An annotated collection of pointers to information on palaeobotany
or to WWW resources which may be of use to palaeobotanists (with an Upper Triassic bias).

History of Palaeobotany Renowned Palaeobotanists, Progress in Palaeobotany ... Teaching Documents Palaeobotany, Palaeontology, Palaeoecology, Field Trip Guides ... Fossil and Recent Plant Taxa Sphenophyta, Cycads, Bennettitales, Coniferophyta ... Preservation & Taphonomy Plant Taphonomy, Cuticles, Amber, Log Jams ... Palaeobotanical Tools Preparation & Conservation, Drawing, Writing, Microscopy, TEM, Photography, Microtomography ... Institutions & Organisations Selected Bot. Gardens and Herbaria, Nat. Hist. Museums, Palaeobot. Collections, Internat. Palaeo Institutions ... Conferences & List Server Conferences, Mailing Lists, Newsgroups ...

Articles in Palaeobotany Plant Evolution, What is Palaeobotany? Jurassic Palaeobotany ... Plant Anatomy & Taxonomy Plant Classification, Chemotaxonomy, Phylogeography, Cladistic Methods ... Palynology Palynological Associations, Acritarchs, Dinoflagellates, Palynofacies ... Ecology & Palaeoenvironment Stress Conditions, Palaeoenvironment, Ecosystem Recovery, Palaeosoils, Plant Roots, Playa Lakes, Animal-Plant Interaction ... Charcoal & Coal Petrology Fossil charcoal, Fire Ecology, Coal Petrology, Coalification ... Palaeoclimate Stomatal Density, Rise of Oxygen, Pre-Neogene Growth Rings ... Evolution & Extinction Evolution Sciences vs Creationism, Molecular Clock, P-Tr Extinction ... Selected Geology Geological Timescale, Palaeogeography, Sedimentology, Gaia Hypothesis ...

Software Palaeontological Software, Software of all topics ... All about Upper Triassic Triassic Palaeobotany, Tr. Palynology, Tr. Climate, Triassic Stratigraphy, The European Keuper ... Literature Search Journals, Open Access Publishing, Abstracts, Books ... Databases and Glossaries Encyclopedias, Unit Converter, What´s New ... Images of Plant Fossils Fossil Plants, Reconstructions, Plant Photographs ... Job & Experience Labor Market, Grants, Field Camps, Internships ... Search S.-Engines, Botany Search etc. Plagiarism S. Palaeobotanical Directories, Palaeont. D., Bot. D. ...,

Home / What´s New on Links for Palaeobotanists?

Z. Xu et al. (2022): Early Triassic super-greenhouse climate driven by vegetation collapse. In PDF, Europe PMC.
See also here.
Note figure 3, the climate graph.
"... Our reconstructions show that terrestrial vegetation collapse during the PTME, especially in tropical regions, resulted in an Earth system with low levels of organic carbon sequestration and chemical weathering, leading to limited drawdown of greenhouse gases. This led to a protracted period of extremely high surface temperatures, during which biotic recovery was delayed for millions of years. ..."

taz (a German newspaper; November 19, 2022): Versteinerte Welten:
„Wie ein Foto aus der Urzeit“ (in German).
Paläobotaniker interessieren sich für die urzeitliche Pflanzenwelt. Die Fossilien von Blättern und Stämmen liefern Einblicke in untergegangene Welten.

A.A. Santos et al. (2022): First evidence of Ricciaceae in the Jurassic of the Iberian Peninsula (Asturias, NW Spain): Ricciopsis asturicus sp. nov. Abstract, Botany Letters, 169: 557-567.

B.A.R. Mohr and H. Eklund&xnbsp;(2003): Araripia florifera, a magnoliid angiosperm from the Lower Cretaceous Crato Formation (Brazil). In PDF, Review of Palaeobotany and Palynology, 126: 279-292. See also here.
Note figure 3: Araripia florifera nov. gen. nov. spec., tentative reconstruction.

A. Traverse (1960): History of the Paleobotanical Section of the Botanical Society of America. Excerpted from Plant Science Bulletin, vol. 6, number 3, p. 1.
Still available through the Internet Archive´s Wayback Machine.

T. Just (1957): Fifty years of paleobotany, 1906-1956. Abstract, American Journal of Botany, 44: 93-99.

C. Blanco-Moreno et al. (2022): Quantitative plant taphonomy: the cosmopolitan Mesozoic fern Weichselia reticulata as a case study. Open access, Palaeontology, 65.
Note figure 7: Taphonomic model proposed for Weichselia reticulata.

S.A. Maccracken et al. (2022): Insect herbivory on Catula gettyi gen. et sp. nov. (Lauraceae) from the Kaiparowits Formation (Late Cretaceous, Utah, USA). Open access, PLoS ONE 17: e0261397.

G.G. Puebla et al. (2017): Fossil record of Ephedra in the lower cretaceous (Aptian), Argentina. In PDF, Journal of plant research, 130: 975–988.
See also here.

S.R. Schachat 2022): Examining paleobotanical databases: Revisiting trends in angiosperm folivory and unlocking the paleoecological promise of propensity score matching and specification curve analysis. Free access, Front. Ecol. Evol., 10: 951547. doi: 10.3389/fevo.2022.951547.
"... Long-term trends in the fossil record of plants, encompassing their interactions with herbivores and with the environment, are of the utmost relevance for predicting global change
[...] in contrast to modern ecology and unlike various other paleontological disciplines, paleobotany has a limited history of “big data” meta-analyses.
[...] Here I demonstrate the importance of analytical best practices by applying them to a recent meta-analysis of fossil angiosperms. ..."

C. Rydin and C. Hoorn (2016): The Gnetales: past and present. In PDF, Grana, 55. See also here.

V.A. Krassilov et al. (1998): New ephedroid plant from the Lower Cretaceous Koonwarra Fossil Bed, Victoria, Australia. In PDF, Alcheringa, 22: 123-133. See also here.

! E. Romero-Lebrón et al. (2022): Endophytic insect oviposition traces in deep time. In PDF, Palaeogeography, Palaeoclimatology, Palaeoecology, 590.
See also here.

S. Deng et al. (2022): A new species of Pleuromeia (Lycopsid) from the upper Middle Triassic of Northern China and discussion on the spatiotemporal distribution and evolution of the genus. Abstract, Geobios.
"... Spatiotemporal distribution of Pleuromeia indicates that the genus first appeared in the Induan (Early Triassic) in North China, occurred widespread and flourished in both Laurasia and Gondwana during the Olenekian (late Early Triassic), declined from the Anisian (early Middle Triassic), survived in the Ladinian in North China, and may have gone extinct as early as the end of the Middle Triassic. ..."

A.A. Santos and X. Wang (2022): Pre-Carpels from the Middle Triassic of Spain. Open access, Plants, 11(21), 2833; https://doi.org/10.3390/plants11212833.

D.L. Dilcher (2001): Paleobotany: some aspects of non-flowering and flowering plant evolution. In PDF, Taxon.
See also here.
For early angiospermous fossil floras see figure 1 (on PDF page 5).

! K. Kathiresan and B.L. Bingham (2001): Biology of mangroves and mangrove ecosystems. In PDF, Advances in marine biology, 40: 81-251.
See also here.

Richard Cowen, Department of Geology, University of California, Davis, CA: History of Life, Third Edition.
Go to: Preservation and Bias in the Fossil Record.
These expired links are now available through the Internet Archive´s Wayback Machine.

E. Weiher and P.A. Keddy (1995): The assembly of experimental wetland plant communities. PDF file, Oikos.
Available through the Internet Archive´s Wayback Machine.
See also here.

N. Wikström et al. (2022): No phylogenomic support for a Cenozoic origin of the “living fossil” Isoetes. OPen access, American Journal of Botany.

R.A. Gastaldo et al. (1995): Taphonomic and sedimentologic characterization of roof-shale floras. In PDF, Geol. Soc. Am. Mem., 185: 341–352. See also here.

Ewan Wolff, Montana State University Geoscience Education Web Development Team: Advances in Paleontology.
Still available through the Internet Archive´s Wayback Machine.

! A. Genre et al. (2020): Unique and common traits in mycorrhizal symbioses. In PDF, Nature Reviews Microbiology, 18, 649–660.
See also here.

! C. Strullu-Derrien et al. (2018): The origin and evolution of mycorrhizal symbioses: from palaeomycology to phylogenomics. Free access, New Phytologist, 220: 1012–1030.
! Note figure 1: Geological timescale with oldest known fossils. Left: Antiquity of genomic traits related to mycorrhizal evolution based on molecular clock estimates. Right: Oldest known fossils.
Figure 5: Simplified phylogenetic tree showing the minimum stratigraphic ranges of selected groups based on fossils (thick bars) and their minimum implied range extensions (thin lines).

M.P. Howson et al. (2022): Rare preservation of Triassic pedorelicts with biogenic traces from a hot semi-arid upland palaeoenvironment at Portishead, SW England. Free access, Proceedings of the Geologists' Association.
"... Preservation of upland pedogenicmaterial of Triassic age is very rare or unrecorded in SW England, but it occurs at several coastal locations near Portishead, not as an in-situ palaeosol but as pedorelicts, which contain evidence of aeolian deposition, calcretization and other pedogenic features. ..."

G. Shi et al. (2022): Silicified cupulate seed-bearing structures from the Early Cretaceous of eastern Inner Mongolia, China: rethinking the corystosperm concept. Abstract, Journal of Systematic Palaeontology, 20.
"... together with information on other corystosperm ovulate organs from the Northern Hemisphere, significantly expands our understanding of this key group of extinct plants, suggests that the cupules of the Early Cretaceous and Triassic corystosperms are homologous, and raises critical questions about the definition and phylogenetic circumscription of the corystosperms ..."

Links for Palaeobotanists:
New ! The Molecular Clock and/or/versus the Fossil Record.

M. dos Reis et al. (2015): Uncertainty in the timing of origin of animals and the limits of precision in molecular timescales. Free access, Current Biology, 25: 2939–2950.

Forest Products Laboratory, Madison, WI, U.S. Department of Agriculture: Wood handbook: wood as an engineering material. About the characteristics and availability of commercially important woods, the structure, physical properties and moisture relations of wood, the mechanical properties of wood, etc.
Available in PDF.

Z. Feng et al. (2022): Nurse logs: A common seedling strategy in the Permian Cathaysian Flora. In PDF, iScience, 25.
See also here.
"... We report seven coniferous nurse logs from lowermost to uppermost Permian strata of northern China that have been colonized by conifer and sphenophyllalean roots. These roots are associated with two types of arthropod coprolites and fungal remains. ..."

J. Marin-Carbonne et al. (2022): Early precipitated micropyrite in microbialites: A time capsule of microbial sulfur cycling. In PDF, Geochemical Perspectives Letters, European Assoication of Geochemistry, 21: 7-12.
See also here.

Sarah Johnson, MyComfortHaven.com:
Digital Photography Basics.
This digital photography guide will cover every aspect of digital photography to make digital photography easier, and help you improve your photography skills.

! R.D. Nance (2022): The supercontinent cycle and Earth's long-term climate. Open access, Annals of the New York Academy of Sciences, 1515: 33–49.
Note figure 1: Reconstruction of Pangea for the Late Triassic (at 200 Ma).
! Figure 7: Distribution of warm (greenhouse) and cool (icehouse) global climatic conditions for the past 1 Ga compared with times of supercontinent assembly and breakup for Rodinia, Pannotia, and Pangea.
Figure 9: Distribution of large igneous provinces (LIPs) throughout Earth history.
! Figure 10: Age and estimated volume of Phanerozoic large igneous provinces (LIPs) compared to genus extinction magnitude showing correlation between mass extinction events (peaks) and LIP emplacement.

! Y. Wang et al. (2022): The Development of Microscopic Imaging Technology and its Application in Micro- and Nanotechnology. Open access, Front. Chem., 10:931169. doi: 10.3389/fchem.2022.931169.

I.J. Glasspool and R.A. Gastaldo (2022): A baptism by fire: fossil charcoal from eastern Euramerica reveals the earliest (Homerian) terrestrial biota evolved in a flammable world. Open access, Journal of the Geological Society.
Note figure 12: Fuel-fire burn model illustrating fire initiation by lightning, burning of Prototaxites as the fire nucleus and the charring of the peripheral vegetation.

L. Grauvogel-Stamm et al. (2022): Microspores of the Middle Triassic lycopsid Lepacyclotes (syn. Annalepis) zeilleri: Morphology, ultrastructure, laminated zones and comments about the lycopsid evolution. Abstract, Review of Palaeobotany and Palynology, 301.

! K.R. Moore et al. (2022): A review of microbial-environmental interactions recorded in Proterozoic carbonate-hosted chert. Open access, Geobiology.
"... we review the record of biosignatures preserved in peritidal Proterozoic chert and chert-hosting carbonate and discuss this record in the context of experimental and environmental studies that have begun to shed light on the roles that microbes and organic compounds may have played ..."

! R. López-Antoñanzas et al. (2022): Integrative Phylogenetics: Tools for Palaeontologists to Explore the Tree of Life. Open access, Biology, 11: 1185. https://doi.org/10.3390/ biology11081185.
"... The statistical techniques mentioned above have only begun to be applied to questions in palaeontology over the past decade but have found extensive applications in phylogenetic comparative analysis, quantitative genetics, and ecology. Complementary methodologies that combine morphological and molecular approaches can provide novel answers to broad evolutionary and deep-time questions ..."

! The World List of Cycads (produced under the auspices of the IUCN/SSC Cycad Specialist Group (CSG) and sponsored by Montgomery Botanical Center).
The World List of Cycads is a working list of known cycad species names with the primary goal of providing reliable information on the taxonomy of cycads.
! Don't miss the extensive Cycad Literature List.

This index is compiled and maintained by Klaus-Peter Kelber, Würzburg, e-mail kp-kelber@t-online.de Last updated November 30, 2022

Some backward links and recommendations received to date for "Links for Palaeobotanists" The Golden Trilobite Award Winners List