Search published articles


Showing 3 results for Type

Mazaher Zamani-Faradonbe, Yazdan Keivany, Salar Dorafshan, Mojtaba Abbasi-Jeshvaghani,
Volume 2, Issue 1 (3-2020)
Abstract

Organisms can adapt to habitat conditions that ensure their survival. Habitat separation can lead to different populations of body shape during the phenotypic plasticity process. Both traditional and modern (geometric) morphology are being used in fish population studies. In this study, the body shape differences between Garra rufa (Heckel) populations captured in the Jarrahi River (from the Tigris Basin) were investigated using traditional and geometric morphometric methods. The samples were captured from the Rostam Abad, Aghajari and Behbahan tributaries and transferred to the laboratory. For the traditional morphometric analysis, 10 meristic characters and 19 morphometric characters were measured. Geometric morphological information was extracted using 13 landmark points on left side photographs of individual fish. According to the results of the traditional morphometric analysis, there were differences between the three populations in meristic (lateral line scales, predorsal scales, circamucaudal scales) and morphometric (14 of 19 characters) traits. In the geometric morphometric analysis, the major part of the shape variation is due to landmark points in the head region and the dorsal fin base, with the anal fin and caudal peduncle being the most conservative body regions. The populations had significant differences in body shape with populations from Aghajari and Behbahan tributaries being most similar and the Rostam Abad population was different from the two other populations.

Sudesh Batuwita, Sampath Udugampala, Udeni Edirisinghe,
Volume 2, Issue 2 (6-2020)
Abstract

We reviewed the species referred to Eutropis carinata complex from Sri Lanka. We provided the data on the lectotype of Eutropis carinata along with a discussion on its synonyms. Examination of the lectotype of Sincus carinatus Schneider, 1801 (= Eutropis carinata), shows this taxon is not conspecific with Mabuya carinata lankae Deraniyagala, 1953 (= Eutropis carinata lankae). Therefore, we resurrected Eutropis lankae (Deraniyagala) as a valid species from Sri Lanka. Based on the available data, we here tentatively recognize Tiliqua rubriventris Hardwicke and Gray, 1829 (= Eutropis rubriventris) as a valid species. Also, a new species of the genus Eutropis Fitzinger is described from Sri Lanka. The new species was previously confused with E. carinata (Schneider) and may be the source of earlier records of E. beddomei (Jerdon) from the Central Hills of Sri Lanka. The new species, Eutropis resetarii sp. nov. differs from the lectotype of E. carinata by the following characters: widely (vs. narrowly) separated supranasal scales, first supraocular not in contact (vs. in contact) with frontal, third pair of chin shields separated slightly or not touching the second pair of chin shields (vs. in contact broadly with the second pair) and 30 (vs. 32) scale rows across the midbody. Eutropis resetarii sp. nov. is distinguished from E. lankae by the following characters: first loreal does not reach the dorsal surface of snout (vs. reaches in E. lankae); lower preocular larger (vs. smaller) than the anterior loreal scale; lateral border of postmental in complete contact with the first and the second (vs. first and partially the second) infralabials; third pair of chin shields not in contact or in narrow (vs. broad) contact with second pair of chin shields; palm and sole scales rounded, more or less juxtaposed (vs. tubercle-like imbricate scales); and having greater external ear opening size, 40–46% (vs. 23–38%) of eye diameter. Eutropis resetarii sp. nov. can be distinguished from all other congeners by a combination of the following characters: in having widely separated supranasals and prefrontals, lacking postnasals, prefrontals reaching lateral sides of snout, only the first supraocular in contact with frontal, six or seven supraciliaries, lower preocular as large as first loreal, two primary temporals, upper pretemporal smaller than lower and both touching parietals, parietals completely separated by interparietal; two post-supralabials, first and second pairs of chin shields separated by a single scale, third pair of chin shields not in contact or in narrow contact with second pair of chin shields; juxtaposed rounded palm and sole scales, comparatively robust digits, having greater external ear opening size (40–46% of eye diameter) and presence of 14–15 subdigital lamellae under 4th digit of pes. The new species has been recorded from the highest elevations (from ~1000 m to ~1600 m), while E. lankae has a wider distribution from coast to ~900 m. The distributional ranges of these two species are therefore allopatric.

Seyed Mahmood Ghaffari, Musa Mahmoudi, Hasan Salehi, Alireza Sari,
Volume 5, Issue 2 (6-2023)
Abstract

Karyological studies were conducted using bone marrow cell preparations from four species of Lacertidae and Scincidae from Iran: Eremias persica Blanford, Eremias kopetdaghica Szczerbak, Ophisops elegans Ménétries (Lacertidae), and Eumeces schneiderii princeps (Eichwald) (Scincidae). Eremias persica was diploid with 2n = 38 chromosomes. The karyotype consisted of eighteen pairs of acrocentric macrochromosomes and two microchromosomes. Eremias kopetdaghica was also diploid with 2n = 38 comprising one pair of metacentric macrochromosomes, seventeen pairs of acrocentric macrochromosomes, and one pair of microchromosomes. The chromosome count for these two species is reported for the first time herein. The chromosome count for Ophisops elegans (2n = 38) was in agreement with a previous report and was the first for the herpetofauna of Iran. Eumeces schneiderii princeps showed 32 macro- and microchromosomes, representing the first report for this subspecies.


 


Page 1 from 1     

  | Journal of Animal Diversity

Designed & Developed by : Yektaweb