Appendices I, II and III
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A Review of Southern Iraq Herpetofauna
Vol. 3 (1): 61-71, 2019 A Review of Southern Iraq Herpetofauna Nadir A. Salman Mazaya University College, Dhi Qar, Iraq *Corresponding author: [email protected] Abstract: The present review discussed the species diversity of herpetofauna in southern Iraq due to their scientific and national interests. The review includes a historical record for the herpetofaunal studies in Iraq since the earlier investigations of the 1920s and 1950s along with the more recent taxonomic trials in the following years. It appeared that, little is known about Iraqi herpetofauna, and no comprehensive checklist has been done for these species. So far, 96 species of reptiles and amphibians have been recorded from Iraq, but only a relatively small proportion of them occur in the southern marshes. The marshes act as key habitat for globally endangered species and as a potential for as yet unexplored amphibian and reptile diversity. Despite the lack of precise localities, the tree frog Hyla savignyi, the marsh frog Pelophylax ridibunda and the green toad Bufo viridis are found in the marshes. Common reptiles in the marshes include the Caspian terrapin (Clemmys caspia), the soft-shell turtle (Trionyx euphraticus), the Euphrates softshell turtle (Rafetus euphraticus), geckos of the genus Hemidactylus, two species of skinks (Trachylepis aurata and Mabuya vittata) and a variety of snakes of the genus Coluber, the spotted sand boa (Eryx jaculus), tessellated water snake (Natrix tessellata) and Gray's desert racer (Coluber ventromaculatus). More recently, a new record for the keeled gecko, Cyrtopodion scabrum and the saw-scaled viper (Echis carinatus sochureki) was reported. The IUCN Red List includes six terrestrial and six aquatic amphibian species. -
Species Diversity of Snakes in Pachmarhi Biosphere Reserve
& Herpeto gy lo lo gy o : h C it u n r r r e O Fellows, Entomol Ornithol Herpetol 2014, 4:1 n , t y R g e o l s o e Entomology, Ornithology & Herpetology: DOI: 10.4172/2161-0983.1000136 a m r o c t h n E ISSN: 2161-0983 Current Research ResearchCase Report Article OpenOpen Access Access Species Diversity of Snakes in Pachmarhi Biosphere Reserve Sandeep Fellows* Asst Conservator of forest, Madhya Pradesh Forest Department (Information Technology Wing), Satpura Bhawan, Bhopal (M.P) Abstract Madhya Pradesh (MP), the central Indian state is well-renowned for reptile fauna. In particular, Pachmarhi Biosphere Reserve (PBR) regions (Districts Hoshangabad, Betul and Chindwara) of MP comprises a vast range of reptiles, especially herpetofauna yet unexplored from the conservation point of view. Earlier inventory herpetofaunal study conducted in 2005 at MP and Chhattisgarh (CG) reported 6 snake families included 39 species. After this preliminary report, no literature existing regarding snake diversity of this region. This situation incited us to update the snake diversity of PBR regions. From 2010 to 2012, we conducted a detailed field study and recorded 31 species of 6 snake families (Boidae, Colubridae, Elapidae, Typhlopidea, Uropeltidae, and Viperidae) in Hoshanagbad District (Satpura Tiger Reserve) and PBR regions. Besides, we found the occurrence of Boiga forsteni and Coelognatus helena monticollaris (Colubridae), which was not previously reported in PBR region. Among the recorded, 9 species were Lower Risk – least concerned (LR-lc), 20 were of Lower Risk – near threatened (LR-nt), 1 is Endangered (EN) and 1 is vulnerable (VU) according to International Union for Conservation of Nature (IUCN) status. -
Low Res, 906 KB
Copyright: © 2011 Janzen and Bopage. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, Amphibian & Reptile Conservation 5(2):1-13. provided the original author and source are credited. The herpetofauna of a small and unprotected patch of tropical rainforest in Morningside, Sri Lanka 1,3PETER JANZEN AND 2MALAKA BOPAGE 1Rheinallee 13, 47119 Duisburg, GERMANY 2Biodiversity Education & Exploration Society (BEES) 63/c Wackvella road Galle 80000, SRI LANKA Abstract.—Morningside is an exceptional area in Sri Lanka with highly endemic herpetofauna. How- ever, this relictual forest area lies inside a tea plantation and is mostly lacking conservation protec- tion. Species inventories of remaining rainforest patches are currently incomplete, and information about the behavior and ecology of the herpetofauna of Morningside is poorly known. In our survey, we identified 13 amphibian species and recorded an additional two species that could not be identi- fied with existing keys. We determined 11 reptile species from this patch of forest, and another un- identifiedCnemaspis gecko was recorded. We did not assess the herpetofauna outside of this forest patch. Some species are described for the first time in Morningside, suggesting a wider distribution in Sri Lanka. We also document a call from a male Pseudophilautus cavirostris for the first time. Perspectives for future surveys are given. Key words. Survey, Morningside, Sri Lanka, herpetofauna, conservation, Pseudophilautus cavirostris Citation: Jansen, P. and Bopage, M. 2011. The herpetofauna of a small and unprotected patch of tropical rainforest in Morningside, Sri Lanka. -
Gliding Dragons and Flying Squirrels: Diversifying Versus Stabilizing Selection on Morphology Following the Evolution of an Innovation
vol. 195, no. 2 the american naturalist february 2020 E-Article Gliding Dragons and Flying Squirrels: Diversifying versus Stabilizing Selection on Morphology following the Evolution of an Innovation Terry J. Ord,1,* Joan Garcia-Porta,1,† Marina Querejeta,2,‡ and David C. Collar3 1. Evolution and Ecology Research Centre and the School of Biological, Earth and Environmental Sciences, University of New South Wales, Kensington, New South Wales 2052, Australia; 2. Institute of Evolutionary Biology (CSIC–Universitat Pompeu Fabra), Passeig Marítim de la Barceloneta, 37–49, Barcelona 08003, Spain; 3. Department of Organismal and Environmental Biology, Christopher Newport University, Newport News, Virginia 23606 Submitted August 1, 2018; Accepted July 16, 2019; Electronically published December 17, 2019 Online enhancements: supplemental material. Dryad data: https://doi.org/10.5061/dryad.t7g227h. fi abstract: Evolutionary innovations and ecological competition are eral de nitions of what represents an innovation have been factors often cited as drivers of adaptive diversification. Yet many offered (reviewed by Rabosky 2017), this classical descrip- innovations result in stabilizing rather than diversifying selection on tion arguably remains the most useful (Galis 2001; Stroud morphology, and morphological disparity among coexisting species and Losos 2016; Rabosky 2017). Hypothesized innovations can reflect competitive exclusion (species sorting) rather than sympat- have drawn considerable attention among ecologists and ric adaptive divergence (character displacement). We studied the in- evolutionary biologists because they can expand the range novation of gliding in dragons (Agamidae) and squirrels (Sciuridae) of ecological niches occupied within communities. In do- and its effect on subsequent body size diversification. We found that gliding either had no impact (squirrels) or resulted in strong stabilizing ing so, innovations are thought to be important engines of selection on body size (dragons). -
Green Sea Turtle in the New England Aquarium Has Been in Captivity Since 1970, and Is Believed to Be Around 80 Years Old (NEAQ 2013)
Species Status Assessment Class: Reptilia Family: Cheloniidae Scientific Name: Chelonia mydas Common Name: Green turtle Species synopsis: The green turtle is a marine turtle that was originally described by Linnaeus in 1758 as Testudo mydas. In 1868 Marie Firmin Bocourt named a new species of sea turtle Chelonia agassizii. It was later determined that these represented the same species, and the name became Chelonia mydas. In New York, the green turtle can be found from July – November, with individuals occasionally found cold-stunned in the winter months (Berry et al. 1997, Morreale and Standora 1998). Green turtles are sighted most frequently in association with sea grass beds off the eastern side of Long Island. They are observed with some regularity in the Peconic Estuary (Morreale and Standora 1998). Green turtles experienced a drastic decline throughout their range during the 19th and 20th centuries as a result of human exploitation and anthropogenic habitat degradation (NMFS and USFWS 1991). In recent years, some populations, including the Florida nesting population, have been experiencing some signs of increase (NMFS and USFWS 2007). Trends have not been analyzed in New York; a mark-recapture study performed in the state from 1987 – 1992 found that there seemed to be more green turtles at the end of the study period (Berry et al. 1997). However, changes in temperature have lead to an increase in the number of cold stunned green turtles in recent years (NMFS, Riverhead Foundation). Also, this year a record number of nests were observed at nesting beaches in Flordia (Mote Marine Laboratory 2013). 1 I. -
A Systematic Revision of the South American Freshwater Stingrays (Chondrichthyes: Potamotrygonidae) (Batoidei, Myliobatiformes, Phylogeny, Biogeography)
W&M ScholarWorks Dissertations, Theses, and Masters Projects Theses, Dissertations, & Master Projects 1985 A systematic revision of the South American freshwater stingrays (chondrichthyes: potamotrygonidae) (batoidei, myliobatiformes, phylogeny, biogeography) Ricardo de Souza Rosa College of William and Mary - Virginia Institute of Marine Science Follow this and additional works at: https://scholarworks.wm.edu/etd Part of the Fresh Water Studies Commons, Oceanography Commons, and the Zoology Commons Recommended Citation Rosa, Ricardo de Souza, "A systematic revision of the South American freshwater stingrays (chondrichthyes: potamotrygonidae) (batoidei, myliobatiformes, phylogeny, biogeography)" (1985). Dissertations, Theses, and Masters Projects. Paper 1539616831. https://dx.doi.org/doi:10.25773/v5-6ts0-6v68 This Dissertation is brought to you for free and open access by the Theses, Dissertations, & Master Projects at W&M ScholarWorks. It has been accepted for inclusion in Dissertations, Theses, and Masters Projects by an authorized administrator of W&M ScholarWorks. For more information, please contact [email protected]. INFORMATION TO USERS This reproduction was made from a copy of a document sent to us for microfilming. While the most advanced technology has been used to photograph and reproduce this document, the quality of the reproduction is heavily dependent upon the quality of the material submitted. The following explanation of techniques is provided to help clarify markings or notations which may appear on this reproduction. 1.The sign or “target” for pages apparently lacking from the document photographed is “Missing Pagefs)”. If it was possible to obtain the missing page(s) or section, they are spliced into the film along with adjacent pages. This may have necessitated cutting through an image and duplicating adjacent pages to assure complete continuity. -
Potential Risks of Plant Invasions in Protected Areas of Sri Lanka Under Climate Change with Special Reference to Threatened Vertebrates
Electronic Supplementary Materials Journal: Climate Potential Risks of Plant Invasions in Protected Areas of Sri Lanka under Climate Change with Special Reference to Threatened Vertebrates Champika Kariyawasam1,2,*, Lalit Kumar1 and Sujith Ratnayake1,2 Table S1. Fourteen priority IAPS used for MaxEnt model run (adapted from MMD&E [1]). NP = national park; SNR = strict nature reserve. Life form Affected climatic Referen Species Common (Year of Mechanism Impact zones (Protected ce (Family) name introductio areas) n) Reduce native Wet zone Alstonia Compete for Hard Tree species (Peak Wilderness macrophylla resources [2] milkwood (unknown) regeneration sanctuary, Sinharaja (Apocynaceae) and Hantana forests) Grow rapidly and Convert wetlands Wet zone Annona glabra Pond Tree produce high into terrestrial (Muthurajawela [3-4] (Annonaceae) apple (unknown) biomass ecosystems wetland sanctuary) Montane zone (Knuckles forest, Austroeupatoriu Inhibit natural Austroeup Shrub Exclude native Horton Plains NP, m inulifolium succession by native [5] atorium (unknown) woody species Peak wilderness (Asteraceae) species sanctuary, Hakgala SNR) Clidemia hirta Soapbush, Compete with Alter forest Wet zone (Melastomatace Koster's Herb (1894) native species in [6] regeneration (Sinharaja forest) ae) curse gaps Dillenia Alter soil physical Impact nutrient Shrubby Tree Lowland wet zone suffruticosa and chemical absorption of [7] Dillenia (1882) (Sinharaja forest) (Dilleniaceae) properties native plants Suppress undergrowth plant Shade out native species plants -
Cop18 Prop. 23
Original language: English CoP18 Prop. 23 CONVENTION ON INTERNATIONAL TRADE IN ENDANGERED SPECIES OF WILD FAUNA AND FLORA ____________________ Eighteenth meeting of the Conference of the Parties Colombo (Sri Lanka), 23 May – 3 June 2019 CONSIDERATION OF PROPOSALS FOR AMENDMENT OF APPENDICES I AND II A. Proposal To include Calotes nigrilabris and Calotes pethiyagodai, in Appendix I in accordance with Res. Conf. 9.24 (Rev CoP17): I. Calotes nigrilabris meets Annex 1, criterion A (i), (v) as well as criterion B (i), (iii), (iv) and C (i), as a range-restricted species with small populations, which are highly fragmented; an observed decline in both habitat and number of individuals as well as their vulnerability to intrinsic and extrinsic factors are documented. II. Calotes pethiyagodai meets Annex 1, criterion A (i), (v) and criterion B (iii), (iv): it has small populations, is limited to an area of occupancy of less than 25 km2, is seriously affected by habitat loss and highly vulnerable to intrinsic and extrinsic factors. B. Proponent Sri Lanka*: C. Supporting statement 1. Taxonomy 1.1 Class: Reptilia 1.2 Order: Squamata 1.3 Family: Agamidae Calotes nigrilabris (Peters 1860) Calotes pethiyagodai (Amarasinghe et al. 2014) 1.4 Genus, species or subspecies, including author and year: 1.5 Scientific synonyms: C. nigrilabris: Calotes (Bronchocele) nigrilabris (Peters 1860) C. nigrilabris: Calotes rouxii BLYTH (Smith 1935) 1.6 Common names: English: * The geographical designations employed in this document do not imply the expression of any opinion whatsoever on the part of the CITES Secretariat (or the United Nations Environment Programme) concerning the legal status of any country, territory, or area, or concerning the delimitation of its frontiers or boundaries. -
Chec List Amphibians and Reptiles, Romblon Island
Check List 8(3): 443-462, 2012 © 2012 Check List and Authors Chec List ISSN 1809-127X (available at www.checklist.org.br) Journal of species lists and distribution Amphibians and Reptiles, Romblon Island Group, central PECIES Philippines: Comprehensive herpetofaunal inventory S OF Cameron D. Siler 1*, John C. Swab 1, Carl H. Oliveros 1, Arvin C. Diesmos 2, Leonardo Averia 3, Angel C. ISTS L Alcala 3 and Rafe M. Brown 1 1 University of Kansas, Department of Ecology and Evolutionary Biology, Biodiversity Institute, Lawrence, KS 66045-7561, USA. 2 Philippine National Museum, Zoology Division, Herpetology Section. Rizal Park, Burgos St., Manila, Philippines. 3 Silliman University Angelo King Center for Research and Environmental Management, Dumaguete City, Negros Oriental, Philippines. * Corresponding author. E-mail: [email protected] Abstract: We present results from several recent herpetological surveys in the Romblon Island Group (RIG), Romblon Province, central Philippines. Together with a summary of historical museum records, our data document the occurrence of 55 species of amphibians and reptiles in this small island group. Until the present effort, and despite past studies, observations of evolutionarily distinct amphibian species, including conspicuous, previously known, endemics like the forestherpetological frogs Platymantis diversity lawtoni of the RIGand P.and levigatus their biogeographical and two additional affinities suspected has undescribedremained poorly species understood. of Platymantis We . reportModerate on levels of reptile endemism prevail on these islands, including taxa like the karst forest gecko species Gekko romblon and the newly discovered species G. coi. Although relatively small and less diverse than the surrounding landmasses, the islands of Romblon Province contain remarkable levels of endemism when considered as percentage of the total fauna or per unit landmass area. -
Biology, Husbandry, and Reproduction of Freshwater Stingrays
Biology, husbandry, and reproduction of freshwater stingrays. Ronald G. Oldfield University of Michigan, Department of Ecology and Evolutionary Biology Museum of Zoology, 1109 Geddes Ave., Ann Arbor, MI 48109 U.S.A. E-mail: [email protected] A version of this article was published previously in two parts: Oldfield, R.G. 2005. Biology, husbandry, and reproduction of freshwater stingrays I. Tropical Fish Hobbyist. 53(12): 114-116. Oldfield, R.G. 2005. Biology, husbandry, and reproduction of freshwater stingrays II. Tropical Fish Hobbyist. 54(1): 110-112. Introduction In the freshwater aquarium, stingrays are among the most desired of unusual pets. Although a couple species have been commercially available for some time, they remain relatively uncommon in home aquariums. They are often avoided by aquarists due to their reputation for being fragile and difficult to maintain. As with many fishes that share this reputation, it is partly undeserved. A healthy ray is a robust animal, and problems are often due to lack of a proper understanding of care requirements. In the last few years many more species have been exported from South America on a regular basis. As a result, many are just recently being captive bred for the first time. These advances will be making additional species of freshwater stingray increasingly available in the near future. This article answers this newly expanded supply of wild-caught rays and an anticipated increased The underside is one of the most entertaining aspects of a availability of captive-bred specimens by discussing their stingray. In an aquarium it is possible to see the gill slits and general biology, husbandry, and reproduction in order watch it eat, as can be seen in this Potamotrygon motoro. -
Borneo) in Two Different Ways
Contributions to Zoology, 78 (4) 141-147 (2009) Estimating the snake species richness of the Santubong Peninsula (Borneo) in two different ways Johan van Rooijen1, 2, 3 1 Zoological Museum Amsterdam, Mauritskade 61, 1092 AD Amsterdam, The Netherlands 2 Tulpentuin 313, 2272 EH Voorburg, The Netherlands 3 E-mail: [email protected] Key words: Chao I estimator, negative exponential function, rarefaction curve, Santubong Peninsula Borneo, snakes, species richness, Weibull function Abstract stantial investments in terms of search effort. This is particularly true for snakes which are hard to find (e.g. The distribution of Borneo’s species across the island is far Lloyd et al., 1968; Inger and Colwell, 1977; Hofer and from well-known. This is particularly true for snakes which are hard to find. Given the current rate of habitat destruction and Bersier, 2001; Orlov et al., 2003). As a consequence, consequent need for conservation strategies, more information estimation techniques are of interest when the intend- is required as to the species composition and richness of spe- ed objective is to assess species richness, an elemen- cific areas of potential conservation priority. An example is the tary criterion conservationists may use when identify- Santubong Peninsula, Sarawak, Malaysia, part of which has re- ing priority areas. One such estimation technique con- cently been gazetted as a National Park. In this paper, the snake species richness of the Santubong Peninsula is estimated on the sists of extrapolating the species accumulation curve. basis of data obtained during 450 survey-hours. Thirty-two spe- Species accumulation curves are regularly applied in cies were recorded. -
Microhabitat Preferences and Associated Behavior Patterns Of
Journal of Entomology and Zoology Studies 2019; 7(4): 924-928 E-ISSN: 2320-7078 P-ISSN: 2349-6800 Microhabitat preferences and associated behavior JEZS 2019; 7(4): 924-928 © 2019 JEZS patterns of endemic pigmy lizard: Cophotis Received: 13-05-2019 Accepted: 16-06-2019 ceylanica in Horton plains, Sri Lanka WLR Keerthirathna Department of Zoology, University of Sri WLR Keerthirathna and WAD Mahaulpatha Jayewardenepura, Sri Lanka Abstract WAD Mahaulpatha The pigmy lizard (Cophotis ceylanica) is an endangered and rare lizard species endemic to Sri Lanka, yet Department of Zoology, University of Sri no studies exist on its microhabitat preferences. Therefore, the present study was carried out in the Cloud Jayewardenepura, Sri Lanka Forests of the Horton Plains National Park (HPNP) with the aim of addressing this knowledge gap in their ecology. Microhabitat variables were measured placing 1x1 m quadrates marking the point of each lizard sighting as the center and microhabitat details including perch plant characteristics, soil characteristics and environmental parameters were recorded. Highest number of individuals were seen on Sarcococca brevifolia (1.167±0.937) plant species. Total of 78.13%, C. ceylanica were observed perching on branches rather than on trunks or leaves. Highest percentage of pigmy lizards (48.87%) was recorded in the branches where the moss cover was between 50% - 75% and the lowest of 12.50% was recorded where the moss cover was less than 25%. Highest percentage of 71.88% of C. ceylanica were recorded perching in the height category of 2-3 m of perching plants. No individuals were recorded up to 1m from ground level.