The nature and chronostratigraphic position of the Rupelian-Chattian boundary(Early-Late Oligocene)unconformity in its historical type region(Belgium)is examined using biostratigraphy,strontium isotope dating of benth...The nature and chronostratigraphic position of the Rupelian-Chattian boundary(Early-Late Oligocene)unconformity in its historical type region(Belgium)is examined using biostratigraphy,strontium isotope dating of benthic foraminifera and K-Ar dating of glauconites.展开更多
The Tunggurian Age was nominated in 1984, and the Second National Commission on Stratigraphy of China formally suggested establishing the corresponding chronostratigraphic unit, the Tunggurian Stage, based on the Tung...The Tunggurian Age was nominated in 1984, and the Second National Commission on Stratigraphy of China formally suggested establishing the corresponding chronostratigraphic unit, the Tunggurian Stage, based on the Tunggurian Age in 1999. The name of this stage comes from a lithostratigraphic unit, the Tunggur Formation, and the stratotype section is located at the Tunggur tableland, 15 km southeast of Saihan Gobi Township, Sonid Left Banner, Inner Mongolia. The Tunggurian Age is correlated to the Astaracian of the European land mammal ages, and they share the same definition of the lower boundary at the base of the paleomagnetic Chron C5Bn.1r with an age of 15.0 Ma. In the Tairum Nor section on the southeastern edge of the Tunggur tableland, this boundary is situated within the successive deposits of reddish-brown massive mudstone of the lower part of the Tunggur Formation, with a distance of 7.6 m from the base of the grayish-white sandstones in the middle part of the section. The Tunggurian is approximately correlated to the upper part of the marine Langhian and the marine Serravallian in the International Stratigraphical Chart. The Tunggurian Stage includes two Neogene mammal faunal units, i.e. NMU 6 (MN 6) and NMU 7 (MN 7/8). The Tairnm Nor fauna from the Talrnm Nor section corresponds to NMU 6, and the Tunggur fauna (senso stricto) from the localities on the northwestern edge of the Tunggur tableland, such as Platybelodon Quarry, Wolf Camp and Moergen, corresponds to NMU 7. Among the Middle Miocene mammalian faunas in China, the Laogou fauna from the Linxia Basin, Gansu, the Quantougou fauna from the Lanzhou Basin, Gansu, the Halamagai fauna from the northern Junggar Basin, Xinjiang, and the Dingjiaergou fauna from Tongxin, Ningxia correspond to NMU 6.展开更多
Since the West Pingdingshan Section in Chaohu was proposed as the candidate of the Global Stratotype Section and Point of the Induan-Olenekian boundary in 2003, the Lower Triassic of Chaohu has been extensively studie...Since the West Pingdingshan Section in Chaohu was proposed as the candidate of the Global Stratotype Section and Point of the Induan-Olenekian boundary in 2003, the Lower Triassic of Chaohu has been extensively studied. Based on the studies on the Lower Triassic of Chaohu, (1) a continuous conodont zonation is established, which has become an important reference for Lower Triassic stratigraphic correlation over the world; (2) the First Appearance Datum of conodont Neospathodus waageni was suggested and has been basically accepted as the primary marker to define the InduanOienekian boundary; (3) a characteristic Lower Triassic excursion of carbon isotopes was brought to light and has been proven to be not only an excellent index for the stratigraphic correlation but also a unique indication for the perturbation of ecological environments in the aftermath of the end-Permian mass extinction; (4) a magnetostratigraphic sequence is constituted with a certain biostratigraphic control in the low-latitude region and it presents an important correlation to the Boreal sequence; (5) a cyclostratigraphic study provides an alternative method to constrain the age of the chronostratigraphic units; and (6) a scheme of the Olenekian subdivision is recently suggested to define the boundary between the Smithian and Spathian Substages. In addition, Chaohu is also the type locality of the Chaohuan Stage, the upper stage of the Lower Triassic in the China Chronostratigraphic System.Thus, the Lower Triassic of Chaohu is not only a classic sequence in South China, but also a key reference sequence to the investigation of the corresponding stratigraphy and geological events over the world. The recent achievements are viewed here for an overall understanding of the sequence. Then the current situation of the Induan-Olenekian and Smithian-Spathian boundaries is discussed to provide a reference for later works.展开更多
This paper provides a synthetic review of researches on Meishan Section D, the Global Stratotype Section and Point of the Permian-Triassic Boundary (PTB). The history of research, geographic and geological setting o...This paper provides a synthetic review of researches on Meishan Section D, the Global Stratotype Section and Point of the Permian-Triassic Boundary (PTB). The history of research, geographic and geological setting of the section are briefly introduced. Changhsingian to "Griesbachian" conodont and ammonoid zonations, the most perfect Permo-Triassic zonations over the world, are presented, with a short discussion on the age of Otoceras, The Changhsingian to "Griesbachian" strata are subdivided into three 3rd order sequences, and the sedimentary structure of each sequence is indicated. The paper presents a correlation of the Changhsingian to "Griesbachian" magneetostratigraphy of the Meishan section with the general scale, and informed the negation of a short magnetic reversal at the PTB suggested by Zhu and Liu (1999). Recent developments of chemostratigraphy of δ^13C and δ^34S are introduced, especially the discovery of more than one negative δ^13C excursions across the PTB. Two important molecular researches reveal the profound changes at the base of eco-system, the microbial catastrophy, and the euxinic conditions in the photic zone during the Permian-Triassic superanoxic event. The paper reports the changes in dating the age of PTB since 2001. According to recent achievements, the age of volcanogenic claybed 25, 14 cm below the PTB, is now set at 252.4±0.3 Ma. A discussion on the eventostratigraphy concludes that, although there is a major event episode at beds 25-26, the events across the PTB at Meishan are multi-episodic and commenced prior to the Event Beds 25-26, thus the possibility that the mass extinction was mainly induced by an exterrestrial impact is largely excluded.展开更多
The Lower Pliocene of the Linxia Basin in Gansu Province is one of only a few representative sections for the Early Pliocene sedimentary records in northern China, and even in East Asia. Recently,abundant mammalian fo...The Lower Pliocene of the Linxia Basin in Gansu Province is one of only a few representative sections for the Early Pliocene sedimentary records in northern China, and even in East Asia. Recently,abundant mammalian fossils were found from the base of red clays of the Lower Pliocene Hewangjia Formation at Duikang in Guanghe County within this basin. Previously, the Pliocene mammals were sparsely found in China, and most were collected from fluvial and lacustrine deposits in the eastern Loess Plateau. Mammals from the widely distributed Pliocene Hipparion Red Clay are less in number.The known fossils from Duikang include 20 species and belong to the Shilidun Fauna. Their faunal components are similar to the Early Pliocene Gaozhuang Fauna from Ynshe, Shanxi. On the other hand, some taxa from Duikang have not been found in the Gaozhuang Fauna, are slightly more primitive in evolutionary level, and appeared mainly in the Late Miocene. As a result, the age of the Duikang fossils may be slightly earlier than that of the Gaozhuang Fauna and closer to the lower boundary of the Piiocene. The Duikang fossiliferons bed is 0.8 m above the top of the Late Miocene Linshu Formation, and the first occurrence of the three-toed horse Hipparion pater can be regarded as a biostratigraphical marker of the Miocene/Pliocene boundary. In conclusion, Duikang is an ideal candidate locality to establish as the stratotype of the lower boundary of the Chinese terrestrial Pliocene.展开更多
With the definition and adoption of the Global Stratotype Section and Point (GSSP) for base of the Visean in China, the newly synthesized zonations and correlation of some significant fossil groups: foraminifera, c...With the definition and adoption of the Global Stratotype Section and Point (GSSP) for base of the Visean in China, the newly synthesized zonations and correlation of some significant fossil groups: foraminifera, conodont, coral and brachiopoda near the Tournaisian-Visean boundary beds are reviewed, which help in the recognition of the boundary in various sedimentary facies. The occurrence of two physical events, one pre- and one post- the Tournaisian-Visean boundary is emphasized, which allows for recognition of the position close to the Tournaisian-Visean boundary in the field. The regional correlation in southern China and international correlation throughout Eurasia around the Tournaisian-Visean boundary beds with the GSSP is proposed.展开更多
The Middle-Upper Cambrian boundary is one of the current stratigraphical problems which remain openin the geological world, since there have been no universally acknowledged delimiting standard and stratotype.Acting o...The Middle-Upper Cambrian boundary is one of the current stratigraphical problems which remain openin the geological world, since there have been no universally acknowledged delimiting standard and stratotype.Acting on the instruction of Profs. Lu Yanhao and An Taixiang the author studied in details the Paibi Section,which is well exposed as a continuous sequence at an easily accessible locality. The Middle-Upper Cambrianboundary strata are composed of biocalcimicrosparite, indicating the sedimentary environment of anunderwater upheaval on the gentle slope along the frontal margin of the Yangtze carbonate platform. For the upper Middle and lower Upper Cambrian agnostid trilobite zones and conodont zones are erected,and a more accurate correlation between the trilobite and conodont sequences is established. Based on these,the Middle-Upper Cambrian boundary is drawn more reasonably and precisely than what was done before. Inshort, the section studied is superior to other known sections of Middle-Upper Cambrian. and it will probablybe an ideal candidate for the Middle-Upper Cambrian boundary stratotype.展开更多
This paper gives the detail description of Meishucun section , Yunnan , China . By studying biotic characteristics , analyzing isotopic age and comparing with the main Precambrian - Cambrian boundary sections in the w...This paper gives the detail description of Meishucun section , Yunnan , China . By studying biotic characteristics , analyzing isotopic age and comparing with the main Precambrian - Cambrian boundary sections in the world , we construct a global stratotype section and a point for the Precambrian-Cambrian boundary at Meishucun , which are of the convenient assessibility , abundant fossils of diverse groups , continuous sedimentation . perfect outcropping , lock of tectonic and metamorphic alteration , and have been deep studied in all related disciplines of sciences .展开更多
This paper presents a comprehensive evaluation on the Devonian-Carboniferous Boundary (DCB) sectionin Nanbiancun. Guilin. Guangxi on the basis of Palaeontological, biostratigraphical and sedimentarypetrological studie...This paper presents a comprehensive evaluation on the Devonian-Carboniferous Boundary (DCB) sectionin Nanbiancun. Guilin. Guangxi on the basis of Palaeontological, biostratigraphical and sedimentarypetrological studies as well as microfacies analysis. REE and trace element analysis and isotopic dating. The DCB at this section conforms to the definition of this boundary and essentially measure up the criteriaand conditions for selection of the boundary stratotype. Up to 14 fossil groups are contained in the section. Thesection presents a general biostratigraphical framework with multispecies fossils zones, assemblage zones andmultiple groups of fossils and has latent preponderant conditions for magnetostratigraphic andchronostratigraphic studies. The boundary and point occur in a persistent and continuous monofacialcarbonate succession. and the section is located in a tourist city with convenient communication, where variousfacies of DCB sections are developed. allowing the correlation within a small area. So it is an ideal candidateboundary stratotype.展开更多
The Meishucun secton has been recommended as an international candidate stratotype secton of thePrecambrian-Cambrian boundary. The paper deals with the palaeomagnetic study on the section. A total of159 palaeomagnetic...The Meishucun secton has been recommended as an international candidate stratotype secton of thePrecambrian-Cambrian boundary. The paper deals with the palaeomagnetic study on the section. A total of159 palaeomagnetic samples were successively collected from the platform-facies sequence of carbonates andphosphates at the section. Thermal demagnetization results indicate a great majority of the rocks at the sectionhave been strongly overprinted by recent magnetic field, but 57 samples have preserved remanentmagnetization with antipodal directions (mean D/I=4.2°/ 7.1°, K=9, α_(95) = 6.6°). Baaed on calculation,the location of the palaeomagnetic pole was at 68.8°N and 270.7°E, which is different from any palaeopolesobtained from younger Phanerozoic rocks in South China. The results reveal a polarity zonation which in-cludes at least 9 reversal events. A comparison of China's magnetostratigraphic records with those fromSiberia, Australia and the western U.S.A. shows that all the sections are characterized by frequent polarity re-versals.展开更多
The Huanghuachang section near Yichang,southern China was successively approved by ISOS,recognized by ICS and then officially ratified as being the Global Stratotype Section and point(GSSP)for the base of the Middle O...The Huanghuachang section near Yichang,southern China was successively approved by ISOS,recognized by ICS and then officially ratified as being the Global Stratotype Section and point(GSSP)for the base of the Middle Ordovician Series and the Third Stage,named as Dapingian,of the Ordovician System.The conodont succession at the section is complete across the Lower to Middle Ordovician series boundary and several excellent phylogenetic lineages of Baltoniodus,Gothodus,Microzarkodina and Periodon are represented.The base of the Middle Ordovician Series and the Daping Stage is defined at a point 10.57 m above the base of the Dawan Formation at the base of Bed SHod-16 of the Huanghuachang section,22km NE of Yichang City,Hubei Province,South China.It coincides with the first appearance datum(FAD)of the conodont species Baltoniodus triangularis within the Baltoniodus lineage starting from Baltoniodus cf.B.triangularis to Baltoniodus navis.It is associated with the FAD of Periodon sp.A and followed closely by the FAD of Microzarkodina flabellum,which is taken as a reasonable proxy for the boundary.This level approxi-mates the boundary between the lower and upper Azygograptus suecicus graptolite Biozone,and nearly coincides with the base of the Belonechitina cf.henryi chitinozoan Biozone.The same faunal succession is also recorded from the Chenjiahe section,near Daping village,5 km to the north of the Huanghuachang section.展开更多
The International Commission on Stratigraphy and the IUGS Executive Committee have recently ratified a Global Standard Stratotype-section and Point(GSSP)defining the conterminous base of the third series and the fifth...The International Commission on Stratigraphy and the IUGS Executive Committee have recently ratified a Global Standard Stratotype-section and Point(GSSP)defining the conterminous base of the third series and the fifth stage of the Cambrian System.The series and the stage are respectively named the Miaolingian Series and Wuliuan Stage,after the Maioling Mountains in southeastern Guizhou and the Wuliu sidehill,Jianhe County,in eastern Guizhou Province,South China,where the GSSP is located.The GSSP is exposed in a natural outcrop near the Balang Village at a position of 26o44.843'N latitude and 108o24.830'E longitude.It is defined at the base of a silty mudstone layer 52.8 m above the base of the Kaili Formation in the Wuliu-Zengjiayan section,coinciding with the first appearance of the cosmopolitan oryctocephalid trilobite Oryctocephalus indicus(base of the O.indicus Zone).Secondary global markers at or near the base of the series and stage include the peak of a rather large negative carbon isotopic excursion(ROECE excursion),the simultaneous appearance of many acanthomorphic acritarch forms,a transgressive phase of a major eustatic event,and the last appearance of intercontinental polymerid trilobites,either Bathynotus or Ovatoryctocara.Faunal turnovers close to the base of the Miaolingian Series and Wuliuan Stage have been recognized as being at the base of the Oryctocephalus indicus Zone of Amgan Stage in Siberia,the Delamaran Stage in Laurentia,the Oryctocephalus indicus Zone in the Indian Himalaya and North Greenland,near the base of the Delamaran Stage in Australia,and within the Eccaparadocides sdzuyi Zone in Iberia and the Ornamentaspis frequens Zone in Morocco.展开更多
The Global Stratotype Section and Point(GSSP)of the base-Wuchiapingian Stage was formally ratified at the Penglaitan section in South China in 2005.However,the riverside GSSP section at Penglaitan and its auxiliary se...The Global Stratotype Section and Point(GSSP)of the base-Wuchiapingian Stage was formally ratified at the Penglaitan section in South China in 2005.However,the riverside GSSP section at Penglaitan and its auxiliary section at Tieqiao have been permanently flooded since 2020.We herein designate an excavated section at Penglaitan as the new GSSP and the Fengshan section as a new Standard Auxiliary Boundary Stratotype(SABS).In addition,we revised the original definition based on a detailed restudy of the conodont succession from the two sections.We define the GSSP of the base-Wuchiapingian by the First Appearance Datum(FAD)of Clarkina postbitteri within the lineage Jinogondolella granti→Clarkina postbitteri→C.dukouensis.It represents a major evolutionary turnover in conodonts from Jinogondolella to Clarkina and marks the end-Guadalupian extinction event.The U-Pb date of 259.51±0.21 Ma from the uppermost part of the Emeishan basalt is adopted for the GLB age.δ13Ccarb chemostratigraphy at the SABS exhibits several excursions between 3‰and 5‰across the GLB interval.Carbonate 87Sr/86Sr ratio is 0.707244 at the GLB.Remarkably,the SABS contains six normal and six reverse geomagnetic polarity zones in the uppermost Capitanian and three in the lowest Wuchiapingian.展开更多
The Global Stratotype Section and Point(GSSP)for the Base of the Serravallian Stage(Middle Miocene)is defined in the Ras il Pellegrin section located in the coastal cliffs along the Fomm Ir-Rih Bay on the west coast o...The Global Stratotype Section and Point(GSSP)for the Base of the Serravallian Stage(Middle Miocene)is defined in the Ras il Pellegrin section located in the coastal cliffs along the Fomm Ir-Rih Bay on the west coast of Malta(35°54'50"N,14°20'10"E).The GSSP is at the base of the Blue Clay Formation(i.e.,top of the transitional bed of the uppermost Globigerina Limestone).This boundary between the Langhian and Serravallian stages coincides with the end of the major Mi-3b global cooling step in the oxygen isotopes and reflects a major increase in Antarctic ice volume,marking the end of the Middle Miocene climate transition and the Earth’s transformation into an“Icehouse”climate state.展开更多
The Global boundary Stratotype Section and Point(GSSP)for the base of the Guzhangian Stage(Cambrian Series 3)is defined at the base of a limestone(calcisiltite)layer 121.3 m above the base of the Huaqiao Formation in ...The Global boundary Stratotype Section and Point(GSSP)for the base of the Guzhangian Stage(Cambrian Series 3)is defined at the base of a limestone(calcisiltite)layer 121.3 m above the base of the Huaqiao Formation in the Louyixi section along the Youshui River(Fengtan Reservoir),about 4 km northwest of Luoyixi(4 km southeast of Wangcun),in northwestern Hunan,China.The GSSP is exposed in a road cut at a position of 28°43.20'N and 109°57.88'E.The GSSP level contains the lowest occurrence of the cosmopolitan agnostoid trilobite Lejopyge laevigata(base of the L.laevigata Zone).Secondary global markers near the base of the stage include the appearance of either L.calva or L.armata just below the base of the stage,the appearance of conodonts associated with the base of the Laiwugnathus laiwuensis Zone,and the transgressive phase of a small eustatic event.Faunal turnovers close to the base of the Guzhangian Stage are recognized as near the base of the Boomerangian Stage in Australia,the base of the Aldanaspis Zone(polymerid trilobites)in Siberia,and the base of the Paradoxides forchhammeri Zone in western Avalonia.The horizon corresponding to the first appearance of L.laevigata is near the peak of a rather long negativeδ13C excursion of up to 0.58‰.展开更多
Subseries/subepochs(e.g.,Lower/Early Eocene,Upper/Late Pleistocene)have yet to be formally defined despite their wide use in the Cenozoic literature.This has led to concerns about the stability of their definition and...Subseries/subepochs(e.g.,Lower/Early Eocene,Upper/Late Pleistocene)have yet to be formally defined despite their wide use in the Cenozoic literature.This has led to concerns about the stability of their definition and uncertainty over their status that has led to inconsistencies in capitalization.To address these issues,we propose for the Cenozoic that subseries/subepochs be defined formally by reference to Global Boundary Stratotype Sections and Points and ratified in the same way as for other formal chronostratigraphic units.Formalization of subseries/subepochs for the Cenozoic will respect their deep historical roots,recognise their chronostratigraphic nature,stabilize their definition,ensure consistency in application,embrace their de-facto use as formal terms within the Paleogene,Neogene and especially Quaternary communities,and resolve the question of capitalization:an upper-case initial letter without exception.展开更多
The International Commission on Stratigraphy and the IUGS Executive Committee have recently approved a Global Standard Stratotype-section and Point(GSSP)defining the base of the second stage of the Furongian Series,Ca...The International Commission on Stratigraphy and the IUGS Executive Committee have recently approved a Global Standard Stratotype-section and Point(GSSP)defining the base of the second stage of the Furongian Series,Cambrian System.This stage is named the Jiangshanian Stage,after Jiangshan City,western Zhejiang Province,China,where the GSSP is located.The GSSP is exposed in a natural outcrop near Duibian Village.It is defined at the base of a limestone(wackestone)layer 108.12 m above the base of the Huayansi Formation in the Duibian B section,coinciding with the first appearance of the cosmopolitan agnostoid trilobite Agnostotes orientalis(base of the A.orientalis Zone).The GSSP is at a position of 28°48.977´N latitude and 118º36.887´E longitude.Secondary global markers at or near the base of the stage include the first appearance of the cosmopolitan polymerid trilobite Irvingella angustilimbata,which coincides with the FAD of the primary marker in the stratotype section,and near the end of a large positive carbon isotopic excursion(SPICE excursion).Faunal turnovers close to the base of the Jiangshanian Stage have been recognized as being at the base of the Iverian Stage in Australia,the Gonggrian Stage in Korea,and the Agnostotes orientalis–Irvingella perfecta Zone in Siberia,and near the base of the Aksayan Stage in Kazakhstan,the Sunwaptan Stage in Laurentia,and the Parabolina brevispina Zone in Baltica.展开更多
The Holocene is probably the most intensively studied series/epoch within the geological record,and embodies a wide array of geomorphological,climatic,biotic and archaeological evidence;yet little attention has hither...The Holocene is probably the most intensively studied series/epoch within the geological record,and embodies a wide array of geomorphological,climatic,biotic and archaeological evidence;yet little attention has hitherto been paid to a formal subdivision of this series/epoch.Here we report a tripartite division of the Holocene into the Greenlandian,Northgrippian and Meghalayan stages/ages and their corresponding Lower/Early,Middle,Upper/Late subseries/subepochs,each supported by a Global Boundary Stratotype Section and Point(GSSP).The GSSP for the lowermost stage,the Greenlandian,is that of the Holocene as previously defined in the NGRIP2 Greenland ice core,and dated at 11,700 yr b2k(before 2000 CE).The GSSP for the Northgrippian is in the NGRIP1 Greenland ice core,and dated at 8236 yr b2k,whereas that for the Meghalayan is located in a speleothem from Mawmluh Cave,Meghalaya,northeast India with a date of 4250 yr b2k.The proposal on which this subdivision is based was submitted by the Subcommission on Quaternary Stratigraphy,approved by the International Commission on Stratigraphy,and formally ratified by the Executive Committee of the International Union of Geological Sciences on 14th June 2018.展开更多
Following votes by the Barremian Working Group,the International Subcommission on Cretaceous Stratigraphy and the International Commission on Stratigraphy,the Executive Committee of the International Union of Geologic...Following votes by the Barremian Working Group,the International Subcommission on Cretaceous Stratigraphy and the International Commission on Stratigraphy,the Executive Committee of the International Union of Geological Sciences unanimously approved in March 2023 the Global Stratotype Section and Point(GSSP)for the Barremian Stage(Lower Cretaceous).The base of the Barremian Stage is defined at the base of bed 171 of the Río Argos section,near Caravaca(SE Spain)and correlated by the first appearance of the ammonite species Taveraidiscus hugii.This event falls within the NC5C calcareous nannofossil Subzone,the Lilliputianella semielongata planktonic foraminiferal Zone,and the Dorothia ouachensis benthic foraminiferal Zone.It roughly coincides with the beginning of a slightly negative trend interval in theδ^(13)C curve.Indirect calibration to the magnetostratigraphic scale suggests that the boundary falls in the lowermost part of polarity chron M3r.According to the astrochronological analysis,a time interval of 0.74 myr separates the beginning of the late Hauterivian Faraoni Episode from the base of the Barremian,which is dated at 125.77 MA.展开更多
The Global Stratotype Section and Point(GSSP)for the base of Toarcian Stage,Lower Jurassic,is placed at the base of micritic limestone bed 15e at Ponta do Trovão(Peniche,Lusitanian Basin,Portugal;coordinates:39&#...The Global Stratotype Section and Point(GSSP)for the base of Toarcian Stage,Lower Jurassic,is placed at the base of micritic limestone bed 15e at Ponta do Trovão(Peniche,Lusitanian Basin,Portugal;coordinates:39°22′15″N,9°23′07″W),80km north of Lisbon,and coincides with the mass occurrence of the ammonite Dactylioceras(Eodactylites).The Pliensbachian/Toarcian boundary(PLB/TOA)is contained in a continuous section forming over 450m of carbonate-rich sediments.Tectonics,syn-sedimentary disturbance,metamorphism or significant diagenesis do not significantly affect this area.At the PLB/TOA,no vertical facies changes,stratigraphical gaps or hiatuses have been recorded.The base of the Toarcian Stage is marked in the bed 15e by the first occurrence of D.(E.)simplex,co-occurring with D.(E.)pseudocommune and D.(E.)polymorphum.The ammonite association of D.(Eodactylites)ssp.and other species e.g.Protogrammoceras(Paltarpites)cf.展开更多
基金support of DWTC-Brussels(grant WI/36/C03)the Royal Belgian Institute of Natural Sciences.
文摘The nature and chronostratigraphic position of the Rupelian-Chattian boundary(Early-Late Oligocene)unconformity in its historical type region(Belgium)is examined using biostratigraphy,strontium isotope dating of benthic foraminifera and K-Ar dating of glauconites.
基金This work is supported by the Knowledge Innovation Program of the Chinese Academy of Sciences (KZCX2- YW-120)the National Commission on Stratigraphy of China+1 种基金the Ministry of Science and Technology of China (2006FY120300, 2006CB806400)the National Natural Science Foundation of China (40232023).
文摘The Tunggurian Age was nominated in 1984, and the Second National Commission on Stratigraphy of China formally suggested establishing the corresponding chronostratigraphic unit, the Tunggurian Stage, based on the Tunggurian Age in 1999. The name of this stage comes from a lithostratigraphic unit, the Tunggur Formation, and the stratotype section is located at the Tunggur tableland, 15 km southeast of Saihan Gobi Township, Sonid Left Banner, Inner Mongolia. The Tunggurian Age is correlated to the Astaracian of the European land mammal ages, and they share the same definition of the lower boundary at the base of the paleomagnetic Chron C5Bn.1r with an age of 15.0 Ma. In the Tairum Nor section on the southeastern edge of the Tunggur tableland, this boundary is situated within the successive deposits of reddish-brown massive mudstone of the lower part of the Tunggur Formation, with a distance of 7.6 m from the base of the grayish-white sandstones in the middle part of the section. The Tunggurian is approximately correlated to the upper part of the marine Langhian and the marine Serravallian in the International Stratigraphical Chart. The Tunggurian Stage includes two Neogene mammal faunal units, i.e. NMU 6 (MN 6) and NMU 7 (MN 7/8). The Tairnm Nor fauna from the Talrnm Nor section corresponds to NMU 6, and the Tunggur fauna (senso stricto) from the localities on the northwestern edge of the Tunggur tableland, such as Platybelodon Quarry, Wolf Camp and Moergen, corresponds to NMU 7. Among the Middle Miocene mammalian faunas in China, the Laogou fauna from the Linxia Basin, Gansu, the Quantougou fauna from the Lanzhou Basin, Gansu, the Halamagai fauna from the northern Junggar Basin, Xinjiang, and the Dingjiaergou fauna from Tongxin, Ningxia correspond to NMU 6.
基金supported by the Ministry of Science and Technology project (no. 2006FY120300-11)Ministry of Education project (no. 200804910503)National Natural Science Foundation of China (nos. 40830212, 40921062, 40972003)
文摘Since the West Pingdingshan Section in Chaohu was proposed as the candidate of the Global Stratotype Section and Point of the Induan-Olenekian boundary in 2003, the Lower Triassic of Chaohu has been extensively studied. Based on the studies on the Lower Triassic of Chaohu, (1) a continuous conodont zonation is established, which has become an important reference for Lower Triassic stratigraphic correlation over the world; (2) the First Appearance Datum of conodont Neospathodus waageni was suggested and has been basically accepted as the primary marker to define the InduanOienekian boundary; (3) a characteristic Lower Triassic excursion of carbon isotopes was brought to light and has been proven to be not only an excellent index for the stratigraphic correlation but also a unique indication for the perturbation of ecological environments in the aftermath of the end-Permian mass extinction; (4) a magnetostratigraphic sequence is constituted with a certain biostratigraphic control in the low-latitude region and it presents an important correlation to the Boreal sequence; (5) a cyclostratigraphic study provides an alternative method to constrain the age of the chronostratigraphic units; and (6) a scheme of the Olenekian subdivision is recently suggested to define the boundary between the Smithian and Spathian Substages. In addition, Chaohu is also the type locality of the Chaohuan Stage, the upper stage of the Lower Triassic in the China Chronostratigraphic System.Thus, the Lower Triassic of Chaohu is not only a classic sequence in South China, but also a key reference sequence to the investigation of the corresponding stratigraphy and geological events over the world. The recent achievements are viewed here for an overall understanding of the sequence. Then the current situation of the Induan-Olenekian and Smithian-Spathian boundaries is discussed to provide a reference for later works.
基金The work was supported by the National Natural Science Foundation of China(project no.40232025).
文摘This paper provides a synthetic review of researches on Meishan Section D, the Global Stratotype Section and Point of the Permian-Triassic Boundary (PTB). The history of research, geographic and geological setting of the section are briefly introduced. Changhsingian to "Griesbachian" conodont and ammonoid zonations, the most perfect Permo-Triassic zonations over the world, are presented, with a short discussion on the age of Otoceras, The Changhsingian to "Griesbachian" strata are subdivided into three 3rd order sequences, and the sedimentary structure of each sequence is indicated. The paper presents a correlation of the Changhsingian to "Griesbachian" magneetostratigraphy of the Meishan section with the general scale, and informed the negation of a short magnetic reversal at the PTB suggested by Zhu and Liu (1999). Recent developments of chemostratigraphy of δ^13C and δ^34S are introduced, especially the discovery of more than one negative δ^13C excursions across the PTB. Two important molecular researches reveal the profound changes at the base of eco-system, the microbial catastrophy, and the euxinic conditions in the photic zone during the Permian-Triassic superanoxic event. The paper reports the changes in dating the age of PTB since 2001. According to recent achievements, the age of volcanogenic claybed 25, 14 cm below the PTB, is now set at 252.4±0.3 Ma. A discussion on the eventostratigraphy concludes that, although there is a major event episode at beds 25-26, the events across the PTB at Meishan are multi-episodic and commenced prior to the Event Beds 25-26, thus the possibility that the mass extinction was mainly induced by an exterrestrial impact is largely excluded.
基金supported by the Ministry of Science and Technology of China (2006FY120300 and 2006CB806400)the Knowledge Innovation Program of the Chinese Academy of Sciences (KZCX2-YW-120, Q09)the National Natural Science Foundation of China (40730210), and the All-China Stratigraphic Commission
文摘The Lower Pliocene of the Linxia Basin in Gansu Province is one of only a few representative sections for the Early Pliocene sedimentary records in northern China, and even in East Asia. Recently,abundant mammalian fossils were found from the base of red clays of the Lower Pliocene Hewangjia Formation at Duikang in Guanghe County within this basin. Previously, the Pliocene mammals were sparsely found in China, and most were collected from fluvial and lacustrine deposits in the eastern Loess Plateau. Mammals from the widely distributed Pliocene Hipparion Red Clay are less in number.The known fossils from Duikang include 20 species and belong to the Shilidun Fauna. Their faunal components are similar to the Early Pliocene Gaozhuang Fauna from Ynshe, Shanxi. On the other hand, some taxa from Duikang have not been found in the Gaozhuang Fauna, are slightly more primitive in evolutionary level, and appeared mainly in the Late Miocene. As a result, the age of the Duikang fossils may be slightly earlier than that of the Gaozhuang Fauna and closer to the lower boundary of the Piiocene. The Duikang fossiliferons bed is 0.8 m above the top of the Late Miocene Linshu Formation, and the first occurrence of the three-toed horse Hipparion pater can be regarded as a biostratigraphical marker of the Miocene/Pliocene boundary. In conclusion, Duikang is an ideal candidate locality to establish as the stratotype of the lower boundary of the Chinese terrestrial Pliocene.
基金supported by the Ministry of Science and Technology (Grant No. 2006FY120300-7)the National Commission on Stratigraphy of China (No. 2006CB80640)the China Geological Survey (No. 1212010916059)
文摘With the definition and adoption of the Global Stratotype Section and Point (GSSP) for base of the Visean in China, the newly synthesized zonations and correlation of some significant fossil groups: foraminifera, conodont, coral and brachiopoda near the Tournaisian-Visean boundary beds are reviewed, which help in the recognition of the boundary in various sedimentary facies. The occurrence of two physical events, one pre- and one post- the Tournaisian-Visean boundary is emphasized, which allows for recognition of the position close to the Tournaisian-Visean boundary in the field. The regional correlation in southern China and international correlation throughout Eurasia around the Tournaisian-Visean boundary beds with the GSSP is proposed.
文摘The Middle-Upper Cambrian boundary is one of the current stratigraphical problems which remain openin the geological world, since there have been no universally acknowledged delimiting standard and stratotype.Acting on the instruction of Profs. Lu Yanhao and An Taixiang the author studied in details the Paibi Section,which is well exposed as a continuous sequence at an easily accessible locality. The Middle-Upper Cambrianboundary strata are composed of biocalcimicrosparite, indicating the sedimentary environment of anunderwater upheaval on the gentle slope along the frontal margin of the Yangtze carbonate platform. For the upper Middle and lower Upper Cambrian agnostid trilobite zones and conodont zones are erected,and a more accurate correlation between the trilobite and conodont sequences is established. Based on these,the Middle-Upper Cambrian boundary is drawn more reasonably and precisely than what was done before. Inshort, the section studied is superior to other known sections of Middle-Upper Cambrian. and it will probablybe an ideal candidate for the Middle-Upper Cambrian boundary stratotype.
文摘This paper gives the detail description of Meishucun section , Yunnan , China . By studying biotic characteristics , analyzing isotopic age and comparing with the main Precambrian - Cambrian boundary sections in the world , we construct a global stratotype section and a point for the Precambrian-Cambrian boundary at Meishucun , which are of the convenient assessibility , abundant fossils of diverse groups , continuous sedimentation . perfect outcropping , lock of tectonic and metamorphic alteration , and have been deep studied in all related disciplines of sciences .
文摘This paper presents a comprehensive evaluation on the Devonian-Carboniferous Boundary (DCB) sectionin Nanbiancun. Guilin. Guangxi on the basis of Palaeontological, biostratigraphical and sedimentarypetrological studies as well as microfacies analysis. REE and trace element analysis and isotopic dating. The DCB at this section conforms to the definition of this boundary and essentially measure up the criteriaand conditions for selection of the boundary stratotype. Up to 14 fossil groups are contained in the section. Thesection presents a general biostratigraphical framework with multispecies fossils zones, assemblage zones andmultiple groups of fossils and has latent preponderant conditions for magnetostratigraphic andchronostratigraphic studies. The boundary and point occur in a persistent and continuous monofacialcarbonate succession. and the section is located in a tourist city with convenient communication, where variousfacies of DCB sections are developed. allowing the correlation within a small area. So it is an ideal candidateboundary stratotype.
文摘The Meishucun secton has been recommended as an international candidate stratotype secton of thePrecambrian-Cambrian boundary. The paper deals with the palaeomagnetic study on the section. A total of159 palaeomagnetic samples were successively collected from the platform-facies sequence of carbonates andphosphates at the section. Thermal demagnetization results indicate a great majority of the rocks at the sectionhave been strongly overprinted by recent magnetic field, but 57 samples have preserved remanentmagnetization with antipodal directions (mean D/I=4.2°/ 7.1°, K=9, α_(95) = 6.6°). Baaed on calculation,the location of the palaeomagnetic pole was at 68.8°N and 270.7°E, which is different from any palaeopolesobtained from younger Phanerozoic rocks in South China. The results reveal a polarity zonation which in-cludes at least 9 reversal events. A comparison of China's magnetostratigraphic records with those fromSiberia, Australia and the western U.S.A. shows that all the sections are characterized by frequent polarity re-versals.
基金Research on the Huanghuachang GSSP and preparation of this proposal was financially supported by the China Geological Survey(NO:200113900072)National Natural Science Foundation of China(NO:40272020)the Germany Academic exchange Centre(DAAD),Chinese Commission of Stratigraphy and Yichang Institute of Geology and Mineral Resources(YIGMR).
文摘The Huanghuachang section near Yichang,southern China was successively approved by ISOS,recognized by ICS and then officially ratified as being the Global Stratotype Section and point(GSSP)for the base of the Middle Ordovician Series and the Third Stage,named as Dapingian,of the Ordovician System.The conodont succession at the section is complete across the Lower to Middle Ordovician series boundary and several excellent phylogenetic lineages of Baltoniodus,Gothodus,Microzarkodina and Periodon are represented.The base of the Middle Ordovician Series and the Daping Stage is defined at a point 10.57 m above the base of the Dawan Formation at the base of Bed SHod-16 of the Huanghuachang section,22km NE of Yichang City,Hubei Province,South China.It coincides with the first appearance datum(FAD)of the conodont species Baltoniodus triangularis within the Baltoniodus lineage starting from Baltoniodus cf.B.triangularis to Baltoniodus navis.It is associated with the FAD of Periodon sp.A and followed closely by the FAD of Microzarkodina flabellum,which is taken as a reasonable proxy for the boundary.This level approxi-mates the boundary between the lower and upper Azygograptus suecicus graptolite Biozone,and nearly coincides with the base of the Belonechitina cf.henryi chitinozoan Biozone.The same faunal succession is also recorded from the Chenjiahe section,near Daping village,5 km to the north of the Huanghuachang section.
基金supported in part by grants from the National Natural Science Foundation of China(49060010,40372023,41330101)the Ministry of Science and Technology of China(2006CB806401,2013CB835002,2015FY310100,12002CC2600)+3 种基金the National Commission on Stratigraphy of China(95-Special Project-01-1-6,DD20160120-04)the State Key Laboratory on Palaeobiology and Stratigraphy(20191101)the Guizhou Bureau of Science and Technology(CGSCFG-2010-7001Gui.Sci.Tal.[2017]5788)。
文摘The International Commission on Stratigraphy and the IUGS Executive Committee have recently ratified a Global Standard Stratotype-section and Point(GSSP)defining the conterminous base of the third series and the fifth stage of the Cambrian System.The series and the stage are respectively named the Miaolingian Series and Wuliuan Stage,after the Maioling Mountains in southeastern Guizhou and the Wuliu sidehill,Jianhe County,in eastern Guizhou Province,South China,where the GSSP is located.The GSSP is exposed in a natural outcrop near the Balang Village at a position of 26o44.843'N latitude and 108o24.830'E longitude.It is defined at the base of a silty mudstone layer 52.8 m above the base of the Kaili Formation in the Wuliu-Zengjiayan section,coinciding with the first appearance of the cosmopolitan oryctocephalid trilobite Oryctocephalus indicus(base of the O.indicus Zone).Secondary global markers at or near the base of the series and stage include the peak of a rather large negative carbon isotopic excursion(ROECE excursion),the simultaneous appearance of many acanthomorphic acritarch forms,a transgressive phase of a major eustatic event,and the last appearance of intercontinental polymerid trilobites,either Bathynotus or Ovatoryctocara.Faunal turnovers close to the base of the Miaolingian Series and Wuliuan Stage have been recognized as being at the base of the Oryctocephalus indicus Zone of Amgan Stage in Siberia,the Delamaran Stage in Laurentia,the Oryctocephalus indicus Zone in the Indian Himalaya and North Greenland,near the base of the Delamaran Stage in Australia,and within the Eccaparadocides sdzuyi Zone in Iberia and the Ornamentaspis frequens Zone in Morocco.
基金supported by the National Natural Science Foundation of China(42293280,42272031,42250104,42261144668)Strategic Priority Research Program(B)of the Chinese Academy of Sciences(XDB26000000).
文摘The Global Stratotype Section and Point(GSSP)of the base-Wuchiapingian Stage was formally ratified at the Penglaitan section in South China in 2005.However,the riverside GSSP section at Penglaitan and its auxiliary section at Tieqiao have been permanently flooded since 2020.We herein designate an excavated section at Penglaitan as the new GSSP and the Fengshan section as a new Standard Auxiliary Boundary Stratotype(SABS).In addition,we revised the original definition based on a detailed restudy of the conodont succession from the two sections.We define the GSSP of the base-Wuchiapingian by the First Appearance Datum(FAD)of Clarkina postbitteri within the lineage Jinogondolella granti→Clarkina postbitteri→C.dukouensis.It represents a major evolutionary turnover in conodonts from Jinogondolella to Clarkina and marks the end-Guadalupian extinction event.The U-Pb date of 259.51±0.21 Ma from the uppermost part of the Emeishan basalt is adopted for the GLB age.δ13Ccarb chemostratigraphy at the SABS exhibits several excursions between 3‰and 5‰across the GLB interval.Carbonate 87Sr/86Sr ratio is 0.707244 at the GLB.Remarkably,the SABS contains six normal and six reverse geomagnetic polarity zones in the uppermost Capitanian and three in the lowest Wuchiapingian.
文摘The Global Stratotype Section and Point(GSSP)for the Base of the Serravallian Stage(Middle Miocene)is defined in the Ras il Pellegrin section located in the coastal cliffs along the Fomm Ir-Rih Bay on the west coast of Malta(35°54'50"N,14°20'10"E).The GSSP is at the base of the Blue Clay Formation(i.e.,top of the transitional bed of the uppermost Globigerina Limestone).This boundary between the Langhian and Serravallian stages coincides with the end of the major Mi-3b global cooling step in the oxygen isotopes and reflects a major increase in Antarctic ice volume,marking the end of the Middle Miocene climate transition and the Earth’s transformation into an“Icehouse”climate state.
基金supported in part by grants from the Chinese Academy of Sciences(KZCX2-YW-122)the Ministry of Science and Technology of China(2006FY120300)+2 种基金National Natural Science Foundation of China(40332018)to Pengby a grant from the U.S.National Science Foundation(EAR-0106883)to Babcockby a grant from National Natural Science Foundation of China(40672023)to Zuo.
文摘The Global boundary Stratotype Section and Point(GSSP)for the base of the Guzhangian Stage(Cambrian Series 3)is defined at the base of a limestone(calcisiltite)layer 121.3 m above the base of the Huaqiao Formation in the Louyixi section along the Youshui River(Fengtan Reservoir),about 4 km northwest of Luoyixi(4 km southeast of Wangcun),in northwestern Hunan,China.The GSSP is exposed in a road cut at a position of 28°43.20'N and 109°57.88'E.The GSSP level contains the lowest occurrence of the cosmopolitan agnostoid trilobite Lejopyge laevigata(base of the L.laevigata Zone).Secondary global markers near the base of the stage include the appearance of either L.calva or L.armata just below the base of the stage,the appearance of conodonts associated with the base of the Laiwugnathus laiwuensis Zone,and the transgressive phase of a small eustatic event.Faunal turnovers close to the base of the Guzhangian Stage are recognized as near the base of the Boomerangian Stage in Australia,the base of the Aldanaspis Zone(polymerid trilobites)in Siberia,and the base of the Paradoxides forchhammeri Zone in western Avalonia.The horizon corresponding to the first appearance of L.laevigata is near the peak of a rather long negativeδ13C excursion of up to 0.58‰.
文摘Subseries/subepochs(e.g.,Lower/Early Eocene,Upper/Late Pleistocene)have yet to be formally defined despite their wide use in the Cenozoic literature.This has led to concerns about the stability of their definition and uncertainty over their status that has led to inconsistencies in capitalization.To address these issues,we propose for the Cenozoic that subseries/subepochs be defined formally by reference to Global Boundary Stratotype Sections and Points and ratified in the same way as for other formal chronostratigraphic units.Formalization of subseries/subepochs for the Cenozoic will respect their deep historical roots,recognise their chronostratigraphic nature,stabilize their definition,ensure consistency in application,embrace their de-facto use as formal terms within the Paleogene,Neogene and especially Quaternary communities,and resolve the question of capitalization:an upper-case initial letter without exception.
基金supported in part by grants from the State Key Laboratory on Palaeobiology and Stratigraphy,(2009110320121101)+2 种基金the Ministry of Science and Technology of China(2006FY120300)the National Natural Science Foundation of China(41290260,41221001)the National Commission on Stratigraphy of China to Peng.
文摘The International Commission on Stratigraphy and the IUGS Executive Committee have recently approved a Global Standard Stratotype-section and Point(GSSP)defining the base of the second stage of the Furongian Series,Cambrian System.This stage is named the Jiangshanian Stage,after Jiangshan City,western Zhejiang Province,China,where the GSSP is located.The GSSP is exposed in a natural outcrop near Duibian Village.It is defined at the base of a limestone(wackestone)layer 108.12 m above the base of the Huayansi Formation in the Duibian B section,coinciding with the first appearance of the cosmopolitan agnostoid trilobite Agnostotes orientalis(base of the A.orientalis Zone).The GSSP is at a position of 28°48.977´N latitude and 118º36.887´E longitude.Secondary global markers at or near the base of the stage include the first appearance of the cosmopolitan polymerid trilobite Irvingella angustilimbata,which coincides with the FAD of the primary marker in the stratotype section,and near the end of a large positive carbon isotopic excursion(SPICE excursion).Faunal turnovers close to the base of the Jiangshanian Stage have been recognized as being at the base of the Iverian Stage in Australia,the Gonggrian Stage in Korea,and the Agnostotes orientalis–Irvingella perfecta Zone in Siberia,and near the base of the Aksayan Stage in Kazakhstan,the Sunwaptan Stage in Laurentia,and the Parabolina brevispina Zone in Baltica.
文摘The Holocene is probably the most intensively studied series/epoch within the geological record,and embodies a wide array of geomorphological,climatic,biotic and archaeological evidence;yet little attention has hitherto been paid to a formal subdivision of this series/epoch.Here we report a tripartite division of the Holocene into the Greenlandian,Northgrippian and Meghalayan stages/ages and their corresponding Lower/Early,Middle,Upper/Late subseries/subepochs,each supported by a Global Boundary Stratotype Section and Point(GSSP).The GSSP for the lowermost stage,the Greenlandian,is that of the Holocene as previously defined in the NGRIP2 Greenland ice core,and dated at 11,700 yr b2k(before 2000 CE).The GSSP for the Northgrippian is in the NGRIP1 Greenland ice core,and dated at 8236 yr b2k,whereas that for the Meghalayan is located in a speleothem from Mawmluh Cave,Meghalaya,northeast India with a date of 4250 yr b2k.The proposal on which this subdivision is based was submitted by the Subcommission on Quaternary Stratigraphy,approved by the International Commission on Stratigraphy,and formally ratified by the Executive Committee of the International Union of Geological Sciences on 14th June 2018.
文摘Following votes by the Barremian Working Group,the International Subcommission on Cretaceous Stratigraphy and the International Commission on Stratigraphy,the Executive Committee of the International Union of Geological Sciences unanimously approved in March 2023 the Global Stratotype Section and Point(GSSP)for the Barremian Stage(Lower Cretaceous).The base of the Barremian Stage is defined at the base of bed 171 of the Río Argos section,near Caravaca(SE Spain)and correlated by the first appearance of the ammonite species Taveraidiscus hugii.This event falls within the NC5C calcareous nannofossil Subzone,the Lilliputianella semielongata planktonic foraminiferal Zone,and the Dorothia ouachensis benthic foraminiferal Zone.It roughly coincides with the beginning of a slightly negative trend interval in theδ^(13)C curve.Indirect calibration to the magnetostratigraphic scale suggests that the boundary falls in the lowermost part of polarity chron M3r.According to the astrochronological analysis,a time interval of 0.74 myr separates the beginning of the late Hauterivian Faraoni Episode from the base of the Barremian,which is dated at 125.77 MA.
基金supported by the BIOSCALES Project(POCTI/36438/PAL/2000)coordinated by the Universidade NOVA de Lisboa+1 种基金R.B.Rocha thanks the support of A.F.Soares,J.C.Kullberg,P.S.Caetano and P.H.VerdialFinancial support was provided to L.V.Duarte,S.Pinto and M.C.Cabral by Projects PDCTE/CTA/44907/2002 and PTDC/CTE-GIX/098968/2008.
文摘The Global Stratotype Section and Point(GSSP)for the base of Toarcian Stage,Lower Jurassic,is placed at the base of micritic limestone bed 15e at Ponta do Trovão(Peniche,Lusitanian Basin,Portugal;coordinates:39°22′15″N,9°23′07″W),80km north of Lisbon,and coincides with the mass occurrence of the ammonite Dactylioceras(Eodactylites).The Pliensbachian/Toarcian boundary(PLB/TOA)is contained in a continuous section forming over 450m of carbonate-rich sediments.Tectonics,syn-sedimentary disturbance,metamorphism or significant diagenesis do not significantly affect this area.At the PLB/TOA,no vertical facies changes,stratigraphical gaps or hiatuses have been recorded.The base of the Toarcian Stage is marked in the bed 15e by the first occurrence of D.(E.)simplex,co-occurring with D.(E.)pseudocommune and D.(E.)polymorphum.The ammonite association of D.(Eodactylites)ssp.and other species e.g.Protogrammoceras(Paltarpites)cf.
