research, v. 264 p. 179-191.<\/span><\/p>\n

72. Martindale, R.,\u00a0<\/span>Corsetti<\/span>, F. A., Bottjer, D.J., and James, N.P., (2015) Paleogeographic trends in Late Triassic reef ecology from Northeastern Panthalassa,Earth-Science Reviews, v. 142 p. 18-37..\u00a0<\/span><\/p>\n

71.\u00a0<\/span>KATHLEEN A. RITTERBUSH<\/span>, DAVID J. BOTTJER, FRANK A.\u00a0<\/span>CORSETTI<\/span>, A. J. WEST, W. M. BERELSON, SILVIA ROSAS, Andean sponges reveal long-term benthic ecosystem shifts following the end-Triassic mass extinction, PALAEO-3, 420: 193-209.<\/span><\/p>\n

70. Ritterbush, K.A. Ibarra, Y., Bottjer, D.J.,\u00a0<\/span>Corsetti<\/span>, F.A., Rosas, S., West, J.A., Berelson, W.B., Yager, J.A. 215, Marine Ecological State Shifts Following the Triassic-Jurassic Mass Extinction, In P.D. Polly, J.J. Head, and D.L. Fox (eds.), Earth-Life Transitions: Paleobiology in the Context of Earth System Evolution. The Paleontological Society Papers 21. Yale Press, New Haven, CT.<\/span><\/p>\n

69.\u00a0<\/span>WILMETH, D.T.,<\/span>\u00a0FRANK A.\u00a0<\/span>CORSETTI<\/span>,\u00a0<\/span>NEMANJA BISENIC<\/span>, STEPHEN Q. DORNBOS, TATSUO OJI, SERSMAA GONCHIGDORJ (2015) PUNCTUATED GROWTH oF MICROBIAL CONES WITHIN EARLY CAMBRIAN ONCOIDS, BAYAN GOL FORMATION, WESTERN MONGOLIA, Palaios, v. 30 p. 836\u2013845.<\/span><\/p>\n

 <\/p>\n

2014<\/span><\/strong><\/p>\n

68.\u00a0<\/span>C. Frantz,<\/span>\u00a0V. Petryshyn, P. Marenco, W. Berelson, A. Tripati, F.\u00a0<\/span>Corsetti\u00a0<\/span>(2014) Dramatic local environmental change during the Early Eocene Climatic Optimum detected using chemical analyses of a Green River Formation stromatolite, PALAEO-3, V. 105, p. 1-15<\/span>.\u00a0 (most downloaded paper from PALAEO-3 April-June 2014, via ScienceDirect)<\/span><\/p>\n

67<\/span>.\u00a0<\/span>Ibarra, Y,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A.,\u00a0<\/span>Cheetham M.,\u00a0<\/span>Feakins S.J. (2014) Were fossil spring-associated carbonates near Zaca Lake, Santa Barbara, California deposited under an ambient or thermal regime? Sedimentary Geology, V. 301, p. 15-25.\u00a0<\/span><\/p>\n

66.\u00a0<\/span>Ibarra, Y<\/span>,\u00a0<\/span>Corsetti<\/span>, F.A., Greene, S., and Bottjer, D. (2014) Microfacies of the Cotham Marble: A tubestone carbonate microbialite from the Upper Triassic, Southwestern United Kingdom, Palaios, V. 29, p. 1-15.<\/span><\/p>\n

65.\u00a0<\/span>KATHLEEN A. RITTERBUSH<\/span>, DAVID J. BOTTJER, FRANK A.\u00a0<\/span>CORSETTI<\/span>, SILVIA ROSAS (2014) NEW EVIDENCE ON THE ROLE OF SILICEOUS SPONGES IN ECOLOGY AND SEDIMENTARY FACIES DEVELOPMENT IN EASTERN PANTHALSSA FOLLOWING THE TRIASSIC\/JURASSIC MASS EXTINCTION, Palaios,.<\/span><\/p>\n

64.\u00a0<\/span>Stamps, BW.<\/span>,\u00a0<\/span>Corsetti<\/span>, FA, Spear, JR, Stevenson, BS (2014) Draft genome of a novel Chlorobi member assembled by tetranucleotide binning of a hot spring metagenome, Genome Announcements, V. 2 p. e00897-14.<\/span><\/p>\n

62.\u00a0<\/span>Tackett, L.S.,<\/span>\u00a0Kaufman, A.J.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., Bottjer, D.J. (2014) Strontium Isotope Stratigraphy of the Gabbs Formation (Nevada): Implications for Global Norian-Rhaetian Correlations and Faunal Turnover, Lethaia , V. 47 p. 500-511.<\/span><\/p>\n

 <\/p>\n

2013\u00a0<\/span><\/strong><\/p>\n

62.<\/span>\u00a0<\/span>Bailey, J.V.,\u00a0<\/span>Corsetti<\/span>, F.A., Greene, S.E., Crosby, C.H., Liu, P., and Orphan, V.J. (2013) Filamentous sulfur bacteria preserved in modern and ancient phosphatic sediments: implications for the role of oxygen and bacteria in phosphogenesis, Geobiology. v. 11, p. 397-405.\u00a0<\/span><\/p>\n

61.\u00a0<\/span>Loyd, S.J., Marenco, P.J.,\u00a0<\/span>Hagadorn, J.W., Lyons, T.W., Kaufman, A.J., Sour-Tovar, F., and\u00a0<\/span>Corsetti,\u00a0<\/span>F.A. (2013) Local \u03b4<\/span>34<\/span>S variability in ~580 Ma carbonates of northwestern Mexico and the Neoproterozoic marine sulfate reservoir, Precambrian Research, v. 222, p. 551-569.\u00a0<\/span><\/p>\n

60.\u00a0<\/span>Martindale, R.C.,\u00a0<\/span>Krystyn, L., Bottjer, D.J.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A<\/span>.<\/span>, Senowbari-Daryan, B., and Martini, R., (2013)\u00a0 Depth transect of an Upper Triassic (Rhaetian) reef from Gosau, Austria: Microfacies and community ecology, PALEO-3, v. 376, p. 1-21.<\/span><\/p>\n

59.\u00a0<\/span>Martindale<\/span>\u00a0R.C., Krystyn, L.,\u00a0<\/span>Corsetti<\/span>,\u00a0<\/span>F.A.<\/span>, and Bottjer, D.J. (2013) From fore reef to lagoon: Evolution of the Upper Triassic Dachstein carbonate platform on the Tennengebirge (Salzburg, Austria), Palaios, V. 28, p. 755-770.<\/span><\/p>\n

 <\/p>\n

2012<\/span><\/strong><\/p>\n

58.<\/span>\u00a0<\/span>Greene, S.E., Martindale, R.C., Ritterbush, K.A.,\u00a0<\/span>Bottjer, D.J.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A.<\/span>,<\/span>\u00a0and Berelson, W.M., (2012) Recognizing ocean acidification in deep time: an evaluation of the evidence for acidification across the Triassic- Jurassic boundary. Earth Science Reviews 113, 72\u201393.<\/span><\/p>\n

57.\u00a0<\/span>Greene, S.E.<\/span>, Bottjer, D.J.,\u00a0<\/span>Corsetti<\/span>, F.A., Berelson, W.M., & Zonneveld, J (2012) A subseafloor carbonate factory across the Triassic-Jurassic transition, Geology, v. 40 p. 1043-1046.<\/span><\/p>\n

56.\u00a0<\/span>Loyd, S.J.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., Eiler, J., and Tripati, A., (2012) Determining the diagenetic conditions of concretion formation: Assessing temperatures and pore waters using clumped isotopes, Journal of Sedimentary Research, v. 82, p. 1006-1016.\u00a0<\/span><\/p>\n

55.\u00a0<\/span>Loyd, S,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A.<\/span>,\u00a0<\/span>Berelson, W., Lyons, T., and Hammond, D., (2012) A Novel Application of the Carbonate-Associated Sulfate Method: Insights into Varying Pathways of Microbial Meditation for Carbonate Concretions of the Miocene Monterey Formation, Geochimica et Cosmochimica Acta, v. 78, p. 77\u201398.<\/span><\/p>\n

54.\u00a0<\/span>Loyd, S.J.,\u00a0<\/span>Marenco, P.J., Hagadorn, J.W., Lyons, T.W., Kaufman, A.J., Sour-Tovar, F., and\u00a0<\/span>Corsetti,\u00a0<\/span>F.A<\/span>.<\/span>\u00a0(2012) Sustained low marine sulfate concentrations from the Neoproterozoic to the Cambrian: Insights from carbonates of northwestern Mexico and eastern California: Earth and Planetary Science Letters, v. 339-340, p. 79-94.<\/span><\/p>\n

53. Martindale R.C.,<\/span>\u00a0Berelson, W.M.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., Bottjer, D.J., and West, A.J. (2012) Constraining carbonate chemistry at a potential ocean acidification event (the Triassic-Jurassic boundary) using the presence of corals and coral reefs in the fossil record, PALEO-3, v. 350\u2013352, p. 114\u2013123<\/span>.<\/span><\/p>\n

52. Martindale, R.C.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., Bottjer, D.J., and Senowbari-Daryan, B. (2012) Microbialite Fabrics and Diminutive Skeletal Bioconstructors in Lower Norian Summit Point Reefs, Oregon, U.S.A., Palaios v. 27, p. 489\u2013 508.<\/span><\/p>\n

51. Martindale, R.<\/span>,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., Bottjer, D., (2012) Platy coral patch reefs from eastern Panthalassa (Nevada, USA): Unique reef construction in the Late Triassic, PALEO-3 v. 313\u2013314, p. 41\u201358.<\/span><\/p>\n

50.\u00a0<\/span>Mata, S.A.<\/span>,\u00a0<\/span>Harwood,<\/span>\u00a0C.L.,\u00a0<\/span>Corsetti\u00a0<\/span>F.A.,\u00a0<\/span>Stork,, N.J.,<\/span>\u00a0<\/span>Eilers<\/span>, K., Berelson, W.M, and Spear, J. (2012) Influences Of Gas Production And Filament Orientation on Stromatolite Microfabric, Palaios, v. 27, p. 206-219.<\/span><\/p>\n

49.\u00a0<\/span>Mata, S.A.,<\/span>\u00a0Corsetti, C.L.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., Awramik, S.M., Bottjer, D.J. (2012) Early Cambrian Anemone Burrows From The Upper Member Of The Wood Canyon Formation, Death Valley Region, United States: Paleoecological And Paleoenvironmental Significance, Palaios, v. 27, p. 594-606.<\/span><\/p>\n

48.\u00a0<\/span>Pepe-Raney, C.,<\/span>\u00a0Berelson, W.M.,\u00a0<\/span>Corsetti<\/span>, F.A., and Spear, J. (2012) Cyanobacterial Construction of Hot Spring Siliceous Stromatolites in Yellowstone National Park, Environmental Microbiology, v. 14, p. 1182-1197.<\/span><\/p>\n

47.\u00a0<\/span>Petryshyn, V.A.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A.<\/span>,<\/span>\u00a0Berelson, W., Beaumont, W., and Lund, S. (2012) Stromatolite lamination frequency, Walker Lake, Nevada; Implications for stromatolites as biosignatures, Geology, v. 40, p. 499-502.<\/span><\/p>\n

 <\/p>\n

2011<\/span><\/strong><\/p>\n

46.<\/span>\u00a0<\/span>Berelson, W.M.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A.,\u00a0<\/span>Pepe-Ranney, C.<\/span>, Hammond, D.E., Beaumont, W., and Spear, J.R. (2011) Hot spring siliceous stromatolites from Yellowstone National Park: assessing growth rate and laminae formation: Geobiology, Volume 9, Issue 5, 411\u2013424.<\/span><\/p>\n

45. Meister P., Reyes, C., Beaumont, W, Rincon, M., Collins, L., Berelson, W., Stott, L.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., and Nealson, K. (2011) Calcium and magnesium-limited dolomite precipitation at Deep Springs Lake, California, Sedimentology, v. 58, p. 1810-1830.<\/span><\/p>\n

44.\u00a0<\/span>Petryshyn, V.A.<\/span>\u00a0and\u00a0<\/span>Corsetti,\u00a0<\/span>F.A. (2011) Analysis of growth directions of columnar stromatolites from Walker Lake, western Nevada, Geobiology, Volume 9, Issue 5, pages 425\u2013435.<\/span><\/p>\n

 <\/p>\n

2010<\/span><\/strong><\/p>\n

43.<\/span>\u00a0<\/span>Grellet-Tiner, G.,\u00a0<\/span>Corsetti<\/span>, FA, and Buscalioni, A.D., 2010, The importance of microscopic examinations of eggshells: Discrimination of bioalteration and diagenetic overprints from biological features, Journal of Iberian Geology, v. 36, p 181-192.<\/span><\/p>\n

42. Loyd, S. and\u00a0<\/span>Corsetti<\/span>, F.A., 2010, The Origin Of The Mm-Scale Lamination In The Neoproterozoic Lower Beck Spring Dolomite: Implications For Widespread, Fine-Scale, Layer-Parallel Diagenesis In Precambrian Carbonates, Journal of Sedimentary Research, v. 80, p. 678\u2013687<\/span><\/p>\n

41. Lund, S., Platzman, E., Thouveny, N., Camoin, G.,\u00a0<\/span>Corsetti<\/span>, F.A., and Berelson, W.M., 2010, Biological control of paleomagnetic remanence acquisition in carbonate framework rocks of the Tahiti Coral Reef, Earth Planet. Sci. Lett., v. 298, p. 14-22.<\/span><\/p>\n

40.\u00a0<\/span>Petryshyn, V.A.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., Lund, S., Berelson, W. (2010) Magnetic susceptibility as a biosignature, Journal of Earth Science, v. 21, p. 329-332.<\/span><\/p>\n

39.\u00a0<\/span>Wagstaff, K.L.<\/span>\u00a0and\u00a0<\/span>Corsetti<\/span>, F.A<\/span>.,<\/span>\u00a02010, An evaluation of information-theoretic methods for detecting structural microbial biosignatures, Astrobiology, v. 10, p. 363-379.<\/span><\/p>\n

 <\/p>\n

2009<\/span><\/strong><\/p>\n

38.<\/span>\u00a0<\/span>Bailey, J.V.<\/span>, Orphan, V.J., Joye, S.B.,\u00a0<\/span>Corsetti<\/span>, F. A., 2009, Chemotrophic microbial mats and their potential for preservation in the rock record, Astrobiology, v. 9, p. 843-859.<\/span><\/p>\n

37. Berelson, W.,\u00a0<\/span>Corsetti<\/span>, F.A.,\u00a0<\/span>Johnson, B., Vo, T., and Der, C.<\/span>, 2009, Carbonate-associated sulfate as a proxy for lake level fluctuations: a proof of concept for Walker Lake, Nevada, J. Paleolimnology, v. 42 p. 25-36.<\/span><\/p>\n

36.\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., 2009, Extinction before the Snowball, Nature Geoscience v. 2 p. 386-387.<\/span><\/p>\n

35.\u00a0<\/span>Olcott-Marshall<\/span>,\u00a0<\/span>Corsetti<\/span>, F.A., Sessions, A., Marshall, C.P., 2009, Raman spectroscopy and biomarker analysis reveal multiple carbon inputs to a Precambrian glacial sediment, Organic Geochemistry v. 40, p. 1115\u20131123.<\/span><\/p>\n

 <\/p>\n

2008<\/span><\/strong><\/p>\n

34.<\/span>\u00a0<\/span>Marenco, P.J.,<\/span>\u00a0<\/span>Corsetti<\/span>, F.A., Kaufman, A.J., Bottjer, D.J., 2008. Environmental and diagenetic variations in carbonate associated sulfate: An investigation of CAS in the Lower Triassic of the western USA. Geochimica et Cosmochimica Acta, v. 72 p. 1570-1582.<\/span><\/p>\n

33.\u00a0<\/span>Marenco, P.J.<\/span>,\u00a0<\/span>Corsetti<\/span>, F.A., Hammond, D.E., Kaufman, A.J., Bottjer, D.J., 2008, Oxidation of pyrite during extraction of carbonate associated sulfate. Chemical Geology, v. 247, p 124-132.<\/span><\/p>\n

32. Pruss, S,\u00a0<\/span>Corsetti<\/span>, F.A., Fischer, W.W., 2008, Seafloor-precipitated carbonate fans in the Neoproterozoic Rainstorm Member, Johnnie Formation, Death Valley Region, USA, Sedimentary Geology, v. 207, p. 34-40.<\/span><\/p>\n

 <\/p>\n

2007<\/span><\/strong><\/p>\n

31.<\/span>\u00a0<\/span>Bailey<\/span>, J.V., Joye, S.B., Kalanetra, K.M.,\u00a0<\/span>Flood, B.E.<\/span>,\u00a0<\/span>Corsetti<\/span>, F.A., 2007, Evidence of giant sulfur bacteria in Neoproterozoic phosphorites, Nature, v. 445, p. 198-201.<\/span><\/p>\n

30.\u00a0<\/span>Corsetti<\/span>, F.A., Hagadorn, J.W., and Stewart, J.H., 2007 Neoproterozoic diamictite-cap carbonate succession and \u03b4<\/span>13<\/span>C chemostratigraphy from eastern Sonora, Mexico, Chemical Geology, v. 237, p. 129-142.<\/span><\/p>\n

29. Kaufman, A.J.,\u00a0<\/span>Corsetti<\/span>, F.A., and Varni, M, 2007, The effect of rising atmospheric oxygen on carbon and sulfur isotope anomalies in the Neoproterozoic Johnnie Formation, Death Valley, USA, Chemical Geology, 237, p. 47-63.<\/span><\/p>\n

28.\u00a0<\/span>Lorentz, N.J.,<\/span>\u00a0and\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., 2007, Another test for Snowball Earth, Geology, v. 35, p. 383.<\/span><\/p>\n

27.\u00a0<\/span>Loyd<\/span>, S.J, Becker, T.W., Conrad, C.P., Lithgow-Bertelloni, C., and\u00a0<\/span>Corsetti,\u00a0<\/span>F.A.<\/span>,<\/span>\u00a02007, Time-variability in Cenozoic reconstructions of mantle heat flow: plate tectonic cycles and implications for Earth\u2019s thermal evolution, Proceedings of the National Academy of Sciences (USA), v. 104(36), p. 14266-14272.<\/span><\/p>\n

26. Woods, A.D.,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., Bottjer, D.J., 2007, Calcium Carbonate Seafloor Precipitates from the Outer Shelf to Slope Facies of the Lower Triassic (Smithian-Spathian) Union Wash Formation, California, U.S.A.:\u00a0 Sedimentology and Palaeobiologic Significance, PALEO-3, v. 252, p. 281-290.<\/span><\/p>\n

 <\/p>\n

2006<\/span><\/strong><\/p>\n

25.<\/span>\u00a0<\/span>Bailey<\/span>, J.V.,\u00a0<\/span>Corsetti<\/span>, F.A., Bottjer, D.J., and\u00a0<\/span>Marenco<\/span>, K.A., 2006, Microbially mediated environmental influences on metazoan colonization of matground ecosystems: Evidence from the Lower Cambrian Harkless Formation, Palaios, v. 21, p. 215-226.<\/span><\/p>\n

24.\u00a0<\/span>Corsetti<\/span>, F.A., Kidder, D.L., and\u00a0<\/span>Marenco<\/span>, P.J., 2006, Trends in oolite dolomitization across the Neoproterozoic-Cambrian boundary:\u00a0 A case study from Death Valley, California, Sedimentary Geology, v. 191, p. 135-150.<\/span><\/p>\n

23.\u00a0<\/span>Corsetti<\/span>, F.A.,\u00a0<\/span>Olcott<\/span>, A., and Bakermans, C., 2006, The biotic response to Snowball Earth, PALAEO-3, v.232, p. 114-130.<\/span><\/p>\n

22.\u00a0<\/span>Pruss<\/span>, S. B., D. J. Bottjer<\/span>, Corsetti<\/span>, F. A., and<\/span>,\u00a0<\/span>Baud, A.,<\/span>\u00a0<\/span>2006, A global marine sedimentary response to the end-Permian mass extinction: Examples from southern Turkey and the western United States, Earth-Science Reviews, v. 78, p. 193-206.<\/span><\/p>\n

 <\/p>\n

2005<\/span><\/strong><\/p>\n

21.<\/span>\u00a0<\/span>Clapham,<\/span>\u00a0M.E. and\u00a0<\/span>Corsetti<\/span>, F.A., 2005, Tectonically driven deep valley incision in the terminal Neoproterozoic (Ediacaran) Johnnie Formation, eastern California, Precambrian Research, v. 141, p. 154-164.<\/span><\/p>\n

20.\u00a0<\/span>Corsetti<\/span>, F.A., Baud, A.,\u00a0<\/span>Marenco<\/span>, P.J., and Richoz, S., 2005, Summary of Early Triassic carbon isotope records, Comptes Rendus Palevol, v. 4 p. 405-418.<\/span><\/p>\n

19.\u00a0<\/span>Corsetti<\/span>, F.A. and Grotzinger, J.P., 2005. Origin of tube structures in Neoproterozoic post-glacial cap carbonates: Example from Noonday Dolomite, Death Valley, United States. Palaios, v. 20 p. 348-362. (Best paper Palaios 2005, runner up)<\/span><\/p>\n

18.\u00a0<\/span>Corsetti<\/span>, F.A, and Kaufman, A.J., 2005, The relationship between the Neoproterozoic Noonday Dolomite and the Ibex Formation: New observations and their bearing on \u2018snowball Earth\u2019, Earth Science Reviews, V. 73, p. 63-78.<\/span><\/p>\n

17.\u00a0<\/span>Olcott<\/span>, A. Sessions, A.,\u00a0<\/span>Corsetti<\/span>, F.A., Kaufman, A.J., and de Oliviera, F., 2005, Biomarker Evidence for Photosynthesis During Neoproterozoic Glaciation, Science, v. 310, p. 471-474.<\/span><\/p>\n

16.\u00a0<\/span>Pruss<\/span>, S.B.,\u00a0<\/span>Corsetti<\/span>, F.A.,, and Bottjer, D.J., 2005, The unusual sedimentary rock record of the Early Triassic: A case study from the southwestern United States, PALAEO-3, v. 222, p. 33-52.<\/span><\/p>\n

15.\u00a0<\/span>Pruss, S. B.,\u00a0<\/span>Corsetti,\u00a0<\/span>F. A.<\/span>,\u00a0<\/span>and D. J. Bottjer, 2005, Environmental trends of Early Triassic biofabrics: Implications for understanding the aftermath of the end-Permian mass extinction, Developments in Palaeontology and Stratigraphy, v. 20, p. 313-332.<\/span><\/p>\n

 <\/p>\n

2004<\/span><\/strong><\/p>\n

14.<\/span>\u00a0<\/span>Bosak<\/span>, T., Souza-Egipsy, V.,\u00a0<\/span>Corsetti,<\/span>\u00a0F.A., and Newman, D.K., 2004, Microbially produced micron-scale porosity of carbonate rocks, Geology, v. 32, p. 781-784.<\/span><\/p>\n

13.\u00a0<\/span>Corsetti<\/span>, F.A., 2004, Carbon isotope stratigraphy of the Neoproterozoic-Cambrian transition: An introduction, Paleontological Society Papers v. 10 p. 17-34.<\/span><\/p>\n

12.\u00a0<\/span>Lorentz<\/span>, N.J,\u00a0<\/span>Corsetti<\/span>, F.A., and Link, P. K., 2004, Seafloor precipitates and C-isotope stratigraphy from the Scout Mountain Member of the Pocatello Formation, southeast Idaho: implications for Neoproterozoic Earth systems behavior, Precambrian Research, v. 130, p. 57-70.\u00a0<\/span><\/p>\n

11. Storrie-Lombardi, M.C.,\u00a0<\/span>Corsetti<\/span>, F.A., Grigolini, P., Ignaccolo, M., Allegrini, P., Galatolo, S., and Tinetti, G., 2004, Complexity Analysis to Explore the Structure of Ancient Stromatolites, Chaos, Solitons, and Fractals, v. 20, p. 139-144.<\/span><\/p>\n

 <\/p>\n

2003<\/span><\/strong><\/p>\n

10.<\/span>\u00a0Corsetti<\/span>, F.A., Awramik, S.M., and Pierce, D., 2003, A complex microbiota from snowball Earth times: Microfossils from the Neoproterozoic Kingston Peak Formation, Death Valley, USA: Proceedings of the National Academy of Sciences (USA), v. 100, p. 4399-4404 (Editors Choice, Science, 2003)<\/span><\/p>\n

9.\u00a0<\/span>Corsetti<\/span>, F.A. and Hagadorn, J.W., 2003, The Precambrian-Cambrian transition in the southern Great Basin, USA, The Sedimentary Record (SEPM), v.1, p. 4-9.<\/span><\/p>\n

8.\u00a0<\/span>Corsetti<\/span>, F.A. and Kaufman, A.J., 2003 Stratigraphic investigations of carbon isotope anomalies and Neoproterozoic ice ages in Death Valley, California, Geological Society of America Bulletin, v.115 p. 916-932.<\/span><\/p>\n

7.\u00a0<\/span>Corsetti<\/span>, F.A., and Storrie-Lombardi, M., 2003, Lossless compression of stromatolite images: A biogenicity index?, Astrobiology, v. 3 p. 649-655.<\/span><\/p>\n

6.\u00a0<\/span>DiFilippo<\/span>, E., Hammond, D., and\u00a0<\/span>Corsetti<\/span>, F.A., 2003, Geochemical constraints for coexisting CO<\/span>2<\/span>\u00a0gas hydrate and calcite: Implications for sheet cracks, stromatactis, zebra and tepee-like structures, Sedimentary Geology, v. 160 p. 1-6.<\/span><\/p>\n

5,\u00a0<\/span>Fraiser<\/span>, M. and\u00a0<\/span>Corsetti<\/span>, F.A., 2003, Neoproterozoic carbonate shrubs: Interplay of microbial activity and unusual environmental conditions in post-snowball oceans, Palaios, v. 18, no. 4-5, p. 378-387.<\/span><\/p>\n

 <\/p>\n

\u22652002<\/span><\/strong><\/p>\n

4. Awramik, S. M.,\u00a0<\/span>Corsetti<\/span>, F. A., and Shapiro, R., 2000, Stromatolites and the pre-Phanerozoic to Cambrian history of the area south east of Death Valley, Bulletin of the San Bernardino County Museum, v. 47 no. 2, p. 65-74.<\/span><\/p>\n

3.\u00a0<\/span>Corsetti<\/span>, F.A., Awramik, S.M., Pierce D., and Kaufman, A.J., 2000, Carbon isotope stratigraphy of Neoproterozoic-Cambrian units, Southern Great Basin USA: Calibrating the temporal magnitude of disconformities in poorly fossiliferous successions, International Geology Review, v. 42, p 516-533.<\/span><\/p>\n

2.\u00a0<\/span>Corsetti<\/span>, F.A. and Hagadorn, J., 2000, The Precambrian-Cambrian Transition, Death Valley, USA, Geology, v. 28, p. 299-302.<\/span><\/p>\n

1.\u00a0<\/span>Corsetti<\/span>, F.A. and Kaufman, A.J., 1994, Chemostratigraphy of Neoproterozoic-Cambrian units, White-Inyo region, eastern California and western Nevada: Implications for global correlation and faunal distribution, Palaios, v. 9 p. 211-219.<\/span><\/p>\n

\n

Peer Reviewed Book Chapters<\/span><\/strong><\/p>\n

Spear., J.R. and\u00a0<\/span>Corsetti<\/span>, F.A. (2013) The evolution of geobiology in the context of living stromatolites, Geological Society of America Special Paper 500.\u00a0<\/span><\/p>\n

Meister, P.,\u00a0<\/span>Johnson, O.<\/span>,\u00a0<\/span>Corsetti,\u00a0<\/span>F.A., and Nealson, K., 2010, Magnesium Inhibition Controls Spherical Carbonate Precipitation in Ultrabasic Springwater (Cedars, California) and Culture Experiments, Advances in Stromatolite Geobiology, Volume 131: Lecture Notes in Earth Sciences, Springer Berlin \/ Heidelberg, p. 101-121.\u00a0<\/span><\/p>\n

Corsetti<\/span>, F.A., Link, P.K., and\u00a0<\/span>Lorentz<\/span>, N.J., 2007 \u03b4<\/span>13<\/span>C Chemostratigraphy of the Neoproterozoic Succession near Pocatello, Idaho, in R.S. Lewis and P.K. Link, eds., Proterozoic Geology of Western North America and Siberia, Society for Sedimentary Geology Special Publication 86.\u00a0<\/span><\/p>\n

Corsetti<\/span>, F.A., and\u00a0<\/span>Lorentz<\/span>. N.J, 2006, On Neoproterozoic cap carbonates as chronostratigraphic markers, in Xiao, S. and Kaufman, A.J., editors, Neoproterozoic Geobiology, Topics in Geobiology, Springer, New York, v. 27, p. 273-294.\u00a0<\/span><\/p>\n

Corsetti<\/span>, F.A.,\u00a0<\/span>Lorentz<\/span>, N.J., and\u00a0<\/span>Pruss<\/span>, S.B., 2004. Formerly-Aragonite seafloor fans from Neoproterozoic Strata, Death Valley and Southeastern Idaho, United States: Implications for\u00a0 \u201ccap carbonate\u201d formation and snowball Earth. in: Jenkins, G., McMenamin, M., and Sohl, L. (Eds), The Extreme Proterozoic: Geology, Geochemistry, and Climate, American Geophysical Union Geophysical Monograph Series (146), Washington, DC, pp. 33-44.\u00a0<\/span><\/p>\n

\n

Published Field Guides and Other Published Works<\/span><\/strong><\/p>\n

Bailey<\/span>, J.V., Joye, S.B., Kalanetra, K.M.,\u00a0<\/span>Flood<\/span>, B.E., and\u00a0<\/span>Corsetti<\/span>, F.A., 2007, Undressing and redressing Ediacaran embryos \u2013 reply to brief communication arising, Nature, doi:10.1038\/nature05753.<\/span><\/p>\n

Link, P.K.,\u00a0<\/span>Corsetti<\/span>, F.A., and\u00a0<\/span>Lorentz<\/span>, N.J., 2005, The Pocatello Formation and overlying strata, southeastern Idaho: Snowball Earth diamictites, cap carbonates, and Neoproterozoic isotopic profiles,\u00a0<\/span>in<\/span>\u00a0Peterson, J. and Deiler, C., editors, Geological Society of America Field Guide 6, p. 251-259.\u00a0<\/span><\/p>\n

Corsetti<\/span>, F.A, Shapiro, R.S., and Awramik, S.M., 2002, Proterozoic-Cambrian of the southern Death Valley region: Microbialites, carbonate depositional environments, and Neoproterozoic glacial strata, in F.A. Corsetti, editor, The Proterozoic-Cambrian of the Great Basin and Beyond, Pacific Section Society for Sedimentary Geology (SEPM) Book 93, p. 1-20.\u00a0<\/span><\/p>\n

Fraiser<\/span>, M. and\u00a0<\/span>Corsetti<\/span>, F.A., 2002, Neoproterozoic carbonate shrubs: A new cap carbonate facies, in F.A. Corsetti, editor, The Proterozoic-Cambrian of the Great Basin and Beyond, Pacific Section Society for Sedimentary Geology (SEPM) Book 93, p. 21-30.<\/span><\/p>\n

Lorentz<\/span>, N.J,\u00a0<\/span>Corsetti<\/span>, F.A., and Link, P. K., 2002, Seafloor precipitates and negative \u03b4<\/span>13<\/span>C values from the Scout Mountain Member of the Pocatello Formation, Southeast Idaho, in F.A. Corsetti, editor, The Proterozoic-Cambrian of the Great Basin and Beyond, Pacific Section Society for Sedimentary Geology (SEPM) Book 93, p. 43-50.<\/span><\/p>\n

Marenco<\/span>, P. J.,\u00a0<\/span>Corsetti<\/span>, F.A., and Bottjer, D.L., 2002, Noonday tubes: Observations and reinterpretations based on better preservation from a new locality, in F.A. Corsetti, editor, The Proterozoic-Cambrian of the Great Basin and Beyond, Pacific Section Society for Sedimentary Geology (SEPM) Book 93, p. 31-42.<\/span><\/p>\n

Pruss<\/span>, S.B., and\u00a0<\/span>Corsetti<\/span>, F.A., 2002, Unusual aragonite precipitates in the Neoproterozoic Rainstorm Member of the Johnnie Formation, in F.A. Corsetti, editor, The Proterozoic-Cambrian of the Great Basin and Beyond, Pacific Section Society for Sedimentary Geology (SEPM) Book 93, p. 51-60.<\/span><\/p>\n

Rowland, S.M., and\u00a0<\/span>Corsetti<\/span>, F.A., 2002, A brief history of research on the Precambrian-Cambrian boundary in the southern Great Basin, in F.A. Corsetti, editor, The Proterozoic-Cambrian of the Great Basin and Beyond, Pacific Section Society for Sedimentary Geology (SEPM) Book 93, p. 79-86.<\/span><\/p>\n

Shapiro, R.S., and\u00a0<\/span>Corsetti<\/span>, F.A., 2002, Geology and paleontology across the Precambrian-Cambrian boundary, in S.M. Rowland, editor, Geology of the Southern Nevada Region, National Association of Geoscience Teachers (NAGT) Spring Field Conference, Las Vegas, Nevada, April 5-7, 2002, p. 21-38.<\/span><\/p>\n

Abolins, M., Oskin, R., Prave, T., Summa, C., and\u00a0<\/span>Corsetti<\/span>, F.A., 2000, Neoproterozoic glacial record in the Death Valley region, California and Nevada, in Lageson, D.R.P., Stephen G.; Lahren, Mary M., ed., Great Basin and Sierra Nevada GSA Field Guide, Volume 2: Boulder, Colorado, Geological Society of America, p. 319-335.<\/span><\/p>\n

Corsetti<\/span>, F.A. and Hagadorn, J., 2000, The Precambrian-Cambrian Transition, Death Valley–Reply, Geology, v. 33, p. 958-959.<\/span><\/p>\n\n\n\n<\/div>\n\n\n <\/div><\/div>\n","protected":false},"excerpt":{"rendered":"","protected":false},"author":83,"featured_media":282,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"page-content-detail.php","meta":{"_acf_changed":false,"footnotes":""},"class_list":["post-154","page","type-page","status-publish","has-post-thumbnail","hentry"],"acf":[],"yoast_head":"\nPublications - Corsetti Lab<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/dornsife.usc.edu\/corsettilab\/publications\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Publications - Corsetti Lab\" \/>\n<meta property=\"og:url\" content=\"https:\/\/dornsife.usc.edu\/corsettilab\/publications\/\" \/>\n<meta property=\"og:site_name\" content=\"Corsetti Lab\" \/>\n<meta property=\"article:modified_time\" content=\"2023-08-22T23:16:15+00:00\" \/>\n<meta property=\"og:image\" content=\"https:\/\/dornsife.usc.edu\/corsettilab\/wp-content\/uploads\/sites\/360\/2023\/08\/Screen-Shot-2023-08-22-at-3.10.14-PM.png\" \/>\n\t<meta property=\"og:image:width\" content=\"1462\" \/>\n\t<meta property=\"og:image:height\" content=\"1012\" \/>\n\t<meta property=\"og:image:type\" content=\"image\/png\" \/>\n<meta name=\"twitter:card\" content=\"summary_large_image\" \/>\n<script type=\"application\/ld+json\" class=\"yoast-schema-graph\">{\"@context\":\"https:\/\/schema.org\",\"@graph\":[{\"@type\":\"WebPage\",\"@id\":\"https:\/\/dornsife.usc.edu\/corsettilab\/publications\/\",\"url\":\"https:\/\/dornsife.usc.edu\/corsettilab\/publications\/\",\"name\":\"Publications - 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