Burejospermum seymourense, McLoughlin, Bomfleur, Mörs & Reguero, 2016

McLoughlin, Stephen, Bomfleur, Benjamin, Mörs, Thomas & Reguero, Marcelo, 2016, Fossil clitellate annelid cocoons and their microbiological inclusions from the Eocene of Seymour Island, Antarctica, Palaeontologia Electronica 11 (1), pp. 1-27 : 7-9

publication ID

https://doi.org/ 10.26879/607

publication LSID

lsid:zoobank.org:pub:42B578E7-5E4C-42FF-A24C-B5671CBD903E

persistent identifier

https://treatment.plazi.org/id/9745DE12-F572-4117-9300-56E7EC77A240

taxon LSID

lsid:zoobank.org:act:9745DE12-F572-4117-9300-56E7EC77A240

treatment provided by

Felipe

scientific name

Burejospermum seymourense
status

sp. nov.

Burejospermum seymourense sp. nov.

Figures 4.1-3 View FIGURE 4 ; 5 View FIGURE 5 ; 6 View FIGURE 6

zoobank.org/ 9745DE12-F572-4117-9300-56E7EC77A240

Holotype. NRMS089727 ( Figures 4.1-3 View FIGURE 4 ).

Type Locality, Stratum, and Age. Locality IAA 2/ 95; ‘ Natica horizon’ within the Cucullaea I Allomember (Telm 5) of the La Meseta Formation; early Eocene.

Additional Material. NRMS089730 NRMS089732 (from the type locality).

Etymology. After Seymour Island.

Diagnosis. Reddish-brown barrel-shaped cocoons <4 mm long. Hapsine over most of the cocoon wall comprising disorganized threads more densely amalgamated in gently sunken equatorial girdle. Plate-like secretions locally developed on the outer surface of hapsine. Alytine dense, consisting of tightly amalgamated threads, and locally containing blind tubular cavities parallel to cocoon surface.

Description. Cocoon reddish-brown in reflected and transmitted light ( Figure 4.1 View FIGURE 4 ), ellipsoidal, 2.4 mm long from the anterior terminus to the level of the operculum detachment (estimated total length ~ 3 mm); diameter 2 mm; essentially circular in cross-section except where crushed by burial compaction. Anterior end broadly rounded. Posterior operculum absent from studied specimens ( Figure 4.2 View FIGURE 4 ). Hapsine ~ 5–75 μm thick ( Figures 5.5 View FIGURE 5 , 6.10 View FIGURE 6 ) consisting of moderately dense threads interconnected and interwoven to form a thin, brownish, felt-like covering on the cocoon ( Figures 4.3 View FIGURE 4 , 5.2 View FIGURE 5 , 6.1, 6.9 View FIGURE 6 ; Supplementary Animation 1). Threads typically ~ 3 μm thick, locally reaching 10 μm thick. Hapsine of consistent density throughout except for a 350-μm-wide, slightly depressed, pale (whitish to yellowish in reflected light) girdle ( Figures 4.1 View FIGURE 4 , 5.1 View FIGURE 5 ) bearing more densely spaced and amalgamated threads ( Figure 5.3 View FIGURE 5 ). Isolated, flat, elliptical patches or plates of secreted material, 40–60 μm long, 32–45 μm wide and <3 μm thick distributed sparsely on outer hapsine surface ( Figure 5.4, 5.6 View FIGURE 5 ).

Alytine composed of secreted threads amalgamated into numerous thin sheets to form a continuous densely laminated layer ~ 22 μm thick ( Figures 5.5 View FIGURE 5 , 6.10 View FIGURE 6 ). Inner surface of alytine is smooth or undulated ( Figure 6.2 View FIGURE 6 ). Alytine incorporating sparse tubular cavities> 400 μm long and ~ 25 μm wide, parallel to cocoon surface, mostly in equatorial regions. Tubes lined by threads deflected towards one end of the cavity forming a pseudo-braided or chevron pattern ( Figure 6.3-8 View FIGURE 6 View FIGURE 7 View FIGURE 8 ; Supplementary Animations 2-4).

Remarks. Burejospermum seymourense differs from the two other taxa in the Seymour Island assemblage by its combination of a dense alytine layer and a robust hapsine that stands proud of the alytine surface. It differs from previously described Burejospermum species by its small dimensions, the distinct pale equatorial girdle of dense hapsine threads and the presence of sparse elliptical plate-like secretions on the outer surface of the hapsine. Burejospermum seymourense is the most common cocoon form in the Seymour Island assemblage. All specimens represent hatched cocoons (lacking an operculum).

The tubular cavities oriented parallel to the surface within the alytine layer ( Figure 6.2-8 View FIGURE 6 View FIGURE 7 View FIGURE 8 ; Supplementary Animations 2–4) are of uncertain origin. Manum et al. (1991) devoted considerable attention to equivalent structures in other examples of Burejospermum and, although they did not identify any analogue among modern clitellate annelid cocoons, they hypothesized that such structures may have been produced by individual setae on a clitellar segment that became embedded in the alytine during the process of hirudoin secretion. They proposed that the setae were subsequently extracted from the tubes as the animal's clitellar region contracted before egg-laying. The chevronshaped threads lining the tubes in the Seymour Island specimens, and the flaring of the tube at one end (Supplementary Animation 4), are consistent with the hypothesis of distortion caused by extraction of setae before the cocoon wall had hardened. However, we note that this hypothesis is tempered by the observation that modern true leeches and branchiobdellids (the two groups most commonly invoked as the producers of hapsinerich fossil clitellate cocoons: Manum et al., 1991; Bomfleur et al., 2015) lack setae ( Smith, 2001).

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