Abstract
Ichnological analysis of the carbonate contourite drift at the Petra Tou Romiou outcrop (southern Cyprus) reveals a relationship between sea level dynamics, shoreline position, sedimentation rate, flow hydrodynamics and trace fossil assemblages. The base of the outcrop is composed of chalky deposits showing the Zoophycos ichnofacies attributes. The transition to the first contouritic interval beds is marked by the gradual disappearance of Zoophycos and dominance of horizontal traces. This change is caused by a gradual sea level fall determining an increase in proximity and energy conditions in the environment that favoured the development of distal Cruziana ichnofacies. Upper contouritic interval beds contain abundant burrow systems with vertical components. Increased ichnodiversity, particularly among vertical morphologies, coincides with the appearance of Teichichnus, Gyrolithes and rare Ophiomorpha, revealing a transition to the proximal Cruziana ichnofacies, related with the maintenance of the previous trend toward more proximal and higher energy settings. The differentiated ichnofacies in the Petra Tou Roumiou carbonate drifts are controlled by complex interactions between variable environmental factors with sea level dynamics playing a major role.
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References
Anderson BG, Droser ML (1998) Ichnofabrics and geometric configurations of Ophiomorpha within a sequence stratigraphic framework: an example from the Upper Cretaceous US western interior. Sedimentology 45(2):379–396
Bertling M, Braddy SJ, Bromley RG, Demathieu GR, Genise J, Mikuláš R, Nielsen JK, Nielsen KSS, Rindsberg AK, Schlirf M, Uchman A (2006) Names for trace fossils: a uniform approach. Lethaia 39:265–286
Bromley RG (1991) Zoophycos: strip mine, refuse dump, cache or sewage farm? Lethaia 24(4):460–462
Bromley RG (1996) Trace fossils: biology, taphonomy and applications. Chapman and Hall, London
Bromley RG, Ekdale AA (1984) Chondrites: a trace fossil indicator of anoxia in sediments. Science 224:872–874
Brongniart AT (1823) Observations sur les Fucoïdes. Mémoires de la Société d’Histoire Naturelle de Paris 1:301–320
Brongniart AT (1828) Histoire des végétaux fossiles ou Recherches botaniques et géologiques sur les végétaux renfermés dans les diverses couches du globe. G. Dufour & E. d’Ocagne, Paris
Buatois L, Mángano MG (2011) Ichnology. Organism-Substrate Interactions in Space and Time. Cambridge University Press, Cambridge
de Gibert JM, Mas G, Ekdale AA (2012) Architectural complexity of marine crustacean burrows: unusual helical trace fossils from the Miocene of Mallorca, Spain. Lethaia 45:574–585
de la Vara A, Meijer P (2016) Response of Mediterranean circulation to Miocene shoaling and closure of the Indian Gateway: a model study. Palaeogeogr Palaeoclimatol Palaeoecol 442:96–109
Dorador J, Wetzel A, Rodríguez-Tovar FJ (2016) Zoophycos in deep-sea sediments indicates high and seasonal primary productivity: ichnology as a proxy in palaeoceanography during glacial–interglacial variations. Terra Nova 28:323–328
Eaton S, Robertson A (1993) The Miocene Pakhna Formation, southern Cyprus and its relationship to the Neogene tectonic evolution of the eastern Mediterranean. Sed Geol 86(3–4):273–296
Edwards S, Hudson-Edwards K, Cann J, Malpas J, Xenophontos C (2010) Classic geology in Europe 7 Cyprus. Terra Publishing, Harpenden
Frey RW, Howard JD (1990) Trace fossils and depositional sequences in a clastic shelf setting, Upper Cretaceous of Utah. J Paleontol 64(5):803–820
Frey RW, Pemberton SG (1987) The Psilonichnus ichnocoenose, and its relationship to adjacent marine and nonmarine ichnocoenoses along the Georgia coast. Bull Can Petrol Geol 35:333–357
Frey RW, Howard JD, Pryor WA (1978) Ophiomorpha: its morphologic, taxonomic, and environmental significance. Palaeogeogr Palaeoclimatol Palaeoecol 23:199–229
Frey RW, Curran HA, Pemberton SG (1984) Tracemaking activities of crabs and their environmental significance: the ichnogenus Psilonichnus. J Paleontol 58:333–350
Ghibaudo G, Grandesso P, Massari F, Uchman A (1996) Use of trace fossils in delineating sequence stratigraphic surfaces (Tertiary Venetian Molasse Basin, northeastern Italy). Palaeogeogr Palaeoclimatol Palaeoecol 120:261–279
Gingras MK, Dashtgard SE, MacEachern JA, Pemberton SG (2008) Biology of shallow marine ichnology: a modern perspective. Aquat Biol 2(3):255–268
Hernández-Molina FJ, Hüneke H, Rodriguez-Tovar FJ, Llave E, Ng ZL, Chiarella D, Suklap S, Docherty B, Mena A, Stow DAV (2018) Deep-water bottom current deposits from Cyprus: an ancient analogue for contourite terraces and plastered drifts? In: 20th Int. Sedimentological Congress, 13–17 August 2018. Quebec, Canada. Abstracts
Howard JD, Frey RW (1984) Characteristic trace fossils in nearshore to offshore sequences, Upper Cretaceous of east-central Utah. Can J Earth Sci 21(2):200–219
Hüneke H, Stow DAV (2008) Identification of ancient contourites: problems and palaeoceanographic significance. In: Rebesco M, Camerlenghi A (eds) Contourites Dev Sedimentol, vol 60. Elsevier, Amsterdam, pp 323–344
Hüneke H, Hernández-Molina FJ, Rodríguez-Tovar FJ, Llave E, Chiarella D, Mena A, Stow DAV (2019) Diagnostic criteria using microfacies for calcareous contourites, turbidites and pelagites in the Eocene-Miocene slope succession, southern Cyprus. Sedimentology (submitted)
Kähler G, Stow DAV (1998) Turbidites and contourites of the Palaeogene Lefkara Formation, southern Cyprus. Sed Geol 15:215–231
Keighley DG, Pickerill RK (1995) Commentary: the ichnotaxa Palaeophycus and Planolites: Historical perspectives and recommendations. Ichnos 3:301–309
Kinnaird T (2008) Tectonic and sedimentology response to diachronous continental collision in the easternmost Mediterranean, Cyprus. Ph.D. Thesis, University of Edinburgh
Knaust D (2017) Atlas of trace fossils in well core: appearance, taxonomy and interpretation. Springer, Cham
Knaust D (2018) The ichnogenus Teichichnus Seilacher, 1955. Earth Sci Rev 177:386–403
Knaust D, Bromley RG (2012) Trace fossils as indicators of sedimentary environments. Developments in sedimentology, vol 64. Elsevier, Amsterdam
Kotake N (1989) Paleoecology of the Zoophycos producers. Lethaia 22:327–341
Laing BA, Buatois LA, Mángano MG, Narbonne GM, Gougeon RC (2018) Gyrolithes from the Ediacaran-Cambrian boundary section in Fortune Head, Newfoundland, Canada: exploring the onset of complex burrowing. Palaeogeogr Palaeoclimatol Palaeoecol 495:171–185
Lauridsen BW, Surlyk F, Bromley RG (2011) Trace fossils of a cyclic chalk-marl succession; the upper Maastrichtian Rørdal Member, Denmark. Cretac Res 32:194–202
Lord AR, Harrison RW, BouDagher-Fadel M, Stone BD, Varol O (2009) Miocene mass-transport sediments, Troodos Massif, Cyprus. Proc Geol Assoc 120:133–138
Löwemark L (2012) Ethological analysis of the trace fossil Zoophycos: hints from the Arctic Ocean. Lethaia 45:290–298
Löwemark L (2015) Testing ethological hypotheses of the trace fossil Zoophycos based on Quaternary material from the Greenland and Norwegian Seas. Palaeogeogr Palaeoclimatol Palaeoecol 425:1–13
Lucchi RG, Rebesco M (2007) Glacial contourites on the Antarctic Peninsula margin: insight for palaeoenvironmental and palaeoclimatic conditions. In: Viana AR, Rebesco M (eds) Economic and palaeoceanographic significance of contourite deposits. Geol Soc London Special Publ, vol 276, pp 111–127
MacEachern JA, Bann KL, Hampson GJ, Steel RJ, Burgess PM, Dalrymple RW (2008) The role of ichnology in refining shallow marine facies models. In: Hampson GJ, Steel RJ, Burgess PB, Dalrymple RW (eds) Recent advances in models of siliciclastic shallow-marine stratigraphy. SEPM Spec Publ, vol 90, pp 73–116
MacEachern JA, Pemberton SG, Gingras MK, Bann KL (2007a) The Ichnofacies Paradigm: a fifty-year retrospective. In: Miller W (ed) Trace fossils. Concepts, problems, prospects. Elsevier, Amsterdam, pp 52–77
MacEachern JA, Pemberton SG, Gingras MK, Bann KL, Dafoe LT (2007b) Use of trace fossils in genetic stratigraphy. In: Miller W (ed) Trace fossils. Concepts, problems, prospects. Elsevier, Amsterdam, pp 105–128
MacEachern JA, Pemberton SG, Gingras MK, Bann KL, James NP, Dalrymple RW (2010) Ichnology and facies models. Facies Models 4:19–58
MacEachern JA, Bann KL, Gingras MK, Zonneveld J-P, Dashtgard SE, Pemberton SG (2012a) The ichnofacies paradigm. In: Knaust D, Bromley RG (eds) Trace fossils as indicators of sedimentary environments. Dev Sedimentol, vol 64. Elsevier, Amsterdam, pp 103–138
MacEachern JA, Dashtgard SE, Knaust D, Catuneanu O, Bann KL, Pemberton SG (2012b) Sequence stratigraphy. In: Knaust D, Bromley RG (eds) Trace fossils as indicators of sedimentary environments. Dev sedimentol, vol 64. Elsevier, Amsterdam, pp 157–194
Malpas JA, Gawthorpe RL, Pollard JE, Sharp IR (2005) Ichnofabric analysis of the shallow marine Nukhul Formation (Miocene), Suez Rift, Egypt: implications for depositional processes and sequence stratigraphic evolution. Palaeogeogr Palaeoclimatol Palaeoecol 215(3–4):239–264
Miguez-Salas O, Rodríguez-Tovar FJ (2019) Stable deep-sea macrobenthic trace maker associations in disturbed environments from the Eocene Lefkara Formation, Cyprus. Geobios 52:37–45
Monaco P, Caracuel Martín JE, Giannetti A, Soria Mingorance JM, Yébenes Simón A (2007) Thalassinoides and Ophiomorpha as cross-facies trace fossils of crustaceans from shallow-to-deep-water environments: Mesozoic and Tertiary examples from Italy and Spain. In: Garassino A, Feldmann RM, Teruzzi G (eds) 3rd Symposium on Mesozoic and Cenozoic Decapod Crustaceans, 35, Societa Italiana di Scienze Naturali e del Museo Civico di Storia Naturale di Milano Memorie, pp 79–82
Monaco P, Bracchini L, Rodríguez-Tovar FJ, Uchman A, Coccioni R (2017) Evolutionary trend of Zoophycos morphotypes from the Upper Cretaceous-Lower Miocene in the type pelagic sections of Gubbio, Italy. Lethaia 50:41–57
Netto RG, Buatois LA, Mángano MG, Balistieri PRMN (2007) Gyrolithes as a multipurpose burrow: an ethologic approach. Rev Bras Paleontol 10(3):157–168
Olóriz F, Rodríguez-Tovar FJ (2000) Diplocraterion: a useful marker for sequence stratigraphy and correlation in the Kimmeridgian, Jurassic (Prebetic Zone, Betic Cordillera, southern Spain). Palaios 15(6):546–552
Pemberton SG, Frey RW, Ranger MJ, MacEachern J (1992) The conceptual framework of ichnology. Appl Ichnol Pet Explor 17:1–32
Pemberton SG, MacEachern JA, Dashtgard SE, Bann KL, Gingras MK, Zonneveld JP (2012) Shorefaces. In: Knaust D, Bromley RG (eds) Trace fossils as indicators of sedimentary environments. Dev Sedimentol, vol 64. Elsevier, Amsterdam, pp 563–603
Pollard JE, Goldring R, Buck SG (1993) Ichnofabrics containing Ophiomorpha: significance in shallow-water facies interpretation. J Geol Soc 150(1):149–164
Rasmussen SL, Surlyk F (2012) Facies and ichnology of an Upper Cretaceous chalk contourite drift complex, eastern Denmark, and the validity of contourite facies models. J Geol Soc 169:435–447
Rebesco M, Hernández-Molina FJ, Van Rooij D, Wåhlin A (2014) Contourites and associated sediments controlled by deep-water circulation processes: state-of-the-art and future considerations. Mar Geol 352:111–154
Reolid J, Betzler C (2019) The ichnology of carbonate drifts. Sedimentology 66:1427–1448
Rodríguez-Tovar FJ, Hernández-Molina FJ (2018) Ichnological analysis of contourites: past, Present and future. Earth Sci Rev 183:28–41
Rodríguez-Tovar FJ, Pérez-Valera F (2008) Trace fossil Rhizocorallium from the Middle Triassic of the Betic Cordillera, Southern Spain: characterization and environmental implications. Palaios 23(2):78–86
Rodríguez-Tovar FJ, Uchman A (2004) Trace fossils after the K-T boundary event from the Agost section, SE Spain. Geol Mag 141:429–440
Rodríguez-Tovar FJ, Uchman A (2017) The Faraoni event (latest Hauterivian) in ichnological record: the Rio Argos section of southern Spain. Cretac Res 79:109–121
Rodríguez-Tovar FJ, Pérez-Valera F, Pérez-López A (2007) Ichnological analysis in high-resolution sequence stratigraphy: the Glossifungites ichnofacies in Triassic successions from the Betic Cordillera (southern Spain). Sed Geol 198(3–4):293–307
Rodríguez-Tovar FJ, Puga-Bernabéu Á, Buatois LA (2008) Large burrow systems in marine Miocene deposits of the Betic Cordillera (Southeast Spain). Palaeogeogr Palaeoclimatol Palaeoecol 268:19–25
Rodríguez-Tovar FJ, Uchman A, Martín-Algarra A (2009) Oceanic anoxic event at the Cenomanian-Turonian boundary interval (OAE-2): ichnological approach from the Betic Cordillera, southern Spain. Lethaia 42:407–417
Rodríguez-Tovar FJ, Uchman A, Payros A, Orue-Etxebarria X, Apellaniz E, Molina E (2010) Sea-level dynamics and palaeoecological factors affecting trace fossil distribution in Eocene turbiditic deposits (Gorrondatxe section, N Spain). Palaeogeogr Palaeoclimatol Palaeoecol 285:50–65
Rodríguez-Tovar FJ, Miguez-Salas O, Duarte LV (2017) Toarcian Oceanic Anoxic Event induced unusual behaviour and palaeobiological changes in Thalassinoides tracemakers. Palaeogeogr Palaeoclimatol Palaeoecol 485:46–56
Rodríguez-Tovar FJ, Hernández-Molina FJ, Hüneke H, Llave E, Stow DAV (2019a) Contourite facies model: improving contourite characterization based on the ichnological analysis. Sed Geol 384:60–69
Rodríguez-Tovar FJ, Hernández-Molina FJ, Hüneke H, Chiarella D, Llave E, Mena A, Miguez-Salas O, Dorador J, De Castro S, Stow DAV (2019b) Key evidence for distal turbiditic-and bottom-current interactions from tubular turbidite infills. Palaeogeogr Palaeoclimatol Palaeoecol 533:109233
Rodríguez-Tovar FJ, Miguez-Salas O, Hernández-Molina FJ, Hüneke H (2019c) First record of graphoglyptids in Cyprus: indicative presence of turbidite deposits at the Pakhna Formation. Ichnos (in press)
Sansom P (2018) Hybrid turbidite-contourite systems of the Tanzanian margin. Petrol Geosci 24(3):258–276
Savrda CE (2012) Chalk and related deep-marine carbonates. In: Knaust D, Bromley, RG (eds) Trace fossils as indicators of sedimentary environments. Dev. Sedimentol. pp 777–806
Seilacher A (1967) Bathymetry of trace fossils. Mar Geol 5:413–428
Stow DAV, Faugères JC (2008) Contourite facies and the facies model. In: Rebesco M, Camerlenghi A (eds) Contourites. Dev Sedimentol, vol 60. Elsevier, Amsterdam, pp 223–256
Stow DAV, Kahler G, Reeder M (2002) Fossil contourites: type example from an Oligocene palaeoslope system, Cyprus. Geol Soc Lond Mem 22(1):443–455
Thistle D, Yingst JY, Fauchald K (1985) A deep-sea benthic community exposed to strong nearbottom currents on the Scotian Rise (western Atlantic). Mar Geol 66:91–112
Thistle D, Ertman SC, Fauchald K (1991) The fauna of the HEBBLE site: Patterns in standing stock and sediment-dynamic effects. Mar Geol 99:413–422
Uchman A (1998) Taxonomy and ethology of flysch trace fossils: revision of the Marian Ksiazkiewicz collection and studies of complementary material. Ann Soc Geol Pol 68:105–218
Uchman A (2009) The Ophiomorpha rudis ichnosubfacies of the Nereites ichnofacies: characteristics and constraints. Palaeogeogr Palaeoclimatol Palaeoecol 276(1–4):107–119
Uchman A, Hanken NM (2013) The new trace fossil Gyrolithes lorcaensis isp. n. from the Miocene of SE Spain and a critical review of the Gyrolithes ichnospecies. Stratigr Geol Correl 21(3):312–322
Uchman A, Wetzel A (2012) Deep-sea fans. In: Knaust D, Bromley RG (eds) Trace fossils as indicators of sedimentary environments. Dev. Sedimentol. pp. 643–671
Uchman A, Caruso C, Sonnino M (2012) Taxonomic review of Chondrites affinis (Sternberg, 1833) from Cretaceous-Neogene offshore-deep-sea Tethyan sediments and recommendation for its further use. Riv Ital Paleontol S 118(2):313–324
Wetzel A, Uchman A (2012) Hemipelagic and pelagic basin plains. In: Knaust D, Bromley, RG (eds) Trace fossils as indicators of sedimentary environments. Developments in Sedimentology 64. Elsevier, pp 673–701
Wetzel A, Werner F, Stow DAV (2008) Bioturbation and biogenic sedimentary structures in contourites. In: Rebesco M, Camerlenghi A (eds) Contourites. Dev Sedimentol, vol 60. Elsevier, Amsterdam, pp 183–202
Wetzel A, Tjallingii R, Stattegger K (2010) Gyrolithes in Holocene estuarine incised-valley fill deposits, offshore southern Vietnam. Palaios 25(4):239–246
Zhang LJ, Fan RY, Gong YM (2015) Zoophycos macroevolution since 541 Ma. Sci Rep 5:14954
Acknowledgements
This study was funded by project CGL2015-66835-P (Secretaría de Estado de I + D+I, Spain), Research Group RNM-178 (Junta de Andalucía), and Scientific Excellence Unit UCE-2016-05 (Universidad de Granada). The research of Olmo Miguez-Salas is funded through a pre-doctoral grant from the Ministerio de Educación, Cultura y Deporte (Gobierno de España) (Grant no. FPU16/01173). The research was conducted with the “Ichnology and Palaeoenvironment Research Group” (UGR) and “The Drifters Research Group” (RHUL). We would like to thanks Dr. Wolf-Christian Dullo (Editor-in-Chief, International Journal of Earth Sciences), and both reviewers (Drs. Uchman and Netto) for comments and suggestions of the previous version of this manuscript.
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Miguez-Salas, O., Rodríguez-Tovar, F.J. Ichnofacies distribution in the Eocene-Early Miocene Petra Tou Romiou outcrop, Cyprus: sea level dynamics and palaeoenvironmental implications in a contourite environment. Int J Earth Sci (Geol Rundsch) 108, 2531–2544 (2019). https://doi.org/10.1007/s00531-019-01775-x
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DOI: https://doi.org/10.1007/s00531-019-01775-x