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, Insect Evo, 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?

M. Havelcová et al. (2013): “Stump Horizon” in the Bílina Mine (Most Basin, Czech Republic)—GC–MS, optical and electron microscopy in identification of wood biological origin. In PDF, International Journal of Coal Geology, 107: 62–77. See also here.

M. Hámor-Vidó et al. (2010): In situ preservation and paleoenvironmental assessment of Taxodiacea fossil trees in the Bükkalja Lignite Formation, Bükkábrány open cast mine, Hungary. In PDF, International Journal of Coal Geology, 81: 203–210. See also here.

O.M. Moroeng et al. (2018): Characterization of coal using electron spin resonance: implications for the formation of inertinite macerals in the Witbank Coalfield, South Africa. Free access, Int. J. Coal Sci. Technol., 5: 385–398.

D. Turner (2019): In Defense of Living Fossils. Biology and Philosophy. See also here.

J.R. Flores et al. (2017): Combined phylogenetic analysis of the subclass Marchantiidae (Marchantiophyta): towards a robustly diagnosed classification. Abstract, Cladistics, 1–25. See also here or there (in PDF).

M. Carnall (2016): Let’s Make Living Fossils Extinct. The Guardian.

! M. Iniesto et al. (2018): Plant Tissue Decay in Long-Term Experiments with Microbial Mats. Open access, Geosciences, 8.
"... Plants became trapped and progressively buried by the mat community that prevents fungal invasion, mechanical cracking, and inner tissue breakages ..."

A. Traverse (2007): Paleopalynology (2nd ed.), Springer. Provided by Google books. See especially:
! Palynological Laboratory Techniques (in PDF).

E.M. Gifford and A.S. Foster (1988): Morphology and Evolution of Vascular Plants. In PDF, 3rd edition, (New York: Freeman). See also here.

A. Savoretti et al. (2019): Grimmiaceae in the Early Cretaceous: Tricarinella crassiphylla gen. et sp. nov. and the value of anatomically preserved bryophytes. In PDF, Annals of botany. See also here.

A.J. Hetherington and L. Dolan (2019): Rhynie chert fossils demonstrate the independent origin and gradual evolution of lycophyte roots. Abstract, Current opinion in plant biology, 47: 119-126. See also here and there (in PDF).

A.J. Crawford et al. (2018): Fossil charcoals from the Lower Jurassic challenge assumptions about charcoal morphology and identification. Free access, Palaeontology, 61: 49–56.

E. Schütze (1901): Beiträge zur Kenntnis der triassischen Koniferengattungen: Pagiophyllum, Voltzia und Widdringtonites. PDF file, in German; Jahreshefte des Vereins für vaterländische Naturkunde in Württemberg, 57: 240-273, plate VI bis X, Stuttgart.
See also here.

Nina R. Bonis (2010), Laboratory of Palaeobotany and Palynology, Palaeoecology Institute of Environmental Biology, Department of Biology, Utrecht University: Palaeoenvironmental changes and vegetation history during the Triassic-Jurassic transition. PDF file (7.7 MB), LPP Contribution Series No. 29.
This expired link is now available through the Internet Archive´s Wayback Machine.
Seven research reports (chapters) in this thesis, see especially chapter 7 (with W.M. Kürschner):
! Vegetation history, diversity patterns, and climate change across the Triassic-Jurassic boundary (PDF page 140).

! P.R. Hardoim et al. (2015): The hidden world within plants: ecological and evolutionary considerations for defining functioning of microbial endophytes. In PDF, Microbiology and Molecular Biology Reviews. See also here.

C. Strullu-Derrien and P. Kenrick (2018): Thomas Norwood Taylor (1938–2016). In PDF, Mycologia, 110: 448-452.

R.S. Hill et al. (2019): New Macrofossils of the Australian Cycad Bowenia and Their Significance in Reconstructing the Past Morphological Range of the Genus. In PDF, Int. J. Plant Sci., 180: 128–140. See also here.

J.B. Riding and M.J. Head (2017): Preparing photographic plates of palynomorphs in the digital age. Palynology, 42. See also here (in PDF). Worth to read:
Chapter 5.5.2 (on PDF page 6): "Multiple images versus image stacking".

! Bildatlas der Moose Deutschlands (by Michael Lueth, Freiburg, Germany). Habitat and bryophyte photographs. Excellent!

The Fossil Forum: Fossil Photography.

C.W. Gümbel (1866): Die geognostischen Verhältnisse des fränkischen Triasgebietes. In PDF, Bavaria. Landes- und Volkskunde des Königreichs Bayern, 4: 3–77. See also here (Google books).

! D.R. Broussard et al. (2018): Depositional setting, taphonomy and geochronology of new fossil sites in the Catskill Formation (Upper Devonian) of north-central Pennsylvania, USA, including a new early tetrapod fossil. Abstract, Palaeogeography, Palaeoclimatology, Palaeoecology, 511: 168-187. See also here (in PDF).

S.M. Slater et al. (2018): Dinosaur-plant interactions within a Middle Jurassic ecosystem—palynology of the Burniston Bay dinosaur footprint locality, Yorkshire, UK. Free access, Palaeobiodiversity and Palaeoenvironments, 98: 139–151.

T. Nadim et al. (2015): Reconstructions of a historic paleontological collection: Diversity re-created. In PDF, Earth Sciences History, 27: 278–296. See also here and there.

H. Song et al. (2018): Decoupled taxonomic and ecological recoveries from the Permo-Triassic extinction. Open access, Science Advances, 4.

Amy Wesselman, Owen County High School, East Owenton, KY: Ecology. See especially:
Terrestrial Ecology Notes. Lecture notes, Powerpoint presentation.

B. Mohr et al. (2008): Hugo Rühle von Lilienstern and his palaeobotanical collection: an east–west German story. In PDF, Earth Sciences History, 27: 278–296. See also here.

Amy Wesselman, Owen County High School, East Owenton, KY: Botany. Lecture notes. See for instance:
Overview of Plants & Plant Structure.
Growth & Development.
Powerpoint presentations, created by Jackie Snow, Belton, TX.

T. Linnell (1933); article started on PDF page 21: Zur Morphologie und Systematik triassischer Cycadophyten. II. Über Scytophyllum Bornemann, eine wenig bekannte Cycadophytengattung aus dem Keuper. In PDF, Svensk Botanisk Tidskrift 27: 310–331.

Amy Wesselman, Owen County High School, East Owenton, KY: Energy and Matter in Ecosystems. Go to:
Climate and Biomes. Lecture notes, in PDF.

H. Falcon-Lang (2012): Double-crossed Nicol. William Nicol pioneered petrographic microscopy; but a dastardly palaeobotanist tried to steal his glory.
Geoscientist.

Henry Witham (1831): Observations on Fossil Vegetables: Accompanied by Representations of Their Internal Structure as Seen Through the Microscope. W. Blackwood; 48 pages. Provided by Google books.
Taken from Wikipedia: "... Though having no botanical training, he [Witham] applied William Nicol's method of examining fossils and rocks under the microscope by slicing them into thin sections. Nicol's first published account of this process is contained in Witham's 1831 publication ..."

! F.-W. Li et al. (2018): Fern genomes elucidate land plant evolution and cyanobacterial symbioses. Open access, Nature Plants, 4: 460–472.

Wikipedia, the free encyclopedia: Edward Alexander Newell Arber (1870-1918).

T.J. Barkman et al. (2007): Mitochondrial DNA suggests at least 11 origins of parasitism in angiosperms and reveals genomic chimerism in parasitic plants. Open access, BMC Evolutionary Biology, 7: 248.

Wikipedia, the free encyclopedia: William Gilbert Chaloner (1928-2016).
See also: Andrew C Scott, The Guardian, November 06, 2016: William Chaloner obituary.
See also here (The Geological Society of London).

P.J. Rudall and R.M. Bateman (2019): Leaf surface development and the plant fossil record: stomatal patterning in Bennettitales. Abstract, Biological Reviews.
"... Fossil bennettites – even purely vegetative material – can be readily identified by a combination of epidermal features, including distinctive cuticular guard-cell thickenings, lobed abaxial epidermal cells (‘puzzle cells’), transverse orientation of stomata perpendicular to the leaf axis, and a pair of lateral subsidiary cells adjacent to each guard-cell pair (termed paracytic stomata). ..."

P.J. Rudall et al. (2017): Evolution and development of monocot stomata. In PDF, American journal of botany, 104: 1122-1141.

Gregory T. Chandler, The Australian National University:
Introduction to Taxonomy. Go to:
Gnetophyta (in PDF).

J.C. McElwain (2018): Paleobotany and global change: Important lessons for species to biomes from vegetation responses to past global change, In PDF, Annual review of plant biology, 69: 761–787. See also here

! C.J. Harrison and J.L. Morris (2017): The origin and early evolution of vascular plant shoots and leaves. Free access, Phil. Trans. R. Soc. B, 373: 20160496.

! H. Thürach (1888): Übersicht über die Gliederung des Keupers im nördlichen Franken im Vergleiche zu den benachbarten Gegenden.
Erster Theil. – Geognostische Jahreshefte, 1: 75-162, München. (Start on PDF page 80).
! H. Thürach (1889): Übersicht über die Gliederung des Keupers im nördlichen Franken im Vergleiche zu den benachbarten Gegenden.
Zweiter Theil. – Geognostische Jahreshefte, 2: 1-90, 1 Kte.; München. (Start on PDF page 05).

N.A. Stanich et al. (2009): Phylogenetic diversification of Equisetum (Equisetales) as inferred from Lower Cretaceous species of British Columbia, Canada. In PDF, Am. J. Bot., 96: 1289-1299.

A. Hetherington (2017): Evolution and morphology of lycophyte root systems. In PDF, Thesis, St Catherine’s College, Department of Plant Sciences, University of Oxford. See also here.

! J.G. Pausas et al. (2017): Flammability as an ecological and evolutionary driver. In PDF, Journal of Ecology, 105: 289–297.

! X. Lin et al. (2019): Exploiting Nondietary Resources in Deep Time: Patterns of Oviposition on Mid-Mesozoic Plants from Northeastern China. Free access, International Journal of Plant Sciences, 180.

This index is compiled and maintained by Klaus-Peter Kelber, Würzburg, e-mail kp-kelber@t-online.de Last updated May 24, 2019

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