Resolving deep-sea pelagic saccopharyngiform eel mysteries: Identification of Neocyema and Monognathidae leptocephali and establishment of a new fish family "Neocyematidae" based on larvae, adults and mitogenomic gene orders.

Jan Y Poulsen,Katsumi Tsukamoto,Michael J Miller,Tetsuya Sado,Masaki Miya,Reinhold Hanel,Sebastian D Fugmann

doi:10.1371/journal.pone.0199982

Jan Y Poulsen, Katsumi Tsukamoto + Show 5 more

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https://doi.org/10.1371/journal.pone.0199982

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Abstract

Deep-sea midwater “saccopharyngiform” eels of the families Cyematidae, Monognathidae, Eurypharyngidae and Saccopharyngidae (order Anguilliformes) are extraordinary fishes having major skeletal reductions and modifications compared to the general anguilliform body structure. Little is known about most aspects of the systematics, phylogeny, and ecology of these families, and few of the approximately 30 species described from adult specimens have been matched with their leptotocephalus larvae. Based on mitogenomic sequence data from rare new specimens, we show that the long-speculated-about larval form referred to as “Leptocephalus holti”, which was thought to possibly be the larva of the rare orange-colored eels of Neocyema (5 known specimens; speculated to belong to the Cyematidae) are actually the larvae of the one-jaw eels of the family Monognathidae. One of the 5 types of L. holti larvae that were collected in the Pacific is genetically matched with Monognathus jesperseni, but multiple species exist based on larval sequence data and the morphology of adult specimens. A rare leptocephalus from the Sargasso Sea, with unique morphological characteristics including many small orange spots on the gut, was found to be the larva of Neocyema, which is presently only known from the Atlantic Ocean. We demonstrate that Neocyema constitutes a separate family being most closely related to Eurypharyngidae and Saccopharyngidae based on mitogenomic DNA sequences and unique mitochondrial gene orders.

Highlights

The order Anguilliformes and their relatives within the Elopomorpha in the orders Albuliformes and Elopiformes share the common trait of having a leptocephalus larva, which is unique in a variety of ways compared to other fish larvae [1,2,3,4,5,6]
Mitochondrial gene orders are exceptionally informative in the case of saccopharyngiform fishes as all five families show unique gene orders
Mitogenomic DNA sequences and extensive gene order rearrangements support the establishment of a new family

Summary

Introduction

The order Anguilliformes (true eels) and their relatives within the Elopomorpha in the orders Albuliformes (notacanths and bonefishes) and Elopiformes (tarpons and ladyfishes) share the common trait of having a leptocephalus larva, which is unique in a variety of ways compared to other fish larvae [1,2,3,4,5,6]. The four “saccopharyngiform” families Cyematidae, Eurypharyngidae, Monognathidae and Saccopharyngidae form a separate lineage based on complete mitochondrial (mt) DNA sequences [8] and have a variety of highly derived morphological features. The biology, evolution, taxonomy and classification of pelagic deep-sea eels within the Elopomorpha constitute major unknowns at present [14], with their intra- and interrelationships being unclear [15]. They represent yet another example of how little is known about the biodiversity of fishes and species divergences, including life stages, within the deep-sea pelagic environment [16, 17]

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