Aristospermum huberi E . M . FRIIS , P . R . CRANE et K . R .PEDERSEN, 2022
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publication ID |
https://doi.org/10.37520/fi.2022.016 |
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DOI |
https://doi.org/10.5281/zenodo.13919458 |
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persistent identifier |
https://treatment.plazi.org/id/03FD87F2-FFE6-FFF5-FF1C-FDE6C21AF7BB |
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Felipe (2023-01-10 20:28:08, last updated 2024-11-29 10:30:53) |
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Aristospermum huberi E . M . FRIIS , P . R . CRANE et K . R .PEDERSEN, 2022 |
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Aristospermum huberi E. M. FRIIS, P. R. CRANE et K. R.PEDERSEN, 2022
Text-fig. 19a–c View Text-fig
Description and remarks. Seeds strongly flattened, triangular in outline, about 1.9 mm long and 1.65 mm broad ( Text-fig. 19a View Text-fig ). The seeds are anatropous and bitegmic with an outer integument (testa) consisting of an outer layer (exotesta) of thin-walled cells and an inner layer (endotesta) of crystalliferous cells. The exotesta is typically abraded and preserved only in patches along the margins of the seed where the abraded palisade-shaped cells form an irregular border around the rest of the seed ( Text-fig. 19a View Text-fig ). The endotesta is one cell layer deep and each cell has one, or more rarely two, large crystals, which are seen as one or two angular imprints in the center of the cell ( Text-fig. 19a–c View Text-fig ). The inner integument (tegmen) has two layers of elongated fiber cells that are arranged perpendicular to each other ( Text-fig. 19c View Text-fig ) and an inner layer of small cubic cells. The micropyle is formed from the inner integument. A narrow funicle extends along one margin of the seeds, but it is often only partly preserved ( Text-fig. 19a View Text-fig ).
Affinity and other occurrences. The anatomy of the seed coat of these seeds strongly suggests a relationship to extant Aristolochiaceae , including Aristolochia L., which has very similar triangular and flattened seeds with a bitegmic seed coat. In extant Aristolochiaceae the testa, which forms from the outer integument, consists of an outer layer of thin-walled cells and an inner layer of crystalliferous inner cells. The tegmen, which forms from the inner integument, consists of two layers of fibrous cells that are more or less perpendicular to each other and an inner layer of cubic cells ( Corner 1976). These details of the seed coat are unique for the family ( Corner 1976, González and Rudall 2003) and justify the conclusion of a close relationship between these fossils and extant Aristolochiaceae . However, the combination of features seen in the fossil material, including the course of the raphe, exclude assignment of the fossil seeds to any extant genus of the Aristolochiaceae ( Friis et al. 2022) .
Similar aristolochiaceous seeds are also present in other Early Cretaceous mesofossil floras from Portugal and North America including specimens in which the outer tissues are better preserved. The formal description of the species is based on an assessment of that broader suite of specimens, including the type material from the Buarcos mesofossil flora ( Friis et al. 2022).
Corner, E. J. H. (1976): The Seeds of Dicotyledons. - Cambridge University Press, Cambridge, 312 pp.
Friis, E. M., Crane, P. R., Pedersen, K. R. (2022): Early and mid-Cretaceous Aristolochiaceaous seeds from Portugal and North America. - International Journal of Plant Sciences, 183: 587 - 603. https: // doi. org / 10.1086 / 721259
Gonzalez, F., Rudall, P. J. (2003): Structure and development of the ovule and seed in Aristolochiaceae, with particular reference to Saruma. - Plant Systematics and Evolution, 241: 223 - 244. https: // doi. org / 10.1007 / s 00606 - 003 - 0050 - x
Text-fig. 19. Synchrotron radiation X-ray tomographic microscopy (SRXTM, a–c) of Aristospermum huberi and scanning electron microscope (SEM, d, e) images of Choffaticarpus compactus; Catefica locality, Portugal. a) Volume rendering of strongly flattened, triangular seed with pointed micropylar region; note thin-walled cells of outer integument preserved along the margins of the seed and pitted surface of the crystalliferous inner cells of outer integument where the outer cells are abraded and the narrow, lateral funicle/raphe; b) Volume rendering of seed showing surface of inner integument (endotesta) with cells showing clear imprints of crystals (arrows); c) Longitudinal section (orthoslice yz0241) of seed showing crystalliferous cells of endotesta (white arrows) and the two fiber layers of the tegmen that are perpendicular to each other (inner integument, ii-f, black arrows); d) Fragment of multiparted, apocarpous fruiting structure showing several helically-arranged, laterally flattened, fruitlets; e) Fruitlet in lateral view showing the prominent ventral face with its lateral groove, short attachment scar, and sunken regions of the fruit wall that indicate the probable presence of oil cells. Specimens, Catefica 49-S266049 (a–c), Catefica 49-S172558 (d), Catefica 49-S118675 (e). Scale bars = 300 Μm (a, c–e), 100 Μm (b).
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Royal Botanic Garden Edinburgh |
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Botanische Staatssammlung München |
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Museum National d' Histoire Naturelle, Paris (MNHN) - Vascular Plants |
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Departamento de Geologia, Universidad de Chile |
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Royal Botanic Gardens |
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Harvard University - Arnold Arboretum |
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Harvard University - Arnold Arboretum |
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
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