PUBLICATIONS
 Journals   Book Chapters   Guidebooks  Book Reviews

Journals

  1. Wilson, R., Schieber, J., and Bohacs, K., 2022, Sequence stratigraphic reconstruction of the late Middle Devonian Geneseo Formation of NY, USA: Developing a genetic model for "Upper Devonian" unconventional targets in the Northern Appalachian Basin. Marine and Petroleum Geology, v. 138, 105547. https://sepm04.sitehost.iu.edu/PDF/Geneseo-Sequ-Strat-2022comp.pd

  2. Schieber, J. and Wilson, R., 2021, Burrows without a trace - How meioturbation affects rock fabrics and leaves a record of meiobenthos activity in shales and mudstones. Paläontologische Zeitschrift, v. 95, p. 767-791. https://doi.org/10.1007/s12542-021-00590-7. https://sepm04.sitehost.iu.edu/PDF/Meioturbation-PalZ-2021-comp.pdf

  3. Wilson, R., Schieber, J., and Stewart, C., 2021, The discovery of widespread agrichnia traces in Devonian black shales of North America - Another chapter in the evolving understanding of a "not so anoxic" ancient sea. Paläontologische Zeitschrift, v.95, p. 661-681. https://doi.org/10.1007/s12542-021-00599-y. https://sepm04.sitehost.iu.edu/PDF/Agrichnia-PalZ-2021-comp.pdf

  4. Pellegrini, C., Tesi, T., Schieber, J., Bohacs, K., et al., 2021, Fate of terrigenous organic carbon in muddy clinothems on continental shelves revealed by stratal geometries: Insight from the Adriatic sedimentary archive. Global and Planetary Change, v. 203, 103539. https://sepm04.sitehost.iu.edu/PDF/Adriatic-Clinoforms-Pellegrini-et-al-2021.pdf

  5.  Schieber, J., Shao, X., 2021, Detecting detrital carbonate in shale successions – Relevance for evaluation of depositional setting and sequence stratigraphic interpretation.  Marine and Petroleum Geology, v. 130, 105130.  https://sepm04.sitehost.iu.edu/PDF/Portwood-detrital-carbonate-MPG-2021.pdf

  6. Schieber, J., Shao, X., Yawar, Z., Liu, B., 2021, Cryptic Burrow Traces in Black Shales – A Petrographic Rorschach Test or the Real Thing? Sedimentology, v. 68, 2707-2731. https://sepm04.sitehost.iu.edu/PDF/Schieber-Petro-Rorschach-2021.pdf

  7. Schicker, A., Gier, S., Schieber, J., Krois, P., 2021, Diagenesis of the Malmian Mikulov Formation source rock, Vienna Basin: Focus on matrix and pores. Marine and Petroleum Geology, v. 129, 105082. https://sepm04.sitehost.iu.edu/PDF/Vienna-Basin-Malm-2021.pdf

  8. Li, Z., Schieber, J., and Pedersen, P.K., 2021, On the origin and significance of composite particles in mudstones: Examples from the Cenomanian Dunvegan Formation.  Sedimentology, v. 68, p. 737-754. https://sepm04.sitehost.iu.edu/PDF/Dunvegan-composite-2021.pdf

  9. Choudhuri, A., J Schieber, S Sarkar, ME Bickford, A Basu, 2020, The “Lower Kaimur Porcellanite”(Vindhyan Supergroup) is of Sedimentary Origin and not Tuff.  Journal of the Geological Society of India 95 (1), 17-24. https://sepm04.sitehost.iu.edu/PDF/KaimurPorcellanite-2020.pdf

  10. Liu, B., J Teng, M Mastalerz, J Schieber, 2020, Assessing the thermal maturity of black shales using vitrinite reflectance: Insights from Devonian black shales in the eastern United States.  International Journal of Coal Geology, v. 220, Article 103426. https://sepm04.sitehost.iu.edu/PDF/T-maturity-Devonian-2020.pdf

  11. Hao, J., AH Knoll, F Huang, J Schieber, RM Hazen, I Daniel, 2020, Cycling phosphorus on the Archean Earth: Part II. Phosphorus limitation on primary production in Archean ecosystems.  Geochimica et Cosmochimica Acta, v. 280, p. 360-377. https://sepm04.sitehost.iu.edu/PDF/Archean-Pcycle-2020.pdf

  12. Rampe, E.B., et al., 2020, Mineralogy and geochemistry of sedimentary rocks and eolian sediments in Gale crater, Mars: A review after six Earth years of exploration with Curiosity.  Geochemistry, v. 80 (2), Article 125605. https://sepm04.sitehost.iu.edu/PDF/Rampe-etal-2020.pdf

  13. Schieber, J., et al, 2020.  Engraved on the rocks –aeolian abrasion of Martian mudstone exposures and relation to modern wind patterns in Gale Crater, Mars.  The Depositional Record, v. 6, https://doi.org/10.1002/dep2.110. https://sepm04.sitehost.iu.edu/PDF/Engraved-on-the-Rocks.pdf

  14. Rivera-Hernandez, F., et al., 2020, Grain Size Variations in the Murray Formation: Stratigraphic Evidence for Changing Depositional Environments in Gale Crater, Mars.  JGR-Planets, v. 125, e2019JE006230, https://doi.org/10.1029/2019JE006230.

  15. Liu, B., Schieber, J., Mastalerz, M., Teng, J., 2020, Variability of rock mechanical properties in the sequence stratigraphic context of the Upper Devonian New Albany Shale, Illinois Basin.  Marine and Petoleum Geology, v. 112, Article 104068, doi.org/10.1016/j.marpetgeo.2019.104068. https://sepm04.sitehost.iu.edu/PDF/Rock-mech-NAS-2020.pdf

  16. Li, Z., Schieber, J., and Bish, D., 2020, Decoding the origins and sources of clay minerals in the Upper Cretaceous Tununk Shale of south-central Utah: Implications for the pursuit of climate and burial histories.  The Depositional Record, v. 6, p. 172-191, https ://doi.org/10.1002/dep2.93 https://sepm04.sitehost.iu.edu/PDF/Tununk-Clays-2020.pdf

  17. Li, Z., and Schieber, J., 2020, Application of sequence stratigraphic concepts to the Upper Cretaceous Tununk Shale Member of the Mancos Shale Formation, south-central Utah: Parasequence styles in shelfal mudstone strata. Sedimentology, v. 67, p. 118-151. https://sepm04.sitehost.iu.edu/PDF/Tununk-sequ-strat-2020.pdf

  18. Liu, B., M Mastalerz, J Schieber, J Teng, 2020, Association of uranium with macerals in marine black shales: Insights from the Upper Devonian New Albany Shale, Illinois Basin.  International Journal of Coal Geology, v. 217, Article 103351. https://sepm04.sitehost.iu.edu/PDF/Uranium-in-NAS-2020.pdf

  19. Minitti, M., et al., 2019, Distribution of primary and secondary features in the Pahrump Hills outcrop (Gale crater, Mars) as seen in a Mars Descent Imager (MARDI) “sidewalk” mosaic.  Icarus, v. 328, p. 194-209. https://sepm04.sitehost.iu.edu/PDF/Pahrump-sidewalk-2019.pdf

  20. Liu, B., Schieber, J., Mastalerz, M., 2019, Petrographic and Micro-FTIR Study of Organic Matter in the Upper Devonian New Albany Shale During Thermal Maturation: Implications for Kerogen Transformation.  AAPG Memoir 120, p. 165-188. https://sepm04.sitehost.iu.edu/PDF/OM-in-NAS-2019.pdf

  21. Rapin, W., et al, 2019, An interval of high salinity in ancient Gale crater lake on Mars.  Nature Geoscience, v. 12, p. 889-895, doi.org/10.1038/s41561-019-0458-8. https://sepm04.sitehost.iu.edu/PDF/Gale-high-salinity-2019.pdf

  22. Hahm, J., et al., 2019, Lithologically controlled subsurface critical zone thickness and water storage capacity determine regional plant community composition. Water Resources Research, v. 55, p. 3028-3055. https://sepm04.sitehost.iu.edu/PDF/Franciscan-Critical-Zone-2019.pdf

  23. Schieber, J., Miclaus, C., Seserman, A., Liu, B., and Teng., J., 2019, When a mudstone was actually a “sand”: Results of a sedimentological investigation of the bituminous marl formation (Oligocene), Eastern Carpathians of Romania.  Sedimentary Geology, v. 384, p. 12-28. https://sepm04.sitehost.iu.edu/PDF/Schieber-etal-2019-SedGeol-BMF-augmented.pdf

  24. Smith, L.B., Schieber, J., and Wilson, R.D., 2019, Shallow-water onlap model for the deposition of Devonian black shales in New York, USA.  Geology, v. 47/3, p. 279-283.  https://sepm04.sitehost.iu.edu/PDF/Smith_et_al_Shallow_Onlap_2019.pdf

  25. Li, Z. and Schieber, J, 2018, Composite Particles in Mudstones: Examples from the Late Cretaceous Tununk Shale Member of the Mancos Shale Formation. Journal of Sedimentary Research, v. 88, p. 1319-1344. https://sepm04.sitehost.iu.edu/PDF/Li_Schieber_JSR2018_Composite_Particles.pdf

  26. Mastalerz, M., L Wei, A Drobniak, A Schimmelmann, J Schieber, 2018, Responses of specific surface area and micro-and mesopore characteristics of shale and coal to heating at elevated hydrostatic and lithostatic pressures.  International Journal of Coal Geology, v. xx, p. yy. https://sepm04.sitehost.iu.edu/PDF/IJ-Coal-Geol-2018-shale-exp.pdf

  27. Li, Z., and Schieber, J. (2018), Detailed facies analysis of the Upper Cretaceous Tununk Shale Member, Henry Mountains Region, Utah: Implications for mudstone depositional models in epicontinental seas.  Sedimentary Geology, v. 364, p. 141-159. https://sepm04.sitehost.iu.edu/PDF/TununkShale-Facies-SedGeol2018-red.pdf

  28. Edgar, L. A., Gupta, S., Rubin, D. M., Lewis, K. W., Kocurek, G. A., Anderson, R. B., Bell, J. F., Dromart, G., Edgett, K. S., Grotzinger, J. P., Hardgrove, C., Kah, L. C., Leveille, R., Malin, M. C., Mangold, N., Milliken, R. E., Minitti, M., Palucis, M., Rice, M., Rowland, S. K., Schieber, J., Stack, K. M., Sumner, D. Y., Wiens, R. C., Williams, R. M. E. and Williams, A. J. (2017), Shaler: in situ analysis of a fluvial sedimentary deposit on Mars. Sedimentology, v. 65, p. 96-122. https://sepm04.sitehost.iu.edu/PDF/Edgar_et_al-2017-Sedimentology.pdf

  29. Stein, N., J.P. Grotzinger, J. Schieber, N. Mangold, B. Hallet, H. Newsom, K.M. Stack, J.A. Berger, L. Thompson, K.L. Siebach, A. Cousin, S. Le Mouélic, M. Minitti, D.Y. Sumner, C. Fedo, C.H. House, S. Gupta, A.R. Vasavada, R. Gellert, R. C. Wiens, J. Frydenvang, O. Forni, P. Y. Meslin, V. Payré, and E. Dehouck, 2018, Desiccation cracks provide evidence of lake drying on Mars, Sutton Island member, Murray formation, Gale Crater.  Geology, v. 46, p. 515-518. https://doi.org/10.1130/G40005.1.

  30. Stein, N., J.P. Grotzinger, J. Schieber, N. Mangold, B. Hallet, D.Y. Sumner, C. Fedo, 2018, Desiccation cracks provide evidence of lake drying on Mars, Sutton Island member, Murray formation, Gale Crater: Reply.  Geology, v. 46, p. e450.

  31. Li, Yifan, Juergen Schieber, Tailiang Fana, Xiaojie Wei, 2018, Pore characterization and shale facies analysis of the Ordovician-Silurian transition of northern Guizhou, South China: The controls of shale facies on pore distribution.  Marine and Petroleum Geology, v. 92, p. 697-718. https://sepm04.sitehost.iu.edu/PDF/Li-2018-M&PG-Pores-OrdSil-China-red.pdf

  32. Wilson, R., and Schieber, J. (2017), Association between wave- and current-aided hyperpycnites and flooding surfaces in shelfal mudstones: An integrated sedimentologic, sequence stratigraphic, and geochemical approach.  Journal of Sedimentary Research, v. 87, p. 1143-1155.  https://sepm04.sitehost.iu.edu/PDF/Wilson%20and%20Schieber,%202017_JSR.pdf

  33. Liu, B., Schieber, J., and Mastalerz, M. (2017), Combined SEM and reflected light petrography of organic matter in the New Albany Shale (Devonian-Mississippian) in the Illinois Basin: A perspective on organic pore development with thermal maturation.  International Journal of Coal Geology, v. 184, p. 57-72.  https://sepm04.sitehost.iu.edu/PDF/Liu-OM-Pores-IJCG-2017.pdf

  34. Mastalerz, M. and Schieber, J. (2017), Effect of ion milling on the perceived maturity of shale samples: Implications for organic petrography and SEM analysis. International Journal of Coal Geology, v. 183, p. 110-119.  https://sepm04.sitehost.iu.edu/PDF/Ion-milling-vs-maturity-2017.pdf

  35. Yawar, Z., and Schieber, J. (2017), On the origin of silt laminae in laminated shales.  Sedimentary Geology, v. 360, p. 22-34.   https://sepm04.sitehost.iu.edu/PDF/Yawar-Schieber-SiltLam-SedGeol-2017.pdf

  36. Wilson, R., and Schieber, J. (2017), Sediment transport processes and lateral facies gradients across a muddy shelf: Examples from the Geneseo Formation of central New York, United States. AAPG Bulletin, v. 101, p. 423-431. https://sepm04.sitehost.iu.edu/PDF/Wilson-Schieber-AAPGBull-field-guide-2017.pdf

  37. Li, Y., Schieber, J., Fan, T., Li, Z., and Zhang, J., (2017), Regional depositional changes and their controls on carbon and sulfur cycling across the Ordovician-Silurian boundary, northwestern Guizhou, South China. Palaeogeography, Palaeoclimatology, Palaeoecology, v. 485, p. 816-832.  https://sepm04.sitehost.iu.edu/PDF/Li-Ordovician-blsh-China-P3-2017.pdf

  38. Bickford, M.E., et. al. (2017), U-Pb Age and Hf Isotopic Compositions of Magmatic Zircons from a Rhyolite Flow in the Porcellanite Formation in the Vindhyan Supergroup, Son Valley (India): Implications for Its Tectonic Significance. The Journal of Geology, v. 125, p. 367-379.  https://sepm04.sitehost.iu.edu/PDF/Bickford-J-Geol-Porcellanite-2017.pdf

  39. Wilson, R., and Schieber, J. (2017), The role of muddy hyperpycnites in shelfal mudstones and their effect on reservoir quality: Examples from the Geneseo Formation of New York, USA. AAPG Memoir 112. https://sepm04.sitehost.iu.edu/PDF/Wilson-AAPGMemoir112Chapter09.pdf

  40. Schieber, J., Bish, D., Coleman, M., Reed, M., Hausrath, E. M., Cosgrove, J., Gupta, S., Minitti, M. E., Edgett, K. S. and Malin, M. (2017), Encounters with an unearthly mudstone: Understanding the first mudstone found on Mars. Sedimentology, 64: 311–358. https://sepm04.sitehost.iu.edu/PDF/Schieber-et_al-2017-Sedimentology-comp.pdf

  41. Rubin, D.M., , A.G. Fairén, J. Martínez-Frías, J. Frydenvang, O. Gasnault, G. Gelfenbaum, W. Goetz, J.P. Grotzinger, S. Le Mouélic, N. Mangold, H. Newsom, D.Z. Oehler, W. Rapin, J. Schieber, R.C. Wiens (2017), Fluidized-sediment pipes in Gale crater, Mars, and possible Earth analogs. Geology, v. 45, p. 7-10. https://sepm04.sitehost.iu.edu/PDF/Rubin-et-al-2017-Geology-sediment-pipes.pdf

  42. Malin, M. C., et al. (2017), The Mars Science Laboratory (MSL) Mast Cameras and Descent Imager: I. Investigation and Instrument Descriptions, Earth and Space Science, 4, doi:10.1002/2016EA000252.

  43. Wellington, D. et al., 2017,  Visible to near-infrared MSL/Mastcam multispectral imaging: Initial results from select high-interest science targets within Gale Crater, Mars.  American Mineralogist, v, 102, p. 1202-1217.

  44. Schieber, J., Lazar, R., Bohacs, K., Klimentidis, R., Dumitrescu, M., and Ottman, J., 2016. Porosity in the Eagle Ford Shale of Texas—Pore Types and Porosity Distribution in a Depositional and Sequence-stratigraphic Context.  AAPG Memoir 110, p. 167-186. https://sepm04.sitehost.iu.edu/PDF/Schieber-AAPG-Mem-110-Eagle-Ford-2016-red.pdf

  45. Schieber, J., 2016, Mud-redistribution in epicontinental basins - Exploring likely processes. Marine and Petroleum Geology, v. 71, p. 119-133. https://sepm04.sitehost.iu.edu/PDF/Schieber-Epi-process-M&PG-2016.pdf

  46. Schieber, J., 2016, Experimental Testing of the transport-durability of Shale Lithics and its implications for interpreting the rock record. Sedimentary Geology, v. 331, p. 162-169. https://sepm04.sitehost.iu.edu/PDF/Schieber-Shale-Lithics-SedGeo-2016.pdf

  47. Camp, W.K., Egenhoff, S., Schieber, J., Slatt, R.M., 2016, A Compositional Classification For Grain Assemblages In Fine-Grained Sediments and Sedimentary Rocks—Discussion.  Journal of Sedimentary Research, v. 86 (1), p. 1-5.

  48. Schimmelmann, A., Lange, C.B., Schieber, J., Francus, P., Ojala, A.E.K., Zolitschka, B., 2016, Varves in marine sediments: a review.  Earth Science Reviews, v. 159, p. 215-246.

  49. Moores, J.E., Schieber, J., et al., 2016, Transient Atmospheric Effects of the Landing of the Mars Science Laboratory Rover: The Emission and Dissipation of Dust and Carbazic Acid.  Advances in Space Research, v. 58, p. 1066-1092.

  50. Wilson, R., and Schieber, J., 2015, Sedimentary Facies and Depositional Environment of the Middle Devonian Geneseo Formation of New York, USA.  Journal of Sedimentary Research, v. 85, p. 1393-1415. https://sepm04.sitehost.iu.edu/PDF/Wilson-Schieber-JSR-2015-reduced.pdf

  51. Li, Z., Bhattacharya, J., and Schieber, J., 2015, Evaluating along-strike variation using thin-bedded facies analysis, Upper Cretaceous Ferron Notom Delta, Utah.  Sedimentology, v. 62, p. 2060-2089. https://sepm04.sitehost.iu.edu/PDF/Li_et_al-2015-Sedimentology-reduced.pdf

  52. Li, Y., and Schieber, J., 2015, On the Formation of Phosphate Enriched Interval in the Chattanooga Shale (Upper Devonian) of Tennessee – A combined sedimentologic, petrographic, and geochemical study. Sedimentary Geology, v. 329, p. 40-61.  https://sepm04.sitehost.iu.edu/PDF/Li-2015-phosphate.pdf

  53. Grotzinger JP, Gupta S, Malin MC, Rubin DM, Schieber J, Siebach K, Sumner DY, Stack KM, Vasavada AR, Arvidson RE, Calef III F, Edgar L, Fischer WW, Grant JA, Griffes J, Kah LC, Lamb MP, Lewis KW, Mangold N, Minitti ME, Palucis M, Rice M, E. Williams RME, Yingst RA, Blake D, Blaney D, Conrad P, Crisp J, Dietrich WE, Dromart G, Edgett KS, Ewing RC, Gellert R, Hurowitz JA, Kocurek G, Mahaffy P, McBride MJ, McLennan SM, Mischna M, Ming D, Milliken R, Newsom H, Oehler D, Parker TJ, Vaniman D, Wiens RC, Wilson SA (2015) Deposition, exhumation, and paleoclimate of an ancient lake deposit, Gale Crater, Mars, Science, 350, in press, online Oct. 9, 2015, doi: 10.1126/science.aac7575. http://web.gps.caltech.edu/~wfischer/pubs/Grotzingeretal2015.pdf

  54. Lazar, O.R., Bohacs, K.M., Macquaker, J.H.S., Schieber, J., and Demko, T.M., 2015, Integrated approach for the nomenclature and description of the spectrum of fine-grained sedimentary rocks. Journal of Sedimentary Research, v. 85, p. 230-246. https://sepm04.sitehost.iu.edu/PDF/Lazar-2015-nom-paper.pdf

  55. Schieber, J., 2015, Discussion: “Mud dispersal across a Cretaceous prodelta: Storm-generated, wave-enhanced sediment gravity flows inferred from mudstone microtexture and microfacies” by Plint (2014), Sedimentology 61, 609–647 (pages 389–393). Sedimentology, v. 62, p. 389-393. https://sepm04.sitehost.iu.edu/PDF/Schieber-2015-Sedimentology.pdf

  56. Stern, J.C., et al., 2015, Evidence for indigenous nitrogen in sedimentary and aeolian deposits from the Curiosity rover investigations at Gale crater, Mars. Proceedings of the National Academy of Sciences, v. 112, p. 4245-4250.

  57. Anderson, R.B., et al., 2015, ChemCam Results from the Shaler Outcrop in Gale Crater, Mars. Icarus, v. 249, p. 2-21.

  58. Webster, C.R., et al., 2015, Mars methane detection and variability at Gale crater. Science, v. 347, p. 415-417.

  59. Mahaffy, P.R., et al., 2015, The imprint of atmospheric evolution in the D/H of Hesperian clay minerals on Mars. Science, v. 347, p. 412-414.

  60. Grotzinger, J.P., Crisp. J.A., Vasavada, A.R., and the MSL Science Team, 2015, Curiosity’s Mission of Exploration at Gale Crater, Mars. Elements, v. 11, p. 19-26.

  61. Kah., L.C., and the MSL Science Team, 2015, Images from Curiosity: A new look at Mars. Elements, v. 11, p. 27-32.

  62. Wiens, R.C., Sylvestre, M., and the MSL Science Team, 2015, ChemCam: Chemostratigraphy by the First Mars Microprobe. Elements, v. 11, p. 33-38.

  63. Gellert, R., Benton, C.C., and the MSL and MER Science Teams, 2015, In Situ Compositional Measurements of Rocks and Soils with the Alpha Particle X-ray Spectrometer on NASA’s Mars Rovers. Elements, v. 11, p. 39-44.

  64. Downs, R.T., and the MSL Science Team, 2015, Determining Mineralogy on Mars with the ChemMin X-Ray Diffractometer. Elements, v. 11, p. 45-50.

  65. Mahaffy, P.R., Conrad, P.G., and the MSL Science Team, 2015, Volatile and Isotopic Imprints of Ancient Mars. Elements, v. 11, p. 51-56.

  66. Nguyen, M.N., Dultz, S., Picardal, F., Bui, A.T.K., Pham, Q.V., and Schieber, J., 2015, Release of potassium accompanying the dissolution of rice straw phytolith. Chemosphere, v. 119, p. 371-376.

  67. Schieber, J., 2014, Traces In the Dark—Sedimentary Processes and Facies Gradients In the Upper Devonian–Lower Mississippian Upper Shale Member of the Bakken Formation, Williston Basin, North Dakota, U.S.A.—Discussion. Journal of Sedimentary Research, v. 84, p. 837-838. https://sepm04.sitehost.iu.edu/PDF/Schieber-TitD-discussion-JSR-2014.pdf

  68. Wilson, R., and Schieber, J., 2014, Muddy prodeltaic hyperpycnites in the Lower Genesee Group of Central New York, USA: Implications for mud transport in epicontinental seas. Journal of Sedimentary Research, v. 84, p. 866-874. https://sepm04.sitehost.iu.edu/PDF/Wilson-Schieber-JSR2014-hyperpycnites.pdf

  69. Arvidson, R.E., P Bellutta, F Calef, AA Fraeman, J Garvin, O Gasnault, J Grant, J Grotzinger, V Hamilton, M Heverly, KA Iagnemma, J Johnson, N Lanza, S Le Mouelic, N Mangold, D Ming, M Mehta, RV Morris, H Newsom, N Renno, D Rubin, J Schieber, R Sletten, NT Stein, F Thuillier, AR Vasavada, J Vizcaino, RC Wiens, 2014, Terrain physical properties derived from orbital data and the first 360 sols of Mars Science Laboratory Curiosity rover observations in Gale Crater. J. Geophys. Res. Planets, 119, 1322-1344.

  70. Schieber, J., Southard, J.B., Kissling, P., Rossman, B., and Ginsburg, R., 2013, Experimental Deposition of Carbonate Mud From Moving Suspensions: Importance of Flocculation and Implications For Modern and Ancient Carbonate Mud Deposition.  Journal of Sedimentary Research, v. 83, p. 1025-1031. https://sepm04.sitehost.iu.edu/PDF/Schieber_CarbonateMud_2013_JSR.pdf

  71. Grotzinger, J.P., Sumner, D.Y., Kah, L.C., Stack, K., Gupta, S., Edgar, L., Rubin, D., Lewis, K., Schieber, J., Mangold, N., Milliken, R., Conrad, P.G., DesMarais, D., Farmer, J., Siebach, K., Calef, F., Hurowitz, J., McLennan, S.M., Ming, D., Vaniman, D., Crisp, J., Vasavada, A., Edgett, K.S., Malin, M., Blake, D., Gellert, R., Mahaffy, P., Wiens, R.C., Maurice, S., Grant, J.A., Wilson, S., Anderson, R.C., Beegle, R., Arvidson, R., Hallet, B., Sletten, R.S., Rice, M., Bell, J., Griffes, J., Ehlmann, B., Anderson, R.B., Bristow, D.F., Dietrich, W.E., Dromart, G., Eigenbrode, J., Fraeman, A., Hardgrove, C., Herkenhoff, K., Jandura, L., Kocurek, G., Lee, S., Leshin, L.A., Leveille, R., Limonadi, D., Maki, S., McCloskey, S., Meyer, M., Minitti, M., Newsom, H., Oehler, D., Okon, A., Palucis, M., Parker, T., Rowland, S., Schmidt, M., Squyres, S., Steele, A., Stolper, E., Summons, R., Treiman, A., Williams, R., Yingst, A., and The MSL Science Team, 2013, A Habitable Fluvio-Lacustrine Environment at Yellowknife Bay, Gale Crater, Mars. Science, 9 December 2013, p. 1-18. https://sepm04.sitehost.iu.edu/PDF/Science-2013-Grotzinger.pdf

  72. Minitti, M.E., Kah, L.C., Yingst, R.A., Edgett, K.S., Anderson, R.C., Beegle, L.W., Carsten, J.L., Deen, R.G., Goetz, W., Hardgrove, C., Harker, D.E., Herkenhoff, K.E., Hurowitz, J.A., Jandura, L., Kennedy, M.R., Kocurek, G., Krezoski, G.M., Kuhn, S.R., Limonadi, D., Lipkaman, L., Madsen, M.B., Olson, T.S., Robinson, M.L., Rowland, S.K., Rubin, D.M., Seybold, C., Schieber, J., Schmidt, M., Sumner, D.Y., Tompkins, D.V., Van Beek, J.K., Van Beek, T., 2013, MAHLI at the Rocknest sand shadow: Science and science-enabling activities, J. Geophys. Res. Planets, 118, 2338-2360.

  73. Vaniman, D.T., D. L. Bish, D. W. Ming, T. F. Bristow, R. V. Morris, D. F. Blake, S. J. Chipera, S. M. Morrison, A. H. Treiman, E. B. Rampe, M. Rice, C. N. Achilles, J. Grotzinger, S. M. McLennan, J. Williams, J. Bell III, H. Newsom, R. T. Downs, S. Maurice, P. Sarrazin, A. S. Yen, J. M. Morookian, J. D. Farmer, K. Stack, R. E. Milliken, B. Ehlmann, D. Y. Sumner, G. Berger, J. A. Crisp, J. A. Hurowitz, R. Anderson, D. DesMarais, E. M. Stolper, K. S. Edgett, S. Gupta, N. Spanovich, and MSL Science Team, 2013, Mineralogy of a Mudstone at Yellowknife Bay, Gale Crater, Mars.  Science, 9 December 2013, online.

  74. Farley, K.A., C. Malespin, P. Mahaffy, J. P. Grotzinger, P. M. Vasconcelos, R. E. Milliken, M. Malin, K. S. Edgett, A. A. Pavlov, J. A. Hurowitz, J. A. Grant, H. B. Miller, R. Arvidson, L. Beegle, F. Calef, P. G. Conrad, W. E. Dietrich, J. Eigenbrode, R. Gellert, S. Gupta, V. Hamilton, D. M. Hassler, K.W. Lewis, S. M. McLennan, D. Ming, R. Navarro-González, S. P. Schwenzer, A. Steele, E. M. Stolper, D. Y. Sumner, D. Vaniman, A. Vasavada, K. Williford, R. F. Wimmer-Schweingruber, and the MSL Science Team, 2013, In Situ Radiometric and Exposure Age Dating of the Martian Surface. Science, 9 December 2013, online.

  75. McLennan, S.M., R. B. Anderson, J. F. Bell III, J. C. Bridges, F. Calef III, J. L. Campbell, B. C. Clark, S. Clegg, P. Conrad, A. Cousin, . J. Des Marais, G. Dromart, M. D. Dyar, L. A. Edgar, B. L. Ehlmann, C. Fabre, O. Forni, O. Gasnault, R. Gellert, S. Gordon, J. A. Grant, J. P. Grotzinger, S. Gupta, K. E. Herkenhoff, J. A. Hurowitz, P. L. King, S. Le Mouélic, L. A. Leshin, R. Léveillé, K. W. Lewis, N. Mangold, S. Maurice, D. W. Ming, R. V. Morris, M. Nachon, H. E. Newsom, A. M. Ollila, G. M. Perrett, M. S. Rice, M. E. Schmidt, S. P. Schwenzer, K. Stack, E. M. Stolper, D. Y. Sumner, A. H. Treiman, S. VanBommel, D. T. Vaniman, A. Vasavada, R. C. Wiens, R. A. Yingst, and MSL Science Team, 2013, Elemental Geochemistry of Sedimentary Rocks at Yellowknife Bay, Gale Crater, Mars. Science, 9 December 2013, online.

  76. Hassler, D.M., Cary Zeitlin, Robert F. Wimmer-Schweingruber, Bent Ehresmann, Scot Rafkin, Jennifer L. Eigenbrode, David E. Brinza, Gerald Weigle, Stephan Böttcher, Eckart Böhm, Soenke Burmeister, Jingnan Guo, Jan Köhler, Cesar Martin, Guenther Reitz, Francis A. Cucinotta, Myung-Hee Kim, David Grinspoon, Mark A. Bullock, Arik Posner, Javier Gómez-Elvira, Ashwin Vasavada, John P. Grotzinger, and The MSL Science Team, 2013, Mars’ Surface Radiation Environment Measured with the Mars Science Laboratory’s Curiosity Rover. Science, 9 December 2013, online.

  77. Ming, D., P. D. Archer Jr., D. P. Glavin, J. L. Eigenbrode, H. B. Franz, B. Sutter, A. E. Brunner, J. C. Stern, C. Freissinet, A. C. McAdam, P. R. Mahaffy, M. Cabane, P. Coll, J. L. Campbell, S. K. Atreya, P. B. Niles, J. F. Bell III, D. L. Bish, W. B. Brinckerhoff, A. Buch, P. G. Conrad, D. J. Des Marais, B. L. Ehlmann, A. G. Fairén, K. Farley, G. J. Flesch, P. Francois, R. Gellert, J. A. Grant, J. P. Grotzinger, S. Gupta, K. E. Herkenhoff, J. A. Hurowitz, L. A. Leshin, K. W. Lewis, S. M. McLennan, K. E. Miller, J. Moersch, R. V. Morris, R. Navarro-González, A. A. Pavlov, G. M. Perrett, I. Pradler, S. W. Squyres, R. E. Summons, A. Steele, E. M. Stolper, D. Y. Sumner, C. Szopa, S. Teinturier, M. G. Trainer, A. H. Treiman, D. T. Vaniman, A. R. Vasavada, C. R. Webster, J. J. Wray, R. A. Yingst, and MSL Science Team, 2013, Volatile and Organic Compositions of Sedimentary Rocks in Yellowknife Bay, Gale Crater, Mars. Science, 9 December 2013, online.

  78. Basu, A., Schieber, J., Patranabis–Deb, S., and Dhang, P.C., 2013, Recycled detrital quartz grains are sedimentary rock fragments indicating unconformities: examples from the Chhattisgarh Supergroup, Bastar craton, India.  Journal of Sedimentary Research, v. 83, pp. 368–376. http://dx.doi.org/10.1086/657300

  79. Webster, C.R., P.R. Mahaffy, S.K. Atreya, G.J. Flesch, K.A. Farley, and MSL Science Team, 2013, Low Upper Limit to Methane Abundance on Mars. Science, 18 October 2013, p.355-357.

  80. Leshin, L.A., P. R. Mahaffy, C. R. Webster, M. Cabane, P. Coll, P. G. Conrad, P. D. Archer Jr., S. K. Atreya, A. E. Brunner, A. Buch, J. L. Eigenbrode, G. J. Flesch, H. B. Franz, C. Freissinet, D. P. Glavin, A. C. McAdam, K. E. Miller, D. W. Ming, R. V. Morris, R. Navarro-González, P. B. Niles, T. Owen, R. O. Pepin, S. Squyres, A. Steele, J. C. Stern, R. E. Summons, D. Y. Sumner, B. Sutter, C. Szopa, S. Teinturier, M. G. Trainer, J. J. Wray, J. P. Grotzinger, and MSL Science Team, 2013, Volatile, Isotope, and Organic Analysis of Martian Fines with the Mars Curiosity Rover. Science 27 September 2013, online.

  81. Blake, D.F., R. V. Morris, G. Kocurek, S. M. Morrison, R. T. Downs, D. Bish, D. W. Ming, K. S. Edgett, D. Rubin, W. Goetz, M. B. Madsen, R. Sullivan, R. Gellert, I. Campbell, A. H. Treiman, S. M. McLennan, A. S. Yen, J. Grotzinger, D. T. Vaniman, S. J. Chipera, C. N. Achilles, E. B. Rampe, D. Sumner, P.-Y. Meslin, S. Maurice, O. Forni, O. Gasnault, M. Fisk, M. Schmidt, P. Mahaffy, L. A. Leshin, D. Glavin, A. Steele, C. Freissinet, R. Navarro-González, R. A. Yingst, L. C. Kah, N. Bridges, K. W. Lewis, T. F. Bristow, J. D. Farmer, J. A. Crisp, E. M. Stolper, D. J. Des Marais, P. Sarrazin, and MSL Science Team. Curiosity at Gale Crater, Mars: Characterization and Analysis of the Rocknest Sand Shadow. Science 27 September 2013, Vol. 341, Issue 6153, 1239505, DOI: 10.1126/science.1239505

  82. Bish, D.L., D. F. Blake, D. T. Vaniman, S. J. Chipera, R. V. Morris, D. W. Ming, A. H. Treiman, P. Sarrazin, S. M. Morrison, R. T. Downs, C. N. Achilles, A. S. Yen, T. F. Bristow, J. A. Crisp, J. M. Morookian, J. D. Farmer, E. B. Rampe, E. M. Stolper, N. Spanovich, and MSL Science Team, 2013, X-ray Diffraction Results from Mars Science Laboratory: Mineralogy of Rocknest at Gale Crater. Science 27 September 2013, online.

  83. Meslin, P.Y., O. Gasnault, O. Forni, S. Schröder, A. Cousin, G. Berger, S. M. Clegg, J. Lasue, S. Maurice, V. Sautter, S. Le Mouélic, R. C. Wiens, C. Fabre, W. Goetz, D. Bish, N. Mangold, B. Ehlmann, N. Lanza, A.-M. Harri, R. Anderson, E. Rampe, T. H. McConnochie, P. Pinet, D. Blaney, R. Léveillé, D. Archer, B. Barraclough, S. Bender, D. Blake, J. G. Blank, N. Bridges, B. C. Clark, L. DeFlores, D. Delapp, G. Dromart, M. D. Dyar, M. Fisk, B. Gondet, J. Grotzinger, K. Herkenhoff, J. Johnson, J.-L. Lacour, Y. Langevin, L. Leshin, E. Lewin, M. B. Madsen, N. Melikechi, A. Mezzacappa, M. A. Mischna, J. E. Moores, H. Newsom, A. Ollila, R. Perez, N. Renno, J.-B. Sirven, R. Tokar, M. de la Torre, L. d’Uston, D. Vaniman, A. Yingst, and MSL Science Team, 2013, Soil Diversity and Hydration as Observed by ChemCam at Gale Crater, Mars. Science 27 September 2013, online.

  84. Stolper, E.M., M. B. Baker, M. E. Newcombe, M. E. Schmidt, A. H. Treiman, A. Cousin, M. D. Dyar, M. R. Fisk, R. Gellert, P. L. King, L. Leshin, S. Maurice, S. M. McLennan, M. E. Minitti, G. Perrett, S. Rowland, V. Sautter, R. C. Wiens, and MSL Science Team, 2013, The Petrochemistry of Jake_M: A Martian Mugearite. Science, 27 September 2013, online.

  85. Williams, R.M.E., J. P. Grotzinger, W. E. Dietrich, S. Gupta, D. Y. Sumner, R. C. Wiens, N. Mangold, M. C. Malin, K. S. Edgett, S. Maurice, O. Forni, O. Gasnault, A. Ollila, H. E. Newsom, G. Dromart, M. C. Palucis, R. A. Yingst, R. B. Anderson, K. E. Herkenhoff, S. Le Mouélic, W. Goetz, M. B. Madsen, A. Koefoed, J. K. Jensen, J. C. Bridges, S. P. Schwenzer, K. W. Lewis, K. M. Stack, D. Rubin, L. C. Kah, J. F. Bell III, J. D. Farmer, R. Sullivan, T. Van Beek, D. L. Blaney, O. Pariser, R. G. Deen, and MSL Science Team, 2013, Martian fluvial conglomerates at Gale Crater. Science, 31 May 2013, p. 1068-1072.

  86. Schieber, J., and Bennett, R., 2013, Bedload Transport of Mud Across a Wide, Storm-Influenced Ramp: Cenomanian–Turonian Kaskapau Formation, Western Canada Foreland Basin—Discussion. Journal of Sedimentary Research, v. 83, p. 1198-1199. https://sepm04.sitehost.iu.edu/PDF/Schieber-Plint-JSR2013.pdf

  87. Schieber, J., 2013, SEM Observations on Ion-milled Samples of Devonian Black Shales from Indiana and New York: The Petrographic Context of Multiple Pore Types. AAPG Memoir 102, p. 153-172. https://sepm04.sitehost.iu.edu/PDF/Schieber-AAPG-Mem102.pdf

  88. Mukherjee, A., Marion E. Bickford, M.E., Hietpas, J., Schieber, J. and Basu, A. 2012, Implications of a Newly Dated ca. 1000-Ma Rhyolitic Tuff in the Indravati Basin, Bastar Craton, India. Journal of Geology, v. 120, pp. 477-485 DOI: 10.1086/665796.http://dx.doi.org/10.1086/657300

  89. Kenneth S. Edgett · R. Aileen Yingst · Michael A. Ravine · Michael A. Caplinger ·Justin N. Maki · F. Tony Ghaemi · Jacob A. Schaffner · James F. Bell III ·Laurence J. Edwards ·Kenneth E. Herkenhoff · Ezat Heydari · Linda C. Kah ·Mark T. Lemmon · Michelle E. Minitti · Timothy S. Olson · Timothy J. Parker ·Scott K. Rowland · Juergen Schieber · Robert J. Sullivan · Dawn Y. Sumner ·Peter C. Thomas · Elsa H. Jensen · John J. Simmonds · Aaron J. Sengstacken ·Reg G. Willson ·Walter Goetz, 2012, Curiosity’s Mars Hand Lens Imager (MAHLI) Investigation. Space Sci Rev., v. 170, p. 259-317; DOI 10.1007/s11214-012-9910-4. http://dx.doi.org/10.1007/s11214-012-9910-4

  90. Roden, E.E., McBeth, J.M., Blöthe, M., Percak-Dennett, E.M., Fleming, E.J., Holyoke, R.R., Luther, G.W., Emerson, D., and Schieber, J., 2012, The microbial ferrous wheel in a neutral pH groundwater seep. Frontiers in Microbiology, v. 3., p. 1-18.

  91. Chakraborty, A., Roden, E.E., Schieber, J., and Picardal, F., 2011, Enhanced Growth of Acidovorax sp. Strain 2AN during Nitrate-Dependent Fe(II) Oxidation in Batch and Continuous-Flow Systems. Applied and Environmental Microbiology, v. 77, p. 8548-8556.

  92. Bickford M. E., Abhijit Basu, Arunangshu Mukherjee, Jack Hietpas, Juergen Schieber, Sarbani Patranabis-Deb,  Ranjan Ray, Rajeeva Guhey, Purbasha Bhattacharya,  and Pratap Dhang, 2011. New U-Pb SHRIMP Zircon Ages of Tuffs in the Mesoproterozoic Chhattisgarh Basin, Peninsular India: The Significance of a 1 Ga Thermal-Magmatic Event. Journal of Geology, v. 119, p. 535-548.http://dx.doi.org/10.1086/661193

  93. Picardal, F.W., Zaybak, Z., Chakraborty, A., Schieber, J., and Szewzyk, U., 2011, Microaerophilic, Fe(II)-dependent growth and Fe(II) oxidation by a Dechlorospirillum species. FEMS Microbiology Letters, v. 319, p. 51-57.

  94. Regberg, A., K. Singha, M. Tien, F. Picardal, Q. Zheng, J. Schieber, E. Roden, and S. L. Brantley (2011), Electrical conductivity as an indicator of iron reduction rates in abiotic and biotic systems, Water Resour. Res., 47, W04509, doi:10.1029/2010WR009551.

  95. Bickford, M.E., Basu, A., Patranabis-Deb, S., Dhang, P.C., and Schieber, J., 2011, Depositional History of the Chhattisgarh Basin, Central India: Constraints from New SHRIMP Zircon Ages. The Journal of Geology, v. 119, p. 33-50.

  96. Schieber, J., 2011, Reverse Engineering Mother Nature – Shale Sedimentology from an Experimental Perspective. Sedimentary Geology, v. 238, p. 1-22. https://sepm04.sitehost.iu.edu/PDF/Schieber_EMS_SedGeo238.pdf

  97. Schieber, J., 2011, Marcasite in Black Shales—a Mineral Proxy for Oxygenated Bottom Waters and Intermittent Oxidation of Carbonaceous Muds. Journal of Sedimentary Research, v. 81, p. 447-458. https://sepm04.sitehost.iu.edu/PDF/Schieber_Marcasite_2011_JSR.pdf

  98. Schieber, J., 2011, Shale microfabrics and pore development – An overview with emphasis on the Importance of depositional processes. In: Gas Shale of the Horn River basin, D.A. Leckie and J.E. Barclay (Eds.), Canadian Society of Petroleum Geologists, Calgary, p. 115-119. https://sepm04.sitehost.iu.edu/PDF/CSPG_2011_Pores.pdf

  99. Schieber, J., Southard, J.B., and Schimmelmann, A., 2010, Lenticular Shale Fabrics Resulting from Intermittent Erosion of Muddy Sediments – Comparing Observations from Flume Experiments to the Rock Record. Journal of Sedimentary Research, v. 80, p. 119-128. https://sepm04.sitehost.iu.edu/PDF/JS-J47-lenticular-fabric-red.pdf

  100. Schieber, J., and Yawar, Z., 2009, A New Twist on Mud Deposition - Mud Ripples in Experiment and Rock Record. The Sedimentary Record, v. 7/2, p. 4-8. https://sepm04.sitehost.iu.edu/PDF/JS-J46-SedRecord-2009.pdf

  101. Schieber, J., and Southard, J.B., 2009, Bedload Transport of Mud by Floccule Ripples – Direct Observation of Ripple Migration Processes and their Implications. Geology, v. 37, p. 483-486. https://sepm04.sitehost.iu.edu/PDF/JS-J45-Geology-2009.pdf

  102. Patranabis-Deb, S., Schieber, J., and Basu, A., 2009, Almandine Garnet Phenocrysts in a ~1Ga Old Rhyolitic Tuff from Central India. Geological Magazine, v. 146, p. 133-143. https://sepm04.sitehost.iu.edu/PDF/JS-J44-Garnets-GeolMag-2009.pdf

  103. Glamoclija, M., Steele, A., Fries, M., Schieber, J., Voytek, M.A., and Cockell, C.S., 2009, Association of anatase (TiO2) and microbes: Unusual fossilization effect or a potential biosignature? Geol. Soc. Amer. Special Papers, v. 458, p. 965-975.

  104. Over, J.D., Lazar, R., Baird, G.C., Schieber, J., and Ettensohn, F.R, 2009, Protosalvinia Dawson and associated conodonts of the upper Trachytera zone, Famennian, Upper Devonian, in the eastern United Sates. Journal of Paleontology, v. 83, p. 70-79. Link

  105. Schieber, J., 2009, Discovery of Agglutinated Benthic Foraminifera in Devonian Black Shales and Their Relevance for the Redox State of Ancient Seas. Paleogeograpy, Paleoclimatology, Paleoecology, v. 271, p. 292-300. https://sepm04.sitehost.iu.edu/PDF/JS-J43-Agglutes-P3-2009.pdf

  106. Basu, A., Patranabis-Deb, S., Schieber, J., and Dhang, P.C., 2008, Stratigraphic Position of the ~1000 Ma Sukhda Tuff (Chhattisgarh Supergroup) and the 500 Ma question. Precambrian Research, v. 167, p. 383-388. Link

  107. Schieber, J., Southard, J.B., and Thaisen, K., 2007, Accretion of Mudstone Beds from Migrating Floccule Ripples, Science, v. 318, p. 1760-1763. https://sepm04.sitehost.iu.edu/PDF/JS-J40-mudripples-Science-2007.pdf

  108. Schieber, J., 2007, Oxydation of Detrital Pyrite as a Cause for Marcasite Formation in Marine Lag Deposits from the Devonian of the Eastern US. Deep Sea Research II, v. 54, p. 1312-1326. https://sepm04.sitehost.iu.edu/PDF/JS-J38-DSR2007.pdf

  109. Ventura, G.T., Kenig, F., Reddy, C.M., Schieber, J., Frysinger, G., Nelson, R.K., Gaines, R.B., and Shaeffer, P., 2007, Molecular evidence of Late Archean archea and the presence of a subsurface hydrothermal biosphere. Proceedings of the National Academies of Sciences, v. 104, p. 14260-14265. Link

  110. Milliken, K., Choh, S.-J., Papazis, P., and Schieber, J., 2007, “Cherty” stringers in the Barnett Shale are agglutinated foraminifera. Sedimentary Geology, v. 198, p. 221-232.  Link

  111. Sur, S., Schieber, J., and Banerjee, S., 2006, Petrographic observations suggestive of microbial mats from Rampur Shale and Bijaigarh Shale, Vindhyan basin, India. Journal of Earth Systems Science, v. 115, p. 61-66.  Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J36-sur2006.pdf

  112. Schieber, J., and Riciputi, L., 2005, Pyrite-marcasite coated grains in the Ordovician Winnipeg Formation, Canada: An intertwined record of surface conditions, stratigraphic condensation, geochemical “reworking”, and microbial activity. Journal of Sedimentary Research, v. 75, p. 905-918. https://sepm04.sitehost.iu.edu/PDF/JS-J35-sedp-75-5-907.pdf

  113. Schieber, J., and Riciputi, L., 2004, Pyrite ooids in Devonian Black Shales record intermittent Sea level drop and shallow water conditions. Geology, v. 32, p. 305-308.  https://sepm04.sitehost.iu.edu/PDF/JS-J34-Geology-py-ooids.pdf

  114. Schieber, J., 2003, Simple gifts and hidden treasures – Implications of finding bioturbation and erosion surfaces in black shales. The Sedimentary Record, v. 1, p. 4-8. https://sepm04.sitehost.iu.edu/PDF/sedrecord2003.pdf

  115. Schieber, J., and Arnott, H. J., 2003, Nannobacteria as a by-product of enzyme-driven tissue decay. Geology, v. 31, p. 717-720.
         Link: https://sepm04.sitehost.iu.edu/PDF/JS-J32-nannopaper_geology.pdf

  116. Schieber, J., 2002, Sedimentary Pyrite: A window into the microbial past. Geology, v. 30, p. 531-534. https://sepm04.sitehost.iu.edu/PDF/JS-J31-Geology_pyrite_microbes.PDF

  117. Schieber, J. 2002, The Role of an Organic Slime Matrix in the Formation of Pyritized Burrow Trails and Pyrite Concretions.  Palaios, v. 17, p. 104-109.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J30-slime paper.pdf

  118. Schieber, J., and Baird, G., 2001, On the origin and significance of pyrite spheres in Devonian black shales of North America.  Journal of Sedimentary Research, v. 71, p. 155-166. https://sepm04.sitehost.iu.edu/PDF/JS-J28-pyrite_balls.pdf

  119. Schieber, J., 2001, Ways in which organic petrology could contribute to a better understanding of black shales.  International Journal of Coal Geology, v. 47, p. 171-187. Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J29-TSOP2000.pdf

  120. Schieber, J., Krinsley, D., and Riciputi, L., 2000, Diagenetic origin of quartz silt in mudstones and implications for silica cycling.  Nature, v. 406, p. 981-985.  https://sepm04.sitehost.iu.edu/PDF/JS-J27-silica_cycling.pdf

  121. Lobza, V., and Schieber, J., 1999, Biogenic sedimentary structures produced by worms in soupy, soft muds: Observations from the Chattanooga Shale (Upper Devonian) and experiments.  Journal of Sedimentary Research, v. 69, p. 1041-1049.
         Link: https://sepm04.sitehost.iu.edu/PDF/JS-J26-wormpaper.pdf

  122. Schieber, J., 1999, Distribution and deposition of mudstone facies in the Upper Devonian Sonyea Group of New York.  Journal of Sedimentary Research, v. 69, p. 909-925.
         Link:     https://sepm04.sitehost.iu.edu/PDF/JS-J25-sonyea_shale.pdf

  123. Schieber, J., 1999, Microbial Mats in Terrigenous Clastics:  The Challenge of Identification in the Rock Record.  Palaios, v. 14, p. 3-12.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J24-microbial_mat_challenge.pdf

  124. Schieber, J., 1998, Possible indicators of microbial mat deposits in shales and sandstones: Examples from the Mid-Proterozoic Belt Supergroup, Montana, U.S.A.  Sedimentary Geology, v. 120, p. 105-124.
         Link to paper:     doi:10.1016/S0037-0738(98)00029-3  or
     https://sepm04.sitehost.iu.edu/PDF/JS-J23-sedgeol120.pdf

  125. Schieber, J., 1996.  Early diagenetic silica deposition in algal cysts and spores: A source of sand in black shales?  Journal of Sedimentary Research, v. 66, p. 175-183.
         Link: https://sepm04.sitehost.iu.edu/PDF/JS-J22-Sporequartz.pdf

  126. Ellwood, B.B, Peter, D.E., Balsam, W., and Schieber, J., 1995.  Magnetic and geochemical variations as indicators of paleoclimate and archeological site evolution: Examples from 41TR68, Fort Worth, Texas.  Journal of Archeological Science, v. 22, p. 409-415.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J21-1995 Magnetic and Geochemical.pdf

  127. Schieber, J., 1995.  Anomalous iron distribution in shales as a manifestation of non-clastic fluvial iron supply to sedimentary basins: Relevance for pyritic shales, base metal mineralization, and oolitic ironstone deposits.  Mineralium Deposita, v. 30, p. 294-302.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J20-anomalous_iron.pdf

  128. Schieber, J., 1994, Evidence for episodic high energy events and shallow water deposition in the Chattanooga Shale, Devonian, central Tennessee, U.S.A.  Sedimentary Geology, v. 93, p. 193-208.
         Link to paper:     doi:10.1016/0037-0738(94)90005-1  or
     https://sepm04.sitehost.iu.edu/PDF/JS-J19-chattsed.pdf

  129. Schieber, J., and Ellwood, B.B., 1993, Determination of basinwide paleocurrent patterns in a shale sequence via anisotropy of magnetic susceptibility (AMS): A case study of the Mid-Proterozoic Newland Formation, Montana.  J. sediment. Petrol., v. 63, p. 874-880.
         Link: https://sepm04.sitehost.iu.edu/PDF/JS-J18-Newland_AMS.pdf

  130. Schieber, J., 1992, A combined petrographical-geochemical provenance study of the Newland Formation, Mid-Proterozoic of Montana.  Geological Magazine, v. 129, p. 223-237.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J17-Newland_provenance.pdf

  131. Schieber, J., 1992, Facies and deposition of a mixed terrigenous-carbonate suite in a Mid-Proterozoic epicratonic sea: The Newland Formation, Belt Supergroup, Montana, U.S.A.  Neues Jahrbuch für Geologie und Paläontologie Abhandlungen, v. 184, p. 155-180.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J16-1992 Facies and deposition.pdf

  132. Schieber, J., 1991, The origin and economic potential of disseminated Pb-Zn mineralization in pyritic shale horizons of the Mid-Proterozoic Newland Formation, Montana, U.S.A.:  Mineralium Deposita, v. 26, p. 290-297.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J15-Newland-PbZn.pdf

  133. Schieber, J., 1990, Significance of styles of epicontinental shale sedimentation in the Belt basin, Mid-Proterozoic of Montana, U.S.A.:  Sedimentary Geology, v. 69, p. 297-312.
         Link to paper:     doi:10.1016/0037-0738(90)90055-X  or
     https://sepm04.sitehost.iu.edu/PDF/JS-J14-1990 Significance of styles.pdf

  134. Schieber, J., 1990, Distribution of REE in the eastern Belt Supergroup:  Implications for stratigraphic correlations and basin evolution:  Chemical Geology, v. 81, p. 83-98.
         Link to paper:     doi:10.1016/0009-2541(90)90040-E  or
     https://sepm04.sitehost.iu.edu/PDF/JS-J13-1990 Distribution of REE.pdf

  135. Schieber, J., 1990, Pyritic shales and microbial mats: Significant factors in the genesis of stratiform Pb-Zn deposits of the Proterozoic?  Mineralium Deposita, v. 25, p. 7-14.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J12-Newland_pyrite_mat.pdf

  136. Strauss, H., and Schieber, J., 1989, A sulfur isotope study of pyrite genesis: The Mid-Proterozoic Newland Formation, Belt Supergroup, Montana:  Geochimica et Cosmochimica Acta, v. 54, p. 197-204.
         Link to paper:     doi:10.1016/0016-7037(90)90207-2  or
     https://sepm04.sitehost.iu.edu/PDF/JS-J11-Belt_S_Isotopes.pdf

  137. Schieber, J., 1989, Pyrite mineralization in microbial mats from the Mid-Proterozoic Newland Formation, Belt Supergroup, Montana, U.S.A.:  Sedimentary Geology, v. 64, p. 79-90.
         Link to paper:     doi:10.1016/0037-0738(89)90085-7 or Link

  138. Schieber, J., 1989, The origin of the Neihart Quartzite: A basal deposit of the Mid-Proterozoic Belt Supergroup, Montana, U.S.A.:  Geological Magazine, v. 126, p. 271-281.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J9-neihart.pdf

  139. Schieber, J., 1989, Facies and origin of shales from the Mid-Proterozoic Newland Formation, Belt basin, Montana, U.S.A.:  Sedimentology, v. 36, p. 203-219.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J8-Newland_shale.pdf

  140. Schieber, J., and Ellwood, B.B., 1988, The coincidence between macroscopic paleocurrent indicators and magnetic lineation in shales of the Precambrian Belt basin:  Journal of Sedimentary Petrology, v. 58, p. 830-835.
         Link: https://sepm04.sitehost.iu.edu/PDF/JS-J7-1988-AMS-Belt.pdf

  141. Schieber, J., 1988, Storm sands with swaley cross-stratification in the Lower Miocene Taliao Formation, Taiwan:  Neues Jahrbuch für Geologie und Paläontologie Monatshefte, v. 28, p. 718-734.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J6-1988 Storm sands with.pdf

  142. Schieber, J., 1988, Redistribution of rare earth elements during diagenesis of carbonate rocks from the Mid-Proterozoic Newland Formation, Montana, USA:  Chemical Geology, v. 69, p. 111-126.
         Link to paper:     doi:10.1016/0009-2541(88)90163-5  or
    https://sepm04.sitehost.iu.edu/PDF/JS-J5-1988 Redistribution of REE.pdf

  143. Schieber, J., 1987, Storm-dominated epicontinental clastic sedimentation in the Mid-Proterozoic Newland Formation, Montana, U.S.A.: N. Jb. Geol. Paläont. Mh., v. 27, p. 417-439.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J4-1987 Storm-dominated epicontinental.pdf

  144. Schieber, J., and Katsura, K.T., 1986, Sedimentation in epithermal veins of the Bohemia mining district, Oregon, USA: Interpretations and significance:  Mineralium Deposita, v. 21, p. 322-328.
         Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-J3-Bohemia_Vein_sed.pdf

  145. Schieber, J., 1986, The possible role of benthic microbial mats during the formation of carbonaceous shales in shallow Proterozoic basins: Sedimentology, v. 33, p. 521-536.
         Link to paper:     doi:10.1111/j.1365-3091.1986.tb00758.x  or
     https://sepm04.sitehost.iu.edu/PDF/JS-J2-Newland_mat.pdf

  146. Schieber, J., 1986, Stratigraphic control of rare-earth pattern types in Mid-Proterozoic sediments of the Belt Supergroup, Montana, U.S.A.: Implications for basin analysis:  Chem. Geol., v. 54, p. 135-148.
         Link to paper:     doi:10.1016/0009-2541(86)90077-X  or
     https://sepm04.sitehost.iu.edu/PDF/JS-J1-1986 Stratigraphic control.pdf

 

Book contributions & Book Chapters

Journals   Book Chapters   Guidebooks  Book Reviews

 

  1. Liu, B., Schieber, J., Mastalerz, M., 2019, Petrographic and Micro-FTIR Study of Organic Matter in the Upper Devonian New Albany Shale During Thermal Maturation: Implications for Kerogen Transformation.  AAPG Memoir 120, p. 165-188. Link

  2. Wilson, R.D., Schieber, J., 2016. The Influence of Primary and Secondary Sedimentary Features on Reservoir Quality: Examples from the Geneseo Formation of New York, U.S.A. In: Olson, T. (Ed.), Imaging Unconventional Reservoir Pore Systems. AAPG Memoir Vol. 112, pp. 167–184.

  3. Schieber, J., Lazar, R., Bohacs, K., Klimentidis, B., Ottmann, J., Dumitrescu, M., 2016, An SEM Study of Porosity in the Eagle Ford Shale of Texas – Pore Types and Porosity Distribution in a Depositional and Sequence Stratigraphic Context. AAPG Memoir 110, p. 153-172. https://sepm04.sitehost.iu.edu/PDF/Schieber-AAPG-Mem-110-Eagle-Ford-2016-red.pdf

  4. Ulmer-Scholle, D.S., Scholle, P., Schieber, J. and Raine, R.J., 2015, A Color Guide to the Petrography of Sandstones, Siltstones, and Shales and Associated Rocks. AAPG Memoir 109, 509 pp.

  5. Schieber, J., 2013, SEM Observations on Ion-milled Samples of Devonian Black Shales from Indiana and New York: The Petrographic Context of Multiple Pore Types. AAPG Memoir 102, p. 153-172. Link

  6. Schieber, J., 2012, Styles of agglutination in benthic foraminifera from modern Santa Barbara Basin sediments and fossil analogs in Devonian and Mississippian black shales.  In: Anoxia: Paleontological strategies and evidence for eukaryote survival. Springer Verlag, New York, p. 575-589. Link

  7. Schieber, J., 2011, Shale microfabrics and pore development – An overview with emphasis on the Importance of depositional processes. In: Gas Shale of the Horn River basin, D.A. Leckie and J.E. Barclay (Eds.), Canadian Society of Petroleum Geologists, Calgary, p. 115-119. Link

  8. Schieber, J., 2011, Shifting paradigms in shale sedimentology –The implications of recent flume studies for interpreting shale fabrics and depositional environments. In: Gas Shale of the Horn River basin, D.A. Leckie and J.E. Barclay (Eds.), Canadian Society of Petroleum Geologists, Calgary, p. 109-114. Link

  9. Schieber, J., 2011, Shales. Encyclopedia of Geobiology, Springer Verlag, J. Reitner & V. Thiel (Eds.), p. 785-791. Link

  10. Schieber, J., 2011, Iron Sulfide Formation. Encyclopedia of Geobiology, Springer Verlag, J. Reitner & V. Thiel (Eds.), p. 486-502. Link

  11. Schieber, J., Bose, P.K., Eriksson, P.G., Banerjee, S., Sarkar, S., Altermann, W., and Catuneau, O., (Eds.), 2007, Atlas of microbial mat features preserved within the clastic rock record, Volume 2 of Atlases in Geoscience, Elsevier, 311 p. Link has links to all chapters by J. Schieber and other authors

  12. Schieber, J., Bose, P.K., Eriksson, P.G., Banerjee, S., Sarkar, S., Alterman, W., and Catuneau, O., 2007, Prologue: An Introduction to Microbial Mats. Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, p. 1-4.  PDF

  13. Eriksson, P.G., Schieber, J., Bouougri, G., Gerdes, G., Porada, H., Banerjee, S., Bose, P.K., and Sarkar, S., 2007, Classification of Structures left by Microbial Mats in their Host Sediments. In: Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, p. 39-52.  PDF

  14. Schieber, J., 2007, Mats Features in Sandstones - Diagenetic Features Related to Mat Metabolism and Decay. In: Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, p. 72-75.  PDF

  15. Schieber, J., 2007, Microbial Mats on Muddy Substrates – Examples of Possible Sedimentary Features and Underlying Processes. In: Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, p. 117-134.  PDF

  16. Schieber, J., 2007, Microbial Mat Features in Terrigenous Clastics of the Belt Supergroup, Mid-Proterozoic of Montana, USA. In: Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, p. 158-170.  PDF

  17. Patranabis-Deb, S., Schieber, J., Chaudhuri, A.K., 2007, Microbial Mat Features in Mudstones of the Mesoproterozoic Somanpalli Group, Pranhita-Godavari Basin, India. In: Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, p. 171-180.  PDF

  18. Schieber, J., Sur, S., and Banerjee, S., 2007, Benthic Microbial Mats in Black Shale Units from the Vindhyan Supergroup, Middle Proterozoic of India: The Challenges of Recognizing the Genuine Article. In: Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, p. 189-197.  PDF

  19. Schieber, J., 2007, Ripple Patches in the Cretaceous Dakota Sandstone near Denver, Colorado, a Classical Locality for Microbially Bound Tidal Sand Flats.  In: Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, p. 222-224.  PDF

  20. Schieber, J., 2007, Benthic Microbial Mats as an Oil Shale Component: Green River Formation (Eocene) of Wyoming and Utah. In: Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, p. 225-232.  PDF

  21. Schieber, J., and Glamoclija, M., 2007, Microbial Mats Built by Iron Bacteria: A Modern Example from Southern Indiana.  In: Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, p. 233-244.   PDF

  22. Schieber, J., 2007, Flume Experiments on the Durability of Sandy Microbial Mat Fragments During Transport. In: Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, p. 248-257.  PDF

  23. Schieber, J., 2007, Paleogeography of Microbial mats in Terrigenous Clastics – Environmental Distribution of Associated Sedimentary Features and the Role of Geologic Time. In: Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, 267-275.   PDF

  24. Schieber, J., Gerdes, G., Eriksson, P.G., Sarkar, S., Bose, P.K., Banerjee, S., Catuneanu, O., and Altermann, W., 2007, Chapter 10 – Conclusions. In: Atlas of microbial mat features preserved within the clastic rock record, J. Schieber et al. (Eds.), Elsevier, p. 285-288.  PDF

  25. Schieber, J., and Over, J., 2005, Sedimentary Fill of the Late Devonian Flynn Creek Crater: A Hard Target Marine Impact. In: Over, D.J., Morrow, J.R., and Wignall, P.B., eds., Understanding Late Devonian and Permian-Triassic Biotic and Climatic Events: Towards and Integrated Approach, Elsevier, p. 51-69.
     Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B18-Flynn-Creek-final-chapter4.pdf

  26. Schieber, J., 2004, Microbial Mats in the Siliciclastic Rock Record: A Summary of Diagnostic Features. In: P.G. Eriksson, W. Altermann, D. Nelson, W.U. Mueller, O. Catuneanu, and K. Strand (editors), The Precambrian Earth: Tempos and Events, Developments in Precambrian Geology, Elsevier, p. 663-672.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B17-Microbial Mats in the Siliciclastic.pdf

  27. Schieber, J., 2003, Depositional Fabric of Mudstones. In: Gerard V. Middleton et al. (eds.), Encyclopedia of Sediments and Sedimentary Rocks, Kluwer Scientific Publishers, p. 203-207.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B16-SedEncyclop-mudstone-fabric.pdf

  28. Schieber, J., 2003, Black Shales. In: Gerard V. Middleton et al. (eds.), Encyclopedia of Sediments and Sedimentary Rocks, Kluwer Scientific Publishers, p. 83-85.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B15-SedEncyclop-black-shale.pdf

  29. Schieber, J., 1998, Developing a Sequence Stratigraphic Framework for the Late Devonian Chattanooga Shale of the southeastern US:  Relevance for the Bakken Shale.  In: J.E. Christopher, C.F. Gilboy, D.F. Paterson, and S.L. Bend (eds.), Eight International Williston Basin Symposium, Saskatchewan Geological Society Special Publication No. 13, p. 58-68.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B14-WBS_Bakken.pdf

  30. Schieber, J., 1998.  Sedimentologic, geochemical, and mineralogical features of the Belt Supergroup and their bearing on the lacustrine vs marine debate.  In Belt Symposium III, R.B. Berg (ed.), Montana Bureau of Mines and Geology Special Publication 112, p. 177-189. 
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B6-Proceedings of Belt Symposium III.pdf

  31. Schieber, J., Zimmerle, W., and Sethi, P., eds., 1998, Shales and Mudstones, vol 1: Basin Studies, Sedimentology and Paleontology (384pp), vol 2: Petrography, Petrophysics, Geochemistry, and Economic Geology (296pp).  Schweizerbart’sche Verlagsbuchhandlung, Stuttgart. Links to some chapter below.

  32. Schieber, J., and Zimmerle, W., 1998, The history and promise of shale research. In: J. Schieber, W. Zimmerle, and P. Sethi (editors), Shales and Mudstones (vol. 1): Basin Studies, Sedimentology and Paleontology,  Schweizerbart’sche Verlagsbuchhandlung, Stuttgart, p. 1-10.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B8-1998-INTBOOK.pdf

  33. Schieber, J. 1998, Deposition of Mudstones and Shales: Overview, Problems, and Challenges.  In: J. Schieber, W. Zimmerle, and P. Sethi (editors), Shales and Mudstones (vol. 1): Basin Studies, Sedimentology and Paleontology,  Schweizerbart’sche Verlagsbuchhandlung, Stuttgart, p. 131-146.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B9-Deposition of Mud-book.pdf

  34. Schieber, J., 1998, Sedimentary features indicating erosion, condensation, and hiatuses in the Chattanooga Shale of Central Tennessee:  relevance for sedimentary and stratigraphic evolution.  In: J. Schieber, W. Zimmerle, and P. Sethi (editors), Shales and Mudstones (vol. 1): Basin Studies, Sedimentology and Paleontology,  Schweizerbart’sche Verlagsbuchhandlung, Stuttgart, p. 187-215.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B10-shalebook1.pdf

  35. Schieber, J., 1998, The organic dimension: The many uses of paleontology.  In: J. Schieber, W. Zimmerle, and P. Sethi (editors), Shales and Mudstones (vol. 1): Basin Studies, Sedimentology and Paleontology,  Schweizerbart’sche Verlagsbuchhandlung, Stuttgart, p. 297-299.
    Link to paper: https://sepm04.sitehost.iu.edu    /PDF/JS-B11-paleointro.pdf

  36. Schieber, J., and Zimmerle, W., 1998, Petrography of shales: A survey of Techniques.  In: J. Schieber, W. Zimmerle, and P. Sethi (editors), Shales and Mudstones (vol. 2): Petrography, Petrophysics, Geochemistry, and Economic Geology.  Schweizerbart’sche Verlagsbuchhandlung, Stuttgart, p. 3-12.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B12-shale_petro.pdf

  37. Sethi, P., and Schieber, J., 1998, Economic Aspects of Shales, an Overview.  In: J. Schieber, W. Zimmerle, and P. Sethi (editors), Shales and Mudstones (vol. 2): Petrography, Petrophysics, Geochemistry, and Economic Geology.  Schweizerbart’sche Verlagsbuchhandlung, Stuttgart, p. 237-253.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B13-Shalebook_Ch7.pdf

  38. Lobza, V., Schieber, J., and Nestell, M.E., 1994, The influence of sea level changes and possible pycnocline shifts on benthic communities in the Finis Shale (Virgilian) near Jacksboro, north-central Texas.  Canadian Society of Petroleum Geologists, Memoir 17, p. 927-947.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B5-finis_shale.pdf

  39. Schieber, J., 1994, Reflection of deep vs shallow water deposition by small scale sedimentary features and microfabrics of the Chattanooga Shale in Tennessee.  Canadian Society of Petroleum Geologists, Memoir 17, p. 773-784.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B4-Reflection of deep vs shallow.pdf

  40. Schieber, J., 1994, Paleoflow patterns and macroscopic sedimentary features in the Late Devonian Chattanooga Shale of Tennessee: Differences between the Appalachian Basin and the American Craton.  Canadian Society of Petroleum Geologists, Memoir 17, p. 763-772.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B3-chatt_macro.pdf

  41. Schieber, J., 1990, Sedimentary structures, textures, and depositional settings of shales from the Lower Belt Supergroup, Mid-Proterozoic, Montana, U.S.A.:  In: Microstructure of Fine-Grained Sediments: From Mud to Shale, (eds. R.H. Bennett, W.R. Bryant, M.H. Hulbert), p. 101-108, Springer Verlag.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B2-1990 Sedimentary structures.pdf

  42. Schieber, J., 1987, Small scale sedimentary iron deposits in a Mid-Proterozoic basin: Viability of iron supply by rivers:  In:  Precambrian Iron Formations, (Ed. by P.W.U. Appel), p. 267-295, Theophrastus Publishers S.A., Athens.
    Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-B1-1987 Iron Formations.pdf

 

Guidebooks & guidebook chapters

Journals   Book Chapters   Guidebooks  Book Reviews

1.      Schieber, J., and Lazar, R.O., 2004, (eds.) Devonian Black Shales of the Eastern U.S.: New Insights into Sedimentology and Stratigraphy from the Subsurface and Outcrops in the Illinois and Appalachian Basins.  Field Guide for the 2004 Great Lakes Section SEPM Annual Field Conference. Indiana Geological Survey Open File Study 04-05, 90pp. This volume is for sale at the Indiana Geological Survey. Information at this link http://igs.indiana.edu/survey/publications/searchPubsDetail.cfm?Pub_Num=OFS04%2D05

2.     Lazar, O.R., and Schieber, J., 2004, Summary of observations from a 40-Meter cored interval of the New Albany Shale in well 1-3 Kavanaugh, Daviess County, Indiana. In: Devonian Black Shales of the Eastern U.S.: New Insights into Sedimentology and Stratigraphy from the Subsurface and Outcrops in the Illinois and Appalachian Basins.  Field Guide for the 2004 Great Lakes Section SEPM Annual Field Conference, J. Schieber and O.R. Lazar (eds.), Indiana Geological Survey Open File Study 04-05, p. 1-6.
Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-G2-SEPM Guidebook-Kavanaugh.pdf

3.     Schieber, J., and Lazar, R.O., 2004, Road Log and Stop Descriptions. In: Devonian Black Shales of the Eastern U.S.: New Insights into Sedimentology and Stratigraphy from the Subsurface and Outcrops in the Illinois and Appalachian Basins.  Field Guide for the 2004 Great Lakes Section SEPM Annual Field Conference, J. Schieber and O.R. Lazar (eds.), Indiana Geological Survey Open File Study 04-05, p. 8-29.
Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-G3-SEPM Guidebook-Roadlog.pdf

4.     Lazar, O.R., and Schieber, J., 2004, New Albany and Ohio Shales: An Introduction. In: Devonian Black Shales of the Eastern U.S.: New Insights into Sedimentology and Stratigraphy from the Subsurface and Outcrops in the Illinois and Appalachian Basins.  Field Guide for the 2004 Great Lakes Section SEPM Annual Field Conference, J. Schieber and O.R. Lazar (eds.), Indiana Geological Survey Open File Study 04-05, p. 31-34.
Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-G4-SEPM Guidebook-strat-overview.pdf

5.     Dumitrescu, M., Finkelstein, D.B., Lazar, O.R., Schieber, J., and Brassell, S.C., 2004, Origin and history of bitumen in geodes of the New Albany Shale. In: Devonian Black Shales of the Eastern U.S.: New Insights into Sedimentology and Stratigraphy from the Subsurface and Outcrops in the Illinois and Appalachian Basins.  Field Guide for the 2004 Great Lakes Section SEPM Annual Field Conference, J. Schieber and O.R. Lazar (eds.), Indiana Geological Survey Open File Study 04-05, p. 61-67.
Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-G5-SEPM Guidebook-geode.pdf

6.     Schieber, J., 2004, Connecting the dots: Sequence stratigraphic correlations in Devonian black shales of the eastern US and relationship to global sea-level variations. In: Devonian Black Shales of the Eastern U.S.: New Insights into Sedimentology and Stratigraphy from the Subsurface and Outcrops in the Illinois and Appalachian Basins.  Field Guide for the 2004 Great Lakes Section SEPM Annual Field Conference, J. Schieber and O.R. Lazar (eds.), Indiana Geological Survey Open File Study 04-05, p. 80-82.
Link to paper: https://sepm04.sitehost.iu.edu/PDF/JS-G6-SEPM Guidebook-connect-dots.pdf

7.  Parke, M., Schieber, J., and Mastalerz, M., 2009, The New Albany Shale in the Illinois Basin. Field trip guide to outcrops south of Louisville, Kentucky. 2009 AAPG Eastern Section Meeting, Evansville, In, September 19th 2009, 40 pp.

8.  Schieber, J., Lazar, R., and Bohacs, K., 2010, Sedimentology and Stratigraphy of Shales: Expression and correlation of depositional sequences in the Devonian of Tennessee, Kentucky and Indiana. AAPG 2010 Annual Convention in New Orleans, Field Guide for Post-Convention Field Trip 10, 172 pp.

9.  Lazar, R., Bohacs, K., Macquaker, J., and Schieber, J, 2010, Fine-grained rocks in outcrops: Classification and description guidelines. In: Sedimentology and Stratigraphy of Shales: Expression and correlation of depositional sequences in the Devonian of Tennessee, Kentucky and Indiana. AAPG 2010 Annual Convention in New Orleans, Field Guide for Post-Convention Field Trip 10, Schieber, J., Lazar, R., and Bohacs, K. (eds.), p. 3-14.

10.  Lazar, R., Schieber, J., and Wilson, R., 2010, Chattanooga, New Albany and Ohio Shales: An Introduction. In: Sedimentology and Stratigraphy of Shales: Expression and correlation of depositional sequences in the Devonian of Tennessee, Kentucky and Indiana. AAPG 2010 Annual Convention in New Orleans, Field Guide for Post-Convention Field Trip 10, Schieber, J., Lazar, R., and Bohacs, K. (eds.), p. 31-40.

11.  Lazar, R., Schieber, J, and Over, J., 2010, New Albany Shale: A sequence stratigraphic overview. In: Sedimentology and Stratigraphy of Shales: Expression and correlation of depositional sequences in the Devonian of Tennessee, Kentucky and Indiana. AAPG 2010 Annual Convention in New Orleans, Field Guide for Post-Convention Field Trip 10, Schieber, J., Lazar, R., and Bohacs, K. (eds.), p. 41-55.

12.  Schieber, J., 2010, Chattanooga Shale: A sequence stratigraphic overview. In: Sedimentology and Stratigraphy of Shales: Expression and correlation of depositional sequences in the Devonian of Tennessee, Kentucky and Indiana. AAPG 2010 Annual Convention in New Orleans, Field Guide for Post-Convention Field Trip 10, Schieber, J., Lazar, R., and Bohacs, K. (eds.), p. 56-73.

13.  Schieber, J., 2010, Outcrop description, Tennessee and Southern Kentucky (Stops 1-6). In: Sedimentology and Stratigraphy of Shales: Expression and correlation of depositional sequences in the Devonian of Tennessee, Kentucky and Indiana. AAPG 2010 Annual Convention in New Orleans, Field Guide for Post-Convention Field Trip 10, Schieber, J., Lazar, R., and Bohacs, K. (eds.), p. 79-115.

14.  Schieber, J., and Lazar, R., 2010, Outcrop description, Central Kentucky (Stops 7-9). In: Sedimentology and Stratigraphy of Shales: Expression and correlation of depositional sequences in the Devonian of Tennessee, Kentucky and Indiana. AAPG 2010 Annual Convention in New Orleans, Field Guide for Post-Convention Field Trip 10, Schieber, J., Lazar, R., and Bohacs, K. (eds.), p. 116-142.

15.  Schieber, J., and Wilson, R., 2013, Sedimentology and stratigraphy of shales: Expression and correlation of depositional sequences in the Devonian of Ohio and Kentucky. AAPG 2013 Annual Convention in Pittsburgh, Field Guide for Post-Convention Field Trip 9, 159 pp.

16.  Smith, T., Schieber, J., Wilson, R., Leone, J., and Nyahay, R., 2013, Organic-Rich Shales of New York. AAPG 2013 Annual Convention in Pittsburgh, Field Guide for Post-Convention Field Trip 111 pp.

 

BOOK REVIEWS

Journals   Book Chapters   Guidebooks  Book Reviews

1.      The Deposition of Organic-Carbon-Rich Sediments: Models, Mechanisms, and Consequences, edited by Nicholas B. Harris, 2005, SEPM Special Publication 82. Book review for Palaios, DOI: 10.2110/palo.2007.BR016. Link

2.      Mud and Mudstones: Introduction and Overview, by Paul E. Potter, J. Barry Maynard, and Pedro J. Depetris, 2005, Springer Verlag. Book review for Palaios, DOI: 10.2110/palo.2007.BR021. Link
 
 

Back to SHALE RESEARCH LAB Main Page
Back to IU Department of Geological Sciences

© Jürgen Schieber, IU Bloomington Department of Geosciences
Last updated: February 08, 2022.