Role of calcimicrobes and microbial carbonates in the Late Carboniferous (Moscovian) mounds in southern Guizhou, South China

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Abstract

Various microbial fabrics characterize late Moscovian mounds in Houchang Town, southern Guizhou, South China. The dominant components of the mounds are microbial boundstones with stromatolitic structures, irregular oncoid-like forms, and wrinkle structures. Calcimicrobes recognized in the mounds include Girvanella, Ortonella, Wetheredella-like, Palaeomicrocodium-like, and some problematic calcimicrobes occurring in deposits between microbial boundstones, in thrombolitic textures, and in some intraclasts. Microbial carbonates are common in the substrate and interior of the mounds, including thrombolitic textures, microstromatolites, microbial ooids, oncoids, irregular encrusted layers, microbial mat debris, and microbial micrite. Calcimicrobes and microbial carbonates played an important role in the construction of the mounds: Girvanella might have contributed as a source of lime mud that formed the mound and stabilized the coral frame; thrombolitic mats could trap and fix sediments and bioclasts, contributing to the stabilization of substrate and mound limestones; and, microbial boundstone, clotted micrite and micritized bioclast could provide a hard substrate for encrusting metazoans (e.g., bryozoans, Ivanovia). The abundant microbial fabrics in the mounds indicate that microbial activity was widespread in Moscovian reef mounds in southern Guizhou, and this suggests that microbial organisms were the primary mound builders in the study area.

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Key words: Microfossils Microbial carbonates Mounds Late Carboniferous Moscovian Guizhou

Corresponding Authors: * ,gongep@mail.neu.edu.cn

Cite this article:

. Role of calcimicrobes and microbial carbonates in the Late Carboniferous (Moscovian) mounds in southern Guizhou, South China[J]. Journal of Palaeogeography, 2019, 8(4): 346-359.

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http://journal09.magtechjournal.com/Jweb_jop/EN/10.1186/s42501-019-0041-7 OR http://journal09.magtechjournal.com/Jweb_jop/EN/Y2019/V8/I4/346


[1]	Adachi N.,Y. Ezaki, and J.W. Pickett.2006. Marked accumulation patterns characteristic of Lower Devonian stromatoporoid bindstone: Palaeoecological interactions between skeletal organisms and microbes.Palaeogeography, Palaeoclimatology, Palaeoecology 231(3): 331-346.

[2]	Antoshkina A.I.2006. Palaeoenvironmental implications ofPalaeomicrocodium in Upper Devonian microbial mounds of the Chernyshev Swell, Timan-Northern Ural Region. Facies 52(4): 611-625.

[3]	Antoshkina A.I.2014. Palaeomicrocodium: A new view on its origin.Paleontological Journal 48(4): 353-368.

[4]	Aretz M.,E. Poty,F.-X. Devuyst,L. Hance, and H.-F. Hou.2012. Late Tournaisian Waulsortian-like carbonate mud banks from South China (Longdianshan Hill, central Guangxi): Preliminary investigations.Geological Journal 47(5): 450-461.

[5]	BGMRG (Bureau of Geology and Mineral Resources of Guizhou Province). 1987. Regional Geology of Guizhou Province. Beijing: Geological Publishing House (in Chinese).

[6]	Chen X.-H.,E.-P. Gong,T.-H. Wang,C.-Q. Guan,Y.-L. Zhang,D.-Y. Yang, and H.-M. Wang.2013. The basic characteristics of Early Carboniferous coral reef at Xiadong Village in Tianlin, Guangxi, and its sedimentary environment.Acta Geologica Sinica 87(5): 597-608 (in Chinese with English abstract).

[7]	Chen Z.-Q.,G.R. Shi, and W.-R. Yang.2003. Internal structure and paleoecology of the lower Permian Uzunbulak reef complex of the Tarim Basin, Northwest China.Facies 49(1): 119-134.

[8]	Chevalier E.,M. Aretz.2005. A microbe-bryozoan reef from the middle Viséan of the Namur Syncline (Engihoul Quarry).Geologica Belgica 8(1): 109-119.

[9]	Christopher C.C.1990. Late MississippanGirvanella-bryozoan mud mounds in southern West Virginia. Palaios 5(5): 460-471.

[10]	Coniglio M.,N.P. James.1985. Calcified algae as sediment contributors to early Paleozoic limestones: Evidence from deep-water sediments of the Cow Head Group, Western Newfoundland.Journal of Sedimentary Research 55(5): 746-754.

[11]	Fagerstrom J.A.1994. The history of Devonian-Carboniferous reef communities: Extinctions, effects, recovery.Facies 30(1): 177-191.

[12]	Fang S.-X.,F.-H. Hou.1985. Bryozoan-coral patch reef of Datang age of Carboniferous period of Langping area, Tianlin County, Guangxi Province.Journal of Southwestern Petroleum Institute 4: 4-8 (in Chinese with English abstract).

[13]	Feng Z.-Z.,Y.-Q. Yang, and Z.-D. Bao.1999. Lithofacies palaeogeography of the Carboniferous in South China.Journal of Palaeogeography (Chinese Edition) 1(1): 75-86 (in Chinese with English abstract).

[14]	Flügel E.2004. Microfacies of Carbonate Rocks: Analysis, Interpretation and Application. Berlin Heidelberg, Dordrecht, London, New York: Springer-Verlag.

[15]	Friedman G.M.,C.D. Gebelein, and J.E. Sanders.1971. Micritic envelopes of carbonate grains are not exclusively of photosynthetic algal origin.Sedimentology 16(1-2): 89-96.

[16]	Gong E.-P.,E. Samankassou,C.-Q. Guan,Y.-L. Zhang, and B.-L. Sun.2007a. Paleoecology of Pennsylvanian phylloid algal buildups in South Guizhou, China.Facies 53: 615-623.

[17]	Gong E.-P.,H.-Y. Yang,C.-Q. Guan,B.-L. Sun, and Y.-Z. Yao.2004. Unique recovery stage of reef communities after F/F event in a huge coral reef of Carboniferous, southern Guizhou, China.Science China Earth Sciences 47(5): 412-418.

[18]	Gong E.-P.,Y.-L. Zhang,C.-Q. Guan, and B.-L. Sun.2007c. Primary features of reef-building communities of Carboniferous reef in South Guizhou Province.Acta Geologica Sinica 81(9): 1183-1194 (in Chinese with English abstract).

[19]	Gong E.-P.,Y.-L. Zhang,C.-Q. Guan, and B.-L. Sun.2010. Main features of the Carboniferous organic reefs in the world.Journal of Palaeogeography (Chinese Edition) 12(2): 127-139 (in Chinese with English abstract).

[20]	Gong E.-P.,Y.-L. Zhang,C.-Q. Guan, and X.-H. Chen.2012. The Carboniferous reefs in China.Journal of Palaeogeography 1(1): 27-42.

[21]	Gong E.-P.,Y.-L. Zhang,C.-Q. Guan,E. Samankassou, and B.L. Sun.2007b. Paleoecology of Late Carboniferous phylloid algae in southern Guizhou, SW China.Acta Geologica Sinica (English Edition) 81(4): 566-572.

[22]	Guan C.-Q.,E.-P. Gong,Y.-L. Zhang,B.-L. Sun,H. Chen,J.-H. Guo, and Q. Li.2007. A new type reef of the Late Carboniferous in the south of Guizhou Province.Geological Review 53(4): 433-439 (in Chinese with English abstract).

[23]	Guan C.-Q.,E.-P. Gong,Y.-Z. Yao, and B.-L. Sun.2004. Biocoenose community analysis of Bianping reefs of the Late Carboniferous in southern Guizhou Province.Journal of Palaeogeography (Chinese Edition) 6(3): 339-346 (in Chinese with English abstract).

[24]	Guan C.-Q.,E.-P. Gong,Y.-Z. Yao, and B.-L. Sun.2006. Palaeoecological characteristic ofIvanovia cf. manchurica coral and the reef mechanism of the Late-Carboniferous in the South of Guizhou Province. Geological Review 52(2): 178-183 (in Chinese with English abstract).

[25]	Guan C.-Q.,E.-P. Gong,Y.-Z. Yao,B.-L. Sun, and H.-L. Chang.2010. Tubiphytes in reef strata of the late Carboniferous in South Guizhou Province.Acta Sedimentologica Sinica 28(2): 219-226 (in Chinese with English abstract).

[26]	Hillgärtner H.,C. Dupraz, and W. Hug.2001. Microbially induced cementation of carbonate sands: Are micritic meniscus cements good indicators of vadose diagenesis?Sedimentology 48(1): 117-131.

[27]	Jarochowska E.,A. Munnecke.2014. The Paleozoic problematicaWetheredella and Allonema are two aspects of the same organism. Facies 60(2): 651-662.

[28]	Klement K.W.,D.F. Toomey.1967. Role of the blue-green algaGirvanella in skeletal grain destruction and lime-mud formation in the Lower Ordovician of West Texas. Journal of Sedimentary Research 4: 1045-1051.

[29]	Knoll A.H.,I.J. Fairchild, and K. Swett.1993. Calcified microbes in Neoproterozoic carbonates: Implications for our understanding of the Proterozoic/Cambrian transition.Palaios 8(6): 512-525.

[30]	Kobluk D.R.,M.J. Risk.1977. Calcification of exposed filaments of endolithic algae, micrite envelope formation and sediment production.Journal of Sedimentary Petrology 47(2): 517-528.

[31]	Lees A.1961. The Waulsortian “reefs” of Eire: A carbonate mudbank complex of Lower Carboniferous age.The Journal of Geology 69: 101-109.

[32]	Lees A.1964. The structure and origin of the Waulsortian (Lower Carboniferous) ‘reefs’ of West-Central Eire.Philosophical Transactions of the Royal Society of Landon, Series B, Biological Sciences 247(740): 483-531.

[33]	Lees A.1997. Biostratigraphy, sedimentology and palaeobathymetry of Waulsortian buildups and peri-Waulsortian rocks during the late Tournaisian regression, Dinant area, Belgium.Geological Journal 32: 1-36.

[34]	Lees, A.,J. Miller. 1995. Waulsortian banks. In: Monty, C.L.V., D.W.J. Bosence, P.H. Bridge, and B.R. Pratt, (Ed.). Carbonate mud-mounds: Their origin and evolution. The International Association of Sedimentologists. pp. 191-271.

[35]	Liu W.,X.-L. Zhang.2012. Girvanella-coated grains from Cambrian oolitic limestone.Facies 58(4): 779-787.

[36]	Liu Z.-H.2002. On factors of Carboniferous reef developing in Hunan: A comparing study with Akiyoshi reef in Japan.Chinese Journal of Geology 37(1): 38-46 (in Chinese with English abstract).

[37]	Macintyre I.G.,L. Prufert-Bebout, and R.P. Reid.2000. The role of endolithic cyanobacteria in the formation of lithified laminae in Bahamian stromatolites.Sedimentology 47(5): 915-921.

[38]	Mamet B.,A. Préat.1985. Sur la présence dePalaeomicrocodium(Algue?, Incertae sedis?) dans le Givétien inférieur de Belgique. Géobios 18(3): 389-395.

[39]	Martin J.-P.S.2010. TheGirvanella-like remains from Messinian marine deposits (Sardinia, Italy): Lagerstätten paradigm for microbial biota? Annales de Paléontologie 96(2): 33-50.

[40]	Miller J.1986. Facies relationships and diagenesis in Waulsortian mudmounds from the Lower Carboniferous of Ireland and N. England. In: Schroeder, J.H., and B.H. Purser, (Eds.) Reef Diagenesis. Berlin, Heidelberg, New York, London, Paris, Tokyo: Springer-Verlag. pp. 311-335.

[41]	Nakazawa T.2001. Carboniferous reef succession of the Panthalassan open-ocean setting: Example from Omi limestone, Central Japan.Facies 44(1): 183-210.

[42]	Pratt B.R.2001. Calcification of cyanobacterial filaments:Girvanella and the origin of Lower Paleozoic lime mud. Geology 29(9): 763-766.

[43]	Reid R.P.,P.T. Visscher,A.W. Decho,J.F. Stolz,B.M. Bebout,C. Dupraz,I.G. Macintyre,H.W. Paerl,J.L. Pinckney,L. Prufert-Bebout T.F. Steppe, and D.J. DesMarals.2000. The role of microbes in accretion, lamination and early lithification of modern marine stromatolites.Nature 406(6799): 989-992.

[44]	Riding R.1977. Calcified plectonema (blue-green algae), a recent example ofGirvanella from Aldabra Atoll. Palaeontology 20(1): 33-46.

[45]	Riding R.1991. Calcified Cyanobacteria. In: Riding, R., (Ed.). Calcareous Algae and Stromatolites. Berlin, Heidelberg, New York, London Paris, Tokyo, Hong Kong, Barcelona: Springer-Verlag. pp. 55-87.

[46]	Rong H.,Y.-Q. Jiao,Y.-B. Wang,L.-Q. Wu, and R. Wang.2014. Distribution and geologic significance ofGirvanella, within the Yijianfang Ordovician reef complexes in the Bachu area, West Tarim Basin, China. Facies 60(2): 685-702.

[47]	Shen J.-W.,G.E. Webb.2008. The role of microbes in reef-building communities of the Cannindah limestone (Mississippian), Monto region, Queensland, Australia.Facies 54(1): 89-105.

[48]	Shen J.-W.,H.-R. Qing.2010. Mississippian (Early Carboniferous) stromatolite mounds in a fore-reef slope setting, Laibin, Guangxi, South China.International Journal of Earth Sciences 99(2): 443-458.

[49]	Suchy D.R.,R.R. West.1988. A Pennsylvanian cryptic community associated with laminar chaetetid colonies.Palaios 3(4): 404-412.

[50]	Suchy D.R.,R.R. West.2001. Chaetetid buildups in a Westphalian (Desmoinesian) cyclothem in Southeastern Kansas.Palaios 16(5): 425-443.

[51]	Sun B.-L.,E.-P. Gong,C.-Q. Guan,Y.-Z. Yao, and Y.-L. Zhang.2007. Sedimentary environment and microfacies analysis of a Carboniferous coral reef in the Bianping village of Ziyun County, Guizhou.Acta Sedimentologica Sinica 25(3): 351-357 (in Chinese with English abstract).

[52]	Wang D.,Y.-L. Zhang,E.-P. Gong,C.-Q. Guan,J. Wang,W.-T. Huang,Z.-W. Miao,M.-X. Ruan-Shi Q. Chen, and X. Li.2017. Growth morphology of chaetetids and buildup of Late Carboniferous reefs along the Taizi River, Eastern Liaoning.Acta Geologica Sinica 91(10): 2309-2321 (in Chinese with English abstract).

[53]	Wang J.-B.,Y. Li,L. Cheng,X.-W. Zeng, and G. Wang.2014. Paleozoic reefs and their paleogeological controls in South China Block.Acta Palaeontologica Sinica 53(1): 121-131 (in Chinese with English abstract).

[54]	Webb G.E.2002. Latest Devonian and Early Carboniferous reefs: Depressed reef building after the middle Paleozoic collapse. In: Flugel, E., W. Kiessling, J. Golonka, (Eds.). Phanerozoic Reef Patterns. SEPM: Special Publication. 72: pp. 239-269.

[55]	West R.R.1988. Temporal changes in Carboniferous reef mound communities.Palaios 3(2): 152-169.

[56]	Wood A.1948. “Sphaerocodium,” a misinterpreted fossil from the Wenlock limestone. Proceedings of the Geologists’ Association 59: 9-22, 4pls.

[57]	Wood A.1957. The type-species of the genusGirvanella(calcareous algae). Palaeontology 1(1): 22-28.

[58]	Wu X.-H.1987. The Carboniferous biostratigraphy of Guizhou province, China.Acta Geologica Sinica 4: 285-295 (in Chinese with English abstract).

[59]	Yang D.-Y.,E.-P. Gong,B.-L. Sun,X.-H. Chen,C.-Q. Guan, and Y.-L. Zhang.2013. Longjiangdong coral reef palaeoecology of the Upper Carboniferous Huanglong Formation in Tianlin County, Guangxi Province.Acta Sedimentologica Sinica 31(3): 404-412 (in Chinese with English abstract).

[60]	Yang D.-Y.,E.-P. Gong,X.-H. Chen, and C.-Q. Guan.2014. Comparison of the Late Carboniferous reef community ecosystem in Guizhou and Guangxi.Journal of Northeastern University (Natural Science) 35(1): 107-111 (in Chinese with English abstract).

[61]	Yao L.,X.-D. Wang.2016. Distribution and evolution of Carboniferous reefs in South China.Palaeoworld 25(3): 362-376.

[62]	Yao L.,X.-D. Wang,W. Lin,Y. Li,S. Kershaw, and W.-K. Qie.2016. Middle Viséan (Mississippian) coral biostrome in central Guizhou, Southwestern China and its palaeoclimatological implications.Palaeogeography, Palaeoclimatology, Palaeoecology 448(SI): 179-194.

[63]	Zeng D.-Q.1996. A synopsis of oil field from Carboniferous algal reefs at Beibu Gulf. In: Fan, J.-S., (Ed.). The ancient organic reefs of China and their relations to oil and gas. Beijing: Ocean Press. pp. 152-156 (in Chinese).

[64]	Zhang L.-X.,J.-P. Zhou.2004. Late Carboniferous fusulinids from the type section of Dalaan stage in China.Acta Palaeontologica Sinica 43(4): 515-529 (in Chinese with English abstract).

[65]	Zhang Y.-L.,E.-P. Gong,C.-Q. Guan,E. Samankassou, and B.-L. Sun.2007. Carboniferous phylloid algal reefs in Ziyun County, Guizhou (South China): Evidence of algal blooms.Acta Sedimentologica Sinica 25(2): 177-182 (in Chinese with English abstract).

[66]	Zhang Y.-L.,E.-P. Gong,M.A. Wilson,C.-Q. Guan,B.-L. Sun, and H.-L. Chang.2009. Paleoecology of a Pennsylvanian encrusting colonial rugose coral in South Guizhou, China.Palaeogeography, Palaeoclimatology, Palaeoecology 280(3): 507-516.

[67]	Zhang Y.-L.,E.-P. Gong,M.A. Wilson,C.-Q. Guan,X.-H. Chen,W.-T. Huang,D. Wang, and Z.-W. Miao.2018. Palaeoecology of late Carboniferous encrusting chaetetids in North China.Palaeobiodiversity and Palaeoenvironments 98: 205-223.

[68]	Zhou H.-L.,Z.-X. Zhang.1991. The early Carboniferous stromatolitic algal reef in Laibin County, Guangxi.Geology of Guangxi 4(4): 1-5 (in Chinese with English abstract).