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Palaeoenvironmental and biostratigraphic implications of microbial mat-related structures:Examples from the modern Gulf of Cambay and the Precambrian Vindhyan Basin,India

Palaeoenvironmental and biostratigraphic implications of microbial mat-related structures:Examples from the modern Gulf of Cambay and the Precambrian Vindhyan Basin,India
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摘要 A stretch of the modern hypersaline coastal plain of the Gulf of Cambay was chosen to examine the distribution of the microbial mat-related structures(MRS) on siliciclastic sediments in the intertidal and supratidal zones.The abundance of MRS increases from the lower intertidal zone to the upper supratidal zone while the type of MRS records a systematic change.While the lower intertidal zone exhibits wrinkle structures,sieve-like surfaces and patchy ripples in places,the upper intertidal zone exhibits diverse MRS related to reduced current activity on the mat layer and intermittent exposure.MRS in the upper intertidal zone include wrinkle structures,sieve-like surfaces,gas domes,reticulated surfaces,multi-directional ripples,patchy ripples,rolled-up mat fragments,setulfs and occasional petee ridges and cracked mat surfaces.The lower supratidal zone is characterized by increased occurrence of petee ridges,gas domes and cracked mat surfaces compared to the upper intertidal zone.The upper supratidal zone is distinguished by the presence of abundant cracked mat surfaces,petee ridges,gas domes and wrinkle structures.The presence of cm-scale,disc-shaped microbial colonies(DMC) with a variety of internal structures is a unique feature of the Gulf of Cambay study area.While wrinkle structures occur in all the coastal zones,setulfs occur close to the boundary between the upper intertidal and lower supratidal zones.An attempt has been made to compare the distribution of MRS in this modern environment with those in the ~1.6 Ga Chorhat Sandstone of the Vindhyan Supergroup for high-resolution palaeoenvironmental interpretation.The upper part of the intertidal segment of the Chorhat Sandstone is distinguished from its lower part by the presence of abundant cracked mat surfaces,petee ridges and gas domes in the former,while wrinkle structures,Kinneyia,rolled-up mat fragments,patchy ripples and multi-directional ripples are equally abundant in both parts.The lower part of the intertidal segment of the Chorhat Sandstone is thus analogous to the upper intertidal zone of the modern Gulf of Cambay environment,while the upper part of the Chorhat intertidal segment reflects prolonged exposure close to the high tide line.The bottom-most part of the intertidal segment of the Chorhat Sandstone with fewer MRS corresponds to the lower intertidal zone at Cambay.Inferred disc-shaped microbial fossils within Vindhyan sandstones are analogous to the DMC found in the modern environment and these features do not have any biostratigraphic implication. A stretch of the modern hypersaline coastal plain of the Gulf of Cambay was chosen to examine the distribution of the microbial mat-related structures(MRS) on siliciclastic sediments in the intertidal and supratidal zones.The abundance of MRS increases from the lower intertidal zone to the upper supratidal zone while the type of MRS records a systematic change.While the lower intertidal zone exhibits wrinkle structures,sieve-like surfaces and patchy ripples in places,the upper intertidal zone exhibits diverse MRS related to reduced current activity on the mat layer and intermittent exposure.MRS in the upper intertidal zone include wrinkle structures,sieve-like surfaces,gas domes,reticulated surfaces,multi-directional ripples,patchy ripples,rolled-up mat fragments,setulfs and occasional petee ridges and cracked mat surfaces.The lower supratidal zone is characterized by increased occurrence of petee ridges,gas domes and cracked mat surfaces compared to the upper intertidal zone.The upper supratidal zone is distinguished by the presence of abundant cracked mat surfaces,petee ridges,gas domes and wrinkle structures.The presence of cm-scale,disc-shaped microbial colonies(DMC) with a variety of internal structures is a unique feature of the Gulf of Cambay study area.While wrinkle structures occur in all the coastal zones,setulfs occur close to the boundary between the upper intertidal and lower supratidal zones.An attempt has been made to compare the distribution of MRS in this modern environment with those in the ~1.6 Ga Chorhat Sandstone of the Vindhyan Supergroup for high-resolution palaeoenvironmental interpretation.The upper part of the intertidal segment of the Chorhat Sandstone is distinguished from its lower part by the presence of abundant cracked mat surfaces,petee ridges and gas domes in the former,while wrinkle structures,Kinneyia,rolled-up mat fragments,patchy ripples and multi-directional ripples are equally abundant in both parts.The lower part of the intertidal segment of the Chorhat Sandstone is thus analogous to the upper intertidal zone of the modern Gulf of Cambay environment,while the upper part of the Chorhat intertidal segment reflects prolonged exposure close to the high tide line.The bottom-most part of the intertidal segment of the Chorhat Sandstone with fewer MRS corresponds to the lower intertidal zone at Cambay.Inferred disc-shaped microbial fossils within Vindhyan sandstones are analogous to the DMC found in the modern environment and these features do not have any biostratigraphic implication.
出处 《Journal of Palaeogeography》 SCIE 2014年第2期127-144,共18页 古地理学报(英文版)
关键词 microbial mat discoidal microbial colony setulf petee ridge gas dome PRECAMBRIAN Vindhyan Basin Gulf of Cambay INDIA microbial mat,discoidal microbial colony,setulf,petee ridge,gas dome,Precambrian,Vindhyan Basin,Gulf of Cambay,India
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  • 1Ainsworth,E.B,Crowley,S.F. Wave-dominated nearshore sedimentation and ‘forced’ regression:Post-abandonment facies,Great Limestone Cyclothem,Stainmore,UK[J].{H}Journal of the Geological Society,1994.681-695.
  • 2Allen,P.A,Hoffman,P.F. Extreme winds and waves in the aftermath of a Neoproterozoic glaciation[J].{H}NATURE,2005.123-127.
  • 3Allen,P.A,Underhill,J.R. Swaley cross-stratification produced by unidirectional flows,Bencliff Grit(Upper Jurassic),Dorset,UK[J].{H}Journal of the Geological Society,1989.241-252.
  • 4Amos,C.L,Li,M.Z,Choung,K.S. Storm-generated,hummocky stratification on the outer-Scotian Shelf[J].{H}Geo-Marine Letters,1996.85-94.
  • 5Anderson,R.S,Bunas,K.L. Grain size segregation and stratigraphy in Aeolian ripples modeled with a cellular automaton[J].{H}NATURE,1993.740-743.
  • 6Aspler,L.B,Chiarenzelli,J.R,Bursey,T.L. Ripple marks in quartz arenites of the Hurwitz Group,northwest Territories,Canada:Evidence for sedimentation in a vast,early Proterozoic,shallow,fresh-water lake[J].{H}Journal of Sedimentary Research,1994.282-298.
  • 7Bandeira,J,McGee,B,Nogueira,A.C.R,Collins,A.S Trindade,R. Sedimentological and provenance response to Cambrian closure of the Clymene ocean:The upper Alto Paraguai Group,Paraguay Belt,Brazil[J].{H}Gondwana research,2012.323-340.
  • 8Benan,C.A.A,Deynoux,M. Facies analysis and sequence stratigraphy of Neoproterozoic platform deposits in Adrar of Mauritania,Taoudeni basin,West Africa[J].Geo Rundsch,1998.283-302.
  • 9Bhattacharyya,A,Sarkar,S,Chanda,S.K. Storm deposits in the Late Proterozoic lower Bhander Sandstone of Vindhyan Supergroup around Maihar,Satna District,Madhya Pradesh,India[J].{H}Journal of Sedimentary Petrology,1980.1327-1336.
  • 10Bondevik,S. The sands of tsunami time[J].{H}NATURE,2008.1183-1184.

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