ISSN 00124966, Doklady Biological Sciences, 2011, Vol. 438, pp. 168–170. © Pleiades Publishing, Ltd., 2011.
Original Russian Text © A.B. Vassilieva, I.A. Serbinova, N.A. Poyarkov, 2011, published in Doklady Akademii Nauk, 2011, Vol. 438, No. 4, pp. 566–569.
168
The Caucasian salamander (Mertensiella cauca
sica) and goldenstriped salamander (Chioglossa lusi
tanica) are the most closely related taxa in the group of
true salamanders belonging to the family Salaman
dridae [1, 2]. In addition, they stand out among the
other salamanders by a considerable similarity in their
morphological constitution [3] and life style [3–5]. A
study on the reproduction biology of these species has
also demonstrated that they are very similar in a num
ber of reproductive parameters, namely, both species
reproduce in brooks and lay large (5–7 mm in diame
ter) eggs in small clutches (on average, 17–18 eggs)
[4–6]. These traits distinguish M. caucasica and
C. lusitanica from the majority of the other true sala
manders, characteristic of which is ovoviviparity or
viviparity, and the remaining members of the family
Salamandridae, newts, which lay considerably smaller
eggs. On the other hand, the large size of the eggs and
hatching of larvae at advanced development stages (as
was demonstrated for M. caucasica [7]) suggest a pro
nounced embryonization of development, i.e., transi
tion of the initial stages in larval development to the
embryonic period.
Among amphibians, this evolutionary process leads to
establishment of a direct development (lacking the larval
stage), which is present only in members of the family
Plethodontidae within the order Urodela. The effect of
the degree of embryonization on the specific morphoge
netic traits and, in particular, craniogenesis, has been also
demonstrated for these amphibians [8, 9]. As we see it, a
study of the skeletal development in the amphibian spe
cies with partial embryonization of development will help
to shed light onto the initial stages in the evolution path
way that had led to direct development.
For this purpose, we have studied the skeletal
development of M. caucasica and C. lusitanica in the
ontogenesis. Clutches of both salamander species were
incubated under laboratory conditions; the embryos at
late developmental stages (staring from limb differen
tiation), larvae, and metamorphosing animals were
regularly fixed with 10% formaldehyde and stained
with alizarin red and alcian blue to detect bones and
cartilages, respectively. The developmental stages were
determined according to the table of M. caucasica
normal development [7], which, except for some col
oration traits, equally well described the C. lusitanica
developmental stages.
GENERAL
BIOLOGY
Development of the Bony Skeleton in Two Salamander Species
(Mertensiella caucasica and Chioglossa lusitanica: Salamandridae)
with Partial Embryonization
A. B. Vassilieva
a
, I. A. Serbinova
b
, and N. A. Poyarkov
a
Presented by Academician E.I. Vorob’eva December 20, 2010
Received January 31, 2011
DOI: 10.1134/S0012496611030100
a
Moscow State University, Moscow, 119992 Russia
b
Moscow Zoo, ul. Bol’shaya Gruzinskaya 1, Moscow, 123820
Russia
The order of development of the cranial ossifications in
Mertensiella caucasica and Chioglossa lusitanica
Stage M. caucasica C. lusitanica
38 Dentale and praemaxil
lare
Dentale and parasphe
noideum
40 Squamosum and paras
phenoideum
Praemaxillare, squamo
sum, and palatinum
42–43 Coronoideum, vomer,
palatinum, pterygoi
deum, prearticulare,
frontale, and parietale
Coronoideum, vomer,
pterygoideum, prearticu
lare, frontale, and pari
etale
44 Exoccipitale Exoccipitale
45–46 Quadratojugale Quadratojugale
48–50 Os thyroideum, orbito
sphenoideum, prooti
cum, and quadratum
Os thyroideum, orbito
sphenoideum, prooti
cum, and quadratum
51–52 Maxillare, nasale, and
praefrontale
53 Mentomandibulare Maxillare, nasale, prae
frontale, and mento
mandibulare
54–56 Palatinum and coronoi
deum
Palatinum and coronoi
deum
Note: The bones present at the hatching stage are boldfaced and the
bones disappearing during metamorphosis are italicized.