Condylura sp.

Sansalone, G, Kotsakis, T & Piras, P, 2016, Condylura (Mammalia, Talpidae) reloaded: New insights about the fossil representatives of the genus, Palaeontologia Electronica 19 (3), pp. 1-16 : 4-8

publication ID

https://doi.org/ 10.26879/647

persistent identifier

https://treatment.plazi.org/id/03B087ED-FF8E-FF9A-1586-FB7BEA6013C3

treatment provided by

Felipe

scientific name

Condylura sp.
status

 

Condylura sp.

1963 Condylura sp. ; Lychev, p. 13, figs 1A, 1a.

1997 Condylura sp. ; McKenna and Bell, p.282.

2008 Condylura sp. ; Gunnel, Bown, Hutchinson,

and Bloch, p. 103.

Material

Sample. 1 left humeral fragment

Locality. Kalkaman Lake, Kazakhstan

Age. mammal age equivalent MN 8; 11.9- 11.1 m.y.a.

Horizon. Early Sarmatian or Late Astaracian mammal age equivalent ( MN 8; 11.9- 11.1 m.y.a.).

Description

Humeral fragment ( Figure 3.1-2 View FIGURE 3 ). Maximal width of distal region: 8.5 mm; width of the humeral shaft: 3.6 mm. The proximal part is lost and the humeral head is not preserved. The capitulum is also broken. The fossa for flexor digitorum profundus is round and deep. The supracondylar foramen is wide and triangular in shape. The humerus shows a torsion of the shaft as occurs in fossorial moles. The distal part of the pectoral crest is slightly pronounced. Enlarged distal region of the humerus with the medial edge of the trochlea placed in the middle of the trochlear area. The greater sulcus is wide.

New Diagnostic Feature

Position of the medial edge of the trochlea and humeral shaft width. The medial edge of the trochlea is positioned in the middle of the trochlea in the shrew-moles ( Urotrichini , Neurotrichini and Scaptonyx ) while all highly fossorial moles ( Talpini and Scalopini ) have it medially displaced. Nevertheless, the humeral shaft of the highly fossorial talpids is more robust than that of the shrew-moles.

This genus-diagnostic character was detected among humeral material from both shrew-moles and true-moles ( Hutchinson, 1968; Hutchinson, 1974; Ziegler, 2003; Sánchez-Villagra et al., 2004; Piras et al., 2012; Piras et al., 2015; Schwerman and Thompson, 2015; Sansalone et al., 2016).

Comparisons

We excluded from the comparisons all the robust highly fossorial moles (i.e., Talpini and the more robust Scalopini ) due to the evident difference in the overall robustness of the humeral shaft. Furthermore, the Kazakh specimen is more robust than all the shrew-moles ( Urotrichini and Neurotrichini ); therefore we did not include these taxa in the comparisons. We compared the mole from Kalkaman Lake with all the Neogene less robust Scalopini and with the other described Condylura species.

cf. Condylura sp. The specimen from Kalkaman Lake differs from the cf. Condylura sp. from Hemphillian of Oregon ( Hutchinson, 1984) in having a reduced minor sulcus. The two specimens are identical in the humeral distal region morphology. They share the triangular supracondylar fora-

3 5 1 2

6 7 8

2

men and the central position of the trochlear medial edge ( Figure 3.3-5 View FIGURE 3 View FIGURE 4. 1 View FIGURE 5 ).

Condylura kowalskii Skoczeń, 1976 . The Kazakh specimen is very similar to the Polish species in the overall shape of the humeral shaft ( Figures 3.6-7, 4.1 View FIGURE 3 View FIGURE 4. 1 View FIGURE 5 View FIGURE 6. 1 View FIGURE 7 ). It is almost identical in the trochlear morphology sharing the central position of trochlear medial edge. However, C. kowalskii possesses a minor sulcus wider than the Kazakh condylurine mole ( Skoczeń, 1976; Rzebik-Kowalska, 2014).

Condylura izabellae Skoczeń, 1976 . The Kazakh specimen differs from the Polish smaller Condylura View in CoL ( Skoczeń, 1976; Rzebik-Kowalska, 2014) for the same features of C. kowalskii .

1 2 3

Yanshuella primaeva Yunoscaptor scalprum Scapanulus oweni

4 5 6

Wilsonius ripafodiator Leptoscaptor robustior Leptoscaptor bavaricum

Condylura cristata Illiger, 1811 View in CoL . The specimen from Kalkaman closely resembles C. cristata View in CoL in the width of both sulci ( Hutchinson, 1984). The distal part of the pectoral crest is slightly pronounced, as in C. cristata View in CoL . The similarities in the trochlea are even more striking, both taxa share the medial edge positioned in the middle of the trochlea. However, the Kazakh specimen possesses the spine of the medial edge of the trochlea medially bended while it is straight in C. cristata View in CoL ( Figures 3.8 View FIGURE 3 , 4.2 View FIGURE 4. 1 ).

Yanshuella primaeava Storch and Qiu, 1983 . Condylura sp. possesses a wider greater sulcus and a wider minor sulcus. Further, the distal end of the pectoral crest is less pronounced. Finally, in Yanshuella , the medial edge of the trochlea is medially displaced (as in all other highly fossorial talpids; Storch and Qiu. 1983), while in Condylura sp. is placed in the middle of the trochlea ( Figure 5.1 View FIGURE 5 ).

Yunoscaptor scalprum Storch and Qiu, 1991 . The same considerations made for the comparison with Yanshuella hold for Yunoscaptor ( Storch and Qiu, 1991) . They differ for the trochlea medial edge and, further, for the shape of the supratrochlear fossa (frontal view) ( Figure 5.2 View FIGURE 5 ).

Scapanulus oweni Thomas, 1912 View in CoL . The differences in the width of both minor and greater sulci are less evident, though S. oweni View in CoL possesses the medially displaced medial edge of the trochlea ( Figure 5.3 View FIGURE 5 ). The last evidence leaves no doubt in excluding close relationships with Scapanulus View in CoL ( Hutchinson, 1968; Storch and Qiu, 1983).

Wilsonius ripafodiator Hutchinson, 1968 . The two taxa are almost indistinguishable for the width of both sulci, evidencing the plesiomorphic state of these characters ( Hutchinson, 1968). However, the shape of the trochlea is, again, highly different. The Kazakh specimen clearly shows the plesiomorphic features of the humeral distal region, while Mioscalops , possessing the medially displaced medial edge of the trochlea, shows apomorphic characters that reflect a better adaptation to digging ( Hutchinson, 1968) ( Figure 5.4 View FIGURE 5 ).

Leptoscaptor robustior Ziegler, 2003 . Condylura sp. clearly differs from L. robustior in the width of the humeral shaft. In L. robustior the minor and greater sulci are narrower, and the medial edge of trochlea is medially displaced as in other highly fossorial moles ( Ziegler, 2003) ( Figure 5.5 View FIGURE 5 ).

Leptoscaptor bavaricum Ziegler, 2003 . Condylura sp. resembles L. bavaricum in the overall slenderness of the humeral shaft and in the width of minor and greater sulci. On the other hand, L. bavaricum shows an elliptic supracondylar foramen and the medial edge of the trochlea medially displaced ( Ziegler, 2003) ( Figure 5.6 View FIGURE 5 ). These features clearly separate the two taxa.

Remarks

The humeral fragment from Kalkaman Lake shows close affinities with the other condylurine moles. In particular, the morphology of the trochlear area appears to be distinctive for the genus Condylura . This feature unambiguously separates Condylura from all highly fossorial moles. However, Urotrichini , Neurotrichini and Scaptonyx also show a trochlear medial edge placed in the middle of the trochlea ( Hutchinson, 1968; Sánchez-Villagra et al., 2004; Schwerman and Thompson, 2015; Sansalone et al., in press). Despite this evidence, the more robust and wide humeral shaft leaves no doubt about the attribution of the Kazakh specimen to the genus Condylura . Unfortunately, the poor conditions of the proximal region of the humerus do not allow any specific attribution.

MN

Museu Nacional, Universidade Federal do Rio de Janeiro

Kingdom

Animalia

Phylum

Chordata

Class

Mammalia

Order

Soricomorpha

Family

Talpidae

Genus

Condylura

Kingdom

Animalia

Phylum

Chordata

Class

Mammalia

Order

Soricomorpha

Family

Talpidae

Genus

Condylura

Loc

Condylura sp.

Sansalone, G, Kotsakis, T & Piras, P 2016
2016
Loc

Leptoscaptor robustior

Ziegler 2003
2003
Loc

L. robustior

Ziegler 2003
2003
Loc

L. robustior

Ziegler 2003
2003
Loc

Leptoscaptor bavaricum

Ziegler 2003
2003
Loc

L. bavaricum

Ziegler 2003
2003
Loc

L. bavaricum

Ziegler 2003
2003
Loc

Yunoscaptor scalprum

Storch and Qiu 1991
1991
Loc

Mioscalops

Ostrander, Mebrate & Wilson 1986
1986
Loc

Yanshuella primaeava

Storch and Qiu 1983
1983
Loc

Yanshuella

Storch & Qiu 1983
1983
Loc

Yanshuella

Storch & Qiu 1983
1983
Loc

Condylura kowalskii Skoczeń, 1976

Skoczen 1976
1976
Loc

C. kowalskii

Skoczen 1976
1976
Loc

Condylura izabellae Skoczeń, 1976

Skoczen 1976
1976
Loc

C. kowalskii

Skoczen 1976
1976
Loc

Wilsonius ripafodiator

Hutchinson 1968
1968
Loc

Scapanulus oweni

Thomas 1912
1912
Loc

S. oweni

Thomas 1912
1912
Loc

Scapanulus

Thomas 1912
1912
Loc

Condylura

Illiger 1811
1811
Loc

Condylura cristata

Illiger 1811
1811
Loc

C. cristata

Illiger 1811
1811
Loc

C. cristata

Illiger 1811
1811
Loc

C. cristata

Illiger 1811
1811
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