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9. From Naples 1963 to Rome 2013 — A brief review of how the International Research Group on Ostracoda (IRGO) developed as a social communication system

Author

Danielopol, Dan L., Baltanás, Angel, Carbonel, Pierre, Colin, Jean-Paul, Crasquin, Sylvie, Decrouy, Laurent, De Deckker, Patrick, Gliozzi, Elsa, Groos-Uffenorde, Helga, Horne, David J., Iepure, Sanda, Keyser, Dietmar, Kornicker, Louis S., Lord, Alan, Martens, Koen, Matzke-Karasz, Renate, Giles Miller, C., Oertli, Henri J., Pugliese, Nevio, Russo, Antonio, Sames, Benjamin, Schön, Isa, Siveter, David J., Smith, Alison, Viehberg, Finn A., Wouters, Karel, and Yassini, Iradj

Published
2015
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42. Mid-Cretaceous coastal amber forest palaeoenvironment revealed by exceptionally preserved ostracods from an extant lineage.

Author

He Wang, Matzke-Karasz, Renate, and Horne, David J.

Subjects
*COASTAL forests, *GENITALIA, *AQUATIC animals, *FOSSIL collection, *MESOZOIC Era, *DINOSAURS
Abstract

As a famous fossil Lagerstätte, the mid-Cretaceous (ca. 100 Ma) amber from Kachin, northern Myanmar, harbors one of the most diverse Mesozoic palaeobiotas yet discovered. Over the past few years, reports of organisms trapped in Kachin amber have increased exponentially. Ostracods, as fully aquatic animals, are so far represented in Kachin amber by two records of specimens without soft parts (1 valve and two carapaces) as well as an exceptional assemblage with well-preserved soft parts comprising 39 specimens of three species assigned to the families Candonidae and Loxoconchidae. Since the last-mentioned focused on the exceptional preservation of giant sperm and reproductive organs in only one species, we here present in-depth morphological descriptions of all three species including a new genus: Myanmarcypris hui Wang et al., 2020, Electrocypria burmitei gen. et sp. nov., and Sanyuania sp. We further describe taphonomic traits indicating that the studied ostracods were quickly surrounded by resin and instantly immobilized. The palaeoenvironment is considered to be a vegetated brackish (mesohaline-oligohaline) lagoon. [ABSTRACT FROM AUTHOR]

Published
2022
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45. Palaeoenvironments during MIS 3 and MIS 2 inferred from lacustrine intercalations in the loess–palaeosol sequence at Bobingen (southern Germany)

Author

Mayr, Christoph, primary, Matzke-Karasz, Renate, additional, Stojakowits, Philipp, additional, Lowick, Sally E., additional, Zolitschka, Bernd, additional, Heigl, Tanja, additional, Mollath, Richard, additional, Theuerkauf, Marian, additional, Weckend, Marc-Oliver, additional, Bäumler, Rupert, additional, and Gregor, Hans-Joachim, additional

Published
2017
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47. Exceptional preservation of reproductive organs and giant sperm in Cretaceous ostracods.

Author

He Wang, Matzke-Karasz, Renate, Horne, David J., Xiangdong Zhao, Meizhen Cao, Haichun Zhang, and Bo Wang

Subjects
GENITALIA, SPERMATOZOA, FOSSIL animals, SPERMATHECA, SPERM competition, FOSSILS, FEMALE reproductive organs, PENIS
Abstract

The bivalved crustacean ostracods have the richest fossil record of any arthropod group and display complex reproductive strategies contributing to their evolutionary success. Sexual reproduction involving giant sperm, shared by three superfamilies of living ostracod crustaceans, is among the most fascinating behaviours. However, the origin and evolution of this reproductive mechanism has remained largely unexplored because fossil preservation of such features is extremely rare. Here, we report exceptionally preserved ostracods with soft parts (appendages and reproductive organs) in a single piece of mid-Cretaceous Kachin amber (approximately 100 Myr old). The ostracod assemblage is composed of 39 individuals. Thirty-one individuals belong to a new species and genus, Myanmarcypris hui gen. et sp. nov., exhibiting an ontogenetic sequence from juveniles to adults (male and female). Seven individuals are assigned to Thalassocypria sp. (Cypridoidea, Candonidae, Paracypridinae) and one to Sanyuania sp. (Cytheroidea, Loxoconchidae). Our micro-CT reconstruction provides direct evidence of the male clasper, sperm pumps (Zenker organs), hemipenes, eggs and female seminal receptacles with giant sperm. Our results reveal that the reproduction behavioural repertoire, which is associated with considerable morphological adaptations, has remained unchanged over at least 100 million years--a paramount example of evolutionary stasis. These results also double the age of the oldest unequivocal fossil animal sperm. This discovery highlights the capacity of amber to document invertebrate soft parts that are rarely recorded by other depositional environments. [ABSTRACT FROM AUTHOR]

Published
2020
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48. Abundant assemblage of Ostracoda (Crustacea) in Mexican Miocene amber sheds light on the evolution of the brackish-water tribe Thalassocypridini.

Author

Matzke-Karasz, Renate, Serrano-Sánchez, María de Lourdes, Pérez, Liseth, Keyser, Dietmar, Pipík, Radovan, and Vega, Francisco J.

Subjects
*OSTRACODA, *AMBER inclusions, *INSECT larvae, *ARTHROPODA, *TAPHONOMY
Abstract

Amber inclusions of fully aquatic animals are rare, most of them isolated specimens of water-bound insect larvae. In contrast, we here describe an ample, speciose fauna of 262 fully aquatic individuals of Ostracoda (Crustacea) from Mexican amber of Early Miocene age. This fauna was trapped whilst under water swimming around trunks of resin-producing trees in a brackish lagoon. Ostracod crustaceans are typically around a millimeter in length, and are known for their mostly well-calcified bivalved carapaces that account for their unparalleled fossil record in arthropods. However, in the Chiapas amber we found representatives of the tribe Thalassocypridini, which are characterised by lightly calcified carapaces and therefore lack a substantial fossil record. Embedded in amber, this 'drawback' becomes a clear benefit because the unobstructed view onto the appendages otherwise hidden in the carapace allowed us to identify nine ostracod species, six of them new to science. The exceptional number of individuals permitted insights into population composition, reproduction, taphonomy and into micro-environmental parameters of the amber's place of formation. Based on ecological data available for Recent Thalassocypridini species, we posit that this tribe reached a peak radiation in open lagoonal settings during the Miocene, and shifted towards anchialine environments by the Recent. http://zoobank.org/lsid:zoobank.org:pub:3C93A06B-F86B-404F-985D-139897F97EF3 [ABSTRACT FROM AUTHOR]

Published
2019
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49. Tanycypris pellucida

Author

Nagler, Christina, Geist, Juergen, and Matzke-Karasz, Renate

Subjects
Tanycypris, Podocopida, Tanycypris pellucida, Arthropoda, Ostracoda, Animalia, Biodiversity, Cyprididae, Taxonomy
Abstract

Tanycypris pellucida (Klie, 1932) (Figs 5B, 6B, 6G, 7D, 9) v * 1932 Dolerocypris pellucida Klie: 482–483, figs 63–65. 1947 Dolerocypris pellucida — Bronshtein: 165, fig. 58, 1–2. 1964 Dolerocypris pellucida — Petkovski: 166, figs 51–52. partim 1972 Strandesia camaguinensis (Tressler) —Okubo: 10, fig. 1 d–r. v 1981 Strandesia camaguinensis (Tressler) —Victor & Fernando: 114–116. 1981 Tanycypris pellucida — Victor & Fernando: 114–116. 1984 Tanycypris pellucida — Broodbakker: 16, 18, 21–23. 2004 Strandesia camaguinensis (Tressler) —Okubo: 57, fig. 18a,b,l-n. Diagnosis. L = 1.36–1.46 mm, H = 0.53–0.63 mm, W = 0.34–0.42 mm; greatest width in anterior to the middle. Carapace in dorsal view lanceolate, in lateral view elongated. Valves transparent, thin, indistinctly pigmented, yellowish-green. Posterior area with roof-tile like structure (Fig. 9A). Dorsal margin almost straight, ventral margin slightly concave. Inner lamella in anterior and posterior region wide (Fig. 9B). Anterior and posterior margin rounded. A1 with Wouters organ, with a dorsal subapical seta on the first segment of A1 and with Rome organ on the third segment of A1 (Fig. 5B). T1 with two a-setae, two b-setae, c-seta and d-seta (Fig. 6G, 9C). T2 with longer d1 than d2. CR (Fig. 6B). CR attachment relatively thin, slightly curved with a long, strong db and a short, stout, curved vb (Fig. 7D) (Klie 1932; Tressler 1937; Bronshtein 1947; Petkovski 1964; Okubo 1972; Victor & Fernando 1981; Broodbakker 1984). History. Klie (1932) described Dolerocypris pellucida and deposited the material (No. CR—1071) in the collection of the ZMK. Bronshtein (1947) found D. pellucida in samples from rice-fields of Chuppanata (Kazakhstan) and referred to the description of Klie (1932). Petkovski (1964) reported D. pellucida from rice-fields in Macedonia. Victor & Fernando (1981) synonymized Dolerocypris pellucida (Klie, 1932) with Strandesia camaguinensis (Tressler, 1937) and Strandesia camaguinensis sensu Okubo 1972. They transferred Dolerocypris pellucida to Tanycypris —a view that was followed by Broodbakker (1984). Tressler (1937) described Strandesia camaguinensis based on material from a ditch in Camaguin Island and deposited the holotype (No. 71512) in the NMNH; however, the valve characters cannot be reliably studied because the valves have been embedded together with the dissected appendages. The valves are therefore compressed and partly broken. Okubo’s (1972) Strandesia camaguinensis from Okayama is dubious. The valves in Okubo (1972: fig. 1a–c) show a much higher congruence with those of T. siamensis Savatenalinton & Martens (Savatenalinton & Martens 2009a: fig. 8A) than with Tressler’s drawings of Strandesia camaguinensis (= Tanycypris pellucida Klie 1932). On the other hand, the appendages in Okubo (1972) seem to originate from Strandesia camaguinensis (diagram and description of the CR and the CR attachment). Possibly, Okubo illustrated the valves from material he found in Okayama (= Tanycypris siamensis) and the appendages of Strandesia camaguinensis (= Tanycypris pellucida). Chang et al. (2012), already considered the valves Okubo illustrated to belong to T. siamensis rather than to T. pellucida (“Okubo’s [species] more closely resemble T. siamensis rather than Klie’s original description of T. pellucida, which has much narrower calcified inner lamellae" (Chang et al. 2012: 8)). The view of Chang et al. (2012) is fully supported by our study. Similar species. Tanycypris pellucida can be mistaken for T. alfonsi n. sp. and for T. siamensis (see T. alfonsi n. sp.). Tanycypris pellucida differs from T. siamensis in the presence of two b-setae, and one c-seta on T1 (one bseta, no c-seta in T. siamensis) and in the presence of a dorsal subapical seta on the first segment of A1 (absent in T. siamensis). Remarks. After re-examination of the holotypes of Tanycypris pellucida and Strandesia camaguinensis, we agree with Victor & Fernando (1981) that Strandesia camaguinensis Tressler, 1937 is a junior synonym of Tanycypris pellucida (Klie, 1932)., Published as part of Nagler, Christina, Geist, Juergen & Matzke-Karasz, Renate, 2014, Revision of the genus Tanycypris (Ostracoda, Cypricercinae) with the description of Tanycypris alfonsi n. sp., and an identification key to the genus, pp. 401-424 in Zootaxa 3821 (4) on pages 413-415, DOI: 10.11646/zootaxa.3821.4.1, http://zenodo.org/record/4920148, {"references":["Klie, W. (1932) Die Ostracoden der deutschen Limnologischen Sunda-Expedition. Archiv fur Hydrobiologie, 11, 447 - 502.","Tressler, W. L. (1937) Ostracoda. (Mitteilung 18 von der Wallacea-Expedition Woltereck 1932 - 32) Internationale Revue der gesamten Hydrobiologie und Hydrographie, 34, 188 - 207. http: // dx. doi. org / 10.1002 / iroh. 19370340112","Bronshtein, Z. S. (1947) Fresh-water Ostracoda. Fauna of the USSR Crustaceans, Vol. II, Academy of Sciences of the USSR Publishers, Moscow. [translated from Russian for the United States Department of the Interior and the National Science Foundation, Washington D. C., Amerind Publishing, New Delhi, 1988, pp. 470.]","Petkovski, T. K. (1964) Bemerkenswerte Entomostraken aus Jugoslawien. ActaMusei Macedonici Scientiarum Naturalium, 7, 144 - 182.","Okubo, I. (1972) Strandesia camaguinensis Tressler, 1937, from Japan (Ostracoda, Cyprididae). Proceeding of the Japanese Society of Systematic Zoology, 8, 8 - 14.","Victor, R. & Fernando, C. H. (1981) Freshwater ostracods (Crustacea: Ostracoda) of the subfamily Dolerocypridinae Triebel, 1961 from Southeast Asia. Zoological Journal of the Linnean Society, 72, 107 - 116. http: // dx. doi. org / 10.1111 / j. 1096 - 3642.1981. tb 01654. x","Broodbakker, N. W. (1984) The genus Tanycypris (Crustacea, Ostracoda) in the West Indies. Bijdragen tot de Dierkunde, 54, 15 - 24.","Savatenalinton, S. & Martens, K. (2009 a) Generic revision of Cypricercinae McKenzie, 1971 (Crustacea, Ostracoda) with the description of three new genera and one new species and a phylogenetic analysis of the subfamily. Hydrobiologia, 632, 1 - 48. http: // dx. doi. org / 10.1007 / s 10750 - 009 - 9826 - 5","Chang, C. Y., Lee, J. & Smith, R. J. (2012) Nonmarine ostracods (crustacea) from South Korea, including a description of a new species of Tanycypris Triebel (Cyprididae, Cypricercinae). Zootaxa, 3161, 1 - 19."]}

Published
2014
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50. Dolerocypris marina

Author

Nagler, Christina, Geist, Juergen, and Matzke-Karasz, Renate

Subjects
Podocopida, Dolerocypris, Arthropoda, Ostracoda, Animalia, Dolerocypris marina, Biodiversity, Cyprididae, Taxonomy
Abstract

Dolerocypris marina (Hartmann, 1965) * 1965 Dolerocypris marina Hartmann: 336–338, figs 52–55. 1969 Tanycypris marina —Petkovski in Rome: 192. 2011 Tanycypris marina —Savatenalinton & Martens: 5, 76. Diagnosis. L = 1.02–1.03 mm, H = 0.34 mm. Carapace in lateral view elongated. Surface of the valves smooth. Dorsal margin almost straight. Ventral margin slightly curved. T3 without pincer organ, the subterminal segment undivided. CR long, stout with fine setules on the dorsal margin. Males unknown (Hartmann 1965). History. Hartmann (1965) was uncertain about this species. He assigned it to Dolerocypris, because he could not find characteristics differing from the generic diagnosis of Dolerocypris. Petkovski, in the discussion following Rome's talk during the 2nd International Symposium on Ostracoda (discussion published in Rome 1969), advanced the position that D. marina belonged to Tanycypris. Martens & Savatenalinton (2011) followed this view without further comment. Conclusion. The holotype (ZMH, No. 27603) seems to be lost. No specimens of the type series or any other specimens could be traced, so that currently the generic status of this species cannot be verified., Published as part of Nagler, Christina, Geist, Juergen & Matzke-Karasz, Renate, 2014, Revision of the genus Tanycypris (Ostracoda, Cypricercinae) with the description of Tanycypris alfonsi n. sp., and an identification key to the genus, pp. 401-424 in Zootaxa 3821 (4) on page 421, DOI: 10.11646/zootaxa.3821.4.1, http://zenodo.org/record/4920148, {"references":["Hartmann, G. (1965) Ostracoden des Sublitorals. In: Hartmann-Schroder, G. & Hartmann, G. (Eds.), Zur Kenntnis des Sublitorals der chilenischen Kuste unter besonderer Berucksichtigung der Polychaeten und Ostracoden. Mitteilungen des Zoologischen Museums, Hamburg, 62, 336 - 338.","Rome, D. R. (1969) Morphologie de l'attache de la furca chez les Cyprididae et son utilisation en systematique. In: Neale, J. W. (Eds.), The taxonomy, morphology and ecology of recent Ostracoda. Oliver & Boyd, Edinburgh, 168 - 193.","Martens, K. & Savatenalinton, S. (2011) A subjective checklist of the Recent, free-living, non-marine Ostracoda (Crustacea). Zootaxa, 2855, 1 - 79."]}

Published
2014
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