#taubertal
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Zombie Reanimation (2009)
#Zombie Reanimation#Jochen Taubert#Thomas Kercmar#zombie movie#horror film#germanhorror#german horror#zombie film#low budget horror#Splatter film#low budget splatter#horror movie#horror comedy#comedy horror#gif#gifs#my gif#my gifs#cult cinema#cult film
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Rise Against - Make It Stop, Live at Taubertal Festival 2024
#rise against#my video from my old cheap phone#taubertal '24 - my stuff#only the beginning because i had other things to do...like freaking out#my rise against concert stuff
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Lou Taubert Ranch Outfitters, Casper, Wyoming https://midwesternartlovertraveler.tumblr.com/
#my own photo#architecture#lou taubert#lou taubert ranch outfitters#casper#casper wyoming#wyoming#usa#united states of america
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Estar a medias no es estar, trate por los dos y no pude más.
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No le he fallado a nadie más que a mí, por solo hacer a los demás feliz.
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Pero si era tan bueno
¿Por qué no duró?
Y si era tan perfecto
¿Por qué se acabó?
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Viendo mi sonrisa en fotos
¿Cómo es que no noto cuándo dejé de sentir?, ah
Sé que no es culpa de nadie, pero mía tampoco
Y ya no quiero estar así
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Zombie Reanimation (2009)
#Zombie Reanimation#Jochen Taubert#Thomas Kercmar#zombie movie#horror film#germanhorror#german horror#zombie film#low budget horror#Splatter film#low budget splatter#horror movie#horror comedy#comedy horror#gif#gifs#my gif#my gifs#cult cinema#cult film
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Waldbaden-Erlebnispfad eröffnet
Der Waldbaden-Erlebnispfad in Assamstadt wurde eröffnet von (von rechts) Geschäftsführer Sven Dell (Tourismusverband „Liebliches Taubertal“), Geschäftsführern Jasmin Schlimm-Thierjung (Deutsche Akademie für Waldbaden und Gesundheit), Landrat Christoph Schauder, Bürgermeister Joachim Döffinger, Walter Frank (Heimat- und Kulturverein Assamstadt), Roland Hartz (Amtsleiter Forst-BW) und Hans-Peter…
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The archeocete Perucetus colossus dives through a coastal bloom of jellyfish in the Pisco Basin (southern Peru), some time during the Eocene (with bonus multiview).
I originally intended to add epibionts to this reconstruction (reflecting the specialized communities found on many living whales, especially baleen whales). Yet, interestingly, it appears that most animal epibionts and ectoparasites of modern cetaceans, such as whale barnacles (Hayashi et al. 2013) and remoras (Friedman et al. 2013), only appeared in the Neogene or late Paleogene, or have a poorly known (co-)evolutionary history, like whale lice (Pfeiffer 2009, Iwasa-Arai & Serejo 2018) and pennellids (large parasitic copepods) (Hermosilla et al. 2015). So, no epibionts* for big lad Perucetus!
References and notes about the reconstruction:
*animal epibionts. Unicellular eukaryotes like diatoms were most likely present on early cetaceans, given their prevalence on modern large marine animals (Ashworth et al. 2022). Of course, it is possible that other animals (i.e., early, less specialized representatives of modern groups, or different taxa altogether) were also already exploiting the surfaces offered by these early whales; however, this remains entirely speculative.
The reconstruction of Perucetus proposed in its original description (Bianucci et al. 2023) includes some rather odd (if interesting) choices about soft tissues, including limbs with webbed and distinguishable fingers, and a manatee-like tail. While these choices might be defendable in light of the rather basal status of Perucetus among cetaceans, I opted for a more derived look based on the assumption that fully marine cetaceans like basilosaurids would have probably rapidly acquired hydrodynamically favorable adaptations, pushing them towards a more familiar Neoceti-like appearance (even though Perucetus itself was likely a poor swimmer (Bianucci et al. 2023), it seems likely to me that this was a secondarily acquired trait, given the less extreme morphology of other basilosaurids).
Reconstruction in the multiview scaled to ~18 m in length after the estimations of Bianucci et al. (2023).
References:
Ashworth, M. P., Majewska, R., Frankovich, T. A., Sullivan, M., Bosak, S., Filek, K., Van de Vijver, B., Arendt, M., Schwenter, J., Nel, R., Robinson, N. J., Gary, M. P., Theriot, E. C., Stacy, N. I., Lam, D. W., Perrault, J. R., Manire, C. A., & Manning, S. R. (2022). Cultivating epizoic diatoms provides insights into the evolution and ecology of both epibionts and hosts. Scientific Reports, 12(1), Article 1. https://doi.org/10.1038/s41598-022-19064-0
Bianucci, G., Lambert, O., Urbina, M., Merella, M., Collareta, A., Bennion, R., Salas-Gismondi, R., Benites-Palomino, A., Post, K., de Muizon, C., Bosio, G., Di Celma, C., Malinverno, E., Pierantoni, P. P., Villa, I. M., & Amson, E. (2023). A heavyweight early whale pushes the boundaries of vertebrate morphology. Nature, 620(7975), Article 7975. https://doi.org/10.1038/s41586-023-06381-1
Friedman, M., Johanson, Z., Harrington, R. C., Near, T. J., & Graham, M. R. (2013). An early fossil remora (Echeneoidea) reveals the evolutionary assembly of the adhesion disc. Proceedings of the Royal Society B: Biological Sciences, 280(1766), 20131200. https://doi.org/10.1098/rspb.2013.1200
Hayashi, R., Chan, B. K. K., Simon-Blecher, N., Watanabe, H., Guy-Haim, T., Yonezawa, T., Levy, Y., Shuto, T., & Achituv, Y. (2013). Phylogenetic position and evolutionary history of the turtle and whale barnacles (Cirripedia: Balanomorpha: Coronuloidea). Molecular Phylogenetics and Evolution, 67(1), 9–14. https://doi.org/10.1016/j.ympev.2012.12.018
Hermosilla, C., Silva, L. M. R., Prieto, R., Kleinertz, S., Taubert, A., & Silva, M. A. (2015). Endo- and ectoparasites of large whales (Cetartiodactyla: Balaenopteridae, Physeteridae): Overcoming difficulties in obtaining appropriate samples by non- and minimally-invasive methods. International Journal for Parasitology: Parasites and Wildlife, 4(3), 414–420. https://doi.org/10.1016/j.ijppaw.2015.11.002
Pfeiffer, C. J. (2009). Whale Lice. In W. F. Perrin, B. Würsig, & J. G. M. Thewissen (Eds.), Encyclopedia of Marine Mammals (Second Edition) (pp. 1220–1223). Academic Press. https://doi.org/10.1016/B978-0-12-373553-9.00279-0
#'a heavyweight early whale pushes the boundaries of...' blablabla you've all read it by now#i have nothing to add#it's fat#look at it#that is all#perucetus#cetacean#mammal#vertebrate#eocene#cenozoic#paleontology#palaeoblr#paleoart#my art
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RIP: The Blue Death-Feigning Beetle
Also known as the desert ironclad beetle, the blue death-feigning beetle (Asbolus verrucosus) is a species of darkling beetle native to the Mojave and Sonoran deserts of the southwestern United States and Northern Mexico. Within this environment, the desert ironclad beetle can often be found near vegetation like sagebrush or palo verde trees, or hiding under fallen logs or rocks. However, it's not uncommon to spot it trundling along out in the open.
While the blue death-feigning beetle's coloring might make it stand out against the dull desert background, it actually serves a useful purpose. The color is a result of a heavy coating of wax that covers the beetle's body; this wax helps reduce evaporation and preserves precious moisture. It also helps that A. verrucosus is a small species, no more than 8–21 mm (0.71–0.83 in), and as they are most active at dawn and dusk they are easy to overlook. Males and females are virtually identical; the most reliable way to tell the difference is by the antennae, as males have long bristles on the underside while females don't.
Despite their small size-- or perhaps because of it-- desert ironclad beetles are a popular snack for many other desert dwellers, including lizards, snakes, birds, small rodents, and foxes. When threatened, blue death-feinging beetles live up to their name: they drop to the ground, roll onto their backs and play dead. This state can last anywhere from a few seconds to 45 minutes. Once the predator is gone, they are able to use their long legs to easily right themselves and continue with their business. Like most other darkling beetles, this species is an omnivorous scavenger, feeding on dead insects, fruits, lichen, and other plant matter.
The desert ironclad beetle can mate year round, given optimal conditions such as good rainfall and plenty to eat, but they're most active during the summer months. Once a male encounters a female, he courts her by 'tickling' her back with his antennae. If she is receptive, the two mate and then part ways. The female digs a burrow and lays a clutch of eggs in moist soil, where they take 2-3 weeks to hatch. Once larvae emerge, they immedietly begin to seek out organic matter to feed on. Over the next several weeks, they can grow from 2-3 mm (0.07-0.11 in) to 50 mm (2 in)! When they get big enough the larvae burrow into rotting wood and pupate for about a month before emerging as adults. Individuals can go on to live for up to 10 years in the wild.
Conservation status: The IUCN has not evaluated the blue death-feigning beetle, but it's believed that populations are currently stable. The species' primary threat is collection for the pet trade.
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Photos
Mason S. via iNaturalist
Bruce D. Taubert
Hartmut Wisch
#blue death-feigning beetle#desert ironclad beetle#Coleoptera#Tenebrionidae#darkling beetles#beetles#insects#arthropods#desert arthropods#north america#southern north america#central america#animal facts#biology#zoology
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🎶✨when u get this, list 5 songs u like to listen to, publish. then, send this ask to 10 of your favourite followers (positivity is cool)🎶✨
Hi luv! Tysm for the ask! sorry it took me so much to answer.
These are some of my favorite songs at the moment:
Don't stop believin' by Journey
Casual by Chappell Roan
I hate it here by Taylor Swift
Be mine by Jimin
¿Cómo pasó? by Ela Taubert
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