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).
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J.A. Smith (2025):
Identifying
the Big Questions in
paleontology: a community-driven project. In PDF,
Paleobiology.
https://doi.org/10.1017/pab.2025.10042.
"... In an effort to identify “Big Questions” in paleontology, experts
from around the world came together to build a list of priority
questions the field can address in the
years ahead. The 89 questions presented herein (grouped within 11 themes) represent
contributions from nearly 200 international scientists ..."
S. McLoughlin and B.P. Kear (2014): Gondwanan Mesozoic biotas and bioevents. Abstract, Gondwana Research, 27: 905-910.
Richard Hill, Lunar and Planetary Lab, University of Arizona
(published by the Mid-America Paleontology Soc. in the Expo proceedings for 1999):
Making
Thin Sections by Hand.
A method of manually making thin sections is presented. Simple
techniques for maintaining parallelism that avoids direct measurement
is described in detail and a number of examples are shown.
Retrieved from the Internet Archive's Wayback Machine.
C. Heunisch and H.G. Röhling (2016): Early Triassic phytoplankton episodes in the Lower and Middle Buntsandstein of the Central European Basin. In PDF, Zeitschrift der Deutschen Gesellschaft für Geowissenschaften, 167.
A.B. Knetge et al. (2025):
Census
collection of two fossil plant localities in Jameson Land, East
Greenland supports regional ecological turnover and diversity loss at the
end-Triassic mass extinction. Free access,
Palaeogeography, Palaeoclimatology, Palaeoecology, 679.
"... Our study demonstrates a floristic turnover
[...] Evidence of a Rhaetian fern spike and compositional evenness in the Hettangian,
support a complex biphasic disturbance pattern. This comparison of localities shows
the magnitude of diversity loss scales with the pre-crisis standing diversity ..."
!
T. Zhao et al. (2024):
Artificial
intelligence for geoscience: Progress, challenges, and perspectives. Open access,
The Innovation, 5.
"... This paper explores the evolution of geoscientific inquiry, tracing
the progression from traditional physics-based models to modern data-driven
approaches facilitated by significant advancements in artificial intelligence
(AI) and data collection techniques
[...] The synergy between traditional principles and modern AI-driven
techniques holds immense promise ..."
Oliver Wild,
Department of Environmental Science, Lancaster University:
Lightning,
Chemistry and the Impacts on Climate. Powerpoint presentation.
The British
Pteridiological Society.
The British Pteridological Society provides a wide range of information about ferns
for fern enthusiasts. It also organises formal talks, informal discussions, field meetings,
garden visits, plant exchanges, a spore exchange scheme and fern book sales. Go to:
An
Introduction to Ferns.
This introduction (to ferns and other pteridophytes) is based on a chapter from the
book "A World of Ferns", by Josephine M. Camus, A. Clive Jermy & Barry A. Thomas,
Natural History Museum Publications, London.
Snapshot taken by the Internet Archive´s Wayback Machine.
Indiana Geological and Water Survey, Bloomington, IN:
Atlas of Coal Macerals.
This Atlas of Coal Macerals presents
the current classifications of the International
Committee for Coal and Organic Petrology (ICCP) together
with examples of coal macerals. Photomicrographs of macerals were
taken on polished sections under a reflected light microscope (with oil objective)
in white or fluorescent light. Excellent!
Retrieved from the Internet Archive's Wayback Machine.
W. Steffen et al, (2020):
The
emergence and evolution of Earth System Science. In PDF,
Nature Reviews Earth & Environment, 1: 54–63.
See also
here.
"... ESS [Earth System Science] has produced new concepts and frameworks central to
the global-change discourse, including the Anthropocene, tipping elements and planetary
boundaries. Moving forward, the grand challenge for ESS is to achieve a deep integration
of biophysical processes and human dynamics to build a truly unified understanding of
the Earth System ..."
Retrieved from the Internet Archive's Wayback Machine.
!
G.E. Mustoe et al. (2025):
Mineralogy
of Petrified Wood from Costa Rica. Open access,
Minerals, 15. https://doi.org/10.3390/min15050497.
"... Our investigation is a preliminary study of the mineralization
mechanisms and the degree of anatomical preservation
[...] Our research involved the study of 54 specimens,
with the goal of determining their mineral compositions and interpreting the
fossilization processes. Data came from thin-section optical microscopy, SEM images, and X-ray
diffraction ..."
Museum of Paleontology, University of California, Berkeley:
The Cleared
Leaf Collection.
An image gallery of modern leaves that have been bleached and stained to make their venation patterns more visible.
Leaf shape, venation, and features of the margin, base and apex constitute important
taxonomic and physiognomic characters.
Retrieved from the Internet Archive's Wayback Machine.
See also here.
S.M. Savin (1977):
The
history of the Earth´s surface temperature during the past 100 million years. In PDF,
Annual Review of Earth and Planetary Sciences, 5: 319-355.
See here
as well.
!
J.G. Pausas et al. (2025):
The
role of fire on Earth. Open access,
BioScience. https://doi.org/10.1093/biosci/biaf132.
!
Note Table 1: Examples of nonlinear dynamics and feedback loops
involving fire at different scales.
"... Fire and the biosphere are mutually
dependent and deeply intertwined, sometimes in a complex manner
[...] Fire has also shaped the structure of many ecosystems and
the distribution of biomes, and it is an important contributor to the global
biogeochemical cycles ..."
Daniel L. Nickrent, Southern Illinois University:
!
Plant Anatomy Notes.
Also worth checking out:
!
Internet
Resources on Plant Anatomy.
D. Jablonski (2022): Evolvability and macroevolution: overview and synthesis. Open access, Evolutionary Biology, 2022 See here as well.
BioScience
(by Oxford University Press on behalf of the American Institute of Biological Sciences).
A peer-reviewed monthly journal with content written and edited for accessibility to
researchers, educators, and students alike.
Catherine
A. Paris,
College of Agriculture and Life Sciences, University of Vermont:
Speciation:
The Origin of New Species.
Powerpoint presentation.
Arlington Central School District, LaGrangeville, NY.:
Plant
Anatomy and Physiology.
Lecture notes, Powerpoint presentation.
Retrieved from the Internet Archive's Wayback Machine.
W.J. Foster et al. (2025):
An
unpredictable body size response to the Permo–Triassic climate crisis.In PDF,
EGUsphere.
Note figure 1: Palaeogeographic setting of the Dolomites, Italy.
"Shallow marine bivalve communities from the Dolomites in Italy show a significant reduction in body-size at the
genus-level, but conversely at the species-level body sizes stay the same or slightly increase, inconsistent with the
Lilliput effect hypothesis
[...] The impact of the mass extinction event on biotic
interactions also likely played a major role in the preferential
origination of small-sized species ..."
M. Havelcova et al. (2025):
Structural
analysis of fossilized tree trunks from the Miocene Mydlovary Formation of the South
Bohemian Basin (Czech Republic). In PDF,
Palaeoworld, 34. See likewise
here.
"... Our study presents microscopic and chemical tissue
analyses of these tree trunks. The trees were fossilized and flattened. However, they
are well preserved
[...] The biomarker composition in the extracts of the fossil wood obtained by gas
chromatography-mass spectrometry, included terpenoid signatures, supporting a
relationship to the Family Cupressaceae s.s. ..."
! S. McLoughlin and C. Pott (2009): Harvesting the extinct Bennettitales. In PDF, Deposit Magazine. See here as well.
UNESCO:
International
Geoscience and Geoparks Programme.
UNESCO is the only United Nations organization with a mandate to support research
and capacity in Earth Sciences
and the International Geoscience and Geoparks Programme is our flagship.
Worth checking out:
!
List
of UNESCO Global Geoparks and Regional Networks
M.P. Howson et al. (2025):
A
Triassic semi-arid upland community of herbaceous ferns and rhizophagous arthropods
evidenced by trace fossils in rhizogenic calcrete pedorelicts from SW England. Free access,
Palaeogeography, Palaeoclimatology, Palaeoecology, 678.
"... Pedorelicts (soil clasts) in continental sediments in SW
England derived from a Middle-Upper Triassic semi-arid upland palaeoenvironment were studied using micro-CT
scans and microscopy
[...] Whereas the rhizotubules may be considered
as trace fossils, they preserve details of plant root anatomy ..."
!
The Micropalaeontological
Society (TMS).
TMS exists to advance the education of the public in the study of Micropalaeontology
and is operated “exclusively for scientific and educational purposes and not for profit. Worth checking out:
The
wikipedia entry.
Visit the
!
Palynology Group.
D.S.A. Cufuna et al. (2025): Learning in Informal Educational Spaces: Augmented Reality and Merge Edu in Natural Science Museums. Free access, in: M. Cohen (ed.): Augmented Reality - Situated Spatial Synergy.
T. Reichgelt et al. (2025):
Insights
into greener Miocene biomes and globally enhanced terrestrial productivity
from fossil leaves. Open access, Evolving Earth 3.
"... we analyzed 108 Miocene megafloras using a single
standardized leaf-based paleoclimate proxy to produce climate, pro
ductivity and biome reconstructions and compare these to modern.
Miocene temperature, precipitation, and productivity
[...] leaf megafloras reveal an overall greener Miocene world that appears to be largely driven
by greater moisture availability.
H. Poorter et al. (2025):
Stomatal
Density and Index Are More Responsive to Light Intensity than to [CO2]:
A Meta-Analysis and Implications for Paleo-CO2 Reconstruction. Open access,
Plant Ecophysiology, 1. See likewise
here.
"... We conducted a meta-analysis of a wide range of experiments in which plants were
grown under different levels of CO2, light, temperature, and water availability
[...] the effect of growth light intensity was positive, highly consistent, and substantially
stronger than the impact of atmospheric CO2. Temperature also positively influenced
stomatal density, while water availability showed no consistent effects. Based
on these dose-response curves, we highlight several caveats when using stomatal density or
stomatal index for paleo-CO2
reconstruction. The weak CO2 response, coupled with the strong confounding
impact of light intensity, poses significant limitations to the accuracy of such estimates ..."
Z. Xu et al. (2025):
Normalization
of fossil plant megafossil databases for diversity and
palaeobiogeography analyses by filtering taxonomic duplication:
Principles, methods, examples, and recommendations. Open access,
Palaeogeography, Palaeoclimatology, Palaeoecology, 678. See likewise
here
(in PDF).
Note figure 1: World palaeogeography from the late Permian to Middle Triassic.
Figure 3: Representative world palaeogeography maps showing locations of coal ball floras.
Figure 5: Total, extinction and origination taxon number from the middle Permian
to Late Triassic floras of South China.
"... We use two case studies to highlight the impact of normalization
by analysing raw (unfiltered) versus normalized (filtered) data ..."
!
M. Laaß et al. (2025):
Host-specific
leaf-mining behaviour of holometabolous insect larvae in the early Permian. Open access,
Scientific reports, 15. doi.org/10.1038/s41598-025-15413-x. See here
as well.
Note figure 5: Co-occurrence of endophytic oviposition and Asteronomus maeandriformis in
Autunia conferta.
"... We re-examined the controversial feeding trace of Asteronomus maeandriformis
[...] Our results unequivocally show that
endophytic feeding behaviour evolved in the holometabolan clade at least by the earliest Permian
and, therefore, more than 40 Ma earlier than hypothesised. The findings reveal complex organism
interactions in late Palaeozoic ecosystems ..."
S. Mazrou and A. Boutaleb (2025):
Reply
to “Comment on: Depositional palaeoenvironments in a tide-influenced delta plain with amphibian
and Cycadophyta remains – the Triassic Zarzaitine Formation (Algerian eastern Sahara) by S.
Mazrou, Y. Lasnami, J. Amer, A. Boutaleb: Geologos 30, 3 (2024): 209–229“. Free access,
Geologos, 31: 83–93. https://doi.org/10.14746/logos.2025.31.1.07.
"... We shall illustrate below that no information, detail or anything else was presented by
Dahoumane et al. concerning the Triassic terrain studied, except for a plate presenting
photographs, interpretations of which are all erroneous. We would have appreciated academic
critique that could have helped us improve our work, instead of wasting our time
responding to false allegations and nonsensical comments ..."
S. Mazrou et al. (2024):
Depositional
palaeoenvironments in a tide-influenced delta plain with amphibian and
Cycadophyta remains – the Triassic Zarzaitine Formation
(Algerian eastern Sahara). In PDF,
Geologos, 30: 209–229. https://doi.org/10.14746/logos.2024.30.3.19. See here
as well.
Note figure 12: Trees in situ within sandstone channel infill.
A. Dahoumane et al. (2025):
Comment
on “Depositional palaeoenvironments in a tide-influenced delta plain with amphibian and
Cycadophyta remains – the Triassic Zarzaitine Formation (Algerian eastern Sahara)” S. Mazrou,
Y. Lasnami, J. Amer, A. Boutaleb (2024): Geologos 30, 3 (2024): 209–229“. Free access,
Geologos, 31: 73–81. https://doi.org/10.14746/logos.2025.31.1.06.
"... Mazrou et al. (2024) fail to integrate previous findings and do not position their work within
a scientific continuum. Their study is marked by methodological shortcomings, weakly supported
interpretations, and fundamental errors in palaeontology, ichnology and facies analysis ..."
!
C.C. Loron et al. (2025):
Prototaxites
was an extinct lineage of multicellular terrestrial eukaryotes
bioRxiv, https://doi.org/10.1101/2025.03.14.643340.
"... We report that Prototaxites taiti was the largest organism in the Rhynie ecosystem
and its anatomy was fundamentally distinct from all known extant or extinct fungi. Furthermore,
our molecular composition analysis indicates that cell walls of P. taiti include aliphatic,
aromatic, and phenolic components most similar to fossilisation products of lignin, but no
fossilisation products characteristic of chitin or chitosan, which are diagnostic of all
groups of extant and extinct fungi
[...] Prototaxites was not a fungus ..."
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