Abstract Rivers are amongst the most dynamic geomorphological elements of the landscape.One spectacular hypothesis,i.e., the prominence of the meandering river in the Middle Paleozoic was genetically and closely related to the bloom of terrestrial vegetation, leads to the further research on the sedimentological impact of the terrestrial vegetation to fluvial deposits.Although there were some different recognitions or controversies,more and more geological facts supported that terrestrial vegetation had made obvious impact on fluvial sedimentation.On the basis of the research results finished by predecessors,this paper will introduce the coupling relationship between the origin and evolution of the terrestrial vegetation and the fluvial sedimentation especially for the change of river styles according to evolutionary stages of the terrestrial vegetation and the key events occurred in the early-middle period of the Paleozoic.Seeking these important advancements will be helpful to the right interpretation of fluvial deposits,and will provide insights for the modern and ancient fluvial processes.Furthermore,the Paleozoic colonization of terrestrial landscapes by embryophytes(land plants)was among the most profound changes in the long river of Earth history.Global changes that are genetically related to this profound change include: (1)drawdown of atmospheric CO2 due to enhanced rock weathering and carbon storage;(2)the Late Paleozoic glaciation;and (3)marine extinctions linked to increased runoff of terrestrial nutrients,and so on.Therefore,the sedimentological impact of the terrestrial vegetation on fluvial sedimentation becomes an important theme on biosedimentation studies.
About author: Mei Mingxiang,born in 1965,graduated from China University of Geosciences(Beijing)with his Ph.D.degree in 1993.Now he is a professor at School of Earth Sciences and Resources,China University of Geosciences(Beijing),and is engaged in sedimentology and stratigraphy.E-mail:meimingxiang@263.net.
Cite this article:
Mei Mingxiang,Liu Shaofeng. Sedimentological impact of terrestrial vegetation on fluvial sedimentation: An important theme on biosedimentation studies[J]. JOURNAL OF PALAEOGEOGRAPHY, 2013, 15(1): 1-10.
Mei Mingxiang,Liu Shaofeng. Sedimentological impact of terrestrial vegetation on fluvial sedimentation: An important theme on biosedimentation studies[J]. JOPC, 2013, 15(1): 1-10.
梅冥相.2011a.陆源碎屑岩中微生物诱发的沉积构造的成因类型及其分类体系[J].地质论评,57(3):419-436. 梅冥相.2011b.微生物席沉积学: 一个年轻的沉积学分支[J].地球科学进展,26(6):586-597. 梅冥相,孟庆芬,刘智荣.2007.微生物形成的原生沉积构造研究进展综述[J].古地理学报,9(4):353-367. 梅冥相,高金汉,孟庆芬,等.2009.前寒武纪与微生物席相关的粉砂岩岩墙:以天津蓟县古元古界串岭沟组为例[J].古地理学报,11(1):37-50. 史晓颖,王新强,蒋干清,等.2008.贺兰山地区中元古代微生物席成因构造: 远古时期微生物群活动的沉积标示[J].地质论评,54(5):577-586. Algeo T J,Scheckler S E.1998.Terrestrial-marine teleconnections in the Devonian: Links between the evolution of land plants,weathering processes,and marine anoxic events[J].Philosophical Transactions of the Royal Society of London,B 353: 113-130. Algeo T J,Scheckler S E,Maynard J B.2001.Effects of the Middle to Late Devonian spread of vascular land plants on weathering regimes,marine biotas,and global climate[C].In: Gensel P G,Edwards D(eds).Plants Invade the Land: Evolutionary and Environmental Perspectives.New York: Columbia University Press,213-236. Boucot A J,Gray J.2001.A critique of Phanerozoic climatic models involving changes in the CO2 content of the atmosphere[J].Earth-Science Reviews,56: 1-159. Berner R A.1991,A model for atmospheric CO2 over Phanerozoic time[J].American Journal of Science,291: 339-376. Berner R A.1994.GEOCARB Ⅱ: A revised model of atmospheric CO2 over Phanerozoic time[J].American Journal of Science,294: 56-91. Berner R A.2001.The effect of the rise of land plants on atmospheric CO2 during the Paleozoic[C].In: Gensel P G,Edwards D(eds).Plants Invade the Land.New York: Columbia University Press,173-178. Berner R A.2006.GEOCARBSULF: A combined model for Phanerozoic atmospheric O2 and CO2[J].Geochimica et Cosmochimica Acta,70: 5653-5664. Berner R A,Kothavala Z.2001.GEOCARB Ⅲ: A revised model of atmospheric CO2 over Phanerozoic time[J].American Journal of Science,301: 182-204. Berry C M,Fairon-Demaret M.2001.The Middle Devonian Flora revisited[J].In: Gensel P G,Edwards D(eds).Plants Invade the Land: Evolutionary and Environmental Perspectives.New York: Columbia University Press,120-139. Bottjer D J.2005.Geobiology and the fossil record: Eukaryotes,microbes,and their interactions[J].Palaeogeography,Palaeoclimatology,Palaeoecology,219: 5-21. Bridge J S.2006.Fluvial facies models: Recent developments[C].In: Posamentier H W,Walker R G(eds).Facies Models Revisted.SEPM: Society for Sedimentary Geology,85-170. Buatois L A,Mngano M G,Genise J F, et al.1998.Theichnologicrecordof the continental invertebrate invasion: Evolutionary trends in environmental expansion,ecospace utilization,and behavioral complexity[J].Palaios,13: 217-240. Corenblit D,Steiger J.2009.Vegetation as a major conductor of geomorphic changes on the Earth surface: Toward evolutionary geomorphology[J].Earth Surface Processes and Landforms,34: 891-896. Corenblit D,Steiger J,Gurnell A M, et al.2007.Darwinian origin of landforms[J].Earth Surface Processes and Landforms,32: 2070-2073. Cotter E.1978.The evolution of fluvial style,with special reference to the central Appalachian Paleozoic[C].In: Miall A D(ed).Fluvial Sedimentology.Canadian Society of Petroleum Geologists Memoir,5: 361-383. Crowley T J,Berner R A.2001.CO2 and climate change[J].Science,289: 270-277. Davies N S,Gibling M R.2010a.Cambrian to Devonian evolution of alluvial systems: The sedimentological impact of the earliest land plants[J].Earth-Science Reviews,98: 171-200. Davies N S,Gibling M R.2010b.Paleozoic vegetation and the Siluro-Devonian rise of fluvial lateral accretion sets[J].Geology,38: 51-54. Dott Jr R H,Byers C W.1981.SEPM research conference on modern shelf and ancient cratonic sedimentation: The orthoquartzite-carbonate suite revisited[J].Journal of Sedimentary Petrology,51: 329-347. Driese S G,Mora C Ⅰ.2001.Diversification of Siluro-Devonian plant traces in paleosols and influence on estimates of paleoatmospheric CO2 levels[C].In: Gensel P G,Edwards D(eds).Plants Invade the Land.New York: Columbia University Press,237-253. Driese S G,Medaris Jr L G,Ren M, et al.2007.Differentiating pedogenesis from diagenesis paleoweathering surfaces formed on granitic composition parent materials[J].Journal of Geology, 115:387-406. Fuller A O.1985.A contribution to the conceptual modelling of pre-Devonian fluvial systems[J].Transactions Geological Society of South Africa,88: 189-194. Gensel P G.2008.The earliest land plants[J].Annual Review of Ecology,Evolution,and Systematics,39: 459-477. Gensel P G,Kotyk M E,Basinger J F.2001.Morphology of above-and below-ground structures in Early Devonian(Pragian-Emsian)Plants[C].In: Gensel P G,Edwards D(eds).Plants Invade the Land: Evolutionary and Environmental Perspectives.New York: Columbia University Press,83-102. Gibling M R.2006.Width and thickness of fluvial channel bodies and valley fills in the geological record: A literature compilation and classiflcation[J].Journal of Sedimentary Research,76: 731-770. Glasspool I J,Edwards D,Axe L.2004.Charcoal in the Silurian as evidence for the earliest wildfire[J].Geology,33: 589-592. Glasspool I J,Edwards D,Axe L.2006.Charcoal in the Early Devonian: A wildfire-preserved Konservat-Lagerstatte[J].Review of Palaeobotany and Palynology,142: 131-136. Godderis Y,Joachimski M M.2004.Global change in the Late Devonian: Modeling the Frasnian-Famennian short-term carbon isotope excursions[J].Palaeogeography,Palaeoclimatology,Palaeoecology,202: 309-329. Gradziński R,Baryfia J,Doktor M, et al.2003.Vegetation-controlled modern anastomosing system of the upper Narew River(NE Poland)and its sediments[J]. Sedimentary Geology,157: 253-276. Hernick L V, Landing E, Bartowski I. 2008. Earth's oldest liverworts:Metzgeriothallus sharonae sp. nov. from the Middle Devonian(Givetian) of eastern New York, USA[J]. Review of Palaeobotany, 148:154-162. Hillier R D,Edwards D,Morrissey L B.2008.Sedimentological evidence for rooting structures in the Early Devonian Anglo-Welsh Basin(UK),with speculation on their producers[J].Palaeogeography,Palaeoclimatology,Palaeoecology,270: 366-388. Horodyski R J,Knauth L P.1994.Life on land in the Precambrian[J].Science,263: 494-498. Jones C G,Lawton J H,Shachak M.1994.Organisms as ecosystem engineers[J].Oikos,69: 373-386. Kennedy M,Droser M,Mayer L M, et al.2006.Late Precambrian oxygenation: Inception of the clay mineral factory[J].Science,311: 1446-1449. Labandeira C C.2005.Invasion of the continents: Cyanobacterial crusts to tree-inhabiting arthropods[J].Trends in Ecology and Evolution,20: 253-262. Long D G F.2004.Precambrian Rivers[C].In: Eriksson P G,Altermann W,Nelson D R, et al(eds).The Precambrian Earth: Tempos and Events.Amsterdam: Elsevier,660-663. Long D G F.2006.Architecture of pre-vegetation sandy-braided perennial and ephemeral river deposits in the Paleoproterozoic Athabasca Group,northern Saskatchewan,Canada as indicators of Precambrian fluvial style[J].Sedimentary Geology,190: 71-95. MacNaughton R B,Dalrymple R W,Narbonne G M.1997.Early Cambrian braid-delta deposits,MacKenzie Mountains,north-western Canada[J].Sedimentology,44: 587-609. Makaske B.2001.Anastomosing rivers: A review of their classification,origin and sedimentary products[J].Earth-Science Reviews,53: 149-196. Malkowski K,Racki G.2009.A global biogeochemical perturbation across the Silurian-Devonian boundary: Ocean-continent-biosphere feedbacks[J].Palaeogeography,Palaeoclimatology,Palaeoecology,276: 244-254. McCourt R M,Delwiche C F,Karol K G.2004.Charophyte algae and land plant origins[J].Trends in Ecology and Evolution,19: 661-666. Murray A B,Knaapen M A F,Tal M, et al.2008.Biomorphodynamics: Physical-biological feedbacks that shape landscapes[J].Water Resources Research,44: 11301-11306. Noffke N.2009.The criteria for the biogeneicity of microbially induced sedimentary structures(MISS)in Archean and younger,sandy deposits[J].Earth-Science Reviews,96: 173-180. Noffke N.2010.Geobiology: Microbial Mats in Sandy Deposits from the Archean Era to Today[M].Berlin: Springer-Verlag,1-194. Pflüger F.1999.Matground structures and redox facies[J].Palaios,14: 25-39. Porada H,Bouougri E H.2007.Wrinkle structures: A critical review[J].Earth-Science Reviews,81: 199-215. Raven J A,Edwards D.2001.Roots: Evolutionary origins and biogeochemical significance[J].Journal of Experimental Botany,52: 381-401. Redecker D,Kodner R,Graham L E.2000.Glomalean Fungi from the Ordovician[J].Science,289: 1920-1921. Retallack G J.2001.Soils of the Past(Second Edition)[M].Oxford: Blackwell Science,1-404. Retallack G J.2005.Earliest Triassic claystone breccias and soil-erosion crisis[J].Journal of Sedimentary Research,75: 679-695. Richardson J B.1996.Lower and Middle Palaeozoic records of terrestrial palynomorphs[C].In: Jansonius J,McGregor D C(eds).Palynology: Principles and Applications: Applications,American Association of Stratigraphic Palynologists Foundation,2: 555-574. Robinson J.M,Berner R A.1991.Land plants and weathering[J].Science,252: 860-864. Sanderson M J.2003.Molecular data from 27 proteins do not support a Precambrian origin of land plants[J].American Journal of Botany,90: 954-956. Sarkar S,Banerjee S,Eriksson P G, et al.2005.Microbial mat control on siliciclastic Precambrian sequence stratigraphic architecture: Examples from India[J].Sedimentary Geology,176: 191-205. Schieber J.1998.Possible indicators of microbial mat deposits in shales and sandstones: Examples from the Mid-Proterozoic Belt Supergroup,Montana,USA[J].Sedimentary Geology,120: 105-124. Schieber J.2004.Microbial mats in the siliclastic rock record: A summary of diagnostic features[C].In: Errickson P G,Alterman W,Nelson D R, et al (eds).The Precambrian Earth: Tempos and Events.Amsterdam: Elsevier,663-673. Schieber J,Bose P K,Eriksson P G, et al.2007.Atlas of Microbial Mat Features Preserved Within the Siliclastic Rock Record[M].Amsterdam: Elsevier,1-313. Schumm S A.1968.Speculations concerning paleohydraulic controls of terrestrial sedimentation[J].Geological Society of America Bulletin,79: 1573-1588. Steemans P.2000.Miospore evolution from the Ordovician to the Silurian[J].Review of Palaeobotany and Palynology,113: 189-196. Steemans P,Le Hérissé A,Melvin J, et al.2009.Origin and radiation of the earliest vascular land plants[J].Science,324: 353. Stein W E,Mannolini F,Hernick L V, et al.2007.Giant cladoxylopsid trees resolve the enigma of the Earth's earliest fossil stumps at Gilboa[J].Nature,446: 904-907. Strother P K.2000.Cryptospores: The origin and early evolution of the terrestrial flora[C].In: Gastaldo R A,DiMichele W A(eds).Phanerozoic Terrestrial Ecosystems.London: Paleontological Society,3-20. Tal M,Paola C.2007.Dynamic single-thread channels maintained by the interaction of flow and vegetation[J].Geology,35:347-350. Taylor W A,Strother,P K.2008.Ultrastructure of some Cambrian palynomorphs from the Bright Angel Shale,Arizona,USA[J].Review of Palaeobotany and Palynology,151: 41-50. Taylor W A,Strother P K.2009.Ultrastructure,morphology,and topology of Cambrian palynomorphs from the Lone Rock Formation,Wisconsin,USA[J].Review of Palaeobotany and Palynology,153: 296-309. Thomas R G,Williams B P J,Morrissey L B, et al.2006.Enigma variations: The stratigraphy,provenance,palaeoseismicity and depositional history of the Lower Old Red Sandstone Cosheston Group,south Pembrokeshire,Wales[J].Geological Journal,41: 481-536. Tomescu A M F,Rothwell G W,Honegger R.2006.Cyanobacterial macrophytes in an Early Silurian(Llandovery)continental biota: Passage Creek,lower Massanutten Sandstone,Virginia,USA[J].Lethaia, 39:329-338. Veizer J,Godderis Y,Francois L M.2000.Evidence for decoupling of atmospheric CO2 and global climate during the Phanerozoic eon[J].Nature,408: 698-701. Viles H A,Naylor L A,Carter N E A, et al.2008.Biogeomorphological disturbance regimes: Progress in linking ecological and geomorphological systems[J]. Earth Surface Processes and Landforms,33: 1419-1435. Wellman C H,Gray J.2000.The microfossil record of early land plants[J].Philosophical Transactions of the Royal Society of London,Series B(Biological Sciences),355: 717-731. Wellman C H,Osterloff P L,Mohiuddin U.2003.Fragments of the earliest land plants[J].Nature, 425:282-285. Wood L J.2006,Quantitative geomorphology of the Mars Eberswalde delta[J]. Geological Society of America Bulletin,118: 557-566.
