An Eocene paraclupeid fish (Teleostei, Ellimmichthyiformes) from Bolca, Italy: the youngest marine record of double‐armoured herrings

Abstract A new double‐armoured herring of the clupeomorph order Ellimmichthyiformes, Eoellimmichthys superstes gen. et sp. nov., is described herein based on a single partially complete specimen from the early Eocene Pesciara site of the Bolca Konservat‐Lagerstätte, north‐eastern Italy. The fossil documented herein exhibits a unique combination of features (e.g. ornamentation of the skull bones; medial fusion of the contralateral halves of the neural arches of abdominal vertebrae; teeth on endopterygoid, parhypural fused to the first preural centrum; presence of a short series of 6 (or 7) predorsal scutes increasing in size posteriorly; postpelvic scutes bearing very prominent spines), which clearly supports its recognition as a new genus and species of the family Paraclupeidae. Evidence is provided to show that Eoellimmichthys gen. nov. is most closely related phylogenetically to the Early Cretaceous genus Ellimmichthys. The new taxon described herein represents the youngest marine occurrence of the family Paraclupeidae and, more generally, of the order Ellimmichthyiformes, suggesting that the shallow marine settings of the Tethys might have favoured the persistence of certain fish lineages that were severely affected by the end‐Cretaceous mass extinction.

Abstract: A new double-armoured herring of the clupeomorph order Ellimmichthyiformes, Eoellimmichthys superstes gen. et sp. nov., is described herein based on a single partially complete specimen from the early Eocene Pesciara site of the Bolca Konservat-Lagerst€ atte, north-eastern Italy. The fossil documented herein exhibits a unique combination of features (e.g. ornamentation of the skull bones; medial fusion of the contralateral halves of the neural arches of abdominal vertebrae; teeth on endopterygoid, parhypural fused to the first preural centrum; presence of a short series of 6 (or 7) predorsal scutes increasing in size posteriorly; postpelvic scutes bearing very prominent spines), which clearly supports its recognition as a new genus and species of the family Paraclupeidae. Evidence is provided to show that Eoellimmichthys gen. nov. is most closely related phylogenetically to the Early Cretaceous genus Ellimmichthys. The new taxon described herein represents the youngest marine occurrence of the family Paraclupeidae and, more generally, of the order Ellimmichthyiformes, suggesting that the shallow marine settings of the Tethys might have favoured the persistence of certain fish lineages that were severely affected by the end-Cretaceous mass extinction. D O U B L E -A R M O U R E D herrings of the order Ellimmichthyiformes constitute an extinct clade of clupeomorph fishes characterized by a remarkably wide palaeogeographical and palaeoenvironmental distribution in marine, estuarine and freshwater deposits of Africa, Asia, Europe, and North and South America (see e.g. Grande 1982Grande , 1985Chang & Maisey 2003;Forey et al. 2003 . However, the diversity of this extinct lineage can be easily increased with the revision of a number of species traditionally assigned to the genera 'Clupea' or 'Diplomystus' (Grande 1985). After what is possibly their first appearance in the Early Cretaceous, the Ellimmichthyiformes experienced a proliferation of new anatomies during the Late Cretaceous (mostly Cenomanian; see Forey et al. 2003;Khalloufi et al. 2010) and, probably, the exploitation of new ecological strategies. After the end-Cretaceous mass extinction and until their final extinction in the middle Eocene, the representatives of the Ellimmichthyiformes experienced a drastic drop in their diversity and disparity, with the last Palaeogene taxa being restricted to the freshwaters of North and South America, and China (Grande 1982;Chang & Maisey 2003; Marram a & Carnevale 2017a), providing further support for the hypothesis that continental waters suffered lower proportionate extinctions compared to marine environments (Robertson et al. 2013).
The celebrated upper Ypresian (c. 49 Ma) marine deposits of the Bolca Konservat-Lagerst€ atte have yielded an enormous number of exquisitely preserved fishes that provide clear evidence of the highly successful early Palaeogene fish radiation in the aftermath of the end-Cretaceous extinction (Marram a et al. 2016a, b). Although about 250 species of bony and cartilaginous fishes (e.g. Blot 1987;Blot & Tyler 1990;Bannikov 2004Bannikov , 2006Bannikov , 2008Monsch 2006;Bannikov & Carnevale 2009, 2010Carnevale & Pietsch 2009, 2010, 2011, 2012Carnevale et al. 2014Carnevale et al. , 2017; Marram a & Carnevale 2017b; Marram a et al. 2017a-c) have been described from this locality so far, double-armoured herrings have not previously been reported. On the other hand, clupeomorph fishes are by far the most common group of fishes in this deposit, represented by four taxa belonging to the order Clupeiformes: the sardine Bolcaichthys catopygopterus, the round herring Trollichthys bolcensis, the possible shad Eoalosa janvieri, and the anchovy Eoengraulis fasoloi (Marram a & Carnevale 2015a-b, 2016, 2018. A recent re-examination of the historical material from the Pesciara site has revealed the presence of a new clupeomorph represented by a single specimen whose diagnostic characters unquestionably support its assignment to the order Ellimmichthyiformes, therefore representing the first record of the double-armoured herrings in the Bolca fish assemblage and, at the same time, the youngest occurrence of this clade in a marine palaeobiotope.

GEOLOGICAL SETTING
The specimen described herein comes from the fossiliferous strata of the Pesciara, one of the main productive sites of the Bolca Konservat-Lagerst€ atte, north-eastern Italy (Fig. 1). The calcareous sequence of the Pesciara site has been traditionally referred to as 'Calcari Nummulitici', an informal unit of Eocene age widely distributed in north-eastern Italy (Papazzoni & Trevisani 2006). This succession consists of a cyclic alternation of about 20 m of finely laminated micritic limestones (containing exquisitely well-preserved fishes, plants and invertebrates) and coarse-grained biocalcarenite/biocalcirudite with a rich benthic fauna. Based on their larger benthic foraminiferan content, the fish-bearing limestones of the Pesciara site were referred to the Alveolina dainelli Zone, corresponding to the late Cuisian (late Ypresian, slightly less than 49 Ma; Papazzoni & Trevisani 2006;Papazzoni et al. 2014). The results of a recent quantitative palaeoecological analysis by Marram a et al. (2016c) suggested that the Pesciara fish assemblage was characterized by a sharp oligarchic structure dominated by planktivorous fishes (mostly clupeoids), whereas the sedimentological and taphonomic features concur to suggest that the fossiliferous sediments accumulated in a shallow intraplatform basin in which anoxic conditions and the development of a biofilm at the bottom promoted the high-quality preservation of the fossils (see also Papazzoni & Trevisani 2006).

MATERIAL AND METHOD
The present study is based on a single well-preserved specimen whose preservation quality and slab lithology clearly indicate that it was collected from the Pesciara site. The specimen, MCSNV IG.23695, is currently housed in the Museo Civico di Storia Naturale di Verona, Italy. The fossil was examined using a Leica M80 stereomicroscope equipped with camera lucida drawing arm, and alcohol was used to enhance some details of its skeletal anatomy. UV light was used in an attempt to enhance the visibility of some of the skeletal structures.  (2013) and Vernygora & Murray (2015). The data matrix contains 62 unordered and unweighted characters taken from the above-mentioned cladistic analyses (Marram a et al. 2018a). The characters were imported into Mesquite 3.03 (Maddison & Maddison 2008) and the data for the new taxon were added. The phylogenetic analysis was performed with TNT 1.5 (Goloboff et al. 2008), using the branch-and-bound method with tree bisection reconnection (TBR) algorithm, and collapsing threes after search. Tree length, consistency (CI) and retention (RI) indices were then calculated for the strict consensus tree. Superorder CLUPEOMORPHA Greenwood et al., 1966Order ELLIMMICHTHYIFORMES Grande, 1982Family PARACLUPEIDAE Chang & Chou, 1977 Genus EOELLIMMICHTHYS nov.
Derivation of name. The name is derived from the Greek E os, pertaining to the dawn or sunrise, as well as to the goddess of dawn, corresponding to the Latin Aurora; and Ellimmichthys, indicating a close relationship of this latter genus with the new taxon; hence an 'ellimmichthys-like fish from the Eocene'; gender masculine.
Other species included. Type species only.
Diagnosis. Deep-bodied paraclupeid fish showing the following combination of characters: head large, about 40% SL; maximum body depth about 60% SL; anterior dorsal margin of the body almost straight, forming a marked angle at the dorsal-fin insertion; posttemporal sharp and slender; cleithrum S-shaped; epineurals and epipleurals absent in the caudal region; 31 (12 + 19) preural vertebrae; ten pairs of ribs; about 16 dorsal and 25 anal-fin rays supported by an equal number of pterygiophores; six supraneurals; complete series of 6 (or 7) predorsal scutes; anteriormost scutes small, not significantly broader than long; posteriormost scutes larger and bearing a strong and prominent median posteriorly-directed spine; postdorsal scutes absent; complete series of 12 abdominal scutes (six prepelvic and six postpelvic) bearing a prominent ventral posteriorlydirected spine; abdominal scute wings spine-like, with large spaces between wings of adjacent scutes.
Remarks. The holotype specimen (MCSNV IG.23695) described herein was included in the list of the material studied by Blot (1987, p. 16) in his work devoted to the study of the pycnodontiform fishes from Bolca, and referred to as a small individual of the species Pycnodus platessus. A recent examination of the material formerly reported by Blot (1987) quickly revealed that MCSNV IG.23695 does not show any of the pycnodont diagnostic features; rather it shows several diagnostic characters of the double-armoured herrings that support its attribution to this group of extinct clupeomorph fishes.
Eoellimmichthys superstes sp. nov. Derivation of name. The name is derived from the Latin superstes meaning 'survivor'; in reference to its status as last marine survivor of the ellimmichthyiform clade.

Description
The specimen consists of a small sized fish, measuring about 14 mm SL. However, the considerable degree ossification of the skeleton seems to suggest that the specimen most likely represents a late juvenile or even a subadult individual. The body is laterally compressed, relatively deep, with a prominent and convex abdomen (Fig. 2). The maximum body depth measured at mid-length between the dorsal fin and the posterior border of the neurocranium exceeds the half of SL. The head is large, deep, higher than long; its length is contained about 2.6 times in SL (Fig. 3). The snout is blunt and the mouth is large and terminal. The anterior dorsal margin of the body, from the posterior border of neurocranium to the dorsal-fin origin, is almost straight, forming a marked angle at the dorsal-fin origin. The belly is entirely covered with a complete series of abdominal scutes extending from the isthmus to the anal-fin origin. Both the dorsal-and anal-fin origins are located in the posterior half of the body, whereas the pelvic fins insert anteriorly to the dorsal-fin origin. Squamation is not preserved.
Cranium. The frontals are large, subtriangular and posteriorly expanded, covering about 50% of the length of the skull roof (Fig. 3). The parietals are small, subrectangular in shape and articulate anteriorly with the posterior margin of the frontals. Frontals and parietals appear to be ornamented by strong grooves. Although it is unclear if the parietals are separated from each other by the supraoccipital, it is likely that Eoellimmichthys superstes showed the condition of all ellimmichthyiforms in which the parietals articulate medially with each other (Alvarado-Ortega et al. 2008;Murray & Wilson 2013). The supraoccipital crest is wide and subtriangular in lateral view. A distinct angle formed by the supraoccipital crest and the rest of the skull roof is not present, so that the lateral profile of the cranial roof appears straight from the anterior part of the frontal to the posterior end of the skull. The epioccipital is robust and contacts laterally the supraoccipital and anteriorly the parietal. The morphology of the posttemporal fossa is difficult to determine due to inadequate preservation of the temporal and otic regions of the skull. The orbitosphenoid and pterosphenoid are robust, curved, and form the dorsal and posterior walls of the orbit, respectively. The orbit is large, ovoid in shape and represents about 12% and 30% of SL and head length, respectively. Traces of the eyeball are preserved as a thin carbonaceous film ( The presence of a 'osteoglossoid' tooth patch is unclear. The vomer is not preserved. The mesethmoid is small and seems to articulate anteriorly with the premaxilla. The lateral ethmoid is small and articulates dorsally with the antero-ventral margin of the frontal.
Circumorbital series. The bones of the circumorbital series are inadequately preserved in the available specimen. Infraorbitals and nasals are not recognizable, as are the supraorbitals and the antorbital.
Jaws. The mouth is large and terminal (Figs 2 and 3). Not surprisingly, the specimen shows an extremely gaping mouth, a clear indication of tetany, which is common in fishes from the Pesciara site (Marram a et al. 2016c). The premaxilla is long, narrow and slightly curved. It is considerably shorter than the maxilla and seems to possess a toothed oral margin. The maxilla is very large, elongate and laterally flattened. The maxilla is angled in the middle with a narrow anterior and an expanded posterior branch approximately of the same length and forming an angle of about 130°with each other. Small numerous teeth can be recognized along the oral margin of the maxilla. There are two supramaxillae; the first one is elongate and ovoid in shape, whereas the second one is slightly larger and paddle-shaped.
Only the anterior portion of the lower jaw is partially preserved. The dentary appears to be robust and deep, possibly trapezoid in shape, with an almost straight anterior margin. The articularquadrate joint is not clearly recognizable but was probably located under the antero-ventral border of the orbit.
Suspensorium. Most of the bones of the suspensorium (metapterygoid, quadrate) are poorly preserved (Fig. 3). The endopterygoid appears to be nearly straight and antero-posteriorly elongated; medially, it bears about 8-9 conical teeth arranged into a single row; the teeth increase in size posteriorly in the series (Fig. 4B). The hyomandibula is partially hidden by the opercular apparatus; however, it is possible to recognize its robust articular head.
Opercular series and hyoid apparatus. The preopercle is crescentshaped, with the two arms forming an angle of about 125°; both arms are narrow, with the vertical one longer than the horizontal one. At least three branches of the preopercular sensory canal can be recognized (Figs 2, 3). The opercle is large, dorso-ventrally elongated, subquadrangular in shape, with a rounded posterior margin; its outer surface appears to be smooth. The subopercle is small and subtriangular in shape, whereas the outline of the interopercle is unclear.
The bones of the hyoid apparatus are poorly preserved. Four incomplete branchiostegal rays are recognizable, although their number was certainly higher in origin.
Vertebral column and intermuscular bones. The vertebral column consists of 31 preural vertebrae, of which 12 are abdominal (Fig. 2). The vertebral centra are subrectangular in shape, higher than long. The neural and haemal arches are well developed throughout the entire length of the vertebral column. The left and right halves of the anterior-most neural spines appears to be fused to each other, as in several paraclupeid species (Alvarado-Ortega et al. 2008;Murray & Wilson 2013). There are ten pairs of pleural ribs; the anteriormost ribs articulate with pits located along the lateral surface of the centra, whereas succeeding ones articulate with the parapophyses. Weak traces of epineurals and epipleurals can be recognized in the anterior region of the body (Fig. 4D), but they are clearly absent in the caudal region. The presence of epicentrals cannot be determined.
There are six robust and elongate supraneurals with a dorsal end reaching the dorsal border of the body (Fig. 4A); the supraneurals are slightly inclined posteriorly, lacking the fan arrangement characteristic of Diplomystus (Grande 1982; Murray et al.

2016).
Caudal skeleton. The caudal skeleton is poorly preserved in the single available specimen (Fig. 5). The first preural centrum is separated from the first ural centrum. The neural spine of the first preural centrum is short and subrectangular. The number and structure of the poorly ossified hypurals is difficult to determine, although they probably might have been six in origin. The parhypural appears to be fused to the first preural centrum. The number and arrangement of uroneurals and epurals is difficult to recognize. The morphology of the caudal scutes cannot be recognized. The caudal fin is deeply forked and contains about 17 principal caudal-fin rays. The procurrent rays are not clearly recognizable.
Median fins. The origin of both the dorsal and anal fins is located at about mid-length of the body (Fig. 2). The dorsal fin is large, nearly triangular and contains about 16 distally segmented rays decreasing in length posteriorly in series (Fig. 4A). The dorsal-fin rays are supported by an equal number of pterygiophores, interdigitating with the neural spines of vertebrae 5-20. The anal fin is long-based, more extended than the dorsal one, and contains about 25 rays supported by a similar number of pterygiophores. These latter elements interdigitate with the haemal spines of vertebrae 13-24.
Paired fins and girdles. The pectoral girdle (Figs 2, 3) is consistent with that of most paraclupeid fishes (Alvarado-Ortega et al. 2008;Murray & Wilson 2013). The posttemporal is thin, with a slender and sharp dorsal process. The supracleithrum is shorter than the posttemporal, considerably thick and slightly curved. The cleithrum is sigmoid in shape and represents the largest element of the pectoral girdle. The laminar coracoid is poorly ossified, broad and deep. The scapula is difficult to recognize. There is no evidence of the postcleithra. The pectoral fin seems to contain about ten rays, although the original number was probably higher.
The pelvic fins originate behind the sixth prepelvic scute (Figs 2, 4C). The number of pelvic-fin rays is unclear. The basipterygia are only partially exposed and appear to be small and subtriangular in shape.
Dorsal and ventral scutes. There is a complete series of at least 6 (or 7) predorsal scutes extending from the posterior edge of the skull roof to the dorsal-fin origin (Fig. 4A). Some of the scutes appear to be ornamented with a few grooves. The anteriormost scutes are small, not significantly broader than long. The scutes increase in size posteriorly in the series and the posteriormost scutes bear a strong and prominent median spine. There are no serrations along the posterior margin of predorsal scutes. Postdorsal scutes are absent. The abdominal scute series is complete and extends from the isthmus to the anal-fin origin. Their lateral wings are spine-like, with large spaces between wings of adjacent scutes, and extend upward covering the abdominal cavity laterally for more than one-third of the distance from the ventral margin of the body to the vertebral column. There are about 12 keeled abdominal scutes, including 6 prepelvic and 6 postpelvic elements decreasing in size posteriorly. The postpelvic scutes bear a very prominent and strong ventral posteriorly-directed spine (Fig. 4C).

PHYLOGENETIC ANALYSIS
The analysis of 62 morphological characters coded for 32 taxa (see Marram a et al. 2018a) produced 10 equally parsimonious trees that were used to build a single strict consensus tree with a tree length of 199 steps (CI = 0.38; RI = 0.62; Fig. 6). The relationships among ellimmichthyiforms are highly consistent with those resulting from the analysis conducted by Vernygora & Murray (2015) and Marram a & Carnevale (2017a). In our study, the monophyly of the Ellimmichthyiformes is supported by eight synapomorphies for which state '0' may not always be the basal condition for clupeomorphs: parietals contacting each other in the midline (ch. The phylogenetic placement of Eoellimmichthys within Paraclupeidae is clearly evidenced in our results (Fig. 6). Eoellimmichthys and Ellimmichthys form a monophyletic clade sharing a single character, absence of epineurals and epipleurals in the caudal region (ch. 19[0]). The clade formed by these two genera represents the sister group of the more derived paraclupeids, which were included by Murray & Wilson (2013) in the subfamilies Ellimmichthyinae (Rhombichthys intoccabilis + ('Ellimmichthys' maceioensis + 'Diplomystus' solignaci)) and the Paraclupeinae ((Paraclupea chetungensis + Tycheroichthys dunveganensis) + (Scutatuclupea applegatei + (Triplomystus oligoscutatus + Triplomystus noorae))). The sister-group relationship of the two species of Ellimmichthys is supported in our study by two characters, which are absent in Eoellimmichthys: dorsal process of the posttemporal subrectangular (ch. 22[1]); and subrectangular scutes significantly broader than long also in anterior part of predorsal series (ch. 44[1]). Finally, the pair Eoellimmichthys + Ellimmichthys shares at least two synapomorphies with the most derived paraclupeids: anterior dorsal margin of the body almost straight, forming a marked angle at the level of the dorsal-fin insertion (ch. 1 [1]) and more than 32 abdominal scutes (ch. 57[2]); this latter feature exhibits a reversal in Eoellimmichthys (fewer than 20; ch. 57[0]).

Comparative remarks
The morphological analysis of Eoellimmichthys gen. nov. has revealed the presence of a series of characters justifying its inclusion within the Clupeomorpha, including the presence of one or more abdominal scutes crossing the ventral midline of the body, and dorsal scutes with a median keel. Other clupeomorph synapomorphies (e.g. otophysic connection that penetrates the exoccipital and forming an ossified bulla in the prootic and usually also in the pterotic; supratemporal commissural sensory canal primitively passing through parietals; presence of a well-defined pre-epiotic fossa; autogenous first hypural; Grande 1985) cannot be determined in the single available specimen due to its inadequate preservation. The affinities of Eoellimmichthys with the members of the order Ellimmichthyiformes are supported by the presence of ornamentation of the skull bones, medial fusion of the contralateral halves of the neural arches in most abdominal vertebrae, endopterygoid teeth, and a parhypural that is fused to the first preural centrum (Alvarado-Ortega et al. 2008;Murray & Wilson 2013;Vernygora & Murray 2015); however, some of these features have been considered as plesiomorphic for clupeomorphs by some authors (Patterson & Rosen 1977;Grande 1982Grande , 1985Arratia 1997). Eoellimmichthys exhibits a suite of features that clearly define its separate status among ellimmichthyiforms. In particular, this new genus is characterized by a complete series of 6 (or 7) predorsal scutes extending from the occiput to the dorsal-fin origin. For this reason, it can be easily separated from Armigatus, which shows an incomplete series of predorsal scutes leaving a gap just posterior of the occiput (Grande 1982;Forey et al. 2003;Vernygora & Murray 2015). Eoellimmichthys cannot be included within the Sorbinichthyoidei since the representatives of this suborder are characterized by the presence of 10 or more supraneurals, and more than 20 predorsal scutes. The alignment of Eoellimmichthys with the genus Diplomystus can be ruled out because the latter genus shows subrectangular scutes with a posterior margin that is ornamented with several small spines, and a fanshaped arrangement of the supraneurals (Grande 1982;Chang & Maisey 2003;Vernygora & Murray 2015;Murray et al. 2016).
On the other hand the attribution of Eoellimmichthys to the family Paraclupeidae is clearly demonstrated by the presence of a short series of 6 (or 7) irregular predorsal scutes increasing in size posteriorly in the series, and postpelvic scutes bearing very prominent spines (Chang & Grande 1997;Forey et al. 2003;Alvarado-Ortega et al. 2008;Khalloufi et al. 2010;Murray & Wilson 2013). Although the phylogenetic analysis recognized Eoellimmichthys as more closely related to the Ellimmichthys species from the Early Cretaceous of Brazil and western Africa than to other paraclupeids, its separate status within this clade can be easily recognized based on the absence of a subrectangular dorsal process of the posttemporal as well as of subrectangular scutes also in the anterior part of the predorsal series, which instead characterize the Early Cretaceous taxa (Grande 1982;Chang & Grande 1997). Moreover, Eoellimmichthys differs from the other paraclupeid genera in having a unique series of reductive meristic features (Table 1). In particular, both the number of abdominal scutes (12) and preural vertebrae (31) exhibit the lowest values within the family Paraclupeidae. Moreover, the new genus can be easily separated from Codoichthys, Ellimma, Ellimmichthys, Ezkutuberezi, Paraclupea, Rhombichthys, Scutatuspinosus and Tycheroichthys by the lower number of supraneurals (6 vs 7-12), and from all the paraclupeids (except Ezkutuberezi and Kwangoclupea) by the low number of predorsal scutes (6-7 vs 8-17) and pleural ribs (10 vs 13-25). Furthermore, Eoellimmichthys lacks the postdorsal scutes that are diagnostic of Scutatoclupea and Triplomystus. Finally, the number of anal-fin pterygiophores separates Eoellimmichthys (25) from all the other paraclupeids, except Thorectichthys.

Evolutionary and biogeographical observations
The Ellimmichthyiformes have a long evolutionary history encompassing about 90 million years from the Early Cretaceous to the middle Eocene (Grande 1982(Grande , 1985. Figueiredo & Ribeiro (2017) considered the paraclupeid Scutatuspinosus itapagipensis from the Hauterivian-Barremian Marfim Formation, Recôncavo Basin, Brazil, to be the oldest confirmed double-armoured herring. Another paraclupeid, Ellimmichthys longicostatus, occurs along with Scutatuspinosus itapagipensis in the Marfim Formation of Brazil (e.g. Chang & Maisey 2003) thereby extending back, to the earliest part of the Cretaceous, the age of divergence between armigatids and paraclupeids and, more generally, the age of appearance of the double-armoured herrings. However, Ezkutuberezi carmenae might be older than the Brazilian taxa since it has been recovered from freshwater deposits of Valanginian-Barremian age (Poyato-Ariza et al. 2000). Other basal clupeomorphs that seem to pertain to the clade Ellimmichthyiformes might be older than these Early Cretaceous Brazilian or Iberian fossils. Some of these ancient double-armoured herrings were referred to the 'waste-basket' genera 'Clupea' or 'Diplomystus' following the common practice of most authors from the nineteenth and twentieth centuries, and it is likely that taxonomic revision will demonstrate that they do not belong to these taxa (Grande 1985). For example, the double-armoured herrings 'Diplomystus' altisomus, 'D.' kokuraensis, and 'D.' primotinus from the lacustrine 'Neocomian' deposits of Japan were assigned to Diplomystus by Uyeno (1979) and Yabumoto (1994), based on supposed similarities with this extinct genus whose diagnostic characters have been properly defined only more recently by Chang & Maisey (2003). Pictet (1858) described 'Clupea' antiqua and 'C.' voironensis based on some specimens from the Early Cretaceous of Switzerland, and considered them to be closely related to modern sardines of the family Clupeidae, although they are probably related to Armigatus.
Double-armoured herrings experienced a remarkable increase in species diversity during the middle and Late Cretaceous that was probably mirrored by a considerable increase of their morphological diversity, exemplified by the appearance of certain peculiar and extreme shapes, very different from the basic herring or sardine-like shape of most clupeomorphs. For example, Late Cretaceous (mostly Cenomanian) taxa such as Tycheroichthys dunveganensis, Triplomystus noorae, and Rhombichthys intoccabilis were characterized by extremely deep bodies, large and deeply forked caudal fins, as well as by a strong armour consisting of long and well-developed abdominal keeled scutes (Forey et al. 2003;Hay et al. 2007;Khalloufi et al. 2010). The order Ellimmichthyiformes was not the only fish group that experienced a steep increase in disparity and morphological adaptations in the Late Cretaceous. Starting in the Cenomanian a number of actinopterygian lineages, including among others the pycnodonts and acanthomorphs, also evolved a remarkable range of adaptations and morphologies   (1982,1985), Chang & Grande (1997) The Paleocene fish fauna is generally characterized by end-Cretaceous mass extinction survivors and doublearmoured herrings have been regarded as a relict lineage that exclusively persisted in freshwater environments up to the middle Eocene (Grande 1982(Grande , 1985. The freshwater environments were extremely resilient and largely avoided a mass extinction at the end of the Cretaceous, acting as refuges for several ancient fish lineages such as amiiforms and lepisosteiforms that, like the ellimmichthyiforms, were affected by the complete disappearance of marine forms at the Cretaceous-Palaeogene boundary (Cavin 2002). In this context, the Cenozoic record of double-armoured herrings was considered to be exclusively restricted to few freshwater taxa, including the peculiar sorbinichthyioid Gasteroclupea branisai from the Upper Cretaceous to Paleocene freshwater deposits of South America (Marram a & Carnevale 2017a), and Diplomystus dentatus and D. shengliensis that were confined to the middle Eocene freshwaters of North America and China, respectively (Grande 1982;Chang & Maisey 2003).
The Bolca bony fish assemblage includes some of the youngest occurrences of extinct Mesozoic lineages, including the Pycnodontiformes, represented therein by four taxa, which are the last representatives of this non-teleost actinopterygian clade in a marine setting (Blot 1987;Poyato-Ariza & Wenz 2002;Carnevale et al. 2014). Other relicts among bony fishes of Bolca are the pachyrhizodontoids, with the conspicuous Platinx macropterus, which possibly represents the youngest occurrence of the order Crossognathiformes, a lineage of Late Jurassic to Cretaceous marine basal teleosts (e.g. Taverne 1980;Cavin 2001;Arratia 2008). Consequently, Eoellimmichthys along with the sympatric pycnodontiforms and crossognathiforms, has to be regarded as a genuine survivor of the end-Cretaceous extinction in the marine realm. Although the role of the shallow waters of the Western Tethys, including those of the Bolca area, were recognized as primary hotspot of biodiversity during the early Palaeogene with increased origination rates in the aftermath of the K/ Pg boundary event (see Renema et al. 2008), this region might also have acted as marine refuge for the last survivors of several actinopterygian lineages, such as pycnodontiforms, that were highly diverse before the end-Cretaceous mass extinction event and ultimately vanished before the end of the Eocene. Interestingly, pycnodontiforms were still widespread in the Eocene from the eastern coastline of the North America in the West to India in the east and Africa in the south, including freshwater occurrences (e.g. Longbottom 1984). Probably, pycnodontiforms paralleled ellimmichthyiforms in that they persisted largely unscathed in freshwaters during the end-Cretaceous event, but were affected in marine environments (Kriwet 2001a, b). The reasons for the final disappearance of various actinopterygian clades in the Eocene are still ambiguous and might be related to competition (e.g. in pycnodontiforms; Bellwood 1996) or climatic perturbations (Eocene-Oligocene climatic cooling event).
Eoellimmichthys considerably increases our knowledge of the evolutionary history of double-armoured herrings, extending the stratigraphic range of the family Paraclupeidae up to the Ypresian (Fig. 7). To date, the poorly known 'Diplomystus' solignaci from the Senonian of El Hamma de l'Arad, Tunisia (Gaudant & Gaudant 1971) was considered to be the youngest member of this family, whose earliest members likely appeared in the Hauterivian or Barremian (e.g. Chang & Maisey 2003). The long evolutionary history of this family was associated with the occupation of a variety of habitats and a considerably wide geographical distribution (Fig. 7). The majority of the Early Cretaceous paraclupeids was restricted to freshwater sediments of the Western Gondwana rift basins (e.g. Ellima branneri, Ellimmichthys goodi, E. longicostatus,   (2013), the sister group relationship between Paraclupea and Tycheroichthys (reiterated by our phylogenetic analysis) suggests that paraclupeids at least were capable of long-distance dispersal. In any case, the biogeographical history of paraclupeids is difficult to interpret due to our inadequate knowledge of their fossil record. The unexpected Eocene marine paraclupeid described herein clearly demonstrates that additional fossil finds are necessary to achieve a better understanding of the evolutionary history and biogeography of double-armoured herrings.

CONCLUSIONS
The morphological and phylogenetic analysis of a nearly complete articulated clupeomorph has revealed for the first time the presence of a representative of the clupeomorph order Ellimmichthyiformes in the early Eocene limestone of the Bolca Konservat-Lagerst€ atte. The presence of clupeiforms and ellimmichthyiforms in the Pesciara site provides evidence of the heterogeneity of the clupeomorphs of this celebrated locality, reflecting the outstanding diversity of the entire fish assemblage (Carnevale et al. 2014). This youngest marine record of the double-armoured herrings provides further evidence that fish lineages which were severely affected by the end-Cretaceous extinction (ellimmichthyiforms, pycnodontiforms and crossognathiforms) survived at least until the late Ypresian in tropical shallow marine palaeobiotopes of the Tethys which might have acted as a refuge.
Acknowledgements. Open access funding provided by University of Vienna. The authors would like to thank Anna Vaccari and Roberto Zorzin (both MCSNV) for providing access to material under their care and logistic support, and Leonardo Latella (MCSNV) for the photographs. The manuscript has been greatly improved by the valuable comments of Alison Murray (University of Alberta), Jes us Alvarado-Ortega (Universidad Nacional Aut onoma de M exico), an anonymous reviewer, and editorial comments by Lionel Cavin and Sally Thomas. Financial support was provided by a grant of the Austrian Science Fund (FWF): M2368-B25 to GM, by a grant of the Austrian Science Fund (FWF): P29796-B29 to JK, and by the Universit a degli Studi di Torino (grants ex-60% 2016 and 2017) to GC.
Data for this study, including the figure on the use of UV light, character list and matrix are available in the Dryad Digital Repository: https://doi.org/10.5061/dryad.3p1qj84.