1932

Abstract

Internally generated, or autogenic, terrestrial and marine sediment-transport dynamics can produce depositional patterns similar to those associated with climatic, tectonic, or sea level changes. A central challenge in accurately interpreting the sedimentary archive is determining what scales and types of deposits reflect autogenic controls on sedimentation in different environments. Autogenic sediment-transport dynamics commonly result from intermittent sediment storage in transient landforms, which produces episodic, spatially discontinuous sedimentation across a basin. The transition from localized, variable sedimentation to even, basin-wide sedimentation marks the shift from stochastic landscape dynamics to deterministic deposition responding to the long-term balance between sediment supply and the creation of space to accommodate sediment. This threshold can be measured in a wide variety of stratigraphic successions and has important bearing on whether climatic, tectonic, or sea level signals can be recognized in physical sedimentary deposits.

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2017-08-30
2024-03-28
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Literature Cited

  1. Abels HA, Aziz HA, Krijgsman W, Smeets SJB, Hilgen FJ. 2010. Long-period eccentricity control on sedimentary sequences in the continental Madrid Basin (middle Miocene, Spain). Earth Planet. Sci. Lett. 289:220–31 [Google Scholar]
  2. Abels HA, Kraus MJ, Gingerich PD. 2013. Precession-scale cyclicity in the fluvial lower Eocene Willwood Formation of the Bighorn Basin, Wyoming (USA). Sedimentology 60:1467–83 [Google Scholar]
  3. Ager DV. 1973. The Nature of the Stratigraphic Record New York: Wiley
  4. Allen PA. 2008. From landscapes into geological history. Nature 451:274–76 [Google Scholar]
  5. Ashton A, Murray B, Arnault O. 2001. Formation of coastline features by large-scale instabilities induced by high-angle waves. Nature 414:296–300 [Google Scholar]
  6. Aziz HA, Hilgen FJ, van Luijk GM, Sluijs A, Kraus MJ. et al. 2008. Astronomical climate control on paleosol stacking patterns in the upper Paleocene–lower Eocene Willwood Formation, Bighorn. , Basin, Wyoming.. Geology 36:531–34 [Google Scholar]
  7. Baas JK, Best JL, Peakall J. 2016. Predicting bedforms and primary current stratification in cohesive mixtures of mud and sand. J. Geol. Soc. 173:12–45 [Google Scholar]
  8. Bak P, Tang C, Wiesenfeld K. 1988. Self-organized criticality. Phys. Rev. A 38:364–74 [Google Scholar]
  9. Beerbower JR. 1964. Cyclothems and cyclic depositional mechanisms in alluvial plain sedimentation. Symp. Cycl. Sediment. Kans. Geol. Surv., Bull. 169 DF Merriam 31–42 Lawrence, KS: Kans. Geol. Surv. [Google Scholar]
  10. Berger A, Loutre M-F, Laskar J. 1992. Stability of the astronomical frequencies over the Earth's history for paleoclimate studies. Science 255:560–66 [Google Scholar]
  11. Braudrick CA, Dietrich WE, Leverich GT, Sklar L. 2009. Experimental evidence for the conditions necessary to sustain meandering in coarse-bedded rivers. PNAS 106:16936–41 [Google Scholar]
  12. Caldwell RL, Edmonds DA. 2014. The effects of sediment properties on deltaic processes and morphologies: a numerical modeling study. J. Geophys. Res. Earth Surf. 119:961–82 [Google Scholar]
  13. Castelltort S, van den Driessche J. 2003. How plausible are high-frequency sediment supply-driven cycles in the stratigraphic record. ? Sediment. Geol. 157:3–13 [Google Scholar]
  14. Catuneanu O. 2006. Principles of Sequence Stratigraphy Amsterdam: Elsevier
  15. Cazanacli D, Paola C, Parker G. 2002. Experimental steep, braided flow: application to flooding risk on fans. J. Hydraul. Eng. 128:322–30 [Google Scholar]
  16. Chamberlin EP, Hajek EA, Trampush SM. 2016. Measuring scales of autogenic organization in fluvial stratigraphy: an example from the Cretaceous lower Williams Fork Formation, Colorado. SEPM Spec. Publ. 106:132–44 [Google Scholar]
  17. Chen J, Blume HP, Beyer L. 2000. Weathering of rocks induced by lichen colonization—a review. Catena 39:121–46 [Google Scholar]
  18. Clarke L, Quine TA, Nicholas A. 2010. An experimental investigation of autogenic behavior during alluvial fan evolution. Geomorphology 114:278–85 [Google Scholar]
  19. Cressie NAC. 1993. Statistics for Spatial Data New York: Wiley. Rev
  20. Dalman RAF, Weltje GJ. 2008. Sub-grid parameterisation of fluvio-deltaic processes and architecture in a basin-scale stratigraphic model. Comput. Geosci. 34:1370–80 [Google Scholar]
  21. Dalman RAF, Weltje GJ, Karamitopoulos P. 2015. High-resolution sequence stratigraphy of fluvio-deltaic systems: prospects of system-wide chronostratigraphic correlation. Earth Planet. Sci. Lett. 412:10–17 [Google Scholar]
  22. Davies NS, Gibling MR. 2010. Cambrian to Devonian evolution of alluvial systems: the sedimentological impact of the earliest land plants. Earth-Sci. Rev. 98:171–200 [Google Scholar]
  23. Diggle PJ. 2003. Statistical Analysis of Spatial Point Patterns London: Hodder Arnold
  24. Diggle PJ, Lophaven S. 2006. Bayesian geostatistical design. Scand. J. Stat. 33:53–64 [Google Scholar]
  25. Dixon JL, Heimsath AM, Amundson R. 2009. The critical role of climate and saprolite weathering in landscape evolution. Earth Surf. Process. Landf. 34:1507–21 [Google Scholar]
  26. Dobbie MJ, Henderson BL. 2008. Sparse sampling: spatial design for monitoring stream networks. Stat. Surv. 2:113–53 [Google Scholar]
  27. Drever JI. 1994. The effect of land plants on weathering rates of silicate minerals. Geochim. Cosmochim. Acta 58:2325–32 [Google Scholar]
  28. Edmonds DA, Hajek EA, Downton N, Bryk AB. 2016. Avulsion flow-path selection on rivers in foreland basins. Geology 44:695–98 [Google Scholar]
  29. Edmonds DA, Slingerland RL. 2007. Mechanics of river mouth bar formation: implications for the morphodynamics of delta distributary networks. J. Geophys. Res. F 112:F02034 [Google Scholar]
  30. Edmonds DA, Slingerland RL. 2010. Significant effect of sediment cohesion on delta morphology. Nat. Geosci. 3:105–9 [Google Scholar]
  31. Exner FM. 1925. Über die Wechselwirkung zwischen Wasser und Geschiebe in Flüssen. Sitzungsber. Akad. Wiss. Wien, Math.-Naturwiss. Kl., Abt. IIa 134:165–203 [Google Scholar]
  32. Finnegan NJ, Shumer R, Finnegan S. 2014. A signature of transience in bedrock river incision rates over timescales of 104–107 years. Nature 505:391–94 [Google Scholar]
  33. Flood YS, Hampson GJ. 2014. Facies and architectural analysis to interpret avulsion style and variability: upper Cretaceous Blackhawk Formation, Wasatch Plateau, central Utah, U.S.A. J. Sediment. Res. 84:743–62 [Google Scholar]
  34. Foreman BZ. 2014. Climate-driven generation of a fluvial sheet sand body at the Paleocene–Eocene boundary in north-west Wyoming (USA). Basin Res 26:255–41 [Google Scholar]
  35. Foreman BZ, Heller PL, Clementz MT. 2012. Fluvial response to abrupt global warming at the Palaeocene/Eocene boundary. Nature 491:92–95 [Google Scholar]
  36. Ganti V, Straub KM, Foufoula-Georgiou E, Paola C. 2011. Space-time dynamics of depositional systems: experimental evidence and theoretical modeling of heavy-tailed statistics. J. Geophys. Res. F 116:F02011 [Google Scholar]
  37. Goldfinger C, Nelson CH, Morey AE, Johnson JE, Patton JR. et al. 2012. Turbidite event history—methods and implications for Holocene paleoseismicity of the Cascadia subduction zone Prof. Pap. 1661-F, US Geol. Surv Reston, VA:
  38. Hajek EA, Heller PL, Schur EL. 2012. Field test of autogenic control on alluvial stratigraphy (Ferris Formation, Upper Cretaceous–Paleogene, Wyoming). Geol. Soc. Am. Bull. 124:1898–912 [Google Scholar]
  39. Hajek EA, Heller PL, Sheets BA. 2010. Significance of channel-belt clustering in alluvial basins. Geology 38:535–38 [Google Scholar]
  40. Hajek EA, Paola C, Petter A, Alabbad A, Kim W. 2014. Amplification of shoreline response to sea-level change by back-tilted subsidence. J. Sediment. Res. 84:470–74 [Google Scholar]
  41. Hajek EA, Wolinsky MA. 2012. Simplified process modeling of river avulsion and alluvial architecture: connecting models and field data. Sediment. Geol. 257–60:1–30 [Google Scholar]
  42. Hamilton PB, Strom K, Hoyal CJD. 2013. Autogenic incision-backfilling cycles and lobe formation during the growth of alluvial fans with supercritical distributaries. Sedimentology 60:1498–1525 [Google Scholar]
  43. Hampson GJ. 2016. Towards a sequence stratigraphic solution set for autogenic processes and allogenic controls: Upper Cretaceous strata, Book Cliffs, Utah, USA. J. Geol. Soc. 173:817–36 [Google Scholar]
  44. Hartley AJ, Weissmann GS, Nichols GJ, Warwick GL. 2010. Large distributive fluvial systems: characteristics, distribution, and controls on development. J. Sediment. Res. 80:167–83 [Google Scholar]
  45. Hilgen FJ, Hinnov LA, Aziz HA, Abels HA, Batenburg S. et al. 2015. Stratigraphic continuity and fragmentary sedimentation: the success of cyclostratigraphy as part of integrated stratigraphy. Geol. Soc. Lond. Spec. Publ. 404:157–97 [Google Scholar]
  46. Hinnov LA. 2013. Cyclostratigraphy and its revolutionizing applications in the Earth and planetary sciences. Geol. Soc. Am. Bull. 125:1703–34 [Google Scholar]
  47. Hofmann MH, Wroblewski A, Boyd R. 2011. Mechanisms controlling the clustering of fluvial channels and the compensational stacking of cluster belts. J. Sediment. Res. 81:670–85 [Google Scholar]
  48. Hooke JM. 2007. Complexity, self-organisation and variation in behaviour in meandering rivers. Geomorphology 91:236–58 [Google Scholar]
  49. Hu L, Chugunova T. 2008. Multiple‐point geostatistics for modeling subsurface heterogeneity: a comprehensive review. Water Resourc. Res. 44:W11413 [Google Scholar]
  50. Husson D, Thibault N, Galbrun B, Gardin S, Minoletti F. et al. 2014. Lower Maastrichtian cyclostratigraphy of the Bidart section (Basque Country, SW France): a remarkable record of precessional forcing. Palaeogeogr. Palaeoclimatol. Palaeoecol. 395:176–97 [Google Scholar]
  51. Jerolmack DJ, Mohrig D. 2007. Conditions for branching in depositional rivers. Geology 35:463–66 [Google Scholar]
  52. Jerolmack DJ, Paola C. 2007. Complexity in a cellular model of river avulsion. Geomorphology 91:259–70 [Google Scholar]
  53. Jerolmack DJ, Paola C. 2010. Shredding of environmental signals by sediment transport. Geophys. Res. Lett. 37:L19401 [Google Scholar]
  54. Jervey MT. 1988. Quantitative geological modeling of siliciclastic rock sequences and their seismic expression. SEPM Spec. Publ. 42:47–69 [Google Scholar]
  55. Karamitopoulos P, Weltje GJ, Dalman R. 2014. Allogenic controls on autogenic variability in fluvio‐deltaic systems: inferences from analysis of synthetic stratigraphy. Basin Res 26:767–79 [Google Scholar]
  56. Kim W, Jerolmack DJ. 2008. The pulse of calm fan deltas. J. Geol. 116:315–30 [Google Scholar]
  57. Kim W, Paola C. 2007. Long-period cyclic sedimentation with constant tectonic forcing in an experimental relay ramp. Geology 35:331–34 [Google Scholar]
  58. Kim W, Paola C, Swenson JB, Voller VR. 2006. Shoreline response to autogenic processes of sediment storage and release in the fluvial system. J. Geophys. Res. F 111:F04013 [Google Scholar]
  59. Kim W, Petter A, Straub K, Mohrig D. 2014. Investigating the autogenic process response to allogenic forcing: experimental geomorphology and stratigraphy. Spec. Publ. Int. Assoc. Sedimentol. 46:127–38 [Google Scholar]
  60. Kim W, Sheets BA, Paola C. 2010. Steering of experimental channels by lateral basin tilting. Basin Res 22:286–301 [Google Scholar]
  61. Kleinhans MG. 2005. Autogenic cyclicity of foreset sorting in experimental Gilbert-type deltas. Sediment. Geol. 181:215–24 [Google Scholar]
  62. Kocurek G, Ewing RC. 2005. Aeolian dune field self-organization—implications for the formation of simple versus complex dune-field patterns. Geomorphology 72:94–105 [Google Scholar]
  63. Kocurek G, Ewing RC. 2016. Trickle-down and trickle-up boundary conditions in eolian dune-field pattern formation. SEPM Spec. Publ. 106:18–39 [Google Scholar]
  64. Kondo S, Miura T. 2010. Reaction-diffusion model as a framework for understanding biological pattern formation. Science 329:1616–20 [Google Scholar]
  65. Leva Lopez J, Kim W, Steel RJ. 2014. Autoacceleration of clinoform progradation in foreland basins: theory and experiments. Basin Res 26:489–504 [Google Scholar]
  66. Li Q, Yu LZ, Straub KM. 2016. Storage thresholds for relative sea-level signals in the stratigraphic record. Geology 44:179–82 [Google Scholar]
  67. Lyons WJ. 2004. Quantifying channelized submarine depositional systems from bed to basin scale PhD Thesis, Mass. Inst. Technol.
  68. Malarkey J, Baas JH, Hope JA, Aspden RJ, Parsons DR. et al. 2015. The pervasive role of biological cohesion in bedform development. Nat. Commun. 6:6257 [Google Scholar]
  69. McInerney FA, Wing SL. 2011. The Paleocene-Eocene thermal maximum: a perturbation of carbon cycle, climate, and biosphere with implications for the future. Annu. Rev. Earth Planet. Sci. 39:489–516 [Google Scholar]
  70. Meyers SR. 2012. Seeing red in cyclic stratigraphy: spectral noise estimation for astrochronology. Paleoceanography 27:PA3228 [Google Scholar]
  71. Mohrig D, Heller PL, Paola C, Lyons WJ. 2000. Interpreting avulsion process from ancient alluvial sequences: Guadalope-Matarranya (northern Spain) and Wasatch Formation (western Colorado). GSA Bull 112:1787–803 [Google Scholar]
  72. Murray B, Paola C. 1994. A cellular model of braided rivers. Nature 371:54–57 [Google Scholar]
  73. Muto T, Steel RJ. 1997. Principles of regression and transgression: the nature of the interplay between accommodation and sediment supply. J. Sediment. Res. 67:994–1000 [Google Scholar]
  74. Muto T, Steel RJ. 2004. Autogenic response of fluvial deltas to steady sea-level fall: implications from flume-tank experiments. Geology 32:401–4 [Google Scholar]
  75. Nardin W, Edmonds DA. 2014. Optimum vegetation height and density for inorganic sedimentation in deltaic marshes. Nat. Geosci. 7:722–26 [Google Scholar]
  76. Olszewski TD. 2016. Biological self-organization: implications for sedimentary rocks with examples from shallow marine settings. SEPM Spec. Publ. 106:40–52 [Google Scholar]
  77. Paola C. 2016. A mind of their own: recent advances in autogenic dynamics in rivers and deltas. SEPM Spec. Publ. 106:5–17 [Google Scholar]
  78. Paola C, Heller PL, Angevine CL. 1992. The large-scale dynamics of grain-size variation in alluvial basins, 1: theory. Basin Res 4:73–90 [Google Scholar]
  79. Paola C, Straub K, Mohrig D, Reinhardt L. 2009. The “unreasonable effectiveness” of stratigraphic and geomorphic experiments. Earth-Sci. Rev. 97:1–43 [Google Scholar]
  80. Perron JT. 2017. Climate and the pace of erosional landscape evolution. Annu. Rev. Earth Planet. Sci. 45:561–91 [Google Scholar]
  81. Perron JT, Kirchner JW, Dietrich WE. 2009. Formation of evenly spaced ridges and valleys. Nature 460:502–5 [Google Scholar]
  82. Peters SE, Loss DP. 2012. Storm and fair-weather wave base: a relevant distinction. ? Geology 40:511–14 [Google Scholar]
  83. Plotnick RE. 2016. Lattice models in ecology, paleontology, and geology. SEPM Spec. Publ. 106:83–94 [Google Scholar]
  84. Plotnick RE, Gardner RH, O'Neill RV. 1993. Lacunarity indices as measures of landscape texture. Landsc. Ecol. 8:201–11 [Google Scholar]
  85. Postma G. 2014. Generic autogenic behaviour in fluvial systems: lessons from experimental studies. Spec. Publ. Int. Assoc. Sedimentol. 46:1–18 [Google Scholar]
  86. Purkis SJ, van de Koppel J, Burgess PM. 2016. Spatial self-organization in carbonate depositional environments. SEPM Spec. Publ. 106:53–66 [Google Scholar]
  87. Reitkerk M, van de Koppel J. 2008. Regular pattern formation in real ecosystems. Trends Ecol. Evol. 23:167–75 [Google Scholar]
  88. Reitz MD, Jerolmack DJ, Swenson JB. 2010. Flooding and flow path selection on alluvial fans and deltas. Geophys. Res. Lett. 37:L06401 [Google Scholar]
  89. Reitz MD, Pickering JL, Goodbred SL, Paola C, Steckler MS. et al. 2015. Effects of tectonic deformation and sea level on river path selection: theory and application to the Ganges-Brahmaputra-Meghna River Delta. J. Geophys. Res. Earth Surf. 120:671–89 [Google Scholar]
  90. Riebe CS, Kirchner JW, Finkel RC. 2004. Erosional and climatic effects on long-term chemical weather rates in granitic landscapes spanning diverse climate regimes. Earth Planet. Sci. Lett. 224:547–62 [Google Scholar]
  91. Romans BW, Castelltort S, Covault J, Fildani A, Walsh JP. 2015. Environmental signal propagation in sedimentary systems across timescales. Earth-Sci. Rev. 152:7–29 [Google Scholar]
  92. Sadler PM, Strauss DJ. 1990. Estimation of completeness of stratigraphical sections using empirical data and theoretical models. J. Geol. Soc. 147:471–85 [Google Scholar]
  93. Sheets BA, Hickson TA, Paola C. 2002. Assembling the stratigraphic record: depositional patterns and time-scales in an experimental alluvial basin. Basin Res 14:287–301 [Google Scholar]
  94. Slingerland R, Smith ND. 2004. River avulsions and their deposits. Annu. Rev. Earth Planet. Sci. 32:257–85 [Google Scholar]
  95. Stølum H-H. 1996. River meandering as a self-organization process. Nature 271:1710–13 [Google Scholar]
  96. Straub KM, Esposito CR. 2013. Influence of water and sediment supply on the stratigraphic record of alluvial fans and deltas: process controls on stratigraphic completeness. J. Geophys. Res. Earth Surf. 118:625–37 [Google Scholar]
  97. Straub KM, Li Q, Benson WM. 2015. Influence of sediment cohesion on deltaic shoreline dynamics and bulk sediment retention: a laboratory study. Geophys. Res. Lett. 42:9808–15 [Google Scholar]
  98. Straub KM, Paola C, Mohrig D, Wolinsky MA, George T. 2009. Compensational stacking of channelized sedimentary deposits. J. Sediment. Res. 79:673–88 [Google Scholar]
  99. Straub KM, Pyles DR. 2012. Quantifying the hierarchical organization of compensation in submarine fans using surface statistics. J. Sediment. Res. 82:889–98 [Google Scholar]
  100. Straub KM, Wang Y. 2013. Influence of water and sediment supply on the long-term evolution of alluvial fans and deltas: statistical characterization of basin-filling sedimentation patterns. J. Geophys. Res. Earth Surf. 118:1602–16 [Google Scholar]
  101. Sun T, Parker G. 2005. Transportational cyclic steps created by flow over an erodible bed: part 2: theory and numerical simulation. J. Hydraul. Res. 43:502–14 [Google Scholar]
  102. Tal M, Paola C. 2007. Dynamic single-thread channels maintained by the interaction of flow and vegetation. Geology 35:347–50 [Google Scholar]
  103. Thomson DJ. 1982. Spectrum estimation and harmonic analysis. Proc. IEEE 70:1055–96 [Google Scholar]
  104. Tipper JC. 2015. The importance of doing nothing: stasis in sedimentation systems and its stratigraphic effects. Geol. Soc. Lond. Spec. Publ. 404:105–22 [Google Scholar]
  105. Tornqvist TE, Bridge JS. 2002. Spatial variation of overbank aggradation rate and its influence on avulsion frequency. Sedimentology 49:891–905 [Google Scholar]
  106. Trampush S, Hajek E, Straub K, Chamberlin E. 2017. Identifying autogenic sedimentation in fluvial-deltaic stratigraphy: evaluating outcrop data using the compensation statistic. J. Geophys. Res. Earth Surf. 122:91–113 [Google Scholar]
  107. Turcotte DL. 1999. Self-organized criticality. Rep. Prog. Phys. 62:1377–429 [Google Scholar]
  108. Turing AM. 1952. The chemical basis of morphogenesis. Philos. Trans. R. Soc. B 237:37–72 [Google Scholar]
  109. Van Wagoner JC, Mitchum RM, Campion KM, Rahmanian VD. 1990. Siliciclastic Sequence Stratigraphy in Well Logs, Cores, and Outcrops: Concepts for High-Resolution Correlation of Time and Facies Tulsa, OK: Am. Assoc. Pet. Geol.
  110. Wang Y, Budd DA. 2016. Self-organized pattern formation in sedimentary geochemical systems. SEPM Spec. Publ. 106:67–82 [Google Scholar]
  111. Wang Y, Straub KM, Hajek EA. 2011. Scale-dependent compensational stacking: an estimate of autogenic time scales in channelized sedimentary deposits. Geology 39:811–14 [Google Scholar]
  112. Wasserstein RL, Lazar NA. 2016. The ASA's statement on p-values: context, process, and purpose. Am. Stat. 70:129–33 [Google Scholar]
  113. Weissmann GS, Hartley AJ, Nichols GJ, Scuderi LA, Olson M. et al. 2010. Fluvial form in modern continental sedimentary basins: distributive fluvial systems. Geology 38:39–42 [Google Scholar]
  114. Wolinsky M. 2009. Mass balance: the key to delta dynamics. EOS Trans. AGU 90:Fall Meet. Suppl.EP43F–06 (Abstr.) [Google Scholar]
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