Your search keyword '"Paleoflora"' showing total 88 results

1. Geochemistry of Cenozoic coals from Sarawak Basin, Malaysia: implications for paleoclimate, depositional conditions, and controls on petroleum potential

Author

Lanre Asiwaju, Khairul Azlan Mustapha, Wan Hasiah Abdullah, Say Gee Sia, and Mohammed Hail Hakimi

Subjects

Humic coal, Sarawak Basin, Paleoclimate, Paleoflora, Depositional environment, Petroleum potential, Mining engineering. Metallurgy, TN1-997

Abstract

Abstract Forty Tertiary coals from Mukah-Balingian and Merit-Pila coalfields of the Sarawak Basin, Malaysia were investigated using bulk and molecular geochemical techniques such as proximate analysis, gas chromatography-mass spectrometry, elemental analyser, isotope ratio mass spectrometry, and inductively coupled plasma mass spectrometry to reconstruct their paleovegetation, paleoclimate, and environments of deposition. In addition, principal component analysis (PCA) of selected geochemical parameters was carried out to determine the controlling influences on the petroleum potential of the humic coals. δ13C values and the abundance of terpenoids imply the predominant contribution of angiosperms to the paleoflora. Bimetal proxies (Sr/Ba, Sr/Cu, and C-value), and δD values are generally suggestive of a warm and humid climate during the accumulation of the paleopeats. However, n-alkane proxies (P wax, P aq, n-C23/n-C29, etc.) and polycyclic aromatic hydrocarbons (PAHs) distribution suggest that Balingian coals accumulated under relatively drier and strongly seasonal paleoclimate in the Late Pliocene. When compared with published global average abundances, the investigated coals are mostly depleted in major oxides and trace elements, suggesting peat accumulation in freshwater-influenced environments. Nonetheless, higher (> 0.5 wt%) total sulfur content in some Mukah-Balingian coals suggests some degree of epigenetic marine influence. Furthermore, the low to moderately-high ash contents of the Sarawak Basin coals indicate the presence of ombrotrophic and rheotrophic peat deposits. PCA result of selected geochemical proxies suggests that source input, paleoflora, and marine incursions are not major controlling influences on the petroleum potential. However, climatic, and depositional conditions appear to slightly influence the petroleum potential of the studied humic coals.

Published

2024

2. Geochemistry of Cenozoic coals from Sarawak Basin, Malaysia: implications for paleoclimate, depositional conditions, and controls on petroleum potential.

Author

Asiwaju, Lanre, Mustapha, Khairul Azlan, Abdullah, Wan Hasiah, Sia, Say Gee, and Hakimi, Mohammed Hail

Subjects

INDUCTIVELY coupled plasma mass spectrometry, GEOCHEMISTRY, SULFUR cycle, PETROLEUM, COAL, PALEOCLIMATOLOGY, POLYCYCLIC aromatic hydrocarbons

Abstract

Forty Tertiary coals from Mukah-Balingian and Merit-Pila coalfields of the Sarawak Basin, Malaysia were investigated using bulk and molecular geochemical techniques such as proximate analysis, gas chromatography-mass spectrometry, elemental analyser, isotope ratio mass spectrometry, and inductively coupled plasma mass spectrometry to reconstruct their paleovegetation, paleoclimate, and environments of deposition. In addition, principal component analysis (PCA) of selected geochemical parameters was carried out to determine the controlling influences on the petroleum potential of the humic coals. δ13C values and the abundance of terpenoids imply the predominant contribution of angiosperms to the paleoflora. Bimetal proxies (Sr/Ba, Sr/Cu, and C-value), and δD values are generally suggestive of a warm and humid climate during the accumulation of the paleopeats. However, n-alkane proxies (Pwax, Paq, n-C23/n-C29, etc.) and polycyclic aromatic hydrocarbons (PAHs) distribution suggest that Balingian coals accumulated under relatively drier and strongly seasonal paleoclimate in the Late Pliocene. When compared with published global average abundances, the investigated coals are mostly depleted in major oxides and trace elements, suggesting peat accumulation in freshwater-influenced environments. Nonetheless, higher (> 0.5 wt%) total sulfur content in some Mukah-Balingian coals suggests some degree of epigenetic marine influence. Furthermore, the low to moderately-high ash contents of the Sarawak Basin coals indicate the presence of ombrotrophic and rheotrophic peat deposits. PCA result of selected geochemical proxies suggests that source input, paleoflora, and marine incursions are not major controlling influences on the petroleum potential. However, climatic, and depositional conditions appear to slightly influence the petroleum potential of the studied humic coals. [ABSTRACT FROM AUTHOR]

Published

2024

3. Linha São Luiz Geosite, Rio Grande do Sul State: 25 years of discoveries, and a unique window to the Brazilian Mesozoic

Author

Flavio Pretto, Leonardo Kerber, Agustín Martinelli, João Pedro Saldanha, Romulo Cenci, Rodrigo Horodyski, Gustavo Corrêa de Almeida, Helena da Silva Bertol, Daniel de Simão Oliveira, Debora Moro, Marina Soares, and Cesar Leandro Schultz

Subjects

Triassic, Jurassic, paleofauna, paleoflora, geoconservation, Geology, QE1-996.5

Abstract

The Linha São Luiz Geosite is one of the most remarkable outcrops from the central region of Rio Grande do Sul state, southern Brazil. With more than 20 meters of vertical exposure, the locality preserves records of distinct sedimentary episodes, and one of the richest fossil assemblages known in southern Brazil. After a quarter of a century from the first expeditions to the site, the Linha São Luiz still yields new discoveries, registering exquisitely preserved fossils from micro and macrovertebrates, invertebrates, and plants, as well as trace fossils generated by these groups. In this contribution, we assembled representatives from distinct fields of paleontological study to provide a summary of the fossil assemblage from this site. We also briefly discuss the history of research and report geoconservation strategies, which are being implemented at the locality, in order to preserve this important window to the Brazilian Mesozoic.

Published

2024

4. Oligocene - Miocene Angiosperm fossil site in the Boa Vista Basin, Paraíba State, Northeast Brazil

Author

Cleide Regina Moura da Silva, Tania Dutra, Thièrs Wilberger, Geysson Lages, and Vladimir Medeiros

Subjects

Paleoflora, Eocene-Oligocene, Bentonitic clays, Botany, Cenozoic basins, Geology, QE1-996.5

Abstract

The Boa Vista Basin consists of a half-graben controlled by the extensional reactivation of the Serra do Monte Shear Zone, situated within the Transversal Zone, Alto Moxotó Domain of the Borborema Province. The basin was filled by a volcanic-sedimentary sequence characterized by basaltic flows, lacustrine bentonitic clays, and fluvial sandstones and conglomerates of the Campos Novos Formation. The age of the overlying basalts indicates the Oligocene-Miocene boundary. The palynomorph association observed in the Campos Novos Formation presents a preliminary age from the upper Eocene to the lower Oligocene. We identified the fossil material in the sandstones and bentonitic clays. The massive lithic arkosic sandstones present planar and trough cross-bedding and include pieces of silicified wood up to 2 m in length. The bentonitic clays present greenish, light brown, and dark brown colors, with fossil remains identified at the levels of greenish and light brown bentonitic clays in the Juá II and Bravo mines. About 200 specimens of leaves, fruits, and wood fragments were collected at these site, associated with ichnofossils in vertical and horizontal tubes. Among the numerous and varied leaf remains preserved as impressions, Fabaceae, Annonaceae, Lauraceae, Burseraceae, Anacardiaceae, Myrtaceae, and Malvales types dominate. The set attests to a tropical to subtropical flora, similar to elements that grow in the coastal areas of the state of Paraíba today. Some morphotypes are also characteristic of drier regions of Central Brazil. This set has preferential affinities with globally dry and locally humid environments. It seems to have a good relation with the more arid phases that accompanied the global temperature drop intervals at the Oligocene-Miocene boundary, supporting the geological age data.

Published

2024

5. The lacustrine ecosystem of the Bajo de Veliz Formation: A wet spot at the Carboniferous-Permian boundary in westernmost Gondwana.

Author

Césari, Silvia N., Chiesa, Jorge, and Fernández, Johana A.

Subjects

*SHORELINES, *LAKE sediments, *AQUATIC animals, *ARACHNIDA, *BOTANY, GONDWANA (Continent)

Abstract

During the Carboniferous-Permian transition in the westernmost part of Gondwana, the environment became drier and more seasonal than the preceding humid estuarine and fluvial habitats of the Middle Pennsylvanian of central western Argentina. The Gzhelian-Asselian Pallero Member of the Bajo de Veliz Formation, located to the east of the Paganzo Basin, represents an ecosystem preserved in lake deposits. This unit comprises lacustrine facies, and the fossil flora and fauna contained therein represent a wet refuge developed within a regionally semi-arid context. The flora is assigned to the Gangamopteris Biozone and includes specimens of lycophytes, equisetaleans, cordaitaleans, coniferophytes, and glossopterids that grew around the lake shoreline. Winged insects, arachnids, large eurypterids, and traces of fishes comprise terrestrial and aquatic fauna. This ecosystem is considered a wet spot similar to those that characterize the global paleoclimatic shift in low paleolatitudes. • The Gzhelian-Asselian lacustrine strata of the Bajo de Veliz Fm. are analyzed. • It is representative of the late Pennsylvanian climatic shift at high latitudes. • The paleolake supported both terrestrial and aquatic life. • The ecosystem established in drier regional conditions provided a wet refuge. [ABSTRACT FROM AUTHOR]

Published

2024

6. New data on the Middle Miocene flora of Northwest Bulgaria.

Author

Bozukov, Vladimir S. and Ivanov, Dimiter A.

Subjects

*MIOCENE Epoch, *BOTANY, *MYRTACEAE, *FOSSILS

Abstract

Two leaf imprints have been studied of the Middle Miocene flora from Ruzhintsi village, Northwest Bulgaria. One was determined as Macclintockia basinervis and the second as Tristaniopsis aff. laurina. New evidence has been obtained that Macclintockia is affiliated to the Myrtaceae family. In that context, the Australian species Melaleuca quinquenervia has been acknowledged as the nearest living relative to the first fossil species. In the course of determination of the second leaf imprint, a considerable morphological identity has been found with another representative of the family Myrtaceae, again from the Australian flora, namely, Tristaniopsis laurina. That recent species has been acknowledged as the nearest rlative to the fossil material, for the taxonomic determination of which the combination Tristaniopsis aff. laurina was applied. [ABSTRACT FROM AUTHOR]

Published

2022

7. Recording of multiple lake-marsh paleoenvironments during the middle Holocene in the Quebrada del Toro, NW Argentina.

Author

VEIZAGA SAAVEDRA, Juan G., SÁNCHEZ, María Cristina, MARTÍNEZ, Olga, PINGEL, Heiko, and DE FRANCESCO, Claudio G.

Subjects

HOLOCENE Epoch, MINES & mineral resources, PALEOCLIMATOLOGY, ORGANIC compounds, SEDIMENTATION & deposition

Abstract

Copyright of Revista de la Asociación Geológica Argentina is the property of Asociacion Geologica Argentina and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

8. Paleoflora y Paleovegetación de la Península Ibérica e Islas Baleares

Author

Carrión García, José Sebastián (coord.), Biblioteca Digital del Real Jardin Botanico de Madrid, and Carrión García, José Sebastián (coord.)

Subjects

Angiospermas, Flora, Gimnospermas, Paleoflora, Paleovegetación, Península Ibérica, Plantas fósiles, Pteridófitos, Vegetación

Published

2012

9. La sucesión carbonífera de la Quebrada Agua de la Peña (Sierra De Valle Fértil): ambientes sedimentarios, contenido fosilífero e importancia estratigráfica.

Author

Carina Ester Colombi, Carlos Oscar Limarino, and Silvia Nélida Césari

Subjects

Estratigrafía, Glaciación, Paleoflora, MTD, Lineamiento-Valle-Fértil, Geology, QE1-996.5, Geophysics. Cosmic physics, QC801-809

Abstract

La Formación Tuminico, en el área de la quebrada Agua de la Peña, forma una sucesión de 1128 m de espesor, la que caracteriza la sedimentación carbonífera tardía, aflorante próxima al lineamiento de Valle Fértil. La unidad, depositada en ambiente transicional a marino costero, es dividida en cuatro intervalos estratigráficos. La sección 1 está compuesta por diamictitas, areniscas guijarrosas y fangolitas, correspondientes a depósitos alóctonos originados por megadeslizamientos subácueos. Éstos intercalan diamictitas finamente estratificadas y fangolitas con dropstones, que representan acumulaciones in situ (no deslizadas). La sección 2 forma una secuencia grano y estratocreciente compuesta por fangolitas en la base y areniscas gruesas y conglomerados en el techo, este intervalo si bien presenta deformación, no muestra acumulaciones importantes de megadeslizamientos. La sección 3 es de composición litológica variada, pues su mitad inferior comprende megadeslizamientos que incluyen diamictitas, areniscas guijarrosas y fangolitas plegadas y con fallamiento sinsedimentario. La mitad superior en cambio, está integrada por fangolitas, areniscas finas a medianas y conglomerados finos, todo el conjunto con arreglo granocreciente, muy probablemente reflejando la progradación de un cuerpo deltaico con incisión de canales y limitada deformación sinsedimentaria. Por su parte la sección 4, está compuesta por fangolitas laminadas y masivas, junto a areniscas finas y muy finas, por lo general laminadas. Este intervalo estratigráfico, que corresponde a un importante aumento del nivel del mar, muestra al menos 4 ciclos transgresivo-regresivos. Nuevos datos paleontológicos, que surgen de una asociación megaflorística y palinológica proveniente de las tres primeras secciones, sugieren una edad Serpukhoviano tardío-Bashkiriano temprano para la unidad. Se propone que los megadeslizamientos fueron originados y/o amplificados por tectonismo durante el Carbonífero Superior, lo dicho se fundamenta en su recurrencia en la columna estratigráfica, el importante grado de deformación y la considerable extensión regional que muestran estos depósitos, siempre vinculados al lineamiento de Valle Fértil.

Published

2021

10. On the Chaun Paleoflora in the Chukotka Nonmarine Cretaceous.

Author

Shczepetov, S. V. and Neshataeva, V. Yu.

Subjects

*VOLCANIC fields, *VEGETATION dynamics, *VOLCANISM, *GROUND vegetation cover, *BOTANY, *FOSSIL plants

Abstract

The Cretaceous fossil flora in deposits of the Okhotsk–Chukotka volcanic belt is drastically different in systematic composition from the paleoflora of similar ages in deposits of the Northeast Asian coastal lowlands and inland depressions. In the volcanic burials, paleoflora features are the most evident in the Chaun flora found in the Pegtymel trough in the Central Chukotka region and described in the monograph by L.B. Golovneva "The Chaun Flora of the Okhotsk–Chukotka Volcanic Belt." Based on these data and our own experience in studying the Okhotsk–Chukotka belt stratigraphy and the vegetation cover dynamics in the Kamchatka recent volcanism area, we have proven that the Chaun flora was formed not on the volcanic highlands, as Golovneva stated, but on the lowlands, on a periodically renewed juvenile surface of the central part of the vast volcanic field separately from the background diaspora sources. This flora is not characterized by a clear lateral and stratigraphic confinement, because the characteristic plant fossils can be found in deposits of different ages throughout the volcanic belt. They are indicative of particular vegetation and burying conditions in the surface volcanism from the Turonian to the Campanian inclusive. [ABSTRACT FROM AUTHOR]

Published

2021

11. Nelumbo protospeciosa Saporta 1891 from the Berane Basin (Lower Miocene)

Author

Đorđević-Milutinović Desa, Stevanović Branka, and Ćulafić Goran

Subjects

Miocene, Nelumbo protospeciosa, Nelumbium, Indricotherium, Berane, paleoflora, Geology, QE1-996.5

Abstract

Berane Basin in Montenegro has been known for rich paleoflora of diverse geological ages. The remains of paleovegetation of various ages were preserved by the lake occurring in this area from Late Oligocene to Early Pliocene. Therefore, the shifts in vegetation during the Miocene period may be easily followed by studying the paleofloras collected at the Berane Basin. The first and only known remains of aquatic (floating) plants were collected in 1995 at the locality Rosulje (Berane Basin) in the Early Miocene sediments. According to the morphoanatomical characteristics of leaves such as shape of lamina, veins, venation, presence of central disk or position of petiola, the specimens were identified as Nelumbo protospeciosa SAP., a widely distributed form during the Tertiary of Eurasia. No other plants or accompanying vegetation were recorded at the Rosulje site, so presence of Nelumbo protospeciosa was insufficient for determining the habitat, vegetation or climate during its existence. Therefore the paleoenvironmental reconstruction also included analysis of the already published Early Miocene flora from the locality Luge-Haremi (Berane Basin) and eco-climatic characteristics of recent Nelumbo species. At last was concluded that Nelumbo, which had leaves at least 30 cm in diameter, used to inhabit open, well-insolated sites, probably under the influence of the subtropical/Mediterranean-type climate.

Published

2018

12. REVISION OF FRENGUELLI'S (1941) PATAGONIAN ANGIOSPERM FOSSIL LEAF COLLECTION WITH COMMENTS ON THE ORIGINAL LOCALITIES (EOCENE-MIOCENE).

Author

CAVIGLIA, NICOLÁS A. and PUJANA, ROBERTO R.

Subjects

*FOSSIL leaves, *FOSSIL angiosperms, *FOSSIL gymnosperms, *BOTANICAL nomenclature, *NOTHOFAGUS

Abstract

Frenguelli described a fossil leaf assemblage of 36 taxonomic units (nine gymnosperms and 27 angiosperms) collected from ten localities in southwestern Patagonia. Frenguelli's article has two limitations according to present-day standards: 1) most of the material was neither described nor illustrated; 2) the fossiliferous localities were not associated to any formal stratigraphic unit. We revised the fossiliferous outcrops and the descriptions and systematics of the angiosperm taxa of this collection. We explored the original fossiliferous localities and we included them into three formal stratigraphic units: Río Turbio, Río Guillermo, and Río Leona formations. We recognized 27 taxa: seven were assigned to known fossil-species, we kept 18 in open nomenclature and we synonymized the other two to another genus. In addition, we reported paleofloristic information of each unit: in the Río Turbio Formation the first record of the Salicaceae (Thouinia philippH?); in the Río Guillermo Formation the first record of the Grossulariaceae, Lauraceae and Salicaceae; and in the Río Leona Formation we described Nothofagus variabilis and Escalloniiyphyllum sp. for the first time. [ABSTRACT FROM AUTHOR]

Published

2020

13. Chingandzha Paleoflora and Age of Cretaceous Volcanites of the Balygychan and Sugoy Interfluve and Adjoining Part of Okhotsk–Kolyma Watershed.

Author

Shczepetov, S. V. and Yudova, D. A.

Subjects

*GEOLOGICAL mapping, *COASTAL plants, *WATERSHEDS, *BOTANY, *FOSSIL plants

Abstract

Most of the Okhotsk–Chukotka volcanogenic belt fossil floras differ significantly in systematic composition from the floras of coastal lowlands of the adjoining Anadyr–Koryak subregion dated by faunistic remains. That is the reason why its comparison is so difficult and, accordingly, why it is complicated to establish the age of volcanic formations. The only exception in this situation is a Chingandzha flora that is reliably compared with coastal floras and is dated to the Turonian–Coniacian. New data on the Chingandzha flora systematic composition make it possible to clarify its age. This flora shows the most similarity to a Kaivayam flora of the Anadyr–Koryak subregion; thus, it has to be dated to the Coniacian. The stratigraphic setting of the locations of the Chingandzha flora fossils makes it possible to date three lower strata of volcanites in the external zone of the Okhotsk-Chukotka volcanogenic belt to the Coniacian. During medium-scale geological mapping, younger formations were erroneously assigned to them in some cases. The Chingandzha flora could have preserved its coastal appearance and penetrated far into the continent along a lowland that probably originated in a linear zone of tectonic disturbances. [ABSTRACT FROM AUTHOR]

Published

2020

14. On the Stratigraphic Position of the Grebenka Plant-Bearing Cretaceous Deposits, Northeast Russia.

Author

Shczepetov, S. V.

Subjects

*BOTANY, *BEDS

Abstract

The late Albian–early Turonian Grebenka flora is one of the most representative mid-Cretaceous floras of Northeast Russia. However, the stratigraphic position of the Grebenka beds relative to plant-bearing deposits of similar age is still debatable. It is shown that the Salamikha volcanogenic sequence, bearing the Buor-Kemyuss plant fragments, is the most probable stratigraphic analog of the Krivorechenskaya terrigenous formation. The deposits bearing the Grebenka flora lie stratigraphically below volcanogenic deposits including the Chaun flora. [ABSTRACT FROM AUTHOR]

Published

2020

15. Plant Macrofossils from the Aftermath of the End-Triassic Extinction, Skåne, Southern Sweden

Author

Quiroz Cabascango, Daniela Elizabeth and Quiroz Cabascango, Daniela Elizabeth

Abstract

The end–Triassic mass extinction event (ca. 201 Myr ago) has received particular attention over recent decades since Sepkoski (1981) classified it as one of the ‘‘big five’’ biotic crises in Earth's history. In the geological record of Greenland and Sweden, 80% of the species of terrestrial plants disappeared at this boundary. In the last two centuries, Triassic–Jurassic plant remains from Skåne, southern Sweden, have been collected, curated, and studied. However, the paleoflora from the lowermost part of the Helsingborg Member (Lower Jurassic: Hettangian) is poorly understood. Here, a taxonomic study is presented of two novel plant assemblages collected from the Boserup beds (basal Hettangian) in NorraAlbert Quarry, Skåne. The exposures in Skåne are among the few localities in the world that record the terrestrial ecosystem aftermath of the end–Triassic extinction event. Plant macrofossils were studied using macrophotography and fluorescence microscopy. The flora is composed of sphenophytes(Neocalamites), ferns (Cladophlebis, Eboracia), ginkgophytes (Czekanowskia, Pseudotorellia,Ginkgoites), and conifers (Pityophyllum, Brachyphyllum). These earliest Jurassic assemblages were deposited in floodplain environments and revealed a relatively low diversity of flora in the aftermath of the end-Triassic extinction but a fast recovery later. Additionally, the flora was compared with the relative lowermost Jurassic beds in East Greenland, Poland, and Germany, disclosing that ginkgophytes were widely distributed across the northern region of Pangea.

Published

2023

16. REEVALUANDO LOS BOSQUES FÓSILES DE OCÚ

Author

Oris Rodríguez Reyes, Emilio Estrada Ruíz, Judith Callejas, César Silva, and Eduardo Leiva

Subjects

Maderas, fósiles, bosques lluviosos, paleoflora, Azuero, Mathematics, QA1-939, Physics, QC1-999

Abstract

Las maderas fósiles de Ocú, conocidas como chumicos, han sido reconocidas por su abundancia y vistosidad, gracias a ello, han sido aprovechadas por los locales para su comercio. Los estudios realizados por Stern y Eyde en 1967 reportaron por primera vez las plantas fósiles de Ocú. Las familias y géneros reportados hasta el día de hoy parecen sugerir una vegetación relacionada con los bosques lluviosos. Esto ha sido confirmado en estudios previos y los primeros reportes de esta nueva investigación, en donde describimos diferentes maderas y un tallo con base en su anatomía interna, esto mediante la técnica de lámina delgada y su comparación taxonómica con maderas fósiles y actuales de distintas familias. Los resultados de las maderas estudiadas en este proyecto hasta ahora han sido identificadas a nivel de familia, en las que encontramos Arecaceae, Fabaceae, Moraceae, Anacardiaceae. Estos nuevos resultados referente a la anatomía como es la presencia de vasos mayores a 100 μm, ausencia de anillos de crecimientos, placas de perforación y presencia de palmas, confirman que desde hace 30 millones de años la paleoflora de la Península de Azuero era de bosques tropicales lluviosos.

Published

2019

17. On the Problem of Nonmarine Cretaceous Strata Correlation in the Northeast Russia: The Conditions of Florogenesis in Volcanic Areas.

Author

Shczepetov, S. V. and Neshataeva, V. Yu.

Subjects

*VEGETATION dynamics, *COASTAL changes, *GROUND vegetation cover, *VOLCANIC fields, *PLATEAUS, *FOSSIL plants, *ANGIOSPERMS

Abstract

The majority of fossil floras from Cretaceous volcanogenic rocks of Northeast Russia considerably differ in taxonomy from the coeval paleofloras of coastal lowlands. In order to explain the peculiarities of their formation, we used the data on the modern vegetation dynamics for volcanic plateaus of Central Kamchatka. It is shown that there was virtually no erosion where paleofloras of the Okhotsk-Chukotka volcanogenic belt, represented in the burials, existed; however, volcanogenic material, suitable for burials to form, was supplied in abundance. After massive eruptions, inner parts of the vast volcanic zone appeared to be isolated from sources of diaspores. Vegetation cover in these areas was restored mainly owing to the pool of local taxa; i.e., it was supported as a diasporic subclimax. The absence of concurrent angiosperms favored the long-term preservation of ancient taxa in these paleofloras and the appearance of new taxa on their basis. [ABSTRACT FROM AUTHOR]

Published

2019

18. Unravelling the history of biodiversity in mountain ranges through integrating geology and biogeography.

Author

Huang, Shan, Meijers, Maud J. M., Eyres, Alison, Mulch, Andreas, and Fritz, Susanne A.

Subjects

*MOUNTAINS, *GEOLOGY, *PLANT diversity, *BIODIVERSITY, *BIOGEOGRAPHY, *PALEOGEOGRAPHY

Abstract

Aim: We advocate an interdisciplinary approach to biogeography, integrating geology and paleobiology to examine how biodiversity dynamics evolved as mountain ranges formed through (geological) time. Location: Global; case study: Anatolia (Turkey). Methods: We discuss the links between surface uplift and biodiversity dynamics and review recent developments for reconstructing the history of geography and biodiversity. To illustrate an integrative approach to biogeography, we present a case study of Neogene Anatolia. In particular, we reconstruct Anatolian paleogeography based on a synthesis of both quantitative and qualitative evidence, and review the fossil record of the regional flora and fauna, to identify changes in compositions that might be induced by surface uplift and associated environmental changes. Results: The Central Anatolian Plateau and its mountainous margins display different histories of surface uplift during the late Miocene to Pliocene, which are detectable in the regional fossil record of large mammals. Overall changes in vegetation and climatic conditions for the whole region also align with the general time frame of surface uplift. Main conclusions: Our discussion and case study highlight the value of an integrative biogeographic framework, by combining knowledge and techniques from geology and paleobiology to simultaneously consider the biotic and environmental dynamics in space and time. Neogene surface uplift in Anatolia has affected the regional biota, particularly the diversity of plants and large mammals, along with well‐known global and regional changes in climate and other environmental factors. To disentangle the effects of different, but most likely interactive environmental changes at various scales, we call for rigorous examination of the geological record in a biogeographic framework, using innovative methods to uncover how environmental and biotic processes have shaped mountain biodiversity. [ABSTRACT FROM AUTHOR]

Published

2019

19. Paleofloristic comparison of the Ayuquila and Otlaltepec basins, Middle Jurassic, Oaxaca, Mexico.

Author

Velasco-de León, Maria Patricia, Ortiz-Martínez, Erika L., Lozano-Carmona, Diego E., and Flores-Barragan, Miguel A.

Subjects

*FERNS, *BRAIDED rivers, *PLANT diversity, *BODIES of water, *PLANT communities, *FLOODPLAINS

Abstract

The evolution of the Jurassic sedimentary basins is a topic that has recently begun to be studied in Mexico. The aspects investigated to date involve the formation, size, origin and weathering of the sediments through the deposit, amongst others. However, so far, they have not been related to the plant communities that were established during the phases of basinal evolution. In this paper we compare the paleofloristic listings and vegetation structure of two communities that developed in the Ayuquila and Otlaltepec basins, with the characteristics of the deposit environments reported for each basin that were deposited during the Bajocian-Bathonian. For the Ayuquila basin, alluvial fans are reported combined with flood plains and isolated lakes within a braided river system. While for the Otlaltepec basin the presence of braided river is inferred. The moisture available for each plant community was estimated by the use of seven foliar classes. The vegetation structure was obtained through the identification of leaves, reproductive structures and fossilized wood at the species level; these data allowed the quantification of plant diversity of the communities, which in the Ayuquila basin amounts to 14 genera and 22 species, while in the Otlaltepec basin nine genera and 22 species were identified, which formed plant communities with three well-defined strata. The herbaceous stratum in both basins was made up of Pteridophytes. In the Ayuquila basin they are represented by the genera Equisetum and Cladophlebis , while in the Otlaltepec basin only by Filicales. In the Ayuquila basin, Cladophlebis sp and Otozamites hespera are the most abundant species, while in the Otlaltepec basin it was Zamites lucerensis. In both basins the foliar area exhibited by the floristic elements mostly correspond to microphyll I or smaller leaves, which correspond to Brachyphyllum and to different genera of Bennettitales. Of these latter plants only Otozamites hespera and Zamites lucerensis are considered generalists as they are present in the four localities that comprise the study area. Finally, the lithological characteristics of the watersheds of Ayuquila and Otlaltepec indicate the presence of ephemeral or permanent bodies of water that vary in volume according to the season of the year these provided the necessary humidity for the establishment of ferns and members of Pelourdea , organisms considered ripary or seasonal. While in the dry season the members of Coniferales (Brachyphyllum), Bennettitales and perhaps Caytoniales (Sagenopteris) were favored. • The paleofloristic composition of a basin is linked to its geological history. • Greater paleofloristic diversity is linked to temporary lakes. • The species tolerant to water stress have a wider distribution. • The shrubby community was dominant in the study area during the Middle Jurassic. [ABSTRACT FROM AUTHOR]

Published

2019

20. On the Relative Age of the Late Cretaceous Zorin and Chingandzha Floras in the Northeast of Russia.

Author

Shczepetov, S. V.

Subjects

*BOTANY, *VOLCANIC ash, tuff, etc., *BRIDGE bearings, *TIME measurements

Abstract

The Zorin and Chingandzha floras significantly differ in their systematic composition, but they are buried at the same stratigraphic level. On this basis, they are considered to be of the same age and are assigned to the Turonian–Coniacian period. The revealed features of the lithological composition of the plant-bearing deposits, their sequence, and the composition of the overlaying volcanic rocks indicate that both floras represent the first stage of the development of the outer zone of the Okhotsk–Chukotka Volcanic Belt. However, they are separated by one or two local geological events, and hence by a significant period of time. It can be confirmed that the Zorin flora was formed and existed earlier than the Chingandzha flora. [ABSTRACT FROM AUTHOR]

Published

2019

21. Paleoflora y Paleovegetación Ibérica III: Holoceno

Author

Carrión, José, Lopez-Saez, Ja, Casas-Gallego, M, Gonzalez-Samperiz, P, Badal, E, Perez-Diaz, S, Carrion-Marco, Y, Jimenez-Moreno, G, Lopez-Merino, L, Burjachs, F, Abel-Schaad, D, Fernandez, S, Morales-Molino, C, Alba Sanchez, F, Peña-Chocarro, L, Barron, E, Postigo-Mijarra, Jm, Gil-Garcia, Mj, Rubiales, Jm, Vidal-Matutano, P, Arambarri, J, Ramos-Roman, Mj, Camuera, J, Magri, D, Revelles, J, Altolaguirre, Y, Ruiz-Zapata, B, Luelmo, R, Uzquiano, P, Allue, E, Anderson, S, Dupre, M, Gil-Romera, G, Pique, R, Garcia-Anton, M, Amoros, G, Yll, R, Perez-Jorda, G, Scott, L, Figueiral, I, Rodriguez-Ariza, Mo, Morla-Jauristi, C, Garcia-Amorena, I, Montoya, E, Val Peon, C, Ejarque, A, Riera, S, Peñalba, C, Fierro, E, Exposito, I, Perez-Obiol, R, Vieira, M, Gomez-Manzaneque, F, Maldonado, J, Leunda, M, Franco, F, Albert, Rm, Diez, Mj, Marin-Arroyo, Ab, Manzano, S, Dirita, F, Andrade, A, Parra, I, Zapata, L, Perez, A, Grau, E, Alcolea, M, Mesa-Fernandez, Jm, Miras, Y, Ruiz-Alonso, M, Genova, M, Garcia-Alvarez, S, Moreno, E, Olmedo Cobo, Ja, Gomez Zotano, J, Pardo Martinez, R, Mas, B, Monteiro, P, Antolin, F, Obea, L, Martin-Seijo, M, Alonso, N, Amoros, A, Fernandez-Diaz, M, Reyes, Pp, Sanchez-Giner, V, Gomez-Rodriguez, M, Rull, V, Vegas-Villarrubia, T, Lopez-Bulto, O, Bianco, S, Trapote, Mc, Picornell-Gelabert, L, Sureda, P, BRISSET, Elodie, Servera Vives, G, Girona, A, Celant, A., Munuera, M, Ochando, J, Brisset, E, Universidad de Murcia, Institut méditerranéen de biodiversité et d'écologie marine et continentale (IMBE), Avignon Université (AU)-Aix Marseille Université (AMU)-Institut de recherche pour le développement [IRD] : UMR237-Centre National de la Recherche Scientifique (CNRS), and Ministerio de Ciencia e Innovación y Fundación Séneca

Subjects

Holocene, [SDE]Environmental Sciences, Paleoflora, Holoceno, Iberia Peninsula

Abstract

International audience

Published

2022

22. Ecosistemas biodiversos en un entorno árido: comunidades vegetales albienses y biota asociada (Cuenca del Maestrazgo, España)

Author

Agencia Estatal de Investigación (España), Barrón López, Eduardo [0000-0003-4979-1117], Barrón López, Eduardo, Peyrot, Daniel, Bueno Cebollada, Carlos, Kvacek, Jirí, Álvarez Parra, Sergio, Altolaguirre, Yul, Rodrigo Sanz, Ana, Meléndez, Nieves, Agencia Estatal de Investigación (España), Barrón López, Eduardo [0000-0003-4979-1117], Barrón López, Eduardo, Peyrot, Daniel, Bueno Cebollada, Carlos, Kvacek, Jirí, Álvarez Parra, Sergio, Altolaguirre, Yul, Rodrigo Sanz, Ana, and Meléndez, Nieves

Abstract

[ES] Los desiertos son ambientes estresantes para las formas de vida que para sobrevivir deben desarrollar diferentes estrategias. El llamado Sistema Desértico Ibérico se estableció en el norte y este de la península Ibérica desde el Albiense superior hasta el Cenomaniense inferior. Concretamente, los yacimientos del Albiense tardío de la Cuenca del Maestrazgo (Grupo Utrillas, Este de España) se conocen por contener ámbar con abundantes bioinclusiones que incluyen diversos artrópodos. El Grupo Utrillas se interpreta como un sistema desértico situado en las proximidades de la costa de Tethys, y engloba una sucesión sedimentaria formada por una alternancia de depósitos marinos someros y dunas eólicas. Los ecosistemas que se desarrollaron en esta zona fueron biodiversos, y estaban integrados por comunidades vegetales cuyos fósiles se asocian con indicadores sedimentológicos de aridez. La palinoflora identificada en las secciones con ámbar está dominada por granos de polen de gimnospermas transportados por el viento y/o esporas de helecho. Adicionalmente, el polen de angiospermas primitivas muestra una gran diversidad de formas pero nunca alcanza valores numéricos significativos. Por su parte, los quistes de dinoflagelados son raros y su presencia refleja incursiones marinas en ambientes cercanos a la costa. En general, las asociaciones palinológicas estudiadas indican la existencia de bosques de Cheirolepidiaceae y Cupressaceae adaptados a ambientes áridos, entornos costeros con Araucariaceae, y comunidades de interdunas y marismas con helechos y angiospermas. La presencia de asociaciones macroflorísticas poco diversas, caracterizadas por Frenelopsis, Eretmophyllum y algunas angiospermas, también señalan la existencia de marismas. La aparición de granos de polen de Afropollis, Dichastopollenites, Cretacaeiporites, así como los poliplicados producidos por Gnetales, revelan que estos ecosistemas desérticos presentaron influencias de los del norte de Gondwana. Por el cont

Published

2022

23. Poleward amplification, seasonal rainfall and forest heterogeneity in the Miocene of the eastern USA.

Author

Reichgelt, Tammo, Baumgartner, Aly, Feng, Ran, and Willard, Debra A.

Subjects

*RAINFALL, *MIOCENE Epoch, *ATMOSPHERIC carbon dioxide, *OCEAN temperature, *GLOBAL warming, *FOSSIL plants

Abstract

Paleoclimate reconstructions can provide a window into the environmental conditions in Earth history when atmospheric carbon dioxide concentrations were higher than today. In the eastern USA, paleoclimate reconstructions are sparse, because terrestrial sedimentary deposits are rare. Despite this, the eastern USA has the largest population and population density in North America, and understanding the effects of current and future climate change is of vital importance. Here, we provide terrestrial paleoclimate reconstructions of the eastern USA from Miocene fossil floras. Additionally, we compare proxy paleoclimate reconstructions from the warmest period in the Miocene, the Miocene Climatic Optimum (MCO), to those of an MCO Earth System Model. Reconstructed Miocene temperatures and precipitation north of 35°N are higher than modern. In contrast, south of 35°N, temperatures and precipitation are similar to today, suggesting a poleward amplification effect in eastern North America. Reconstructed Miocene rainfall seasonality was predominantly higher than modern, regardless of latitude, indicating greater variability in intra-annual moisture transport. Reconstructed climates are almost uniformly in the temperate seasonal forest biome, but heterogeneity of specific forest types is evident. Reconstructed Miocene terrestrial temperatures from the eastern USA are lower than modeled temperatures and coeval Atlantic sea surface temperatures. However, reconstructed rainfall is consistent with modeled rainfall. Our results show that during the Miocene, climate was most different from modern in the northeastern states, and may suggest a drastic reduction in the meridional temperature gradient along the North American east coast compared to today. • Miocene terrestrial climate and vegetation of the eastern USA was relatively uniform. • Miocene climate was warmer and wetter than modern north of 35°N, but similar to modern south of 35°N. • Miocene precipitation was more seasonal than modern. • Though wooded throughout, the eastern USA variable forest types during the Miocene. • Miocene eastern USA likely had a reduced meridional temperature gradient compared to modern. [ABSTRACT FROM AUTHOR]

Published

2023

24. Ecosistemas biodiversos en un entorno árido: comunidades vegetales albienses y biota asociada (Cuenca del Maestrazgo, España)

Author

Barrón López, Eduardo, Peyrot, Daniel, Bueno Cebollada, Carlos, Kvacek, Jirí, Álvarez Parra, Sergio, Altolaguirre, Yul, Rodrigo Sanz, Ana, Meléndez, Nieves, Agencia Estatal de Investigación (España), Barrón López, Eduardo [0000-0003-4979-1117], and Barrón López, Eduardo

Subjects

Desierto, Albiense, España, Paleoflora, Cretácico Inferior, Ámbar, Artrópodos

Abstract

Resumen presentado en las XXXVII Jornadas de Paleontología y en V Congreso Ibérico de Paleontología., [ES] Los desiertos son ambientes estresantes para las formas de vida que para sobrevivir deben desarrollar diferentes estrategias. El llamado Sistema Desértico Ibérico se estableció en el norte y este de la península Ibérica desde el Albiense superior hasta el Cenomaniense inferior. Concretamente, los yacimientos del Albiense tardío de la Cuenca del Maestrazgo (Grupo Utrillas, Este de España) se conocen por contener ámbar con abundantes bioinclusiones que incluyen diversos artrópodos. El Grupo Utrillas se interpreta como un sistema desértico situado en las proximidades de la costa de Tethys, y engloba una sucesión sedimentaria formada por una alternancia de depósitos marinos someros y dunas eólicas. Los ecosistemas que se desarrollaron en esta zona fueron biodiversos, y estaban integrados por comunidades vegetales cuyos fósiles se asocian con indicadores sedimentológicos de aridez. La palinoflora identificada en las secciones con ámbar está dominada por granos de polen de gimnospermas transportados por el viento y/o esporas de helecho. Adicionalmente, el polen de angiospermas primitivas muestra una gran diversidad de formas pero nunca alcanza valores numéricos significativos. Por su parte, los quistes de dinoflagelados son raros y su presencia refleja incursiones marinas en ambientes cercanos a la costa. En general, las asociaciones palinológicas estudiadas indican la existencia de bosques de Cheirolepidiaceae y Cupressaceae adaptados a ambientes áridos, entornos costeros con Araucariaceae, y comunidades de interdunas y marismas con helechos y angiospermas. La presencia de asociaciones macroflorísticas poco diversas, caracterizadas por Frenelopsis, Eretmophyllum y algunas angiospermas, también señalan la existencia de marismas. La aparición de granos de polen de Afropollis, Dichastopollenites, Cretacaeiporites, así como los poliplicados producidos por Gnetales, revelan que estos ecosistemas desérticos presentaron influencias de los del norte de Gondwana. Por el contrario, las asociaciones macroflorísticas muestran una composición que las relacionas con comunidades laurasiáticas albienses y cenomanienses de Francia, y de la República Checa., Este estudio forma parte de los estudios realizados en el marco del Proyecto CRE (CGL2017-84419 – Evento cretácico de resina: Un bioevento global de producción en masa de resina en los albores de los ecosistemas terrestres modernos), financiado por la AEI/FEDER y la UE.

Published

2022

25. Fossil wood from the upper Miocene Mpesida Beds at Cheparain (Baringo District, Kenya): Botanical affinities and palaeoenvironmental implications.

Author

De Franceschi, Dario, Bamford, Marion, Pickford, Martin, and Senut, Brigitte

Subjects

*FOSSIL trees, *MIOCENE Epoch, *SAMPLING (Process), *RADIOISOTOPES, *RADIOACTIVE dating, *MINERALIZATION

Abstract

Seven wood samples from a petrified forest, in situ in ash flow deposits at Cheparain in the Tugen Hills (Kenya) in the Mpesida Beds, were discovered and studied. The age of the Mpesida Formation is estimated to be about 6.3 Ma on the basis of radio-isotope age determinations on the volcanic deposits, which overlie and underlie the sedimentary levels. The wood samples are mineralized with obvious sectors of differential mineralization, and different degrees of silica impregnation. All samples show heteroxylous structures corresponding to angiosperm dicotyledon trees. One sample consists in a half cylinder showing a well preserved mineralized structure of heteroxylous wood and probably corresponds to a fragment of root. This wood, with solitary (or in radial group) vessels, heterocellular multiseriate rays, paratracheal parenchyma in wide bands, and partly storied fusiform cells, clearly shows affinities with the genus Erythrina ( Fabaceae). A slightly compressed branch, partly disturbed by injuries and highly mineralized shows solitary (or in short radial group) vessels, the rays uni-(bi) seriate are heterocellular, and the apotracheal parenchyma is in thin tangential bands. The closest affinities are with the genus Spirostachys (Euphorbiaceae). The other structures are poorly preserved (highly mineralized) and precise botanical affinities cannot be accessed. But the growth rings are distinct or diversely marked and the samples show semi-ring porous structures. They exhibit two different patterns. The growth rings reveal the presence of seasonal climate, and numerous injuries, a disturbance of the vegetation by animals and/or strong climatic events. Erythrina and Spirostachys are present in the extant vegetation of the Tana River Valley, in Kenya, which could represent a modern analogue for the vegetation of the Mpesida Beds prior to the major uplift of the Tugen Hills at the end of the Miocene. [ABSTRACT FROM AUTHOR]

Published

2016

26. Gymnosperms : History of Life: Plants: Gymnosperms

Author

McLoughlin, Stephen and McLoughlin, Stephen

Abstract

Gymnosperms represent a broad range of seed-bearing plants that differ from flowering plants in not having seeds enclosed within carpels. Gymnosperms are probably monophyletic, having arisen among ‘progymnosperm’ stock in the Devonian. Key adaptations involving retention of the megagametophyte within a protective coating to form a seed on the parent sporophyte, dissemination of the microgametophyte in durable pollen, production of complex root systems, and extensive development of secondary xylem in the stem, provided gymnosperms with opportunities to exploit upland and drier habitats in the late Paleozoic that had not been occupied by earlier free-sporing plant groups. Gymnosperms diversified in the late Paleozoic and were prime contributors of organic matter to some of the world's largest coal deposits, which accumulated at that time. After suffering widespread extinctions at the close of the Permian, gymnosperms re-radiated in the Triassic and dominated the global floras until the mid-Cretaceous, after which they were progressively supplanted by angiosperms. Gymnosperms are represented in the modern flora by over 1000 species, but their diversity and distribution have contracted greatly since the Mesozoic. They still dominate large tracts of the Northern Hemisphere boreal forests, and are locally dominant in more restricted vegetation types in other parts of the world. Extant gymnosperms provide a range of food, industrial and medical resources to modern society.

Published

2021

27. The collapse of the protoprecordillera and unification of the Paganzo and Calingasta-uspallata basins: Retamito Formation a key in the integrative biostratigraphic and palaeoenvironmental model.

Author

Correa, Gustavo, Drovandi, Juan, Taboada, Arturo, Colombi, Carina, and Conde, Osvaldo

Subjects

*ALLUVIUM, *COLLUVIUM, *SANDSTONE, *MARINE animals, *BRACHIOPODA, GONDWANA (Continent)

Abstract

The Retamito Formation is located at the southernmost of Oriental Precordillera, San Juan, Argentina. This contribution defines eight facies associations: FA1 (breccias and conglomerates) linked to initial valley fills by a chaotic basal colluvium fan and/or karst collapse. FA2 (sandstones and gravelly sandstones) is interpreted as deposits of coastal shoreface systems. The FA3 (coal and coaly mudstones) could be attributed to a paralic environment and represent the first record of plant remains of Argentina (NBG Biozone). FA4 (gravel-bed) is interpreted as a proximal alluvial system. FA5 (shales) contains the first record of brachiopods and a new taxa Komiellanetes cesariae sp. nov, probably representing an eastward extension of the TS fauna in a brief marine incursion. FA6 (mudstones and sandstones) is deposited in a delta front system. The FA7 (red mudstones) are linked to lagoons deposits, where they preserved a floristic assemblage of megaflora remains (Ferugliocladus Superbiozone) composed of seeds, stems, and leaves that are most likely of Permian age. Finally, the FA8 (interbedded sandstones and mudstones) is interpreted as deposited by an anastomosed fluvial system. We present paleoenvironmental and paleontological data of the Retamito Formation correlated with the neighboring Andapaico and Ansilta formations in an east-west transect. This correlation parsimoniously linked the Paganzo and Calingasta-Uspallata Basins in seven filling scenarios (temporal stages Ts). From Ts1 to Ts5, both basins were separated by the Protoprecordillera. Common paleoenvironments on both basins suggest unification of them in Ts6 and Ts7. These temporal stages are paleontologically controlled by two new fossil levels and the corresponding sedimentary paleoenvironments that contain them. Thus, it could be demonstrated that the positive element of the Protoprecordillera was active until the Upper Carboniferous and collapsed towards Early Permian, unifying both basins in this sector of Gondwana. • The first discovery of invertebrates from the TS biozone in the Eastern Precordillera (new genus and species). • The first discovery of the Superzone Ferugliocladus in the Eastern Precordillera. • An east-west correlation model between the Paganzo and Calingasta-Uspallata basins is presented. • The presence and subsidence of the Protoprecordillera that divided both basins were determined. [ABSTRACT FROM AUTHOR]

Published

2022

28. Novos registros de angiospermas pleistocênicas para formação Rio Madeira, bacia do Abunã, Rondônia, Brasil

Author

Nascimento, Taluany Silva do and Oliveira, Etiene Fabbrin Pires

Subjects

CIENCIAS BIOLOGICAS [CNPQ], Paleoflora, Região amazônica, Moraceae, Myrtaceae, Quaternário, Amazon region, Quaternary

Abstract

A paleobotânica é uma ciência multidisciplinar na qual a botânica e a geologia se interligam no estudo das plantas fósseis, visando a reconstrução dos fitofósseis isolados e/ou fragmentados e a compreensão da relação das plantas fósseis com as plantas atuais, bem como sua trajetória evolutiva. Devido a abundância de folhas fósseis nas assembleias fossilíferas foram desenvolvidas metodologias de classificação taxonômica com base na arquitetura foliar, sendo esses caracteres amplamente utilizados para o estabelecimento de inferências paleoambientais baseadas na relação das características da fisionomia foliar com as variáveis ambientais. Dessa forma, o objetivo do presente trabalho é definir o padrão de arquitetura foliar de folhas fósseis de angiospermas provenientes do Pleistoceno Superior da Bacia Sedimentar do Abunã, estabelecendo suas afinidades sistemáticas e taxonômicas, e assim contribuir para a caracterização da paleobiodiversidade da área de estudo ao longo do Pleistoceno Superior. Os materiais de estudo são provenientes da área de abrangência da Usina Hidrelétrica de Jirau, localizada no Estado de Rondônia, coletados no Afloramento Estaca 93, Formação Rio Madeira, Bacia Sedimentar do Abunã. As folhas foram analisadas em estereomicroscópio, com auxílio de paquímetro para as mensurações. Para documentação gráfica, foram obtidas macrofotografias com câmera digital e microfotografias em estereomicroscópio. As fotografias foram redesenhadas (line drawing) com o intuito de detalhar o padrão de venação até a ordem preservada. A descrição da arquitetura foliar seguiu as terminologias propostas no Manual de Arquitetura Foliar, e a fim de se realizar a identificação até o nível taxonômico possível, os materiais foram comparados com espécimes já descritos na literatura paleobotânica e em inventários botânicos atuais. Os resultados apresentam a descrição e afinidade botânica de sete espécimes foliares de angiospermas, sendo três desses espécimes incluídos apenas como pertencentes às Eudicotiledôneas, dois com afinidades a família Moraceae e dois a família Myrtaceae. A distribuição atual e a tolerância ambiental dessas famílias demonstram que ambas estão mais relacionadas a regiões de clima tropical úmido, o que vem a ser confirmado com base nos detalhes morfológicos preservados. Portanto, nossos dados corroboram com outros trabalhos realizados com a paleoflora do contexto Amazônia, que inferem a presença de uma floresta tropical e um clima semelhante ao atual no Pleistoceno Superior. Paleobotany is an interdisciplinary science in which botany and geology are interconnected in the study of fossil plants, aiming at the reconstruction of isolated and / or fragmented phytofossils and the knowledge about the relationship between fossil and current plants, as well as their evolutionary trajectory. Due to the abundance of fossil leaves in a fossil assemblage, taxonomic classification methodologies were developed based on leaf architecture, and these characters are widely used to establish paleoenvironmental inferences based on the relationship of leaf physiognomy characteristics with environmental variables. Thus, the objective of the present work is to define the leaf architecture pattern of fossil angiosperm leaves from the Upper Pleistocene of the Abunã Basin, establishing its systematic and taxonomic affinities, and thus contribute to the characterization of the paleobiodiversity of the study area the along the Upper Pleistocene. The materials come from the area covered by the Jirau DAM, Rondônia State, collected at the Estaca 93 Outcrop, Rio Madeira Formation, Abunã Basin. The leaves were analyzed in a stereomicroscope with the aid of a caliper for measurements. For graphic documentation, macrophotographs with digital camera and stereomicroscope microphotographs were obtained. The photographs were redrawn (line drawing) to detail the venation pattern to the preserved order. The description of leaf architecture followed the terminologies proposed in the Manual of Leaf Architecture, and to carry out the identification to the possible taxonomic level. The materials were compared with specimens already described in paleobotanical literature and in current botanical inventories. The results show the description and botanical affinity of seven leaf specimens of angiosperms, which three of these specimens included only as belonging to the Eudicotyledons, two with affinities to the Moraceae family and two to the Myrtaceae family. The current distribution and the environmental tolerance of these families demonstrate that both are more related to regions of a humid tropical climate, which has been confirmed based on the preserved morphological details. Therefore, our data corroborate with other studies carried out with paleoflora from the Amazon context, which infer the presence of a tropical forest and a climate like the current one in the Upper Pleistocene.

Published

2021

29. ЗАЛИШКИ ПАЛЕОФЛОРИ В БРЕКЧІЯХ ФОРМАЦІЇ ОНАПІНГ, ІМПАКТНА СТРУКТУРА САДБЕРІ, ОНТАРІО, КАНАДА

Author

French, B.M.

Subjects

impact structure, Canada, імпактна структура, рослинні залишки, paleoflora, палеофлора, plant remains, Sudbury impact structure, донні відклади, брекчія, bottom sediment, breccia

Abstract

Electron microscopic investigations of four breccia samples of the Onaping Formation, Sudbury impact structure, Canada, have been carried out for the search of possible remains of paleoflora and identification of the nature of organic matter and their composition. Two forms of plant remains were discovered in the breccias. The first form is represented by single plant particles scattered in the matrix of breccias and included in gas vesicles in devitrified glasses. These particles are leaf-shaped, stem-shaped, tubular, and spherical objects, ranging from 5-10 to 200-300 µm in size. It is supposed that algal flora inhabiting the sea basin before the Sudbury impact was the source of this form of plant residues in breccias. The second form of plant remains in breccias is represented by plant detritus in carbon-bearing fragments of mudstones included in the breccia matrix. These fragments, reaching a size to 1000-1200 µm, have irregular shapes and complicated rugged contacts with the host breccia. Plant residues in mudstones are mainly ribbon-like scraps from 3-5 to 200-300 µm long, some while rare particles have a more complex shape. The matrix of the mudstones is a heterogeneous fine-grained clay-like substance with a network of micron-wide open joint fissures. The carbon content in mudstone matrix ranges from 7-10 to 20-25 wt%. Muddy bottom sediments of the pre-impact sea basin are supposed to be a source of mudstone fragments in breccias, while the algal flora inhabited the sea during their sedimentation served as a source of plant detritus in mudstones. Fragments of mudstones and floral residues are an important source of organic carbon in breccias of the Onaping Formation. The discovery of paleofloral remains in the breccias indicates the existence of a previously unknown complex algal flora that inhabited the pre-impact sea before the impact event 1.85 billion years ago at the very end of the Paleoproterozoic. The Sudbury impact structure is comparable in size to the Chicxulub impact structure, the formation of which caused the Cretaceous-Paleogene mass extinction. We assume that the formation of the Sudbury structure had a catastrophic impact on the paleoflora of the late Paleoproterozoic, the remnants of which were preserved in the breccias of the Onaping Formation., Проведено електронно-мікроскопічне дослідження зразків брекчій формації Онапінг імпактної структури Садбері (Канада) з метою пошуків залишків палеофлори і визначення природи органічної речовини в їх складі. У брекчіях Онапінг були виявлені дві форми рослинних залишків. Перша форма представлена поодинокими рослинними частками, поширеними в матриці брекчій і включеними в газові вакуолі в розкристалізованому імпактному склі. Ці частки розміром від 5-10 до 200-300 мкм є об'єктами у формі листя, стебел, а також часток трубчастої і сферичної форми. Передбачається, що джерелом цієї форми рослинних залишків послужила водорослева флора, що населяла морський басейн напередодні астероїдного удару Садбері. Друга форма рослинних залишків у формації Онапінг представлена рослинним детритом в уламках вуглецевовміщуючих глинистих порід, що входять до складу брекчій. Детритові частки, що досягають розмірів 1000-1200 мкм, мають неправильну форму і складні нерівні контакти з вміщуючими брекчіями. Рослинні залишки в складі глинистих уламків представлені, головним чином, стрічкоподібними частками довжиною від 3-5 до 200-300 мкм, в той час як більш рідкісні частки мають складну трубчасту і пластинчасту форму. Матриця глинистих порід представлена неоднорідною тонкозернистою глинистою речовиною з сіткою відкритих тріщин мікронного розміру. Вміст вуглецю в матриці глинистих часток коливається від 7-10 до 20-25 мас.%. Джерелом цих часток у брекчіях послужили мулисті донні осади доударного морського басейну, а водорослева флора, яка мешкала в морі під час їхньої седиментації, стала джерелом включеного в них рослинного детриту. Уламки глинистих порід і рослинні залишки є важливим джерелом органічного вуглецю в брекчіях формації Онапінг. Виявлення залишків палеофлори в брекчіях формації Онапінг вказує на існування раніше невідомої складної водорослевої флори, що населяла морський басейн до ударної події 1,85 мільярда років тому в кінці палеопротерозою. Імпактна структура Садбері за параметрами порівнянна з кратером Чиксулуб, що викликав крейдово-палеогенове масове вимирання біоти. Ми припускаємо, що формування структури Садбері мало катастрофічні наслідки для палеофлори пізнього палеопротерозою, залишки якої збереглися в брекчіях формації Онапінг.

Published

2021

30. The Gondwanan heritage of the Eocene–Miocene Patagonian floras

Author

Luis Palazzesi, Damián A. Fernández, Carolina Panti, Viviana Barreda, M.J. Tapia, Roberto Roman Pujana, and Sol Noetinger

Subjects

010506 paleontology, Climax, biology, Ecology, DIVERSITY, Geology, Late Miocene, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Eucalyptus, purl.org/becyt/ford/1 [https], Gondwana, PATAGONIA, purl.org/becyt/ford/1.5 [https], Gymnostoma, FOSSILS, GONDWANA, Period (geology), Podocarpaceae, Cenozoic, 0105 earth and related environmental sciences, Earth-Surface Processes, PALEOFLORA

Abstract

The breakup of Gondwana and the associated climatic changes led to the fragmentation of floras that were once connected across the Southern lands. The diversity of the Gondwanan remnants has long been assumed to have fluctuated in Patagonia across the Cenozoic, although it has never been quantified so far. Here we address when the major floristic members of the Gondwanan legacy (e.g., southern beeches, proteas, podocarps, gumtrees) expanded, contracted, or became extinct during the Patagonian biogeographic isolation (Eocene–Miocene) on the basis of the re-assessment of the fossil record (i.e., woods, leaves, and spore-pollen grains). We found that the Patagonian floras experienced moderate to severe shifts in the diversity of the Gondwanan component —relative to the total flora— with the highest estimates in the late Eocene–early Oligocene (~50%) and the lowest estimates in the late Miocene (~20%) according to the fossil pollen record. The most important floristic changes include two major replacements: 1) tropical Gondwanan taxa (e.g., Akania, Eucalyptus, Gymnostoma) by typically cool-temperate taxa (e.g., Nothofagaceae) in the Eocene, and 2) humid taxa (e.g., Podocarpaceae) by arid-adapted floras, mostly of non-Gondwanan affinity, across the Miocene. The variation in diversity of the Gondwanan component from Patagonia shows a striking resemblance to that from Australia for the same period, probably indicating a global-scale driver of floristic turnover (e.g., global cooling conditions). Today, the Patagonian subantarctic forests harbor only about ~15% of the Gondwanan diversity, representing a three-fold decrease from its climax in the late Eocene–early Oligocene. Fil: Barreda, Viviana Dora. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Museo Argentino de Ciencias Naturales "Bernardino Rivadavia"; Argentina Fil: Palazzesi, Luis. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Museo Argentino de Ciencias Naturales "Bernardino Rivadavia"; Argentina Fil: Pujana, Roberto Roman. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Museo Argentino de Ciencias Naturales "Bernardino Rivadavia"; Argentina Fil: Panti, Carolina. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Museo Argentino de Ciencias Naturales "Bernardino Rivadavia"; Argentina Fil: Tapia, Mariano Jesús. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Museo Argentino de Ciencias Naturales "Bernardino Rivadavia"; Argentina Fil: Fernández, Damián Andrés. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Austral de Investigaciones Científicas; Argentina Fil: Noetinger, Maria Sol. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Museo Argentino de Ciencias Naturales "Bernardino Rivadavia"; Argentina

Published

2020

31. Reporte preliminar sobre la paleoflora de la Formación La Colonia (Campaniano-Maastrichtiano, Cretácico tardío), Chubut, Patagonia, Argentina.

Author

Gandolfo, María A., Cúneo, N. Ruben, and Hermsen, Elizabeth J.

Abstract

In this contribution, we present new paleofloristic elements from the La Colonia Formation (Campanian-Maastrichtian, Late Cretaceous), exposed between Telsen and Sierra Rosada in the area known as the North Patagonian Massif, Chubut, Patagonia, Argentina. Previously, the paleoflora was only known from some of its aquatic components: pteridophytes representing the families Salviniaceae and Marsileaceae and angiosperms representing the families Nelumbonaceae. However, recent paleobotanical collections have revealed the presence of a more diverse plant assemblage including other aquatic elements as well as terrestrial ferns, conifers, and several angiosperms. Among the aquatics, macrofossils similar to Azolla (pteridophyte), and two angiosperms related to the families Araceae and Typhaceae are described; while the terrestrial components are represented by fossils of Dicksonianceae (pteridophyten), a putative araucariacean conifer, and six dicot morphotypes. The aquatic elements are interpreted as autochtonous and the terrestial as allochtonous. The taphocenosis confirms the environmental interpretation previously suggested for the middle sector of the La Colonia Formation. [ABSTRACT FROM AUTHOR]

Published

2014

32. Palynological, megafloral and mesofossil record from the Bajo Grande area (Anfiteatro de Ticó Formation, Baqueró Group, Upper Aptian), Patagonia, Argentina

Author

Magdalena Llorens, V.S. Perez Loinaze, M.G. Passalia, and Ezequiel Ignacio Vera

Subjects

0106 biological sciences, 010506 paleontology, Flora, Aptian, Outcrop, APTIAN, medicine.disease_cause, 010603 evolutionary biology, 01 natural sciences, Floristics, Paleontología, Ciencias de la Tierra y relacionadas con el Medio Ambiente, purl.org/becyt/ford/1 [https], Paleontology, purl.org/becyt/ford/1.5 [https], Pollen, medicine, MESOFOSSILS, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Palynology, Cretaceous, Gondwana, PATAGONIA, PALYNOLOGY, Geology, CIENCIAS NATURALES Y EXACTAS, PALEOFLORA

Abstract

The late Aptian flora of Baqueró is one of the best known and accurately dated Cretaceous plant associations from Gondwana, recognized for their well-preserved fossil remains. The Cerro Bayo (Bajo Grande area, Argentinean Patagonia) is one of its classical locations and includes the northernmost fossiliferous outcrops of the Baqueró Group, which belong to the Anfiteatro de Ticó Formation. It yields diverse and numerous plant megafossils and reproductive structures with associated pollen. We report a complete systematic study of a palynological association with 124 species, including 26 that are identified for the first time in the unit. This allowed the first record of three major botanical groups not reported before (i.e., lycophytes, hornworts and angiosperms), as well as algae and fungal spores. The same fossiliferous levels also yielded megafloral remains and the first record of a mesofossils assemblage for the Baqueró flora. By integrating all these floristic data sources, relative abundance analyses, and sedimentological data it is possible to propose a paleoenvironmental reconstruction of the Bajo Grande area during the late Aptian: a diverse forest growing in a temperate to warm climate with subtle variations between those associations from floodplains with water instability within a delta and those that grew into a more stable area out of the flooding influence. Thus, the presumed xeromorphic features identified in the Cerro Bayo flora (sunken stomata, papillae, epicuticular waxes) may have been related to contemporaneous volcanic activity recorded in Patagonia rather than to dry conditions. Fil: Llorens, Magdalena. Universidad Nacional de la Patagonia. Facultad de Ciencias Naturales. Departamento de Biología; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Perez Loinaze, Valeria Susana. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Museo Argentino de Ciencias Naturales "Bernardino Rivadavia"; Argentina Fil: Passalia, Mauro Gabriel. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte. Instituto de Investigaciones en Biodiversidad y Medioambiente. Universidad Nacional del Comahue. Centro Regional Universidad Bariloche. Instituto de Investigaciones en Biodiversidad y Medioambiente; Argentina. Universidad Nacional del Sur. Departamento de Geología; Argentina Fil: Vera, Ezequiel Ignacio. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte. Instituto de Investigaciones en Biodiversidad y Medioambiente. Universidad Nacional del Comahue. Centro Regional Universidad Bariloche. Instituto de Investigaciones en Biodiversidad y Medioambiente; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Museo Argentino de Ciencias Naturales "Bernardino Rivadavia"; Argentina

Published

2020

33. Interações inseto-planta no permiano inferior da Bacia do Paraná : sementes

Author

Santos, Thamiris Barbosa dos and Iannuzzi, Roberto

Subjects

Permiano inferior, Early Permian, Paleoflora, Herbivory, Samaropsis, Glossopterisflora, Paleobotânica, Cordaicarpus

Abstract

O estudo das relações ecológicas entre insetos e plantas é uma área muito explorada na ecologia moderna, visto que juntos estes são os organismos mais diversificados nos ecossistemas terrestres. Entender como funcionam as relações entre eles auxilia acompreender como se tornaram tão diversos e como mudaram suas estratégias de vidaao longo do tempo. O registro das interações inseto-planta em fósseis demonstram que desde períodos pretéritos esses grupos já haviam estabelecido relações interativas principalmente de herbivoria. Há registros de fitofagia desde o Devoniano, sendo queao longo da história geológica as interações entre esses grupos foram se diversificando, assim como os hábitos alimentares dos insetos. O registro das interações para o Permiano do Gondwana é restritoa análise de folhas/frondes e lenhos, visto que os danos nesses órgãos vegetais são extensamente relatados na literatura. Entretanto, os registros de danos em sementes são delimitados somente à depósitos da Euramérica. O presente estudo traz o primeiro relato junto adescrições de interações em sementes para o Paleozoico do Gondwana, bem como o primeiroregistro para a Bacia do Paraná. O material analisado é proveniente doAfloramento Itanema II (Formação Rio Bonito, Permiano Inferior), que apresenta uma rica composição de sementes com registro de 15 morfotipos, a saber: Cordaicarpussp. 1, Cordaicarpussp. 2, Cordaicarpussp. 3, Cordaicarpussp. 4, Cordaicarpussp. 5, Samaropsissp. 1, Samaropsissp. 2, Samaropsissp.3, Samaropsissp. 4, Samaropsissp. 5, Samaropsissp. 6, Samaropsissp. 7, sementes com cúpula, morfotipos 1 e 2. Foram analisadas 34sementes, das quais 8 apresentaram algum tipo de dano (23,5%do total). As sementes Cordaicarpussp. 1, Cordaicarpussp. 2, Samaropsissp. 5 e sementes com cúpula apresentaram danos do tipoDT74, DTxe DTy, sendo os dois últimos inéditos, logo, caracterizados e descritos no presente trabalho. O dano DTx foi classificado como "cicatrizes de cochonilhas" (scale) espalhadas no corpo da semente ou na asa, sendo causado por organismos hemipteróides.Jáo DTy foi classificado como perfurações no corpo da semente,que seria causado por insetos paleodictiopteroides ou hemípteros. A taxa de herbivoria no afloramento Itanema II é considerada alta quando comparada a outros estudos do mesmo período. Mesmo considerando que o número de amostras analisadas não seja alto, foram registrados três tipos de danos em quatro morfotipos, demonstrando que diferentes grupos de insetos já procuravam sementes como fonte nutricional. Sendo assim, o resultado sugere que a evidência de consumo de sementes para o Permiano inicial nos mostraria que insetos e plantas já teriam estabelecido relações de consumo neste intervalo e até mesmo alguma especificidade, diferentemente do que é mencionado na literatura corrente. The study of ecological relationships between insects and plants is a much explored area in modern ecology, as together these are the most diverse organisms in terrestrial ecosystems. Understanding how their relationships workshelps you to understand how they have become so diverse and how their life strategies have changed over time. The record of insect-plant interactions in fossils shows us that since past periods these groups had already established interactive relationships,mainly of herbivory. There are records of phytophagy since the Devonian. Thegeological history of the interactions between these groups have been diversifying, as well as the eating habits of insects. The record of interactions for the Gondwana Permian is restricted to the analysis of leaves/fronds and woods, since damage to these plant organs is widely reported in the literature. However, records of seed-damage are limited only to Euramerican deposits. The present study provides the first report with descriptions of seed interactions forGondwanan deposits, as well as the first record for the Paraná Basin. The material analyzed were collected fromItanema II Outcrop (Rio Bonito Formation, Lower Permian), which has a richseed composition, composed by15 morphotypes, namely: Cordaicarpussp. 1, Cordaicarpussp. 2, Cordaicarpussp. 3, Cordaicarpussp. 4, Cordaicarpussp. 5, Samaropsissp. 1, Samaropsissp. 2, Samaropsissp.3, Samaropsissp. 4, Samaropsissp. 5, Samaropsissp. 6, Samaropsissp. 7, cupulate seeds, seeds1 and 2. Thirty-four seeds were analyzed and8 showed some type of damage (23.5% of the total). The seeds Cordaicarpussp. 1, Cordaicarpussp. 2, Samaropsissp. 5 and cupulateseeds presented damage type DT74, DTx and DTy, being the last two unpublished andcharacterized and describedin the present work. The DTy was classified as perforations in the seed body, which would be caused by paleodictiopteroids or hemipterans insects. The herbivory rate in Itanema II outcrop is considered high when compared to other studies of the same period. Even though the number of samples analyzed is not high, three types of damage were registered in four seed morphotypes, demonstrating that different insect groups were already looking for seeds as nutritional source. Thus, the result suggests that the evidence of seed consumption for the Early Permian would show us that insects and 4 plants could have already established consumption relationships in this intervaland even some specificity, unlike what is mentioned in the current literature.

Published

2020

34. Lower Permian stems as fluvial paleocurrent indicators of the Parnaíba Basin, northern Brazil.

Author

Capretz, Robson Louiz and Rohn, Rosemarie

Subjects

*PALEOCURRENTS, *PERMIANS, *TREE ferns, *GYMNOSPERMS, GONDWANA (Continent)

Abstract

Abstract: A comprehensive biostratinomic study was carried out with abundant stems from the Lower Permian Motuca Formation of the intracratonic Parnaíba Basin, central-north Brazil. The fossils represent a rare tropical to subtropical paleofloristic record in north Gondwana. Tree ferns dominate the assemblages (mainly Tietea, secondarily Psaronius), followed by gymnosperms, sphenophytes, other ferns and rare lycophytes. They are silica-permineralized, commonly reach 4 m length (exceptionally more than 10 m), lie loosely on the ground or are embedded in the original sandstone or siltstone matrix, and attract particular attention because of their frequent parallel attitudes. Many tree fern stems present the original straight cylindrical to slightly conical forms, other are somewhat flattened, and the gymnosperm stems are usually more irregular. Measurements of stem orientations and dimensions were made in three sites approximately aligned in a W–E direction in a distance of 27.3 km at the conservation unit “Tocantins Fossil Trees Natural Monument”. In the eastern site, rose diagrams for 54 stems indicate a relatively narrow azimuthal range to SE. These stems commonly present attached basal bulbous root mantles and thin cylindrical sandstone envelopes, which sometimes hold, almost adjacent to the lateral stem surface, permineralized fern pinnae and other small plant fragments. In the more central site, 82 measured stems are preferentially oriented in the SW–NE direction, the proportion of gymnosperms is higher and cross-stratification sets of sandstones indicate paleocurrents mainly to NE and secondarily to SE. In the western site, most of the 42 measured stems lie in E–W positions. The predominantly sandy succession, where the fossil stems are best represented, evidences a braided fluvial system under semiarid conditions. The low plant diversity, some xeromorphic features and the supposedly almost syndepositional silica impregnation of the plants are coherent with marked dry seasons. Thick mudstones and some coquinites below and above the sandy interval may represent lacustrine facies formed in probably more humid conditions. The taphonomic history of the preserved plants began with exceptional storms that caused fast-flowing high water in channels and far into the floodplains. In the eastern site region, many tree ferns only fell, thus sometimes covering and protecting plant litter and leaves from further fragmentation. Assemblages of the central and western sites suggest that the trees were uprooted and transported in suspension (floating) parallel to the flow. Heavier ends of stems (according to their form or because of attached basal bulbous root mantle or large apical fronds) were oriented to upstream because of inertial forces. During falling water stage, the stems were stranded on riverbanks, usually maintaining the previous transport orientation, and were slightly buried. The perpendicular or oblique positions of some stems may have been caused by interference with other stems or shallow bars. Rare observed stems were apparently waterlogged before the final depositional process and transported as bedload. The differences of interpreted channel orientations between the three sites are expected in a braided fluvial system, considering the very low gradients of the basin and the work scale in the order of tens of kilometers. The mean direction of the drainage probably was to east and the flows apparently became weaker downstream. This study seems to provide reliable data for paleocurrent interpretations, especially considering areas with scarce preserved sedimentary structures. [Copyright &y& Elsevier]

Published

2013

35. Daijima-type conifer wood assemblage of the Hatamura Formation (Middle Miocene) in the Akita Prefecture, Japan.

Author

Jeong, Eun, Kim, Kyungsik, Suzuki, Mitsuo, and Uemura, Kazuhiko

Subjects

*MIOCENE Epoch, *ARCHIPELAGOES, *FOSSIL plants, *GEOLOGICAL formations, *EXISTENCE theorems, *FOSSIL trees

Abstract

The paleofloral change from the Aniai-type to the Daijima-type during the Miocene is the most distinctive and representative one of the six floral changes in the Japanese Archipelago during the Tertiary. These floral types are based mainly on compressed or imprinted leaf fossils. In Korea, the transition-type between the Aniai- and Daijima-type floras has been proposed based on the fossil wood assemblages, and the Hatamura Formation, which is the same age as the Daijima Formation, has yielded abundant fossil woods. To confirm whether the fossil wood assemblages are in agreement with the paleofloras inferred from fossil leaves, the fossil woods from the Hatamura Formation were studied. We found that warm temperate and daijiman elements, such as Keteleeria, Taxodioxylon cunninghamioides, T. sequoianum and Pinus, were present in the Hatamura Formation. Therefore, it can be concluded that the fossil wood types from the Hatamura Formation agree well with the Daijima-type Flora. This result, in turn, verifies the existence of transitional flora between the Aniaiand Daijima-types in Northeastern Asia. [ABSTRACT FROM AUTHOR]

Published

2012

36. Paleoenvironmental evolution of southern South America during the Cenozoic

Author

Ortiz-Jaureguizar, E. and Cladera, G.A.

Subjects

*SPECIES, *PALEOCLIMATOLOGY, *BIOTIC communities, *BIOGEOGRAPHY

Abstract

Abstract: Southern South America (SSA) has today a high diversity of climates, environments, biomes, and biotas, as a result of the complex interaction through time of plants and animals with the geological forces (e.g. plate tectonics, sea-level changes, glaciations) that modulated the geography of the continent. Arid biomes are well represented in SSA today, but were arid biomes similarly important in the geologic past? How long in time can be found major arid biomes in SSA? With the aim of replaying these questions, in this paper we summarized the paleoenvironmental changes of SSA through Cenozoic, emphasizing the relationships between biomes and the geological forces that, through different climatic-environmental factors, have driven its evolution. We define SSA the south of the 15°S area. We prefer this geographical delimitation because with it we can see and follow the history of the biogeographic (historic and ecologic) relationships of Patagonian biota with the rest of the South American biota. Additionally, with this delimitation we possess the most complete Cenozoic South American land-mammal fossil record. We use biomes because biomes are taxon-free analytical units, and their pattern of change can be traced through time independently of the taxa present at different geological periods. Data on plate tectonics, volcanism, sea-level changes, marine paleotemperatures, and glaciations were taken from literature. To analyse the pattern of change of southern South American climates and environments through the Cenozoic, we used the fossil record of land-mammals as information source. When available, the record of vascular plants were used to contrast the inferences derived from land-mammals. Finally, we used standard geologic divisions (i.e. Epochs) as chronological units. The main conclusion of this paper is that from Early Paleocene to Late Pleistocene, southern South American climatic conditions changed from warm, wet, and non-seasonal, to colder, dryer, and seasonal. Concomitantly, biomes changed from tropical forest to steppes, across a sequence constituted by subtropical forests, woodland savanna, park-savanna, and grassland savanna. During the Quaternary, and as a consequence of glacial cycles, cold and dry conditions were interrupted by warmer and wet periods. Accordingly, several pulses of expansion and retraction of steppes (and, concomitantly, advances and retreats of the northern tropical forests) are recorded. This cyclic pattern of changes produced the provincialism that has characterized the South American biota from Early Pleistocene to the present. [Copyright &y& Elsevier]

Published

2006

37. Estudios xilológicos en el Pleistoceno superior de la Formación El Palmar, Provincia de Entre Ríos, Argentina

Author

Ramos, Rita Soledad, Brea, Mariana, and Kröhling, Daniela M.

Subjects

ARGENTINA, ECOBIODIVERSIDAD, PALEOXILOLOGIA, CIENCIAS BIOLOGICAS, LEÑOS FOSILES, PALEOBOTANICA, ENTRE RIOS, TESIS, PALEOFLORA

Abstract

Tesis (Grado Doctor en Ciencias Biológicas)--Universidad Nacional de Córdoba. Facultad de Ciencias Exactas, Físicas y Naturales. Lugar de Trabajo: Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción CICyTTP – CONICET-Universidad Nacional de Córdoba - 2015 - 356 h. con Anexos + CD. ils.; grafs.; tabls. Contiene Referencia Bibliográfica y Publicaciones Derivadas de la Tesis. Abstract en español e inglés. La presente Tesis Doctoral describe el primer estudio detallado de maderas fósiles del Pleistoceno tardío de la Formación El Palmar, Entre Ríos, Argentina. Se identificaron 62 especímenes recuperados en las localidades fosilíferas Parque Nacional El Palmar, Colonia Ayuí, Santa Ana, Concordia, Península Gregorio Soler y Punta Viracho, ubicadas en la cuenca media del Río Uruguay.El estudio proporciona datos anatómicos, morfológicos y sistemáticos de las especies fósiles identificadas y se establecen las relaciones con sus análogos modernos.Las características diagnósticas de las ejemplares se relacionan con los siguientes taxones actuales: Podocarpus (Podocarpaceae); Beilschmiedia,Cryptocarya y Ocotea (Lauraceae); Bastardiopsis (Malvaceae); Parapiptadenia, Microlobius, Anadenanthera, Pseudopiptadenia, Pithecellobium, Chloroleucon, Enterolobium y Cedrelinga (Mimosoideae); Peltophorum,Gossweilerodendron y Oxystigma (Caesalpinioideae); Holocalyx (Papilionoideae); Terminalia,Conocarpus y Buchenavia (Combretaceae); Schinopsis, Astronium y Loxopterygium (Anacardiaceae); Aspidosperma (Apocynaceae); Qualea (Vochysiaceae) y Butia-Syagrus (Arecaceae). Las inferencias obtenidas a partir de los métodos y técnicas paleoclimáticas, paleoecológicos y paleobiogeográficas establecen una paleocomunidad mixta siempre verde para el Pleistoceno tardío.Tanto el método de Coexitence Approach (CA) de ejemplares fósiles parautóctonos, el análisis cuantitativo sobre la estructura de los anillos de crecimientos (the cumulative algebraic sum of each cell's deviation from the mean), los índices de Vulnerabilidad y Mesomorfía,así como el análisis anatómico multivariado que involucran los caracteres ecoanatómicos sugiere que la paleoflora se desarrolló en un ambiente de alta humedad, donde la eficiencia de la conductividad del agua fue la condición que prevaleció. La comparación con los análogos modernos sugiere que la paleoflora de la Formación El Palmar tenía elementos emparentados con la Selva Misionera, y representaba un bosque mixto tropical cercano a una zona ecotonal por la presencia escasa de especies de vínculo subtropical como por ejemplo Schinopsis y Aspidosperma. La paleoflora estudiada junto con las características sedimentológicas y las asociaciones fitolíticas de la Formación el Palmar avalan la presencia de una paleoflora tropical desarrollada en la cuenca media del Río Uruguay, bajo condiciones climáticas cálidas y húmedas en la sección superior afloran te de la Formación El Palmar.

Published

2019

38. Kingiodendron and Enterolobium Eocene woods from the El Bosque formation, Chiapas, Mexico.

Author

Pérez-Lara, Diana K., Estrada-Ruiz, Emilio, and Castañeda-Posadas, Carlos

Subjects

*PLANT diversity, *FOSSIL trees, *FOSSILS, *CENOZOIC Era, *PALEOCENE Epoch

Abstract

Fabaceae are one of the most diverse flowering-plant groups today, and in Mexico their presence is well represented since the late Cretaceous. In this work are reported two fossil woods from the El Bosque Formation, early Eocene of Southern Mexico. These new records show close resemblance with the modern wood of Kingiodendron (Detarioideae) and Enterolobium (Caesalpinioideae). Detarioideae subfamily show a diversity much higher in tropical Africa than in South America or Asia, while the mimosoid clade diversity is pantropical. The relicts of both groups are known from the Paleocene onwards around the world. Comparing the fossil record and the fossils here studied, it is possible to confirm the presence of Fabaceae in Mexican territory since the Cretaceous and to suggest that the family was one of the most important components of the earliest forests in Mexico through the Cenozoic. Additionally, in this work describes the oldest record of the genera fossil for Kingiodendron and Enterolobium worldwide, which contributes towards the understanding the paleo-dispersal pathways of both groups within the early branching Fabaceae. • Fabaceae is one of the most important groups of plants in the extant vegetation in Mexico. • We describe the oldest records of the genera Kingiodendron and Enterolobium worldwide. • These fossil woods reflect the floristic legume diversity seen in the Mexican Eocene. • Fabaceae was one of the most important components of the earliest forests in Mexico through the Cenozoic. [ABSTRACT FROM AUTHOR]

Published

2021

39. Weltrichia xochitetlii sp. nov. (Bennettitales) from the Middle Jurassic of northwestern oaxaca, Mexico: First paleobotanical evidence from the Tecomazúchil Formation.

Author

Lozano-Carmona, Diego E., Corro-Ortiz, Marcos Germán, Morales, René Luis, and Velasco-de León, María Patricia

Subjects

*NUMBERS of species, *GENITALIA, *FISH anatomy, *EVIDENCE, *POLLEN, *INSECT anatomy

Abstract

The Jurassic flora of southern Mexico represents a key phytogeographic element in North America, where vegetative organs (leaves) of Bennettitales are the most abundant and best preserved. In this region, valid species of reproductive organs of the genus Weltrichia (Williamsoniaceae) have only been recorded in Mexico. These are three species from the Jurassic in northwestern Oaxaca and are restricted to the Ayuquila Formation (Bajocian/Bathonian). Here we present Weltrichia xochitelii, a new fossil-species discovered in the Tecomazúchil Formation (Callovian). This new species is established based on diagnostic characters that differ from other species, such as the external outline diameter of the organ, the basal cup diameter, the number of centrifugal rays, and the shape, position, and size of the pollen sacs. Weltrichia xochitetlii and W. microdigitata comprise the group of smallest reproductive organs of the family Williamsoniaceae (Bennettitales) worldwide. We also provide a stratigraphic and sedimentary description of the first fossiliferous locality of the Tecomazúchil Formation, a comment on its paleobotanical content, and a comparison with records from other localities in southern Mexico. The Ayuquila and Tecomazúchil formations were deposited in the Ayuquila BBasin. This new record broadens the stratigraphic range of Weltrichia up to the Callovian in northwestern Oaxaca. In addition, it increases the number of species of this fossil-taxon in the region, which corresponds to the highest richness in North America from the Jurassic. • Weltrichia xochitetlii a new species for the Middle Jurassic from southern Mexico. • A first fossiliferous locality of the Tecomazúchil Formation is registered. • The Middle Jurassic Weltrichia species record in Oaxaca is the best in North America. [ABSTRACT FROM AUTHOR]

Published

2021

40. La sucesión Carbonífera de la quebrada Agua de la Peña (Sierra de Valle fértil): ambientes sedimentarios, contenido fosilífero e importancia estratigráfica

Author

Colombi, Carina Ester, Limarino, Carlos Oscar, and Cesari, Silvia Nelida

Subjects

MTD, Glaciation, Lineamiento-Valle-Fértil, Stratigraphy, Paleoflora, Estratigrafía, Geología, Valle-Fértil-alignment, CIENCIAS NATURALES Y EXACTAS, Ciencias de la Tierra y relacionadas con el Medio Ambiente, Glaciación

Abstract

La Formación Tuminico, en el área de la quebrada Agua de la Peña, formauna sucesión de 1128 m de espesor, la que caracteriza la sedimentacióncarbonífera tardía, aflorante próxima al lineamiento de Valle Fértil. La unidad,depositada en ambiente transicional a marino costero, es dividida en cuatrointervalos estratigráficos. La sección 1 está compuesta por diamictitas, areniscasguijarrosas y fangolitas, correspondientes a depósitos alóctonos originadospor megadeslizamientos subácueos. Éstos intercalan diamictitas finamenteestratificadas y fangolitas con dropstones, que representan acumulaciones insitu (no deslizadas). La sección 2 forma una secuencia grano y estratocrecientecompuesta por fangolitas en la base y areniscas gruesas y conglomerados en eltecho, este intervalo si bien presenta deformación, no muestra acumulacionesimportantes de megadeslizamientos. La sección 3 es de composición litológicavariada, pues su mitad inferior comprende megadeslizamientos que incluyendiamictitas, areniscas guijarrosas y fangolitas plegadas y con fallamiento sinsedimentario. La mitad superior en cambio, está integrada por fangolitas,areniscas finas a medianas y conglomerados finos, todo el conjunto con arreglogranocreciente, muy probablemente reflejando la progradación de un cuerpodeltaico con incisión de canales y limitada deformación sinsedimentaria. Por suparte la sección 4, está compuesta por fangolitas laminadas y masivas, junto aareniscas finas y muy finas, por lo general laminadas. Este intervalo estratigráfico,que corresponde a un importante aumento del nivel del mar, muestra al menos4 ciclos transgresivo-regresivos. Nuevos datos paleontológicos, que surgen deuna asociación megaflorística y palinológica proveniente de las tres primerassecciones, sugieren una edad Serpukhoviano tardío- Bashkiriano tempranopara la unidad. Se propone que los megadeslizamientos fueron originadosy/o amplificados por tectonismo durante el Carbonífero Superior, lo dicho sefundamenta en su recurrencia en la columna estratigráfica, el importante grado dedeformación y la considerable extensión regional que muestran estos depósitos,siempre vinculados al lineamiento de Valle Fértil. The Tuminico Formation is 1128 m thick in the Agua de la Peña creek and characterizes Late Carboniferous sedimentation linked to the Valle Fértil lineament (Fig. 1). For the characterization of the unit, 21 sedimentary facies (Table 1) were defined which correspond to diamictites (four facies), sandstones (eight facies), mudstones (five facies) and deposits with syn-sedimentary deformation (four facies). Diamictite facies corresponds to sandy massive diamictites (DSm facies), muddy massive diamictites (DFm), stratified diamictites (Ds) and thinly stratified diamictites (Dl). Sandstone facies include massive gravelly sandstones (SGm), coarse-grained, cross-bedded sandstones (Sge), medium-grained sandstones with hummocky/swaley cross-lamination (Smw), fine-grained, ripple cross-laminated sandstones containing dropstones (Sfrd), fine- grained, ripple crosslaminated sandstones (Sfr), fine-grained, horizontallaminated sandstones (Sfh), muddy-sandstones showing heterolithic lamination (SFe) and rare cross-bedded conglomerates. Mudstone facies are composed of massive mudstones (Fm), shales (Fl), shales with dropstones (Fld), massive marls and massive muddy-marls (FMm) and rhythmites (R). Finally, rocks displaying intense syn-sedimentary deformation were divided in those dominated by folded sandstones (SXp), faulted sandstones (SXf), sandy lenses encapsulated in mudstones (SXl), and those exhibiting sedimentary boudinage (SXb). The Tuminico Formation, deposited in transitional to shallow marine environments, was divided in four stratigraphic intervals (Fig. 5 and 6). Section 1 is composed of 490 m of diamictites, pebblysandstones, and mudstones; all these rocks exhibit intense deformation (Fig. 9) and are interpreted as mass transport deposits (MTDs) deposited in subaqueous environments. The MTDs intervals are interstratified with non-deformed, thinly laminated diamictites and shales, which frequently contain dropstones. The alternation of highly deformed diamictites with undeformed shales indicates the recurrence of high-energy mass transport events within an overall low-energy environment fine-grained sedimentation (Fig. 9). Section 2 begins with a flooding surface that is overlain by a coarsening- and thickening- upward succession 185 m thick. The lower part of Section 2 displays a monotonous succession of shales and very fine-grained laminated sandstones, that pass upward to interbedded sandstones and mudstones. The uppermost part of the succession is comprised of cross-bedded coarse-grained sandstones and conglomerates. Section 2 is interpreted as being deposited in a prograding delta. Section 3 is 285 m thick and is divided in two intervals. The lower half consists of highly deformed MTDs deposits, that include all types of deformed diamictites, pebbly sandstones and mudstones. The upper half is composed of shales, fine- and mediumgrained, laminated sandstones and some fine-grained, massive and cross-stratified conglomerates, forming a coarsening-upward cycle that is several meters thick. This upper part of the section 3 records the deposits of a progradational delta system with the common occurrence of syn-sedimentary deformation in both delta-front and platform deposits. In this stratigraphic level, fault-dominated deformation prevails, in the form of imbricate faults or slide blocks. This deformed interval is in some cases incised by fluvial channels that form the top of Section 3. Section 4 comprises 168 m of laminated and massive mudstones together with laminated very fine- and fine-grained sandstones. This stratigraphic interval, which corresponds to an important baselevel rise, displays at least four transgressive-regressive cycles. The age of the studied deposits was determined by the presence of plant and palynological assemblages. Plant fossils collected in Section 3 (Fig. 5) correspond to the Nothorhacopteris/Botrychiopsis/ Ginkgophyllum (NBG) Biozone of Carboniferous age. Palynomorphs recovered from Sections 1, 2 and 3 correspond to the A subzones of the Raistrickia densa/ Convolutispora muriornata (DM) Biozone. The new paleontological data suggest a late Serpukhovianearly Bashkirian age for the Tuminico Formation. Regarding to the origin of the MTDs we suggest that tectonism could have triggered and/or amplified these events in late Carboniferous. This interpretation is supported by the recurrence of the MTDs intervals in the stratigraphic column, the high degree of deformation they display, and their considerable regional extent along Valle Fértil lineament of the MTDs. Finally, the significance of the unconformity that separates the Tuminico Formation (Late Carboniferous) and the overlying Talampaya Formation (Late Permian) is considered. In most of the Paganzo Basin the Talampaya Formation overlies the Early Permian Patquía Formation along a slight erosional unconformity. In the case of the Agua de La Peña creek exposures, not only the entire Patquía Formation is absent, but the underlying Pennsylvannian Tupe Formation is missing as well. Such a high level of erosion has been previously unrecognized in this area and may indicate also activity on the Valle Fértil lineament during the early stages of Permo-Triassic rift basin development in the region. Fil: Colombi, Carina Ester. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - San Juan. Centro de Investigaciones de la Geosfera y Biosfera. Universidad Nacional de San Juan. Facultad de Ciencias Exactas Físicas y Naturales. Centro de Investigaciones de la Geosfera y Biosfera; Argentina Fil: Limarino, Carlos Oscar. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Ciudad Universitaria. Instituto de Geociencias Básicas, Aplicadas y Ambientales de Buenos Aires. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales. Instituto de Geociencias Básicas, Aplicadas y Ambientales de Buenos Aires; Argentina Fil: Cesari, Silvia Nelida. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Museo Argentino de Ciencias Naturales “Bernardino Rivadavia”; Argentina

Published

2018

41. Angiosperm association from the Río Turbio Formation (Eocene–?Oligocene) Santa Cruz, Argentina: revision of Hünicken’s (1955) fossil leaves collection

Author

Mercedes B. Prámparo and Barbara Vento

Subjects

0106 biological sciences, 010506 paleontology, EOCENE, Paleontology, ANGIOSPERMS, RÍO TURBIO FORMATION, 010603 evolutionary biology, 01 natural sciences, Archaeology, Paleontología, Ciencias de la Tierra y relacionadas con el Medio Ambiente, Geography, Ecology, Evolution, Behavior and Systematics, CIENCIAS NATURALES Y EXACTAS, 0105 earth and related environmental sciences, PALEOFLORA

Abstract

The Río Turbio Formation (Eocene–?Oligocene) is of particular paleobotanical interest owing to its combination of high fossil plant diversity associated with the coexistence of warm-temperate and cool-temperate components. As the first suite of fossils related to a documented stratigraphic section, Hünicken’s fossil plant collection is one of the most important from the Paleogene of South America. A total of 34 angiosperm species from the collection were reviewed and taxonomically updated, with Nothofagus as the dominant genus. The taxa identified indicate a warm and humid climate with the development of some elements of a cool-temperate climate marked by a transitional climate change to cooler conditions. The comparison of angiosperms from different paleofloras from the southernmost of South America confirms that the assemblage of Río Turbio Formation was similar to that of the Río Pichileufú area, both from Patagonia, Argentina. Fil: Vento, Barbara. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Mendoza. Instituto Argentino de Nivología, Glaciología y Ciencias Ambientales. Provincia de Mendoza. Instituto Argentino de Nivología, Glaciología y Ciencias Ambientales. Universidad Nacional de Cuyo. Instituto Argentino de Nivología, Glaciología y Ciencias Ambientales; Argentina Fil: Pramparo, Mercedes Beatriz. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Mendoza. Instituto Argentino de Nivología, Glaciología y Ciencias Ambientales. Provincia de Mendoza. Instituto Argentino de Nivología, Glaciología y Ciencias Ambientales. Universidad Nacional de Cuyo. Instituto Argentino de Nivología, Glaciología y Ciencias Ambientales; Argentina

Published

2018

42. The Gondwanan heritage of the Eocene–Miocene Patagonian floras.

Author

Barreda, V.D., Palazzesi, L., Pujana, R.R., Panti, C., Tapia, M.J., Fernández, D.A., and Noetinger, S.

Subjects

*FOSSIL pollen, *CENOZOIC Era, *BOTANY, *OLIGOCENE Epoch, *EUCALYPTUS, *MIOCENE Epoch, *FOSSILS, *EOCENE Epoch, GONDWANA (Continent)

Abstract

The breakup of Gondwana and the associated climatic changes led to the fragmentation of floras that were once connected across the Southern lands. The diversity of the Gondwanan remnants has long been assumed to have fluctuated in Patagonia across the Cenozoic, although it has never been quantified so far. Here we address when the major floristic members of the Gondwanan legacy (e.g., southern beeches, proteas, podocarps, gumtrees) expanded, contracted, or became extinct during the Patagonian biogeographic isolation (Eocene–Miocene) on the basis of the re-assessment of the fossil record (i.e., woods, leaves, and spore-pollen grains). We found that the Patagonian floras experienced moderate to severe shifts in the diversity of the Gondwanan component —relative to the total flora— with the highest estimates in the late Eocene–early Oligocene (~50%) and the lowest estimates in the late Miocene (~20%) according to the fossil pollen record. The most important floristic changes include two major replacements: 1) tropical Gondwanan taxa (e.g., Akania, Eucalyptus, Gymnostoma) by typically cool-temperate taxa (e.g., Nothofagaceae) in the Eocene, and 2) humid taxa (e.g., Podocarpaceae) by arid-adapted floras, mostly of non-Gondwanan affinity, across the Miocene. The variation in diversity of the Gondwanan component from Patagonia shows a striking resemblance to that from Australia for the same period, probably indicating a global-scale driver of floristic turnover (e.g., global cooling conditions). Today, the Patagonian subantarctic forests harbor only about ~15% of the Gondwanan diversity, representing a three-fold decrease from its climax in the late Eocene–early Oligocene. • Address the Eocene–Miocene expansion/contraction of Gondwanan plants in Patagonia. • Found the highest diversity estimates of Gondwanans in the Eocene/Oligocene (~50%). • Found the lowest diversity estimates of Gondwanans in the late Miocene (~20%). • Today, the Patagonian subantarctic forests harbor only ~15% of the Gondwanan diversity. [ABSTRACT FROM AUTHOR]

Published

2021

43. Descrição de novos espécimes de folhas fósseis provenientes da Bacia do Abunã, Quaternário, Rondônia, Brasil

Author

Santos, Aline Lopes dos and Oliveira, Etiene Fabbrin Pires

Subjects

Pleistocene, CIENCIAS BIOLOGICAS [CNPQ], Leaf architecture, Pleistoceno, Paleoflora, Arquitetura foliar, Calophyllaceae, Chrysobalanaceae

Abstract

A Bacia Sedimentar do Abunã está localizada junto à calha do Rio Madeira, no estado de Rondônia - Brasil, e caracteriza-se por um relevo plano, resultante de processos de acumulação de sedimentos fluviais ao longo do Quaternário. Dentro desse contexto, há nos últimos anos um aumento de trabalhos publicados, relatando as características paleoambientais e paleoclimáticas dessa região. O presente estudo tem como objetivo descrever a morfologia foliar e realizar o reconhecimento taxonômico de quatro folhas fósseis coletadas no afloramento Estaca 93 (09°16'25.05"S; 64°38'16.87"W), no canteiro de obras da Usina Hidroelétrica de Jirau (UHE). As amostras passaram por preparação curatorial prévia, sendo que foram numeradas e embaladas com filme PVC e colocadas em moldes de parafina. A datação para a camada da qual provém o material aqui analisado, já foi apresentada em trabalhos anteriores, apresentando idade de ±43.500 A.P. Os espécimes foram fotografados e os padrões de venação redesenhados. O reconhecimento taxonômico foi realizado com base na chave de identificação de angiospermas seguindo o detalhamento proposto pelo Manual de Arquitetura Foliar, sendo que também foram comparados com representantes da flora amazônica atual através de consulta a bibliografia específica. A partir da presença de elementos típicos foi possível registrar a ocorrência de duas famílias sendo elas: Chrysobalanaceae, por meio de venação primária pinada e secundária semicraspedódroma, venação oposta e alterna na mesma folha determinando o registro de um novo morfogênero e morfoespécie, aqui temporariamente denominado de Morfotipo 02; Calophyllaceae, com venações secundárias numerosas, paralelas entre si, preenchendo todo o campo foliar, definindo a descrição de uma nova morfoespécie para gênero Calophyllum, aqui temporariamente denominada Calophyllum sp1. A presença dessas famílias indica similaridade com a flora atualmente estabelecida na região, possibilitando ainda a inferência de um paleoclima muito similar ao existente. Deste modo, esta descoberta corrobora aos estudos anteriores que postulam a presença de uma floresta tipicamente tropical já estabelecida desde pelo menos ±43.500 anos, correspondentes ao Pleistoceno Superior. The Sedimentary Basin of Abunã is located near the channel of the Madeira River, in the state of Rondônia - Brazil, and is characterized by a flat relief, resulting from accumulation processes of fluvial sediments along the Quaternary. Within this context, there has been an increase in published works in recent years, reporting the paleoenvironmental and paleoclimatic characteristics of this region. The present study aims to describe the leaf morphology and taxonomic recognition of four fossils leaves collected in the outcrop Stake 93 (09 ° 16'25.05 "S; 64 ° 38'16.87" W) at the construction site of the Hydroelectric Power Plant Jirau (UHE). The samples were submitted to a previous curatorial preparation and were numbered and packed with PVC film and placed in paraffin molds. The date for the layer from which the material analyzed here has been presented, has already been presented in previous works, presenting an age of ± 43,500 A.P. The specimens were photographed and the venation patterns redesigned. The taxonomic recognition was made based on the key of identification of angiosperms following the detail proposed by the Manual of Leaf Architecture, being also that were compared with representatives of the current Amazonian flora through consultation the specific bibliography. From the presence of typical elements it was possible to record the occurrence of two families: Chrysobalanaceae, primary vein of pinnate and secondary semicraspedodromous, opposite venation and alternating in the same leaf, determining the registration of a new morphogen and morphospecies, Temporarily referred to as of Morphotype 02; Calophyllaceae, with numerous secondary venations, parallel to each other, filling the entire foliar field, defining the description of a new morphospecies for the genus Calophyllum, here temporarily termed Calophyllum sp1. The presence of these families indicates similarity with the flora currently established in the region, making possible the inference of a paleoclimate very similar to the existing one. Thus, this finding corroborates previous studies that postulate the presence of a typically tropical forest already established since at least ± 43,500 years, corresponding to the Late Pleistocene.

Published

2017

44. The First Record of Permian Flora in the Ansilta Formation (Western Precordillera of Argentina) and its Regional Correlation

Author

Marcelo I. Cegarra, Maria Fernanda Gaido, Silvia N. Césari, Gabriela Anselmi, and Carlos Oscar Limarino

Subjects

GLOSSOPTERIS, Flora, biology, Permian, Paleontology, CONIFER, biology.organism_classification, Paleontología, Ciencias de la Tierra y relacionadas con el Medio Ambiente, PERMIAN, Glossopteris, CIENCIAS NATURALES Y EXACTAS, Ecology, Evolution, Behavior and Systematics, Geology, PALEOFLORA

Abstract

The presence of glossopterids at the top of the upper section of the Ansilta Formation suggests, as in all Gondwanan continents, a Permian age for the fossil beds. Also, the presence of Ferugliocladus seems to constrain the age to the early Cisuralian. Fil: Cesari, Silvia Nelida. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Museo Argentino de Ciencias Naturales; Argentina Fil: Gaido, Maria Fernanda. Secretaría de Industria y Minería. Servicio Geologico Minero Argentino; Argentina Fil: Cegarra, Marcelo I.. Secretaría de Industria y Minería. Servicio Geologico Minero Argentino; Argentina Fil: Anselmi, Gabriela. Secretaría de Industria y Minería. Servicio Geologico Minero Argentino; Argentina Fil: Limarino, Carlos Oscar. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Ciudad Universitaria. Instituto de Geociencias Básicas, Aplicadas y Ambientales de Buenos Aires; Argentina. Universidad de Buenos Aires; Argentina

Published

2014

45. Plantes fossiles et changements environnementaux durant la transition Permien-Trias dans le Nord-Ouest de la Chine

Author

Shi, Xiao, Centre de recherche sur la Paléobiodiversité et les Paléoenvironnements (CR2P), Centre National de la Recherche Scientifique (CNRS)-Muséum national d'Histoire naturelle (MNHN)-Université Pierre et Marie Curie - Paris 6 (UPMC), Université Pierre et Marie Curie - Paris VI, China University of Geosciences (Wuhan, Chine), Sylvie Crasquin-Soleau, Jinnan Tong, Jean Broutin, Jianxin Yu, and Muséum national d'Histoire naturelle (MNHN)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Paléobotanique, Paléoenvironnement, Paleoflora, Permian-Triassic, Limite Permien - Trias, Fossil plants, Nord-Ouest Chine, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, Bois fossiles, Paléoclimats

Abstract

Permian-Triassic transition is an important period in the Earth’s history. The end-Permian mass extinction is the Earth's most severe known extinction event. Previous studies mainly focused on the biotic events in the ocean. Recently more and more researches on the terrestrial events during the Permian-Triassic transition attracted many attentions. The Junggar and Turpan basins of Northwest China command a unique and significant position in the study of terrestrial Permian-Triassic boundary (PTB) events as it contains well and continuously exposed PTB sections. The lithostratigraphy, biostratigraphy, and cyclostratigraphy have been well established in the two basins. The problem we are trying to solve, based on paleobotanical studies associated with sedimentological analyses, is the environmental changes during the Permian-Triassic transition in the research area.The terrestrial facies in the Dalongkou section on the south flank of Junggar Basin and the Taoshuyuan section on the north flank of Turpan Basin have been selected as the researching ones for this thesis. The Permian-Triassic transition strata have been included in the “Wutonggou”, “Guodikeng” and “Jiucaiyuan” formations. Abundant fossil woods and plant impressions have been discovered and collected in these sections. Detailed sedimentary logs of the sections were drawn. The approach that we adopt to recognize the environmental changes is the fossil wood and plant impression species, growth-ring pattern, and sedimentary facies analysis.Five genera and six species of fossil woods were discovered. We establish three new genera: Junggaropitys, Xinjiangoxylon and a new genus (submitted for publication). The CSDM (Cumulative Sum of the Deviation from Mean diameter) curve was used to analyse the growth rings to determine the intraseasonal conditions and leaf longevity patterns of the trees. We recognise that Junggaropitys dalongkouensis is evergreen, and the leaf longevity may be 3–6 years; XTT-C-4 gen. et sp. nov. is evergreen too, and the leaf longevity may be 3 to 15 years. Septomedullopitys, Junggaropitys, Xinjiangoxylon and XTT-C-4 gen. nov. all show a Protophyllocladoxylon-type secondary xylem. According to palaeobiogeographic analysis, the Protophyllocladoxylon-type woods distributed mainly in the cool temperate climate zone of the southern hemisphere, various climate zones of the northern hemisphere and equatorial zone during the Late Paleozoic. The results of fossil woods analysis obtained in this research shows the climate in the Junggar terrane around the PTB was warm and humid and the temperature and precipitation remained relatively stable. It did not exist a heavy dryness in the earliest Triassic. Meanwhile, the Palaeo-Tethys megamonsoons did not influence the Junggar terrane along the east coast of mid-latitude Pangaea. Combined with the previously reported fossil woods, it shows that the climate had no prominent change from the Middle Permian to earliest Triassic.Plant fossil analysis show that the numbers of plant genera and species gradually decreased from 26 genera and 53 species in the Wuchiapingian, to 10 genera and 15 species in the Changhsingian, and only 6 genera and 7 species in the Induan. The trend in the plant assemblage reduction in the Junggar and Turpan basins appears to be indicative of a long, protracted extinction process that may have started well before the Permian-Triassic boundary. During the plant recovery period, the lycopsids (Annalepis) and ferns (Neocalamites and Pecopteris) played roles of pioneer species during the plant recovery period.; La transition Permien – Trias est une période importante dans l’histoire de la Terre. L’extinction en masse de la fin du Permien est l’événement d’extinction le plus sévère de l’histoire de la vie sur Terre. Les études précédentes se sont principalement focalisées sur les événements biotiques en milieux océaniques. Récemment, de plus en plus de nouvelles recherches se sont développées sur les événements en milieu continental.Les bassins de Junggar et de Turpan en Chine du Nord, présentent une opportunité unique d’étudier la limite Permien – Trias en milieu continental grâce à de nombreux affleurements avec des séries continues.Les facies continentaux de la coupe de Dalongkou sur le flanc sud du bassin de Junggar et de la coupe de Taoshuyuan sur le flanc nord du basin de Turpan, ont été sélectionnés pour cette thèse. Les niveaux de l’intervalle de transition Permien – Trias correspondent aux formations “Wutonggou”, “Guodikeng” et “Jiucaiyuan”. D’abondants bois fossiles et empreintes de plantes ont été découverts dans ces coupes. Des logs sédimentaires détaillés ont été levés. L’approche utilisée ici est pluridisciplinaire pour reconstruire les Paléoenvironnements avec les bois fossiles et les plantes, les patrons des cernes croissance des bois et l’analyse des microfaciès sédimentaires.Cinq genres et six espèces de bois fossiles ont été découverts. Nous établissons trois nouveaux genres: Junggaropitys, Xinjiangoxylon et un nouveau genre (soumis pour publication). La courbe CSDM (Cumulative Sum of the Deviation from Mean diameter) a été utilisée pour analyser les cernes de croissance dans le but de déterminer les conditions d’intersaisonnalité et la longévité des feuilles des arbres. Nous avons déterminé que Junggaropitys dalongkouensis est une espèce à feuilles persistantes avec les feuilles à longévité de 3 à 6 ans; le XTT-C-4 gen. et sp. nov. est également à feuilles persistantes mais avec une longévité des feuilles de 3 à 15 ans.Septomedullopitys, Junggaropitys, Xinjiangoxylon et XTT-C-4 gen. nov. montrent tous un xylème secondaire de type Protophyllocladoxylon. En accord avec l’analyse paléobiogéographique, les bois de type Protophyllocladoxylon sont principalement distribués dans une zone climatique tempérée froide dans l’hémisphère sud, dans des zones climatiques variables dans l’hémisphère nord et dans la zone équatoriale au Paléozoïque supérieurLes résultats obtenus sur les bois fossiles montrent que le climat sur la région de Junggar devait être, à la limite Permien – Trias, chaud et humide, avec des températures et une humidité restant relativement stables.Il n’existe pas de période de forte sécheresse au Trias basal. Les méga-moussons de la Paléo-Téthys n’ont pas d’influence sur la région de Junggar sur la côte est de la Pangée aux latitudes moyennes. Combiné avec les résultats précédemment obtenus, nous montrons que le climat n’a pas subit de très fortes variations entre le Permien moyen et le Trias basal.L’analyse des plantes fossiles montre que le nombre de genres et d’espèces diminue progressivement de 26 genres et 53 espèces connues dans le Wuchiapingien à 10 genres et 15 espèces dans le Changhsingien et seulement 6 genres et 7 espèces dans l’Induen. La tendance à la réduction des assemblages floristiques dans les bassins de Junggar et Turpan semble montrer que le processus d’extinction est long et graduel et a débuté bien avant la limite Permien – Trias. Durant la période de récupération post-crise des flores, les lycopsides (Annalepis) et les fougères (Neocalamites et Pecopteris) ont joué un rôle d’espèces pionnières. Trois logs stratigraphiques ont été levés pour l’analyse des facies sédimentaires. Quatre principaux environnements de dépôts ont été reconnus dans la coupe de Dalongkou. Les séries de la Formation Wutonggou se sont déposées dans un environnement de rivières en tresse et de systèmes fluviaux éphémères ou d’étangs et de plaines alluviales.; 二叠-三叠纪之交是地球历史上的关键时期。发生在二叠纪末期的大灭绝事件是最严重的生物灭绝事件。前人对此次灭绝事件的研究主要集中于海洋生物的变化，近年来越来越多的研究开始关注于这一时期陆地生态系统的变化。 位于中国西北部的准噶尔盆地和吐鲁番盆地出露了完整的陆相二叠-三叠系界线附近地层，因此在这一研究方面具有独特的优势。前期研究中在这一个地区建立了良好的岩石地层，生物地层和旋回地层格架。本文将集中解决二叠-三叠纪之交研究区的环境变化问题。我们选择了位于准噶尔盆地南缘的大龙口剖面和吐鲁番盆地北缘的桃树园剖面，两个陆相地层剖面作为论文的研究对象。在这一区域，二叠-三叠系之交地层是由梧桐沟组，锅底坑组和韭菜园组组成。我们在大龙口剖面和桃树园剖面二叠-三叠系地层中发现了大量木化石和植物印模化石，对剖面绘制了详细的地层柱状图。我们鉴定了木化石和植物印模化石种属,木化石年轮类型，分析了沉积相变化，进而用来识别研究区的环境变化。 我们对所采集到的130块木化石进行了切片，通过生物显微镜对其解剖结构进行研究，共发现了木化石5属6种，包括建立的三个新属：Junggaropitys，Xinjiangoxylon和 XTT-C-4 gen. nov.（还在审稿中）。这三个属均具有内始式的初生木质部和Protophyllocladoxylon 型次生木质部，其中Junggaropitys具有同质但异细胞的髓部；Xinjiangoxylon拥有具薄壁细胞和分泌管的髓部；XTT-C-4 gen. nov.的髓部中具有独特的板状支撑结构。我们应用CSDM曲线（平均值偏差累计曲线）分析木化石的年轮用以识别其生长季的条件和叶的寿命。CSDM曲线分析表明Junggaropitys dalongkouensis为一种常绿植物，叶的寿命为3-6年；XTT-C-4 gen. et sp. nov.也为常绿植物，叶的寿命3-15年。Septomedullopitys, Junggaropitys, Xinjiangoxylon和XTT-C-4 gen. nov.四个属的木化石均展示出Protophyllocladoxylon型次生木质部。我们对晚古生代全球发现的具有Protophyllocladoxylon型次生木质部的木化石进行了生物古地理分析，我们发现，在晚古生代，具有Protophyllocladoxylon型次生木质部植物，在南半球仅分布在冷温带地区；而在北半球和赤道地区，其分布在不同的气候带。对木化石的分析显示准噶尔地块在二叠-三叠系界线附近古气候温暖湿润，温度和降雨量相对稳定；古特提斯洋巨季风没有影响到东岸的泛大陆中纬度地区。结合前人对这一地区其他木化石研究，我们认为研究区的古气候自中二叠世至早三叠世早期没有显著的变化。植物化石分析显示，植物种属由吴家坪期的26属53种逐渐减少到长兴期的10属15种再到早三叠世印度期的6属7种。在准噶尔盆地和吐鲁番盆地，二叠-三叠系之交，植物显示了一个长时间的逐渐灭绝的过程。通过对比白垩纪-第三纪植物灭绝事件和现代恶劣环境下植物恢复的实例，我们发现石松类（脊囊属）和蕨类（新芦木属和栉羊齿属）在植物复苏阶段扮演着先驱分子的角色。我们对大龙口剖面，桃树园A和C剖面进行了沉积相分析。在大龙口剖面我们识别出4个主要的沉积相。梧桐沟组上部主要由辫状河相，短暂的河流系统或湖和冲积平原相组成。锅底坑组为湖（或池塘）相和洪泛平原相沉积。韭菜园组主要由冲积平原和湖（或池塘）相沉积组成。在桃树园地区，梧桐沟组上部至锅底坑组底部的一套地层主要是湖（或池塘）相和洪泛平原相沉积。锅底坑组下部为一套辫状河沉积。而锅底坑组上部为冲积平原和湖（或池塘）相沉积。韭菜园组主要为辫状河和洪泛平原沉积。对碎屑岩的样品岩相学分析显示跨越二叠-三叠系界线，沉积物物源一致。其中火山碎屑物来源于多个火山源。大龙口剖面和桃树园剖面在界线附近沉积物的物源保持一致，这说明，这两个剖面在二叠-三叠系之交时期处于同一个盆地，而博格达山隆起晚于这一时间。灰岩样品指示了湖泊环境的沉积。二叠纪末期的植物灭绝降低了河岸的强度，增加了坡地的沉积物的提供，进而增加了河道中沉积物的卸载。这导致了研究区在吴家坪期和长兴期界线附近和早三叠世的两次沉积相的改变。

Published

2016

46. Palynological, megafloral and mesofossil record from the Bajo Grande area (Anfiteatro de Ticó Formation, Baqueró Group, Upper Aptian), Patagonia, Argentina.

Author

Llorens, M., Loinaze, V.S. Perez, Passalia, M.G., and Vera, E.I.

Subjects

*FOSSIL plants, *FUNGAL spores, *CLIMATE change, *PLANT communities, *TEMPERATE climate, *TEMPERATE forests, *PALEOHYDROLOGY, *FOSSIL collection

Abstract

The late Aptian flora of Baqueró is one of the best known and accurately dated Cretaceous plant associations from Gondwana, recognized for their well-preserved fossil remains. The Cerro Bayo (Bajo Grande area, Argentinean Patagonia) is one of its classical locations and includes the northernmost fossiliferous outcrops of the Baqueró Group, which belong to the Anfiteatro de Ticó Formation. It yields diverse and numerous plant megafossils and reproductive structures with associated pollen. We report a complete systematic study of a palynological association with 124 species, including 26 that are identified for the first time in the unit. This allowed the first record of three major botanical groups not reported before (i.e., lycophytes, hornworts and angiosperms), as well as algae and fungal spores. The same fossiliferous levels also yielded megafloral remains and the first record of a mesofossils assemblage for the Baqueró flora. By integrating all these floristic data sources, relative abundance analyses, and sedimentological data it is possible to propose a paleoenvironmental reconstruction of the Bajo Grande area during the late Aptian: a diverse forest growing in a temperate to warm climate with subtle variations between those associations from floodplains with water instability within a delta and those that grew into a more stable area out of the flooding influence. Thus, the presumed xeromorphic features identified in the Cerro Bayo flora (sunken stomata, papillae, epicuticular waxes) may have been related to contemporaneous volcanic activity recorded in Patagonia rather than to dry conditions. • Upper Aptian of Patagonia palynological record of 124 taxa, including 26 new. • First record of lycophytes, hornworts and angiosperms for the floral assemblage. • First report of a mesofossil association for the Baqueró Group. • Paleoenvironmental scenario by integration of multiple sources of floral remains. [ABSTRACT FROM AUTHOR]

Published

2020

47. Evolution of flora and paleoflora in Europe

Author

Mehmedović, Azra and Kalafatić, Mirjana

Subjects

Europe, flora, PRIRODNE ZNANOSTI. Biologija, paleoflora, NATURAL SCIENCES. Biology, Europa

Abstract

Paleoflora Europe od paleozoika do formiranja samog kontinenta sastavom prati evolucijsku sukcesiju. Nakon ustaljenja okolišnih uvjeta, prevladavaju termofilne vrste koje se sredinom miocena zbog zahlađenja počinju zamjenjivati mezofilnim vrstama i travnjacima. U kvartaru brojne glacijacije uništavaju raznolikost flore. Nakon glacijacija počinje se formirati današnja distribucija flore čiji je izvorni oblik izmijenjen antropogenim djelovanjem. Since the Paleozoic era, the constitution of European paleoflora follows succession dictated by evolution. After the stabilisation of environmental conditions, the flora is dominated by termophilous species which by the middle miocene period start to get replaced by mezophilous species and grasslands. In the Quarternary era numerous glaciations destroy the floral diversity. After the glaciations, today's floral distribution starts to form whose primal form is modified by anthropogenic influence.

Published

2016

48. Stratigraphic, paleoenvironmental and biochronological analysis of La Deheza Formation (Upper Carboniferous–lower Permian), San Juan, Argentina

Author

Correa, Gustavo Alejandro and Gutierrez, Pedro Raul

Subjects

purl.org/becyt/ford/1 [https], purl.org/becyt/ford/1.5 [https], Formación La Deheza, Paleoflora, Argentina, Geología, Paleozoico superior, San Juan, CIENCIAS NATURALES Y EXACTAS, Ciencias de la Tierra y relacionadas con el Medio Ambiente

Abstract

Se dan a conocer nuevos afloramientos del Paleozoico superior de la cuenca Paganzo, que constituyen la Formación La Deheza, la cual consta de 690 m de espesor y diez asociaciones de facies. En esta secuencia se encuentran representados el evento posglaciario del Carbonífero (Serpukhoviano-Bashkiriano temprano) (facies I, II y III), la transgresión stephaniana (facies IV), sedimentos continentales con depósitos de carbón (facies V), el evento trangresivo del Asseliano-Sakmariano (Cisuraliano temprano?) (facies VI), una última continentalización (facies VII), seguida del evento trangresivo más moderno (Cisuraliano tardío-Guadalupiano temprano?) de la cuenca Paganzo (facies VIII, IX y X). Se discute, también, su validez como unidad estratigráfica, neoestratotipo y se contextualiza de forma temporal, en un entorno regional con los depocentros cercanos de la cuenca Paganzo. Los últimos metros de la facies VI, registran abundantes restos de Ferugliocladus patagonicus Archangelsky y Cúneo, Eucerospermum nitens Feruglio emend. A. Archangelsky, Paracalamites sp. y Cordaites sp., que en conjunto componen una importante asociación megaflorística asignable a la “Superzona Ferugliocladus”. Los registros palinológicos encontrados a lo largo de toda la unidad permiten acotarla entre el Serpukhoviano al Cisuraliano tardío-Guadalupiano temprano?. Stratigraphic, paleoenvironmental and biochronological analysis were performed in the La Deheza Formation (Upper CarboniferousLower Permian), San Juan, Argentina. These new upper Paleozoic outcrops in the Paganzo basin are 690 m thick and consist of ten facies associations. In this formation are represented postglacial Upper Carboniferous (Serpukhovian-early Bashkirian) (facies I, II and III), Stephanian transgression (facies IV), continental sediment with coal deposits (facies V), the trangressive event Asselian-Sakmarian (early Cisuralian?) (facies VI), and the last continental deposits (facies VII), followed by the most modern trangressive event in Paganzo basin (latest Cisuralian-early Guadalupian?) (facies VIII, IX and X). It also discussed its validity as a stratigraphic unit, neostratotype and is defined in a time frame in an environment of nearby depocenters to the Paganzo basin. The last meters of the facies VI show abundant remains of Ferugliocladus patagonicus Archangelsky y Cúneo, Eucerospermum nitens Feruglio emend. A. Archangelsky, Paracalamites sp. and Cordaites sp., which together make up a significant megafloristic association assigned to the "Ferugliocladus Superzone". In addition, pollen records found throughout the entire unit allows to constrain it between the Serpukhovian to latest Cisuralian-early Guadalupian?. Fil: Correa, Gustavo Alejandro. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Fisicas y Naturales. Instituto y Museo de Ciencias Naturales; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Gutierrez, Pedro Raul. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Museo Argentino de Ciencias Naturales "Bernardino Rivadavia"; Argentina

Published

2014

49. The paleoflora of the Ituzaingó Formation, Argentina

Author

Franco, María Jimena, Brea, Mariana, Orfeo, Oscar, and Zucol, Alejandro Fabian

Subjects

purl.org/becyt/ford/1 [https], Neógeno, purl.org/becyt/ford/1.5 [https], Paleoecología, Paleoflora, Formación Ituzaingó, Paleontología, CIENCIAS NATURALES Y EXACTAS, Ciencias de la Tierra y relacionadas con el Medio Ambiente

Abstract

Los estudios paleobotánicos de la Formación Ituzaingó (Plioceno–Pleistoceno) se basan en registros de esporomorfos, impresiones foliares, cutículas, basidiocarpos, leños, estípites y cañas fósiles, hallados en diversas localidades fosilíferas de las provincias de Entre Ríos y Corrientes, Argentina. Estos antecedentes revelan una rica y diversa flora, caracterizada por la presencia de representantes del Reino Fungi y de las familias Cyatheaceae, Lycopodiaceae, Polypodiaceae, Azollaceae, Pteridaceae, Hymenophyllaceae, Podocarpaceae, Winteraceae, Lauraceae, Amaranthaceae, Chenopodiaceae, Polygoneaceae, Ulmaceae, Moraceae, Sapotaceae, Euphorbiaceae, Fabaceae, Myrtaceae, Proteaceae, Celastraceae, Aquifoliaceae, Anacardiaceae, Meliaceae, Rutaceae, Malphigiaceae, Compositae, Poaceae (Bambusoideae), Cyperaceae y Arecaceae. Los trabajos realizados previamente en la Formación Ituzaingó postularon la existencia de paleocomunidades probablemente compuestas por bosques en galería, sabanas, condiciones lacunares y bosques xerófilos. De acuerdo a las nuevas evidencias, se postula además que la flora de esta formación se encontraría estrechamente vinculada a los Bosques Secos Estacionales Neotropicales (BSEN) y se desarrollaba en un clima tropical-subtropical. Con la finalidad de establecer similitudes y diferencias, la paleoflora de la Formación Ituzaingó fue comparada con floras coetáneas de la región, en particular con las formaciones Andalhuala y El Palmar, sumadas a otras floras fósiles portadoras de leños permineralizados del Cenozoico de Brasil. Los géneros presentes en la Formación Ituzaingó se relacionaban con otras floras del Plio–Pleistoceno de América del Sur y las familias Fabaceae y Anacardiaceae constituían una parte importante de la flora del continente sudamericano durante el Cenozoico tardío. The paleobotanical records of the Ituzaingó Formation (Pliocene–Pleistocene) are based on studies of sporomorph, fossil leaves, cuticles, fossil woods, palm trunks and culms, found in various fossiliferous localities in the provinces of Entre Ríos and Corrientes, Argentina. Previous palaeobotanical data revealed a rich and diverse paleoflora, characterized by the presence of the Kingdom Fungi and the families Cyatheaceae, Lycopodiaceae, Polypodiaceae, Azollaceae, Pteridaceae, Hymenophyllaceae, Podocarpaceae, Winteraceae, Lauraceae, Amaranthaceae, Chenopodiaceae, Polygoneaceae, Ulmaceae, Moraceae, Sapotaceae, Euphorbiaceae, Fabaceae, Myrtaceae, Proteaceae, Celastraceae, Aquifoliaceae, Anacardiaceae, Meliaceae, Rutaceae, Malphigiaceae, Compositae, Poaceae (Bambusoideae), Cyperaceae and Arecaceae. The paleobotanical data suggest that the Ituzaingó Formation paleoflora has elements linked to humid forests, savannas, lacunar conditions and xeric forests. New fossil evidences suggest that the Ituzaingó paleoflora is further characterized by the presence of a Seasonally Dry Tropical Forest (SDTF) component and responds to a tropical-subtropical climate. In order to establish similarities and differences, the flora from the Ituzaingó Formation was compared with the floras from the Andalhuala and El Palmar formations, and also with the Cenozoic floras from Brazil. The elements present in the Ituzaingó Formation are related with other Plio-Pleistocene floras of South America and the Fabaceae and Anacardiaceae families constituted an important part of South American floras during the late Cenozoic. Fil: Franco, María Jimena. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro de Investigaciones Científicas y Transferencia de Tecnología A la Producción; Argentina Fil: Brea, Mariana. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro de Investigaciones Científicas y Transferencia de Tecnología A la Producción; Argentina. Universidad Autónoma de Entre Ríos; Argentina Fil: Orfeo, Oscar. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Nordeste. Centro de Ecologia Aplicada del Litoral (i); Argentina Fil: Zucol, Alejandro Fabian. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro de Investigaciones Científicas y Transferencia de Tecnología A la Producción; Argentina. Universidad Autónoma de Entre Ríos; Argentina

Published

2013

50. Revisión de la paleoflora de la Formación Nestares (Jurásico Temprano), provincias del Neuquén y Río Negro, Argentina

Author

Luis Antonio Spalletti, Analía E. Artabe, Daniel Gustavo Ganuza, and Eduardo Manuel Morel

Subjects

Jurásico Temprano, Provincias del Neuquén y Río Negro, Oceanografía, Hidrología, Recursos Hídricos, Argentina, Paleontology, PALEONTOLOGIA, Formación Nestares, Ciencias de la Tierra y relacionadas con el Medio Ambiente, Geography, Paleoflora, Humanities, Ecology, Evolution, Behavior and Systematics, CIENCIAS NATURALES Y EXACTAS, Paleobotánica

Abstract

En esta contribución se realizó la revisión de la paleoflora de la Formación Nestares, aflorante en ambas márgenes del Río Limay, en las inmediaciones del dique de Alicurá, sector noroccidental del Macizo Nordpatagónico, provincias de Río Negro y Neuquén, Argentina. Se midió un perfil sedimentológico, se identificaron cuatro estratos fosilíferos y su estudio permitió la determinación sistemática de 18 taxones, 12 previamente descriptos para esta localidad= Neocalamites carrerei (Zeiller) Halle, Marattia muensteri (Goeppert) Zeiller, Goeppertella diazii Arrondo y Petriella, Kurtziana brandmayri Frenguelli, K. cacheutensis (Kurtz) Frenguelli, Taeniopteris sp., Otozamites albosaxatilis Herbst, O. ameghinoi Kurtz, O. bechei Brongniart, O. hislopii (Oldham) Feistmantel, Ptilophyllum acutifolium Morris en Grant, Elatocladus confertus (Oldham y Morris) Halle y seis nuevos= Equisetites frenguellii Orlando, Archangelskya protoloxsoma (Kurtz) Herbst, Sagenopteris nilssoniana (Brongniart) Ward, Nilssonia taeniopteroides Halle, O. bengalensis Oldham y Morris y Elatocladus planus (Feistmantel) Seward. A estos registros se le adicionan otros seis taxones previamente estudiados como Cladophlebis mendozaensis (Geinitz) Frenguelli, C. oblonga Halle, Gleichenites cf. sanmartini Halle emend. Herbst, Scleropteris vincei Herbst, Araucarites phillipsi Carruthers, Podozamites elongatus (Oldham y Morris) Halle, conformando una lista actualizada para la unidad de 24 taxones. La similitud composicional con otras paleofloras del Jurásico Temprano de la Argentina permite asignar a esta tafoflora una edad sinemuriana. In this contribution the paleoflora of the Nestares Formation, exposed along both banks of the Limay River, close to the Alicurá dam (northwest of the Northpatagonian Massif) was reviewed. A sedimentological profile was measured, four fossil-bearing levels were identified and the systematic study allowed the identification of 18 taxa, 12 of which were previously described for this site= Neocalamites carrerei (Zeiller) Halle, Marattia muensteri (Goeppert) Zeiller, Goeppertella diazii Arrondo and Petriella, Kurtziana brandmayri Frenguelli, K. cacheutensis (Kurtz) Frenguelli, Taeniopteris sp., Otozamites albosaxatilis Herbst, O. ameghinoi Kurtz, O. bechei Brongniart, O. hislopii (Oldham) Feistmantel, Ptilophyllum acutifolium Morris in Grant, Elatocladus confertus (Oldham and Morris) Halle and six that are new for this formation= Equisetites frenguellii Orlando, Archangelskya protoloxsoma (Kurtz) Herbst, Sagenopteris nilssoniana (Brongniart) Ward, Nilssonia taeniopteroides Halle, O. bengalensis Oldham and Morris, and Elatocladus planus (Feistmantel) Seward. These records are added to 6 other previously studied taxa, including Cladophlebis mendozaensis (Geinitz) Frenguelli, C. oblonga Halle, Gleichenites cf. sanmartini Halle emend. Herbst, Scleropteris vincei Herbst, Araucarites phillipsi Carruthers, Podozamites elongatus (Oldham and Morris) Halle, providing an updated list of 24 taxa for this unit. The compositional similarity with other Early Jurassic paleofloras from Argentina indicates a Sinemurian age. Fil: Morel, Eduardo Manuel. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Área Paleobotánica; Argentina. Provincia de Buenos Aires. Gobernación. Comisión de Investigaciones Científicas; Argentina Fil: Ganuza, Daniel Gustavo. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Área Paleobotánica; Argentina Fil: Artabe, Analia Emilia Eva. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Área Paleobotánica; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Spalletti, Luis Antonio. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Centro de Investigaciones Geológicas. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Centro de Investigaciones Geológicas; Argentina

Published

2013