identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
03ACC15FAB373B25FF12F8CA0C37FDC0.text	03ACC15FAB373B25FF12F8CA0C37FDC0.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Laffonia Heer 1877	<div><p>Ichnogenus Laffonia Heer, 1877 (= Pseudocaudina Broili, 1926)</p><p>Diagnosis. A fusiform egg capsule with an elongated pedicle. Te capsule is divided into dorsal and ventral sides by narrow lateral striated flanges. Te dorsal and lateral surfaces of the body are ornamented with possibly up to nine longitudinal ribs.</p><p>Occurrence. Most likely upper Oxfordian, Late Jurassic. Te specimen was most likely from the Küssaberg Member of the Villigen Formation, Bimammatum zone.</p><p>Holotype. PIMUZ 5272, a three-dimensional and incomplete internal mould preserved in a yellowish white limestone, missing the inferred anterior end of the beak and the distal end of the pedicle.</p><p>Other material. Pseudocaudina (see the holotype in Broili, 1926 and specimen JME SOS 4372 in Reich, 2015) .</p><p>Remarks</p><p>Laffonia Heer, 1877, highly resembles Pseudocaudina Broili, 1926, in having a fusiform body that is ornamented with several longitudinal ribs, although the latter is intensely compacted into a flat impression (Broili, 1926). In both taxa, the inferred posterior body end tapers to a narrow tail-like appendage (i.e. pedicle), while the anterior end of the capsule is broken. Pseudocaudina was found with half a dozen specimens (Reich, 2015) in Tithonian platy limestones (lithographic limestone) of the Upper Jurassic (Broili, 1926) of the Langenaltheim, Eichstätt and Solnhofen region. Tus, it is slightly younger than the only known Laffonia specimen. Considering the similarities in body shape, size, and morphological characters (e.g. longitudinal ribs), the small age difference (less than 10 My) and geographical proximity to each other, identifying Pseudocaudina as a junior synonym for Laffonia (Reich, 2015; Ziegler, 1991) is justified.</p></div>	https://treatment.plazi.org/id/03ACC15FAB373B25FF12F8CA0C37FDC0	Public Domain	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.		Plazi	Zhao, Yang;Bestwick, Jordan;Fischer, Jan;Bastiaans, Dylan;Greif, Merle;Klug, Christian	Zhao, Yang, Bestwick, Jordan, Fischer, Jan, Bastiaans, Dylan, Greif, Merle, Klug, Christian (2025): The first record of a shortnose chimaera-like egg capsule from the Mesozoic (Late Jurassic, Switzerland). Swiss Journal of Palaeontology (8) 144 (1): 1-13, DOI: 10.1186/s13358-025-00352-x, URL: https://doi.org/10.1186/s13358-025-00352-x
03ACC15FAB363B25FF12FD580A38FB80.text	03ACC15FAB363B25FF12FD580A38FB80.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Laffonia helvetica Heer 1877	<div><p>Laffonia helvetica Heer, 1877</p><p>(Figs. 3, 4; see also the surface scan data on Sketchfab)</p><p>Description</p><p>Te specimen exhibits a three-dimensionally preserved fusiform capsule (Fig. 3A–C). It measures round to 108 mm in length, 41 mm in width across the middle of the inferred dorsal surface, and 7 mm in maximum height in the lateral body surface. Te central body is about 67 mm long and 35 mm wide. It tapers distally with the inferred anterior end slightly wider than the posterior. Te anterior end of the body is truncated and not preserved, and the body surface herein is slightly folded inwards (Figs. 3A and 4A), while the posterior extends outwards forming a long, narrow appendage, i.e. the pedicle (Figs. 3A, B and 4B). Te preserved part of the pedicle is straight and gradually flattens and fades into the rock without a clear end (Figs. 3A, 4B). Te width of the distal-most preserved edge of the pedicle is 7 mm and the length of the pedicle is around 40 mm.</p><p>Te body surface is ornamented with at least seven distinctive longitudinal ribs (Figs. 3A, B, 4A, B) that are interrupted at the broken anterior end but continue along the pedicle until its preserved distal-most edge. Tree ribs are evenly distributed on the dorsal surface (Fig. 3A, D), and the distance between the ribs on the middle region is about 11 mm. Tree ribs are arranged densely on the inferred left lateral surface (Fig. 3B, E), with interval distance being 3–4 mm. No longitudinal ribs are identified on the ventral surface, which is largely obscured by the matrix (Fig. 3C, F). Te right lateral surface is only partially exposed at the anterior end of the body, which is apparently compacted into a flat plane (Fig. 3A). Numerous fine oblique lines that are arranged longitudinally are visible between two ribs on the lower middle of the left lateral surface (Fig. 3B, E), but no such lines are observed on the dorsal surface.</p><p>A narrow band of about 5 mm wide and at least 45 mm long extends along the right edge of the central body</p><p>(Figs. 3A, D and 4C). It is interrupted at the upper lateral side of the pedicle, and the same band continues along the lower lateral side of the pedicle (Figs. 3A, D and 4B). Te narrow band contains dense transverse striations and exhibits a prominent longitudinal ridge along the midline of the band (Fig. 4C–E). Another such narrow band is also visible at the left edge of the capsule, which extends along the entire length of the pedicle, but it is interrupted at the lower left side of the body and is slightly bent towards the ventral side (Figs. 3A, B, D, E and 4B). Te narrow bands are here interpreted as flanges. Overall, it is likely that the flange was present in life along the entire lateral body edges.</p><p>Phylogenetic results</p><p>Te consensus tree places Laffonia in a clade consisting of Crookallia, Vetacapsula, and recent chimaerid egg capsules, and the latter two branches form a sister group</p><p>(Fig. 5). Tis group is supported by bootstrap and jackknife values of 60% and 64%, respectively. Recent elasmobranch egg capsules and the fossil capsules Palaeoxyris, Fayolia, Scyliorhinotheca and Rajitheca are resolved as a clade as well, with Palaeoxyris and Fayolia at the most basal position of this clade (Fig. 5). Tese two clades are placed in a polytomy with rhinochimaerid and callorhinchid egg capsules and Vaillantoonia (Fig. 5).</p></div>	https://treatment.plazi.org/id/03ACC15FAB363B25FF12FD580A38FB80	Public Domain	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.		Plazi	Zhao, Yang;Bestwick, Jordan;Fischer, Jan;Bastiaans, Dylan;Greif, Merle;Klug, Christian	Zhao, Yang, Bestwick, Jordan, Fischer, Jan, Bastiaans, Dylan, Greif, Merle, Klug, Christian (2025): The first record of a shortnose chimaera-like egg capsule from the Mesozoic (Late Jurassic, Switzerland). Swiss Journal of Palaeontology (8) 144 (1): 1-13, DOI: 10.1186/s13358-025-00352-x, URL: https://doi.org/10.1186/s13358-025-00352-x
03ACC15FAB363B20FCA8FBBE0E18FBC0.text	03ACC15FAB363B20FCA8FBBE0E18FBC0.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Laffonia Heer 1877	<div><p>Laffonia is neither a ctenophore, an actinarian nor a holothurian</p><p>Te affinity of Laffonia has never been clarified unequivocally since its discovery (Heer, 1877; Reich, 2015; Ziegler, 1991). Laffonia and its probable junior synonym Pseudocaudina were described as morphologically resembling extant diploblastic animals including ctenophores (comb jelly) and anthozoans (sea anemones). Laffonia was most recently regarded as the closest to the Beroida, a ctenophore group that lacks a pair of tentacles (Ziegler, 1991). Te presumed similarity is based mainly on the presence of striated bands in Laffonia, which supposedly are reminiscent of the ciliabearing comb rows in extant ctenophores (Ziegler, 1991). However, the identification of comb rows in Laffonia is only tentative at best (Conway Morris &amp; Collins, 1996). Ctenophore comb rows are composed of numerous independent ctenes that are serially arranged on the external body surface along an oral-aboral axis and each ctene includes a basal cushion plate that carries numerous macrocilia used for swimming (Tamm, 2014). Te striated bands of Laffonia are only visible along the inferred lateral edges of the capsule, indicating they are apparently restricted to this region. Te transverse striations are densely arranged along the band with no distinctly raised bars (Fig. 4D, E), which is inconsistent with the cushion plates of extant ctenophores or the cushion-like structures in well-preserved ctenophore fossils (Conway Morris &amp; Collins, 1996; Ou et al., 2015; Parry et al., 2021; Stanley &amp; Stürmer, 1983, 1987; Zhao et al., 2019). In addition, Pseudocaudina was once compared to an actinarian based on potential similarities in the column-like body (Heding, 1932). However, the presence of lateral striated bands and the lack of reliable anthozoan characters such as mesentery, pedal disc, and circumoral tentacles in Laffonia and Pseudocaudina make this inference suspect.</p><p>Pseudocaudina was initially interpreted as a holothurian (Broili, 1926). Te transverse striations visible at the inferred anterior end of Pseudocaudina were interpreted as the transverse muscles that presumably surround the body with no interruption at the inferred ambulacra, which is a typical characteristic of synaptid holothuroids ( Synaptidae) (Broili, 1926). While a holothurian identification was subsequently cited several times following its description (Croneis &amp; McCormack, 1932; Frizzell &amp; Exline, 1966), this assignment was nevertheless still disputed (Heding, 1932; Hess, 1973; Reich, 2015; Smirnov, 2012; Ziegler, 1991). Te suggested muscle system in Pseudocaudina is questionable for several reasons. Te appearance of this system was likely created by the compression of its dorsal and ventral sides during fossilisation and is inconsistent with the preservation in the three-dimensionally preserved Laffonia (Ziegler, 1991) . Neither Pseudocaudina nor Laffonia exhibit other diagnostic traits of holothurians such as a perioral ring of calcareous sclerites at their anterior ends, sclerites in their dermis, and radially arranged ambulacra (Reich, 2015). Laffonia and Pseudocaudina can therefore not be assigned to holothurians.</p></div>	https://treatment.plazi.org/id/03ACC15FAB363B20FCA8FBBE0E18FBC0	Public Domain	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.		Plazi	Zhao, Yang;Bestwick, Jordan;Fischer, Jan;Bastiaans, Dylan;Greif, Merle;Klug, Christian	Zhao, Yang, Bestwick, Jordan, Fischer, Jan, Bastiaans, Dylan, Greif, Merle, Klug, Christian (2025): The first record of a shortnose chimaera-like egg capsule from the Mesozoic (Late Jurassic, Switzerland). Swiss Journal of Palaeontology (8) 144 (1): 1-13, DOI: 10.1186/s13358-025-00352-x, URL: https://doi.org/10.1186/s13358-025-00352-x
03ACC15FAB333B2CFF12FB5E0E7DFDE0.text	03ACC15FAB333B2CFF12FB5E0E7DFDE0.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Laffonia (Ziegler 1991)	<div><p>Laffonia as a holocephalan egg capsule</p><p>Laffonia is here identified as having a fusiform ribbed capsule accompanied by two narrow striated flanges laterally, resembling a chondrichthyan egg capsule, as already noted by Heer (1877). At least ten capsule morphotypes are recognized among extant and extinct chondrichthyans, relating to the shape and ornamentation of the capsule, the number and morphology of the anterior and posterior appendages (beaks, horns, pedicles etc.) and the size and arrangement of the flange (lateral, spiral etc.; Fischer et al., 2014; Mancusi et al., 2021). Laffonia lacks the spirally twisted flanges typical of Palaeoxyris and Fayolia, two morphotypes (named after the respective genera) known only from the fossil record, with their producers most likely being extinct hybodontiform and xenacanthiform sharks, respectively (Fischer &amp; Kogan, 2008; Fischer et al., 2011, 2014). Te lack of spiral flanges also differs from extant heterodontid shark capsules (Fischer et al., 2014). Te single elongated pedicle of Laffonia greatly differs from the pair of curved horns exhibited by egg capsules from extant and extinct batoids (rays), orectolobiformes (carpet sharks), and scyliorhinids (catsharks), and these three groups often exhibit extremely reduced flanges that are much narrower than that of Laffonia . (Caruso &amp; Bor, 2007; Concha et al., 2010; Fischer et al., 2014; Kiel et al., 2011; Mancusi et al., 2021; Steininger, 1966; Treloar et al., 2006). Te morphology of Laffonia is therefore inconsistent with all currently recognised elasmobranch capsule morphotypes (Ziegler, 1991) and the specimen is thus unlikely to have been produced by an elasmobranch.</p><p>In contrast to elasmobranch capsules, holocephalan capsule morphotypes exhibit relatively constrained morphologies from both extant and extinct taxa from across all three modern chimaeroid families (Fig. 6; Dean, 1906; Didier, 1995; Fischer et al., 2014). Tis morphotype is typically characterised by a fusiform capsule with a beak and pedicle that is all surrounded by laterally striated flanges that often vary in size between taxa (Fig. 6; Dean, 1906; Fischer et al., 2014). Comparable features between Laffonia, Pseudocaudina and the recent holocephalan morphotype include a fusiform capsule, pedicle and lateral flanges, although the incomplete preservation of the studied specimen prevents comparisons of a potential beak. More specifically, Laffonia exhibits several similarities to extant chimaerid capsules such as narrow lateral flanges, ribbed capsule surface and fine oblique lines like that of Hydrolagus (Fig. 6C–E; Dean, 1903). However, the flanges of Laffonia appear to be of equal size along the entire length of the capsule edges and possess a prominent longitudinal ridge. In contrast, the flanges of extant chimaerid capsules are relatively broad along the edges of the anterior and posterior capsule and reduce at the central body sides, with no obvious ridge (Fig. 6C–E; Dean, 1906; Mancusi et al., 2021). In addition, the at least seven longitudinal ribs that Laffonia exhibits on its inferred dorsal and lateral surfaces are not observed in recent holocephalan capsules (Fig. 6; Berio et al., 2024; Dean, 1906; Mancusi et al., 2021). Tis body ornamentation is more similar to that of the two Lower Pennsylvanian capsules, Vetacapsula and Crookallia, both of which are phylogenetically recovered as most closely related to chimaerid holocephalan morphotype (Fischer et al., 2014). Both taxa have ribbed capsules that are suggested to possess two narrow lateral flanges, although such flanges have not yet been documented in Vetacapsula (Fig. 2; Fischer &amp; Kogan, 2008; Mottequin et al., 2022). However, the number of longitudinal ribs on the capsule surface is different among these three taxa, with over twenty ribs suggested in Vetacapsula (Crookall, 1928; Fischer &amp; Kogan, 2008) and between eight and twenty in Crookallia (Mottequin et al., 2022). Laffonia and Crookallia lack a prominent middle ridge (dorsal keel) that is obvious in Vetacapsula and extant chimaerid capsules (Figs. 2, 6C– E; Fischer et al., 2014). A pedicle length exceeding body length is known from Vetacapsula, Crookallia and recent holocephalan capsules, but the incomplete preservation of the Laffonia pedicle prevents us from determining whether the Jurassic fossil shared this trait. In contrast to the Pennsylvanian fossil and modern chimaerid capsules, Laffonia possesses a larger central body and its body length–width ratio is closer to that of recent rhinochimaerid capsules than to any other holocephalan group (Table 1).</p><p>Te morphological similarities between Laffonia, the Pennsylvanian fossil capsules and modern chimaerid capsules are supported by our phylogenetic analysis (Fig. 5). Te unresolved polytomy relationships are likely due to the low number of characters and the incomplete preservation of the Laffonia capsule. Discovering additional material in the future may help to further clarify the phylogenetic position of Laffonia .</p><p>Evolutionary significance</p><p>Crookallia and Vetacapsula from the Carboniferous (Pennsylvanian) supposedly represent the oldest records of capsules that were produced by holocephalans (Fischer et al., 2014; Mottequin et al., 2022), although there is a possibility that fossil capsules from the Middle or Late Devonian (Carr &amp; Jackson, 2018; Chaloner et al., 1980) that have been regarded as placoderms could actually be from holocephalans (Fischer et al., 2014). However, the absence of transitional forms in both morphological and stratigraphical contexts makes these assignments tentative. Te most definite holocephalan capsules are known from the Late Triassic of New Zealand (Gottfried &amp; Fordyce, 2015) and Yakutia, Russia (Vozin, 1968), while most fossil capsules stem from the Jurassic and Cretaceous and few remains from the Paleogene (Fig. 7; Brown, 1946; Warren, 1948; Obruchev, 1967; Harrison et al., 2021; Duffin et al., 2022; Kiel et al., 2024; Johns et al., in press). Nevertheless, all currently known Mesozoic fossil capsules exhibit fusiform bodies with broad lateral flanges that greatly resemble either modern callorhinchid or rhinochimaerid capsules (Brown, 1946; Duffin et al., 2022; Gottfried &amp; Fordyce, 2015; Harrison et al., 2021; Obruchev, 1967; Stahl, 1999; Vozin, 1968; Warren, 1948). Until now, 12 recognised species have been assigned to the ichnogenus Vaillantoonia Meunier, 1891, previously used under the generic name Chimaerotheca Brown, 1946 (Kiel et al., 2024), given that the convergence of capsule morphologies and the uncertainty of producers make it difficult to confidently assign them into specific extant genera, although such attempts were proposed in several studies (Obruchev, 1967; Stahl, 1999; Vozin, 1968). In contrast, no fossil capsule that possesses morphological features similar to either chimaerid capsules or Carboniferous taxa has been found in the Mesozoic, resulting in a long and uncertain ghost lineage (Fischer et al., 2014), although potential chimaerid body fossils go back at least to the Cretaceous (Duffin, 2001).</p><p>All measurements rounded to the nearest mm. All ratios to 3 s.f</p><p>Nr.:specimen collection number;L:capsule body length;W:capsule body width;L/W:length–width ratio.</p><p>a LF 703 and LF 5339 are the part and counterpart of the same specimen,respectively</p><p>Laffonia and Pseudocaudina represent the first example of a chimaerid-like capsule from the Mesozoic, increasing the morphological diversity of known Mesozoic egg capsule morphotypes (Fig. 7). Te reassignment of Laffonia not only supports the hypothesis that Vetacapsula and Crookallia were produced by holocephalans instead of elasmobranchs (Fischer et al., 2014), but that Laffonia most likely represents a transitional form between known Carboniferous morphotypes and extant chimaerid capsules. Te capsule surfaces in Laffonia, Crookallia and Vetacapsula are all ornamented with several longitudinal ribs, indicating a ribbed capsule surface that likely represents an ancestral state of the total-group chimaerid egg capsules. Compared to the Carboniferous taxa, the number of longitudinal ribs has been reduced in Jurassic Laffonia, and only one prominent dorsal middle ridge is retained in extant chimaerid capsules. However, considering a similar middle ridge is possibly present in Vetacapsula, it is uncertain whether the prominent middle ridge is a plesiomorphic or a derived feature from the longitudinal ribs until more chimaerid fossil capsules are revealed. A narrow lateral flange is present both in Crookallia and Laffonia . However, the flange surface is likely smooth in Crookallia while it is striated in Laffonia . Tey are different from the ribbed flange in extant chimaerid capsules, indicating that the modern narrow flange may have appeared even later. More broadly, the morphological differences between fossil and recent capsules also indicate changes in holocephalan body size evolution even in the absence of body fossils. For example, it is reported in modern holocephalans that total capsule length is around one fifth to one quarter the body length of the producer (Dean, 1904, 1905). Assuming similar relationships for extinct taxa, it is reasonable to suggest that Laffonia was produced by a larger individual than the producers of the Carboniferous capsules, indicating an increase in body size of chimaerid-like holocephalans between the Carboniferous and Jurassic. However, the possibility that the Carboniferous capsules were produced by sexually mature, but still skeletally immature individuals cannot be ruled out, nor can the possibility of preservation bias in the Carboniferous in favour of smaller capsules.</p></div>	https://treatment.plazi.org/id/03ACC15FAB333B2CFF12FB5E0E7DFDE0	Public Domain	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.		Plazi	Zhao, Yang;Bestwick, Jordan;Fischer, Jan;Bastiaans, Dylan;Greif, Merle;Klug, Christian	Zhao, Yang, Bestwick, Jordan, Fischer, Jan, Bastiaans, Dylan, Greif, Merle, Klug, Christian (2025): The first record of a shortnose chimaera-like egg capsule from the Mesozoic (Late Jurassic, Switzerland). Swiss Journal of Palaeontology (8) 144 (1): 1-13, DOI: 10.1186/s13358-025-00352-x, URL: https://doi.org/10.1186/s13358-025-00352-x
