ORIGINAL_ARTICLE
Description of Trithornus aquatica gen. n. sp. n. (Nemtoda:Cephalobina) from aquatic habitat, India.
Abstract: A new cephalobid nematode, Trithornus aquatica gen. n. sp. n. has been described and illustrated. The new genus can be distinguished by the unique shape of its labial probolae, consisting of swollen labial shaft and a trifurcated apical section. The cephalic probolae is triangular in shape. Cuticle is transversely annulated, lateral field with five incisors, outer ones being undulate. The stoma comprises of cheilostom with granular rhabdia, gymnostom narrower than cheilostom and stegostom. Stegostome can be differentiated into three parts meta, meso and telo. A tooth is present on mesostegostome. Females have cephaloboid type of reproductive system. Tail is elongate conoid with a pointed tip. Males were not found. The newly described genus closely resembles Acrobeles Linstow, 1877, Chiloplacus Thorne, 1937 and Cervidellus Thorne, 1937 in having similar stoma, furcated labial probolae, simple cuticle and cephaloboid type of female gonad with a post uterine sac. But, is clearly distinguishable by the related genera on the basis of the shape of labial probolae and the presence of outer undulated lateral lines. A dichotomous key to the identification of the genus has also been provided.
https://ijab.um.ac.ir/article_28714_3dd96ac97082bd57a6df3c690b3068f3.pdf
2017-12-01
1
8
10.22067/ijab.v12i2.56632
Aquatic
Cephalobidae
Cephalobina
Trithornus
taxonomy
India
Nadia
Sufyan
nadia.sufyan@gmail.com
1
aligarh muslim university
LEAD_AUTHOR
Ali, M.A.S., Krishnamurthy, K., M.J.P. Jeyaseelan (1983) Energy flow through the benthic ecosystem of the mangrove with special reference to nematodes. Mahasagar, Bulletin of the National Institute of Oceanography 16: 317-325.
1
Allen, M.W., Noffsinger, E.M., 1971. Nothacrobeles gen. n., with description of four new species (Nematoda: Cephalobidae). Journal of Nematology 3, 145-153.
2
Andrassy, I., 1984. Klasse Nematoda (Ordungen Monhysterida, Desmoscolecida, Araeolaimida, Chromadorida, Rhabditida). Gustav Fischer Verlag. Stuttgart, 509.
3
Andrassy, I., 2007. Free-living nematodes of Hungary, (NematodaErrantia). Pedozoologica Hungarica 2nd eds. IstvanMataskasi, Budapest, Hungary.
4
Cobb, N A., 1924. Amended characterization of the nemic genera Cephalobus and Acrobeles. Journal of Parasitology 11, 108.
5
De Maeseneer, J., de Herde, J., 1963.Methodesutilisees pour l’etude des anguilluleslibresdu sol. Revue d’Agriculture 16, 441-447.
6
Flegg, J.J.M., 1967. Extraction of Xiphinema and Longidorus species from soil by a modification of Cobb’s decanting and sieving technique. Annals of Applied Biology 60, 420– 437.
7
Heyns, J., 1968. Paracrobeles laterellus n. gen., n. sp. from South Africa (Nematoda: Cephalobidae). Nematologica 14, 511-514.
8
Heyns, J., 1994. Chiloplacoides antarcticus n. gen., n. sp. from western Dronning Maud Land, Antarctica (Nematoda :Cephalobidae). Fundamental and applied nematology17, 333-338
9
Holovachov, O., Boström, S., Susulovsky, A., 2001. Description of Acroukrainicus sagittiferus gen. n. sp. n. (Nematoda: Cephalobidae) from the area of an old sulphur industry in Ukraine. Russian Journal of Nematology 9, 51-56.
10
Linstow, O. Von., 1876. Helminthologische Beobachtungen. Archiv Naturgeschichte 42, 1-18.
11
Thorne, G., 1937. A revision of me nematode family Cephalobidae Chitwood and Chitwood, 1934. Proceeding of the helminthological Society Washington 4, 1-16.
12
Timm, R.W., 1971. Antarctic soil and freshwater nematodes from the McMurdo Sound Region. Proceedings of the Helminthological Society of Washington 38, 42-52.
13
ORIGINAL_ARTICLE
Heteroptera fauna in alfalfa fields of Ghaen and vicinity, South Khorasan province, with a new record for Iran
Heteroptera as one of the most important insect orders with a significant ecological role is still scarcely known faunistically in several areas of Iran. In order to contribute to the knowledge of the Iranian Heteroptera fauna, a survey was carried out to provide detailed information on the distribution of true bugs in South Khorasan province (Ghaen and vicinity). Samples were collected using aspirator and sweeping net by irregular patterns. In total, 136 specimens were collected and identified. They consisted of 20 species and subspecies belonging to 15 genera of 7 families. Among the collected specimens, 19 taxa were new for South Khorasan fauna including Orius albidipennis (Reuter) (Anthocoridae); Henestaris halophilus (Burmeister), Geocoris pallidipennis (Costa) (Lygaeidae); Lygus gemellatus (Herrich-Schäffer), Deraeocoris punctulatus (Fallén), Adelphocoris lineolatus (Goeze), Creontiades pallidus (Rambur), Stenodema calcarata (Fallén), Orthops campestris (Linnaeus), O. pilosulus (Jakovlev) (Miridae); Nabis palifera (Seidenstűcker), N. pseudoferus orientarius (Remane), N. punctatus (A. Costa), N. capsiformis (Germar) (Nabidae); Camptopus lateralis (Germar) (Alydidae); Coranus angulatus (Stål) (Reduviidae); Brachycarenus tigrinus (Schilling), Liorhyssus hyalinus (Fabricius) and Stictopleurus abutilon (Rossi) (Rhopalidae). S. trispinosa (Reuter) was a new record for the fauna of Iran. Among the collected specimens, 7 species were predators and 13 species were plant feeders. Regarding the rare faunistic studies of Heteroptera in South Khorasan province and concerning the variety of geographical elements in this area, it is expected that there are still a large number of true bugs species remain to be discovered in various parts of this province.
https://ijab.um.ac.ir/article_28744_5e46c52f4ef02adf096a8fcb5c997c2b.pdf
2017-12-01
9
21
10.22067/ijab.v13i1.58649
Alfalfa
Heteroptera
South Khorasan
New record
Marzieh
Mohammadpour
mohamadpour1367@gmail.com
1
Ferdowsi University of Mashhad
AUTHOR
Mojtaba
Hosseini
m.hosseini@um.ac.ir
2
Ferdowsi University of Mashhad
LEAD_AUTHOR
Armand
Matocq
matocq.armand@wanadoo.fr
3
Muséum National d'Histoire Naturelle
AUTHOR
Lida
Fekrat
fekrat@um.ac.ir
4
Ferdowsi University of Mashhad
AUTHOR
Alfken, J.D., 1935. Beitrag zur Kenntnis der Bienenfauna von Persien. Mitteilungen aus dem Entomologischen Verein in Bremen 23, 21-24.
1
Askari, O., Farshbaf Pour-Abad, R., Khaganinia, S., 2009. Faunistic study of Heteroptera of Zanjanroud region in Zanjan province of Iran. Munis Entomology and Zoology 4, 560-563.
2
Aubourg, J.B., Streito, J.C., 2013. Confirmation de la presence en France de Stenodema (Brachystira) trispinosa Reuter, 1904: elements de reconnaissance et precisions sur sa biologie (Hemiptera Miridae Mirinae). L'Entomologiste 69, 273-282.
3
Aukema, B., Rieger, C., Rabitsch, W., 2013. Catalogue of the Heteroptera of the Palaearctic Region. Vol. 6. Supplement. Netherlands Entomological Society. Ponsen & Looijen, Wageningen, 628 pp.
4
Barahoei, H., Rakhshani, E., Fathabadi, K., Moradpour, H., 2014. A survey on the fauna of Ichneumonidae (Hymenoptera) associating with alfalfa fields of Khorasan Razavi province. Iranian Journal of Animal Biosystematics 10(2), 145-160.
5
Chaplin, N., 2009. The world Mirids. last update 22 December 2009. (http://www.faunaeur.org).
6
Coscaron, MDC., Braman, SK., Cornelis, M., 2015. Damsel bugs (Nabidae). In: Panizzi, AR., Grazia, J. (Eds.), True Bugs (Heteroptera) of the Neotropics, Netherlands, pp. 287–305.
7
Dolling, WR., 2006. Family Rhopalidae Amyot & Serville, 1843. In: Aukema, B., Rieger, Chr. (Eds.), Catalogue of the Heteroptera of the Palaearctic Region. Pentatomomorpha II. Netherlands Entomological Society 5, 8-27.
8
Ebrahimi, A., Hosseini, R., Vafai Shoushtari, R., 2012. A faunal study of plant bugs (Hemiptera: Miridae) in Ghorveh and its counties (kordestan province, Iran). Entomofauna 33, 25-40.
9
Gharaat, M. A., Hassanzadeh, M., Safaralizadeh, M. H., Fallahzadeh, M., 2009. Notes on the true bug (Heteroptera) fauna of Azerbaijan province, Iran. Turkish Journal of Zoology 33, 421-431.
10
Havaskary, M., Hossein Pour, F., Modarres Awal, M., 2010. Cimicomorpha and Pentatomomorpha (Heteroptera) of alfalfa from Mashhad and vicinity, NE Iran. Munis Entomology & Zoology 5, 253-261.
11
Havaskary, M., Farshbaf Pour-Abad, R., Kazemi, M.H., Refeii, A., Havaskary, S., 2012. An investigation to the fauna of Cimicomorpha (Heteroptera) from Parsabad-e-Moghan and vicinity, NW Iran. Munis Entomology & Zoology 7, 1101-1105.
12
Hoberlandt, L., 1956. Results of the zoological scientific expedition of the National Museum in Praha to Turkey. 18. Hemiptera IV. Terrestrial Hemiptera-Heteroptera of Turkey. Acta Entomologica Musei Nationalis Pragae 3, 1-264.
13
Hosseini, R., 2013. On the tribe Dicyphini (Hemiptera: Heteroptera: Miridae: Bryocorinae) in Guilan province and adjacent area (Iran). Entomofauna 34, 157-158.
14
Hosseini, R., 2014. On the genus Adelphocoris (Hemiptera: Miridae) in Guilan province (Iran) and its adjacent areas. Entomofauna 35, 413-421.
15
Jung, S., Kim, J., 2015. Insect Fauna of Korea. Arthropoda: Insecta: Hemiptera: Miridae. Mirinae. National Institute of Biological Resources, Hwangyeongro, Seo-gu, Korea.
16
Karimian, Z., Khormali, S., 2006. Identification the cotton damaging bugs and determining the abundance of major species in different microclimate of Golestan province. Proceeding of the 17th Iranian Congress; 2-5 Sept. 2006, Karaj, Iran. Tehran University Press.
17
Kerzhner, I.M., 1987. Results of the Czechoslovak-Iranian entomological expeditions to Iran 1970, 1973 and 1977. Heteroptera, Nabidae. Acta Entomologica Musei Nationalis Pragae 42, 379-390.
18
Kerzhner, I., 1996. Family Nabidae A. Costa 1983–damsel bugs. Catalogue of the Heteroptera of the Palaearctic Region 2, 84-107.
19
Khaghaninia, S., Askari, O., Farshbaf Pour-Abad, R., Shahim, K., 2010. Some additional notes about Heteroptera fauna of Qaradag forests-Iran. Munis Entomology & Zoology 5, 513-518.
20
Khanjani, M., 2005. Field Crop Pests in Iran (3rdedition). Bu-Ali Sina University Publication, Iran. 732 pp.
21
Kiritshenko, A., 1966. Hemiptera-Heteroptera collected by DM Steinberg in Iran in 1955. Entomologicheskoe Obozrenie 45, 798-805.
22
Küçükbasmaci, İ., Kiyak, S., 2015. A Study on the Fauna of Heteroptera of Ilgaz Mountains (Kastamonu, Çankırı) With a New Record for Turkey. Nevşehir Bilim ve Teknoloji Dergisi 4(1), 1-33.
23
Linnavuori, R., 1961. Hemiptera of Israel II. Annales Zoologici Societatis 22, 1–51.
24
Linnavuori, R., Hosseini, R., 2000. Heteroptera of Guilan with remarks on species of the adjacent areas. Part 1. Guilan University Publication, Rasht, Iran.
25
Linnavuori, R.E., 2009. Studies on the Nepomorpha, Gerromorpha, Leptopodomorpha, and Miridae excluding Phylini (Hemiptera: Heteroptera) of Khuzestan and the adjacent provinces of Iran. Acta Entomologica Musei Nationalis Pragae 49(1), 1–32.
26
Linnavuori, R.E., 2011. Studies on the Cimicomorpha and Pentatomomorpha (Hemiptera: Heteroptera) of Khuzestan and the adjacent provinces of Iran. Acta Entomologica Musei Nationalis Pragae 51, 21-48.
27
Malvandi, A., Hosseini, R., Hajizadeh, J., 2015. A preliminary study on the Miridae (Hemiptera) fauna in Sabzevar and its counties (Razavi Khorasan, Iran). Acta entomologica Serbica 20, 1-11.
28
Mirab-Balou, M., Khanjani, M., Zolfaghari, M., 2007. The preliminary study of true bugs (Hemiptera: Heteroptera) fauna in the alfalfa field of Hamadan province (Western Iran). Pakistan Entomologist 29, 5-8.
29
Modarres Awal, M., 1997a. List of agricultural pests and their natural enemies in Iran. Ferdowsi University Press 147, 429.
30
Modarres Awal, M., 1997b. Studies on some of Miridae, Reduviidae and Tingidae fauna in north of Khorasan province. Agricultural Science & Technology University of Mashad 1, 89-96.
31
Modarres Awal, M., 2008. Contribution to the Heteroptera fauna of Khorasan Razavi province of Iran. Turkish Journal of Entomology 32 (4), 243–253.
32
Moulet, P., 1995. Hemiptères Coreoidea (Coreidae, Rhopalidae, Alydidae), Pyrrhocoridae, Stenocephalidae euro-mediterraneens. Federation Francaise des Societes de Science Naturelles, Paris.
33
Pericart, J., 1998. Hemiptères Lygaeidae euro-mediterraneens (Vol. 2). Federation Francaise des Societes de Science Naturelles, Paris.
34
Pučkov, PV., Moulet, P., 2009. Hemiptères Reduviidae d'Europe occidentale. Federation Francaise des Societes de Sciences Naturelles, Paris.
35
Razmjoo, M., Zand, AJ., Nejhad, F., Jafarpour, M., 2011. Study on Heteroptera in biotope of alfalfa fields in Isfahan province. Landscape 32, 253-260.
36
Razmjoo, M., 2012. A Faunistic Survey of Hemiptera-Heteroptera Found in Isfahan Hay Alfalfa. Journal of Research in Agricultural Science 8, 89-92.
37
Sakenin, H., Samin, N., Rastegar, J., Havaskary, M., Imani, S., Linnavuori, R., 2010. A faunistic survey on Heteroptera (Insecta) of Western Iran. Linzer Biologische Beiträge 42, 861-872.
38
Schiller, F., 2003. Six species of Nabidae (Heteroptera) were collected by standardized sweep net sampling in alfalfa. Journal of Applied Entomology 27, 221-227.
39
Seidenstücker, G., 1957. Heteropteren aus Iran 1954. I. Teil Hemiptera-Heteroptera (ohne Fam. Miridae). Jahreshefte des Vereins für Vaterländische Naturkunde im Württemberg 112, 66-73.
40
Shamsi, M., 2014. Checklist of the subfamilies Mirinae and Orthotylinae (Hemiptera: Heteroptera: Miridae) in western parts of Kerman Province, Iran. Arthropods 3(1), 48.
41
Slater, JA., 1964. A Catalogue of the Lygaeidae of the World. University of Connecticut, Storrs: Conn.
42
Solhjouy Fard, S., Sarafrazi, A., 2014. Potential impacts of climate change on distribution range of Nabis pseudoferus and N. palifer (Hemiptera: Nabidae) in Iran. Journal Of Entomological Science 17(3), 283-292.
43
Wagner, E., 1974. Die Miridae Hahn, 1831, des Mittelmeerraumes und der Makaronesischen Inseln (Hemiptera, Heteroptera). Teil 2. Entomologische Abhandlungen, 39, 1-421.
44
Wilson, EO., 1992. The Diversity of Life. Belknap Press of Harvard University Press, Cambridge, MA.
45
Yesenbekova, PA., 2011. Fauna of Heteroptera in the deserts of Kazakhstan. Journal of Arid Land 3,303–305.
46
ORIGINAL_ARTICLE
Sexual Dimorphism in Trapelus ruderatus ruderatus (Olivier, 1804) (Sauria: Agamidae) in Southern Iraq
Sexual dimorphism in 45 ( 27 males, 18 females ) specimens of Trapelus ruderatus ruderatus was studied in specimens collected from three localities: Bahr AL-Najaf, AL-Najaf Province; Albedhan village, Said dekheel county, Dhi-Qar Province and Khor AL-Zubair, AL-Basra Province, southern Iraq. Of 23 studied characters in males and females, statistical analysis using SPSS software version 20.00 showed significant differences in 11, out of 23, characters (male-biased): SVL, TL, HW, HH, DCC, RP, NP, CT, VL, AbnL and LHS. In comparison to females, males had different color pattern, much darker and more developed gular folds and darker ventral regions.
https://ijab.um.ac.ir/article_28782_0cc2b7532c1452ad561d5bc546bbc6b7.pdf
2017-12-01
23
31
10.22067/ijab.v12i2.45710
rapelus ruderatus ruderatus
sexual size dimorphism
Coloration
Ornamentation
AL-Najaf
Dhi-Qar
AL-Basra
Rihab
Ghaleb Mohammed
rihabgaleb@yahoo.com
1
Department of Biology, Faculty of Science
AUTHOR
Nasrullah
Rastegar-Pouyani
nasrullah.r@gmail.com
2
Department of Biology, Faculty of Science
AUTHOR
Rasoul
Karamiani
r.karamiani@razi.ac.ir
3
Department of Biology, Faculty of Science
LEAD_AUTHOR
Fadhil Abbas
Rhadhi
fadelalshamary@yahoo.com
4
Department of Biology, Faculty of Science
AUTHOR
Andersson, M., 1994. Sexual Selection. Princeton University Press, Princeton, NJ, USA.
1
Andersson, S.C., 1999. The Lizards of Iran. Society for the study of Amphibians and Reptiles, Oxford, Ohio.
2
Brandt, Y., Andrade, M.C.B., 2007. Testing the gravity hypothesis of sexual size dimorphism: are small males faster climbers? Ecological Society, Functional Ecology, 21, 379-385.
3
Calsbeek, R., Smith, T.B., 2003. Ocean currents mediate evolution in island lizards. Nature 426, 552-555.
4
Cheatsazan, H., Kami, H.G., Kiabi, B.H., Rabani, V., 2006. Sexual dimorphism in the Caucasian Rock Agama, Laudakia caucasia (Sauria: Agamidae), Zoology in the Middle East 39, 63–68.
5
Collar, D.C., Schulte, J.A., Meara, D.C.O., Loso, J.B., 2010. Habitat use affects morphological diversification in dragon lizards. Journal of Evolutionary Biology 23, 1033-1049.
6
Cox, R.M., Zilberman, V., John-Alder, H.B., 2006.
7
Environmental sensitivity of sexual size dimorphism: laboratory common garden removes effects of sex and castration on lizard growth. Functional Ecology 20, 880–888
8
Endler, I.A., 1983. Natural and sexual selection on color patterns in poecilied fishes. Environmental Biology of Fishes 9,173-190.
9
Fathenia, B., Rastegar-Pouyani, N., 2011. Sexual dimorphism in Trapelus ruderatus ruderatus (Sauria: Agamidae) with notes on the natural history. Amphibian and Reptile Conservation 5, 15-22
10
Fathenia, B., Rastegar-Pouyani, N., Mohamadi, H., 2011. Sexual dimorphism in Carinatogecko heteropholis (Minton, Anderson, and Anderson, 1970) (Sauria: Gekkonidae) from Ilam Province, western Iran. Amphibian and Reptile Conservation 5(1), 47-53.
11
Kratochvil, L., Fokt, M., Rehak, I., Frynta, D., 2003. Misinterpretation of character scaling: a tale of sexual dimorphism in body shape of common lizards. Canadian Journal of Zoology 81, 1112–1117.
12
Kuo, C., Lin, Y., Lin, Y., 2009. Sexual size and shape dimorphism in an Agamid lizard, Japalura swinhonis (Squamata: Lacertilia: Agamidae). Zoological Studies 48(3), 351-361.
13
Rastegar-Pouyani, N., 1999. Analysis of geographic variation in the Trapelus agilis complex (Sauria: Agamidae). Zoology in the Middle East 19, 75-99
14
Rastegar-Pouyani, N., 2000. Taxonomic status of Trapelus ruderatus (Olivier) and T. persicus (Blanford), and validity of T. lessonae (De Filippi). Amphibia- Reptilia 21, 91-102
15
Rastegar-Pouyani, N., 2005. A multivariate analysis of geographic variation in the Trapelus agilis complex (Sauria: Agamidae). Amphibia-Reptilia 26, 159-173
16
Rastegar-Pouyani, N., Johari, S.M., Rastegar-Pouyani, E., 2007. Field guide to the reptiles of Iran Lizards. Vol.1. 2nd ed. Kermanshah, 139 pp. + 119 plates.
17
Shine, R., Harlow, P.S., Keogh, J.S., Boeadi, S., 1998. The allometry of life-history traits: insight from a study of giant snakes (Python reticulatus). Journal of Zoology 244(3), 405-414.
18
Stuart-Fox, D.M., Ord, T.J., 2004. Sexual selection, natural selection and the evolution of dimorphic coloration and ornamentation in agamid lizards. Proceedings of the Royal Society of London B 271, 2249–2255
19
Torki, F., 2007. Sexual dimorphism in the banded dwarf gecko Tropiocolotes helenae fasciatus (Gekkonidae) on the western Iranian plateau. Zoology in the Middle East 40, 33-38.
20
Wiens, J. J., 2001. Widespread loss of sexually selected traits: how the peacock lost its spots. Trends in Ecology & Evolution 16, 517–523.
21
ORIGINAL_ARTICLE
Description of Pristionchus stercoraris sp. n. and first report of Tylopharynx foetida from India (Nematoda: Diplogastrina)
Pristionchus stercoraris sp. n. and Tylopharynx foetida (Bütschli, 1874) Goffart, 1930 of the suborder Diplogastrina are described and illustrated in detail. Both the species were isolated from farmyard manure collected from Baramulla, Jammu & Kashmir, India. P. stercoraris sp. n. is characterized by faint annulations on cuticle, steno– as well as eurystomatous types of stoma, thin-walled cheilostom, long elongate cardia, slender spicules with slightly anteriorly curved distal tip, a boat-shaped gubernaculum with a medial dorsal convex; proximally with an anteriorly directed needle-like extension and distally with a sleeve and eight pairs of genital papillae. Measurements and descriptions of our specimens of T. foetida agree well with that of Bütschli (1874). However, slight differences were observed in the length of stoma, tail, anal body diameter, anterior pharynx, and in the position of excretory pore. No species of both Pristionchus and Tylopharynx have so far been reported from India.
https://ijab.um.ac.ir/article_28818_1a9dc2d60cb54858332b9eccbb4f4840.pdf
2017-12-01
33
40
10.22067/ijab.v13i1.58156
Descriptions
Farmyard manure
first report
new species
Pristionchus
taxonomy
Tylopharynx
Gazala
Yousuf
ghazala.yousuf@gmail.com
1
Aligarh Muslim University
AUTHOR
M
Mahamood
mmahamood@gmail.com
2
Glocal University
LEAD_AUTHOR
Andrassy I., 1984. Klasse Nematoda. Gustav Fischer Verlag. Stuttgart, Germany, 509 p.
1
Bütschli O., 1974. Zur Kenntniss der freilebenden Nematoden insbesondere der des Keiler Hafens. Abhandlungen der Senckenbergischen naturforschenden Gesellschaft 9, 1–56.
2
De Ley, P., De Grisse A.T., Van De Velde M.C., COOMANS, A., 1993. Ultrastructure of the stoma in Tylopharynx. Mededelingen Fakulteit Landbouwwetenschappen Universiteit Gent 58, 763–777.
3
Eizinger, A., Jungblut, B., Sommer, R.J., 1999. Evolutionary change in the functional specificity of genes. Trends in Genetics 15, 197–202.
4
Fedorko, A., Stanuszek, S., 1971. Pristionchus uniformis sp. n. (Nematoda, Rhabditida, Diplogasteridae) a facultative parasite of Leptinotarsa decemlineata Say and Melolontha melolontha L. in Poland. Morphology and biology, Acta Parasitologica Polonica 19, 95–112.
5
Fürst von Lieven, A., 2002. Functional morphology, origin and phylogenetic implications of the feeding mechanism of Tylopharynx foetida (Nematoda: Diplogastrina). Russian Journal of Nematology 10, 11–23
6
Herrmann, M., Mayer, W.E., Sommer, R.J., 2006. Nematodes of the genus Pristionchus are closely associated with scarab beetles and the Colorado potato beetle in Western Europe. Zoology 109, 96–108.
7
Kanzaki, N., Ragsdale, E.J., Herrmann, M., Sommer, R.J., 2012. Two New species of Pristionchus (Rhabditida: Diplogastridae): P. fissidentatus n. sp. from Nepal and La Re´union Island and P. elegans n. sp. from Japan. Journal of Nematology 44, 80–91.
8
Maggenti, A., 1963. Comparative morphology in nemic phylogeny. In: Dougherty, E.C. (Ed.). The lower Metazoa, comparative biology and phylogeny. Berkeley, USA. University of California Press 273–282 p.
9
Maupas, E., 1919. Essais d’hybridation chez les ne´matodes. Bulletin Biologique de la France et de la Belgique 52, 466–498.
10
Paramonov, A.A. 1952. Opyt ekologicheskoi klassificatsii fitonematod. [Ecological classification of plant nematodes.] Trudy Zoologiceskogo Instituta Academia Nauk SSSR (Moskva) 9, 602–612.
11
Sommer, R.J., 2000. Evolution of nematode development. Current Opinion in Genetics and Development 10, 443–448.
12
Sommer, R.J., Carta, L.K., Kim, S.Y., Sternberg, P.W., 1996. Morphological, genetic and molecular description of Pristionchus pacificus sp. n. (Nematoda: Neodiplogastridae). Fundamental and applied Nematology 19, 511–521.
13
Sudhaus, W., Fürst von Lieven, A., 2003. A phylogenetic classification and catalogue of the Diplogastridae (Secernentea, Nematoda). Journal of Nematode Morphology and Systematics 6, 43–90.
14
Wu, J., De Ley, P., Liang, Y., 2001. Description of a New species of the genus Tylopharynx (Nemata: Diplogasteroidea), T. clariamphida sp. n., with a redescription of T. foetida (Bütschli, 1874) Goffart. 1930. Journal of Nematology 33, 83–90.
15
ORIGINAL_ARTICLE
Diversity and distribution of porcelain crabs of Gujarat, India
Present paper reports four species of porcelain crabs in three genera from the Gujarat coast, India. Ancylocheles gravelei (Sankolli, 1963), Pisidia dehaanii (Krauss, 1843), P. gordoni (Johnson, 1970) and Polyonyx hendersoni Southwell, 1909 are reported from the Gujarat coast for the first time. Twelve porcellanid species are known from the Gujarat coast, including four species reported in this paper.
https://ijab.um.ac.ir/article_28852_4e4673ee92a31dce3170f4a890064209.pdf
2017-12-01
41
51
10.22067/ijab.v13i1.58903
Crustacea
Anomura
Porcellanidae
distribution
Gujarat
Imtiyaz
Beleem
imtiyazbelim7@gmail.com
1
Maharaja Krishnakumarsinhji Bhavnagar University Bhavnagar
AUTHOR
Paresh
Poriya
pareshporiya@gmail.com
2
Maharaja Krishnakumarsinhji Bhavnagar University Bhavnagar
AUTHOR
Bharatsinh
Gohil
bharatsinhmgohil@gmail.com
3
Maharaja Krishnakumarsinhji Bhavnagar University Bhavnagar
LEAD_AUTHOR
Ahmed, M., Mustaquim, J. 1974. Population structure of four species of porcellanid crabs (Decapoda: Anomura) occurring on the coast of Karachi. Marine Biology 26, 173–182.
1
Beleem, I.B., Yogesh Kumar, J.S., Satyanarayana, Ch., Venkataraman, K. and Kamboj, RD. 2014. Distribution of Marine Crabs from the Marine National Park, Gulf of Kutch. Scholars Academic Journal of Biosciences 2(7), 419-427.
2
Beleem, I., Poriya, P., Gohil, B. 2016. Porcelain crabs (Crustacea: Decapoda: Anomura) of western coast of India. Marine Biodiversity Records 9(43), 1-7.
3
Denny, Mark W. and Gaines, Steven D. 2007. Encyclopedia of Tidepools and Rocky Shores. Berkeley, CA: University of California Press, 735 pp. 736 illustrations.
4
Dolorosa, RG., Werding, B. 2014. A new mangrove-inhabiting porcelain crab of the genus Enosteoides (Crustacea: Decapoda: Anomura) from Puerto Princesa Bay, Palawan, the Philippines. Bulletin of Marine Science; 90 (3):865–72.
5
Gravely, F.H. 1927. The littoral fauna of Krusudai Island in the Gulf of Mannar, orders Decapoda (except Paguridae) and Stomatopoda. Bulletin of the Madras Government museum 1, 135-155, pls. 19-26.
6
Haig, J. 1964. Porcellanid Crabs from the Indo-West Pacific, Part I, papers from Dr. Th. Mortensen's Pacific Expedition 1914–1916. 81. Videnskabelige Meddelelser Dansk Naturhistrisk Forening i Kjøbenhavn; 126:355–86.
7
Haig, J. 1978. Contribution toward a revision of the procellanid genus Porcellana (Crustacea: Decapoda: Anomura). Proceedings of the Biological Society of Washington 91(3): 706-714.
8
Haig, J, 1981. Porcellanid crabs from the Indo-West Pacific, Part II. Steenstrupia, Zoological Museum University of Copenhagen, 7 (12), 269-291.
9
Heller, C. 1862. Neue Crustaceen, gesammelt wahrend der Weltumseglung der k. k. Fregatte Novara. Zweiter vorläufi ger Bericht. Verhandlungen der Kaiserlich-Königlichen Zoologisch-Botanischen Gesellschaft in Wien 12, 519-528.
10
Heller, C. 1865. Reise der öesterreichischen Fregatte «Novarra» um die Erde, in den Jahren 1857, 1858, 1859, unter den Befehlen des Commodore B. von Wüllerstorf-Urbair. Zoologischer Theil, 2, part 3. Wien: Kaiserlich-königlichen Hof- und Staatsdruckerei. 280 pp.
11
Hiller, A., Harkantra, S., Werding, B. 2010. Porcellanid crabs from Goa, eastern Arabian Sea (Crustacea: Decapoda: Porcellanidae). Journal of Bombay Natural History Society 107(3), 201-212.
12
Henderson, J.R. 1893. A contribution to Indian Carcinology. Transactions of the Linnean Society of London 5: 325–458, pls. 36–40.
13
Kazmi, Q.B., Siddiqui, F.A. 2006. An illustrated key to the Malacostraca (crustacean) of the Northern Arabian Sea, Part VI: Decapoda, Anomura. Pakistan Journal of Marine Science 15(1), 11-79.
14
Kumaralingam, S., Raghunathan, C., Venkataraman, K. 2015a. First record of the commensal porcelain crab, Neopetrolisthes spinatus (Crustacea: Decapoda: Anomura: Porcellanidae) from India. Marine Biodiversity Records 8; e90; 201, 1-3.
15
Kumaralingam, S., Raghunathan, C., Venkataraman, K. 2015b. An account of new records of reef associated crabs of Andaman and Nicobar Islands. Records of Zoological Survey of India. 115 (3), 255-171.
16
Kumaralingam, S., Raghunathan, C. 2017. First report on Neopetrolisthes maculatus (H. Milne Edwards, 1837) (associated with Stichodactyla haddoni (Saville-Kent, 1893) from Grub Island, Andaman Islands. Proceedings of the International Academy of Ecology and Environmental Sciences. 7(1): 20-24.
17
Mustaquim, J. 1972. Species of porcellanid crabs from Karachi. Pakistan journal of zoology 4(2), 153-159.
18
Osawa, M., McLaughlin, P.A. 2010. Annotated checklist of anomuran decapod crustaceans of the world (exclusive of the Kiwaioidea and families Chirostylidae and Galatheidae of the Galatheoidea) Part II - Porcellanidae. Raffles Bulletin of Zoology Supplement 23, 109- 129.
19
Osawa, M., Uyeno D.A. 2013. New subtidal species of the genus Petrolisthes Stimpson, 1858 (Crustacea: Decapoda: Porcellanidae) from Okinawa, with an account of species of the genus known from the Ryukyu Islands, southwestern Japan. Zootaxa; 3670 (3): 329–38.
20
Prakash, S., Kumar, TTA., Gopi, M., Balasubramanian, T. 2013a. First record of four species of Petrolisthes (Crustacea: Decapoda: Anomura: Porcellanidae) from Lakshadweep, India. Marine Biodiversity Records 6 (e47), 1-5.
21
Prakash, S., Thangappan, T., Kumar, A., Khan, S.A. 2013b. Checklist of the Porcellanidae (Crustacea: Decapoda: Anomura) of India. Check List 9(6), 1514-1518.
22
Ramanandan. 1966. On the occurrence of Porcellanella picta Stimpson (Decapoda: Anomura) in the Gulf of Kutch. The Journal of the Bombay Natural History Society 63 (3), pp 770-771.
23
Sankarankutty, C. 1961a. On the porcellanid crab, Porcellanella triloba White (Crustacea -Anomura) a commensal on sea pen, with remarks on allied species. Journal of the Marine Biological Association of India 3, 96-100.
24
Sankarankutty, C. 1961b. On a new genus of Porcellanidae (Crustacea - Anomura). Journal of the Marine Biological Association of India 3, 92-95.
25
Sankarankutty, C. 1963. On three species of porcellanids (crustacea-anomura) from the Gulf of Mannar. Journal of the Marine Biological Association of India 5 (2), 273-279.
26
Sankolli, KN. 1963a. On a new species of porcellanid crab (Decapoda, Anomura) from India. Journal of the Marine Biological Association of India 5(2): 280-283.
27
Sankolli, KN. 1963b. On a new species of porcellanid crab (Decapoda, Anomura) from India. Journal of the Zoological Society of India 15(1): 79-84.
28
Sankolli, KN. 1966. On the Porcellanidae (Crustacea: Anomura) of Ratnagiri along the west coast of India. In Proceedings of symposium on Crustacea. Journal of the Marine Biological Association of India Mandapam camp Part I pp 295–313.
29
Siddiqui, F.A., Kazmi, Q.B. 2003. A checklist of marine anomurans (Crustacea: Decapoda) of Pakistan, northern Arabian Sea. Memoirs of Museum Victoria 60(1), 87-89.
30
Southwell, T. 1906. Report on the Anomura collected by Professor Herdman, at Ceylon, in 1902. Report to the Government of Ceylon on the Pearl Oyster Fisheries of the Gulf of Mannar. Supplementary report 5: 211-224.
31
Southwell, T. 1909. Report on the Anomura collected by Mr. James Hornell at Okha Mandal in Kattiawar in 1905-6, pp. 105-123, In J. Hornell (ed.), Report to the Government of Baroda on the marine ecology of Okha Mandal in Kattiawar. Part I. London.
32
Stebbing, TRR. 1910. General Catalogue of South African Crustacea, Part V of S.A. Crustacea for the Marine Investigations in South Africa. Annals of the South African Museum. 6 (4), 361-362.
33
Trivedi, J.N. Vachhrajani, K.D. 2013. First record of two porcellanid crabs from Gujarat state, India (Crustacea: Decapoda: Porcellanidae). Journal of the Marine Biological Association of India 55:55–8.
34
ORIGINAL_ARTICLE
Divergence in the ecological niches of the white wagtail (Motacilla alba Linnaeus, 1758) complex using the ecological niche modeling approach
The mtDNA data presently being used for estimating biodiversity is not sufficient for evaluating the Motacilla alba complex species status. Because there is a lack of congruence between morphological and mtDNA data, there are debates about the best approach to use. In this study, we utilize niche modelling to study nine taxa of M. alba complex. Using eight bioclimatic- environmental layers, altitude, and slope MaxEnt modeling was applied to predict distributions. A total of 9087 input points for presence of species were also used. Results showed nine distinct ecological boundaries based on MaxEnt and ecological niche modeling (ENM) tools. The results provide some ecological variables for determining the ecological requirements and distribution patterns of the white wagtail species complex in the Palearctic region.
https://ijab.um.ac.ir/article_28880_17fb1e03ca765b89c0ed7ddf4b13e8b1.pdf
2017-12-01
53
66
10.22067/ijab.v13i1.58379
niche modeling
Motacilla alba
complex species
ecological boundaries
Maliheh
Pirayesh shirazi nejad
ma_pi203@stu-mail.um.ac.ir
1
Ferdowsi University of Mashhad
AUTHOR
Mansour
Aliabadian
aliabadi@um.ac.ir
2
Ferdowsi University of Mashhad
LEAD_AUTHOR
Omid
Mirshamsi
mirshams@um.ac.ir
3
Ferdowsi University of Mashhad
AUTHOR
Aliabadian, M., Roselaar, C.S., Nijman, V., Sluys, R., Vences, M., 2005. Identifying contact zone hotspots of passerine birds in the Palaearctic region. Biology Letters 1, 21-23.
1
Andersson, L., 1990. The driving force: Species concepts and ecology. Taxon 375-382.
2
Araujo, M.B., Guisan, A., 2006. Five (or so) challenges for species distribution modelling. Journal of biogeography 33, 1677-1688.
3
Avise, J.C., 1989. A role for molecular genetics in the recognition and conservation of endangered species. Trends in Ecology & Evolution 4, 279-281.
4
Badyaev, A., Gibson, D.D., Kessel, B., 1996. "White Wagtail," American Ornithologists' Union.
5
Brown, J.H., Stevens, G.C., Kaufman, D.M., 1996. The geographic range: size, shape, boundaries, and internal structure. Annual Review of Ecology and Systematics 27, 597–623.
6
Byrne, M., Yeates, D.K., Joseph, L., Kearney, M., Bowler, J., Williams, M.A.M., Cooper, S., Donnellan, S.C., Keogh, J.S., Leys, R., Melville, J., Murphy, D.J., Porch, N., Wyrnwoll, K.H., 2008. Birth of a biome: insights into the assembly and maintenance of the Australian arid zone biota. Molecular Ecology 17, 4398–4417.
7
Cramp, S., 1988. Handbook of the birds of Europe, the Middle East and North Africa. Oxford University Press, Oxford.
8
Del Hoyo, J., Elliott, A., Christie, D., 2010. "Handbook of the birds of the world," Lynx Edicions, Barcelona.
9
Dementev, G.P., Gladkov, N.A., 1954. "Bird of the Soviet Union," Sovetskaya Nauka, Moscow.
10
Dickinson, E.C., Bahr, N., Dowsett, R., Pearson, D., Remsen, V., Roselaar, C., Schodde, D., 2004. The Howard and Moore complete checklist of birds of the world.
11
Dupin, M., Reynaud, P., Jarošik, V., Baker, R., Brunel, S., Eyre, D., Pergl, J., Makowski, D., 2011. Effects of the training dataset characteristics on the performance of nine species distribution models: application to Diabrotica virgifera virgifera. PloS one 6, e20957.
12
Elith J., Graham C.H., Anderson R.P., Dudik, M., Ferrier, S., Guisan, A., Hijmans, R.J., Huettman, F., Leathwick, J.R., Lehmann, A., Li, J., Lohmann, L.G., Loiselle, B.A., Manion, G., Moritz, C., Nakamura, M., Nakazawa, Y., Overton, J.M., Peterson, A.T., Phillips, S.J., Richardson, K., Scachetti-Pereira, R., Schapire, R.E., Sober´on, J., Williams, S.E., Wisz, M.S., Zimmermann, N.E., 2006. Novel methods improve prediction of species’ distributions from occurrence data. Ecography 29, 129–151.
13
Elith, J., Kearney, M., Phillips, S., 2010. The art of modelling range‐shifting species. Methods in ecology and evolution 1, 330-342.
14
Elith, J., Leathwick, J.R., 2009. Species distribution models: ecological explanation and prediction across space and time. Annual Review of Ecology, Evolution, and Systematics 40, 677.
15
Gaston, K.J., 2003. The Structure and Dynamics of Geographic Ranges. Oxford University Press, Oxford.
16
Grinnell, J., 1917. The niche-relationships of the California Thrasher. The Auk 34, 427-433.
17
Guisan, A., Zimmermann, N.E., 2000. Predictive habitat distribution models in ecology. Ecological modeling 135, 147-186.
18
Hawlitschek, O., Porch, N., Hendrich, L., Balke, M., 2011. Ecological niche modelling and nDNA sequencing support a new, morphologically cryptic beetle species unveiled by DNA barcoding. PLoS One 6, 1-14.
19
Jackson, S.T., Overpeck, J.T., 2000. Responses of plant populations and communities to environmental changes of the Late Quaternary. Paleobiology 26, 194–220.
20
Li, X., Dong, F., Lei, F., Alström, P., Zhang, R., Ödeen, A., Fjeldså, J., Ericson, P.G.P., Zou, F., Yang, X., 2015. Shaped by uneven Pleistocene climate: mitochondrial phylogeographic pattern and population history of white wagtail Motacilla alba (Aves: Passeriformes). Journal of Avian Biology 46, 001–012
21
Merow, C., Smith, M.J., Silander, J.A., 2013. A practical guide to MaxEnt for modeling species’ distributions: what it does, and why inputs and settings matter. Ecography 36, 1058-1069.
22
Ödeen, A., Alström, P., 2001. Evolution of secondary sexual traits in wagtails (genus Motacilla). A. Ödeen. Effects of post-glacial range expansions and population bottlenecks on species richness. Uppsala University, Uppsala.
23
Pavlova, A., Zink, R.M., Rohwer, S., Koblik, E.A., Red'kin, Y.A., Fadeev, I.V., Nesterov, E.V., 2005. Mitochondrial DNA and plumage evolution in the white wagtail (Motacilla alba). Journal of Avian Biology 36, 322-336.
24
Phillips, S.J., Anderson, R.P., Schapire, R.E., 2006. Maximum entropy modeling of species geographic distributions. Ecological modelling 190, 231-259.
25
Phillips, S.J., Dudik, M., Schapire, R.E., 2004. A maximum entropy approach to species distribution modeling. In "Proceedings of the twenty-first international conference on Machine learning", pp. 83.
26
Pulliam, H.R., 2000. On the relationship between niche and distribution. Ecology Letters 3, 349–361.
27
Raxworthy, C.J., Ingram, C.M., Rabibisoa, N., Pearosn, R.G., 2007 Applications of Ecological Niche Modeling for Species Delimitation: A Review and Empirical Evaluation Using Day Geckos (Phelsuma) from Madagascar. Systematic Biology 56(6), 907–923.
28
Reeves, P.A., Richards, C.M., 2011. Species delimitation under the general lineage concept: an empirical example using wild North American hops (Cannabaceae: Humulus lupulus). Systematic Biology 60, 45-59.
29
Rödder, D., Lötters, S., 2010. Potential Distribution of the Alien Invasive Brown Tree Snake, Boiga irregularis (Reptilia: Colubridae) 1. Pacific Science 64, 11-22.
30
Rokas, A., Nylander, J.A.A., Ronquist, F., Stone, G.N., 2002. A maximum likelihood analysis of eight phylogenetic markers in gallwasps (Hymenoptera: Cynipidae): Implications for insect phylogenetic studies. Molecular Phylogenetic Evolution 22, 206–219.
31
Ross, K.G., Gotzek, D., Ascunce, M.S., Shoemaker, D.D., 2010. Species delimitation: a case study in a problematic ant taxon. Systematic biology 59, 162–184.
32
Sangster, G., Hazevoet, C., Van den Berg, A., Roselaar, C., Sluys, R., 1999. Dutch avifaunal list: species concepts, taxonomic instability, and taxonomic changes in 1977-1998. Ardea-Wageningen 87, 139-165.
33
Schoener, T.W., 1968. The Anolis lizards of Bimini: resource partitioning in a complex fauna. Ecology 49, 704-726.
34
Sibley, C.G., Monroe, J.B., 1993. A world checklist of birds. Ann Arbor, MI: Edwards Brothers Inc.
35
Sites, J.W., Marshall, J.C., 2003. Delimiting species: a Renaissance issue in systematic biology. Trends in Ecology & Evolution 18, 462-470.
36
Smith, S., Donoghue, M., 2010. Informing large-scale biogeography with niche models in Lonicera (Caprifoliaceae, Dipsacales) subgenus Caprifolium. Systematic Biology 590, 322-341.
37
Steinberg, E.R., Nieves, M., Ascunce, M.S., Palermo, A.M., Mudry, M.D., 2009. Morphological and genetic characterization of Saimiri boliviensis. International journal of primatology 30, 29-41.
38
Stepanyan, L., 2003. Conspectus of the ornithological faunaof Russia and adjacent territories (within the borders of theUSSR as a historic region)."Academkniga", Moscow, Russia. StepanyanConspectus of the ornithological fauna of Russia and adjacent territories (within the borders of the USSR as a historic region).
39
Stigall, A.L., 2008. Tracking species in space and time: assessing the relationships between paleobiogeography, paleoecology and macroevolution. In: Kelley, P.H., Bambach, R.K. (Eds.), From Evolution to Geobiology: Research Questions Driving Paleontology at the Start of aNewCentury, Paleontological Society Short Course. The Paleontological Society Papers pp. 227–242.
40
Soberon, J., Peterson, A.T., 2005. Interpretation of models of fundamental ecological niches and species’ distributional areas. Biodiversity Informatics 2, 1–10.
41
Swets, J.A., 1988. Measuring the accuracy of diagnostic systems. Science 240, 1285-1293.
42
Van Valen, L., 1976. Ecological species, multispecies, and oaks. Taxon 233-239.
43
Voelker, G., 2002. Systematics and historical biogeography of wagtails: dispersal versus vicariance revisited. The Condor 104, 725-739.
44
Warren, D.L., Glor, R.E., Turelli, M., 2008. Environmental niche equivalency versus conservatism: quantitative approaches to niche evolution. Evolution 62, 2868-2883.
45
Warren, D.L., Glor, R.E., Turelli, M., 2010. ENMTools: a toolbox for comparative studies of environmental niche models. Ecography 33, 607-611.
46
Wiens, J.J., 2004. Speciation and ecology revisited: phylogenetic niche conservatism and the origin of species. Evolution 58, 193–197.
47
Zachos, J., Pagani, M., Sloan, L., Thomas, E., Billups, K., 2001. Trends, rhythms and aberrations in global climate 65Ma to present. Science 292, 686–693.
48
ORIGINAL_ARTICLE
A checklist of lizards from southeastern part of the Sistan and Baluchestan Province in southeastern Iran
During herpetological fieldwork from April 2013 to March 2014 on the herpetofauna of the counties of Saravan, Sib and Suran, Zaboli, Sarbaz, and Chabahar in south east of Sistan and Baluchestan Province, SoutheasternIran a total of 97 specimens of lizards belonging to 19 species and five subspecies, 16 genera, and six families were collected and identified as follows: Calotes versicolor, Laudakia nupta nupta, L. n. fusca, Phrynocephalus scutellatus, Trapelus agilis agilis (Agamidae); Agamura persica, Bunopus tuberculatus, Cyrtopodion scabrum (Gekkonidae); Acanthodactylus blanfordii, A. micropholis, Eremias fasciata, E. persica , Mesalina watsonana, Ophisops elegans (Lacertidae); Ablepharus pannonicus, Eumeces schneiderii zarudnyi, Ophiomorus brevipes, O. tridactylus (Scincidae); Uromastyx asmussi (Uromastycidae); and Varanus griseus caspius (Varanidae). The most diverse families of the present collection are the Lacertidae with six species, followed by Agamidae and Scincidae each with four species. Detailed information of each lizard species was also provided.
https://ijab.um.ac.ir/article_28917_36d584ae33bba092063813f55e4610d7.pdf
2017-12-01
67
76
10.22067/ijab.v13i1.50398
herpetofauna
species
lizards
distribution
Sistan and Baluchestan Province
Iran
Ehsan
Damadi
ehsandamadi@gmail.com
1
Department of Biology, Faculty of Science
AUTHOR
Rasoul
Karamiani
r.karamiani@razi.ac.ir
2
Department of Biology, Faculty of Science
AUTHOR
Nasrullah
Rastegar-Pouyani
nasrullah.r@gmail.com
3
Department of Biology, Faculty of Science
LEAD_AUTHOR
Ali
Gholamifard
ali.gholamifard.bio@gmail.com
4
Lorestan University
AUTHOR
Anderson, S.C., 1963. Amphibians and reptiles from Iran. Proceedings of the California Academy of Sciences 31, 417–498.
1
Anderson, S.C., 1999. The Lizards of Iran. Contributions to Herpetology, Vol. 15, Society for the Study of Amphibians and Reptiles. New York.
2
Blanford, W.T., 1874a. Descriptions of new lizards from Persia and Baluchistan. Annals and Magazine of Natural History 4, 453–455.
3
Blanford, W.T., 1874b. Description of new Reptilia and Amphibia from Persia and Baluchistan. Annals and Magazine of Natural History 4, 31–35.
4
Blanford, W.T., 1876. Eastern Persia. An account of the journeys of the Persian boundary commission 1870-71-72. Vol. II. The zoology and geology. Macmillan and Co., London, 516 pp.
5
Heidari, N., Kami, H.G., 2009. Lizards of the Gando Protected area in Sistan and Baluchestan Province, southeastern Iran. Iranian Journal of Animal Biosystematics 5(2), 57-64.
6
IIM (Iranian Interior Ministry), 2015. Available at http://www.moi.ir (http://www.sbportal.ir) (accessed on 3 January 2015).
7
IRIMO (Islamic Republic of Iran Meteorological Organization), 2015. Available at http://www.irimo.ir (accessed on 3 January 2015).
8
Karamiani, R., Rastegar-Pouyani, N., Rastegar-Pouyani, E., Akbarpour, M., Damadi, E., 2015. Verification of the Minor Snake-eyed Skink, Ablepharus grayanus (Stoliczka, 1872) (Sauria: Scincidae), from Iran. Zoology in the Middle East 61(3), 226-230
9
Nikolsky, A.M., 1896. Diagnoses Reptilium et Amphibiorum novorum in Persia orientali a N. Zarudny collectorum. Annuaire Musee Zoologique de l’Academie Imperiale des Sciences de St.-Petersbourg 1, 369–372.
10
Nikolsky, A.M., 1899. Two new species of Teratoscincus from eastern Persia [in Russian]. Annuaire Musee Zoologique de l’Academie Imperiale des Sciences de St.-Petersbourg 4, 145–147.
11
Nikolsky, A.M., 1900. Reptiles, amphibies et poissons, recueillis pendant le voyage de Mr. N.A. Zaroudny en 1898 dans la Perse. Annuaire Musee Zoologique de l’Academie Imperiale des Sciences de St.-Petersbourg 4, 375–417.
12
Nikolsky, A.M., 1903. On the species of reptiles collected by N. A. Zarudny in Eastern Persia in 1901 [in Russian]. Annuaire Musee Zoologique de l’Academie Imperiale des Sciences de St.-Petersbourg 8, 95–98.
13
Rastegar-Pouyani, N., Gholamifard, A., Karamiani, R., Bahmani, Z., Mobaraki, A., Abtin, E., Faizi, H., Heidari, N., Takesh, M., Sayyadi, F., Ahsani, N., Browne, R.K., 2015. Sustainable Management of the Herpetofauna of the Iranian Plateau and coastal Iran. Amphibian and Reptile Conservation 9(1), 1-15.
14
Rastegar-Pouyani, N., Johari, M., Rastegar-Pouyani, E., 2007. Field Guide to the Reptiles of Iran. Volume 1: Lizards. Second edition. Iran, Razi University Publishing. 296 p. (In Farsi).
15
Sanchooli, N., 2016. Ecological Niche Divergence between Two Subspecies of Large-scaled Agama, Laudakia nupta (De Filippi, 1843) (Sauria: Agamidae), in Iran. Acta Zoologica Bulgarica 68(3), 351-354
16
Šmid, J., Moravec, J., Kodym, P., Kratochvil, L., Hosseinian Yousefkhani, S.S., Rastegar-Pouyani, E., Frynta, D., 2014. Annotated checklist and distribution of the lizards of Iran. Zootaxa 3855(1), 001–097.
17
ORIGINAL_ARTICLE
Phylogeny of Iranian species of the genus Daphnia O. F. Müller, 1785 (Crustacea: Branchiopoda: Anomopoda) based on morphological characters
Daphnia is a wide spread member of Cladocera living in different aquatic environments ranging from hypersaline swamps to freshwater lakes, lagoons, streams and rivers. To improve our knowledge on the diversity of the genus Daphnia and promote its biogeographical information in Iran, an investigation on the morphology andidentification of the Iranian species of the genus was carried out during the spring of 2013 and 2014. The Southern Caspian Sea Basin (SCSB) and Urmia Lake Basin (ULB) Daphnia fauna has been studied based on historical literature records and new collections. Zooplanktons were sampled from 29 randomly chosen localities across ca. 2500 km inthe SCSB and ULB basins including both permanent habitats (lakes and reservoirs), and small temporary water bodies (ponds and lagoons), both freshwater and saline. Cladistic analysis of Iranian species of genus Daphnia, based on 64 morphological characters obtained from the literature, confirmed the traditionally basic division of the genus intotwo subgenera, Daphnia and Ctenodaphnia. This split was supported by enough number of synapomorphies. The relationships between all species within both subgenera were determined clearly. A regional identification key to ten Iranian species of the genus Daphnia was provided.
https://ijab.um.ac.ir/article_28932_18ce8707422796127f21b20612b50ab2.pdf
2017-12-01
77
106
10.22067/ijab.v13i1.64814
Cladocera
Daphnia
Cladistic Phylogeny
morphology
key
Iran
SEM
Ali
Mohammadyari
mohammadyariali@gmail.com
1
Ferdowsi University of Mashhad
AUTHOR
Fereshteh
Ghassemzadeh
ghasemzd@um.ac.ir
2
Ferdowsi University of Mashhad
LEAD_AUTHOR
Omid
Mirshamsi
mirshams@um.ac.ir
3
Ferdowsi University of Mashhad
AUTHOR
Mansour
Aliabadian
aliabadi@um.ac.ir
4
Ferdowsi University of Mashhad
AUTHOR
Behrooz
Atashbar
atashbarb@gmail.com
5
Urmia University
AUTHOR
Adamowicz, S.J., Petrusek A. & Colbourne, J., (2009) The scale of divergence: a phylogenetic appraisal of intercontinental allopatric speciation in a passively dispersed freshwater zooplankton genus. Molecular Phylogenetics and Evolution, 50, 423–436. http://dx.doi.org/10.1016/j.ympev.2008.11.026
1
Aghaei moghadam, A. A. & H. Aslan Parviz, (2003) The study on the nutrition of the juvenile sturgeon (Acipenser Persicus) in fish ponds of Shahid Rajaie’s centre (1999). Pajouhesh & Sazandegi, 60, 77-83.
2
Alonso, M. (1985) Daphnia (Ctenodaphnia) mediterranea: A new species of hypersaline waters, long confused with D. (C.) dolichocephala Sars, 1895. Hydrobiologia, 128, 217-228.
3
http://dx.doi.org/10.1007/bf00006817
4
Baird, W., (1859) Description of several species of Entomostracous Crustacea from Jerusalem. Annals and Magazine of Natural History, 3(4), 280-283.
5
Benzie, J. A. H. (2005) Cladocera: the genus Daphnia (including Daphniopsis). In H. J. F. Dumont (Ed.) Guides to the Identification of the Microinvertebrates of the Continental Waters of the World (pp. 376). Ghent: Kenobi Productions & Leiden: Backhuys. Billiones, R., Brehm, M., Klee, J. & Schwenk, K. (2004) Genetic identification of Hyalodaphnia species and interspecific hybrids. Hydrobiologia, 526, 43-53.
6
Benzie, J. A. H., (1986) Phenetic and cladistic analyses of the phylogenetic relationships within the genus Daphnia worldwide. Dr. W. Junk Publishers, Dordrecht - Printed in the Netherlands. Hydrobiologia 140: 105 – 124.
7
Bronstein, Z. S., (1925) Beitrage zur Kenntnis der Ostracoden fauna der UdSSR und Persiens. Archiv für Naturgeschichte, 9, 1-30.
8
Brooks, J. L., (1957) The systematics of North American Daphnia. Mem. Conn. Acad. Arts Sci. 13: l-180.
9
Claus, C, (1876) Zur Kenntniss der Organisation und des feiner Baues der Daphniiden und verwandten Cladoceren. Zeitschrift für wissenschaftliche Zoologie, 27, 362-402.
10
Colbourne, J.K. & P.D.N. Hebert, (1996) The systematics of North American Daphnia (Crustacea: Anomopoda): a molecular phylogenetic approach. Phil. Trans. R. Soc. Lond. B 351: 349-360.
11
Colbourne, J.K., P.D.N. Hebert & DJ. Taylor, (1997) Evolutionary origins of phenotypic diversity in Daphnia. Pp 163-188. In: T.J. Givnish & K.J. Sytsma (eds). Molecular evolution and adaptive radiation. Cambridge University press, Cambridge, UK.
12
Crease, T.J., Omilian, A.R., Costanzo, K.S. & Taylor, D.J. (2012) Transcontinental phylogeography of the Daphnia pulex species complex. PLOS ONE, 7, e46620. doi:10.1371/journal.pone.0046620
13
Dallwitz, M. (1974) Dallwitz, M. (1980); Dallwitz, M. Paine, T. and Zurcher, E. (1993) DEscription Language for Taxonomy (DELTA). http://delta-intkey.com
14
Decksbach, W. K., (1930) Zur Cladoceren fauna von Kaukasus und Nordpersien. Travaux de la station biologique du Caucase du Nord, Nord 2.
15
Dybowski, B. & M. Grochowski, (1895) Spis systematyczny Wioslarek (Cladocera) Krajowich. Kosmos, Warsaw (Lemberg), 20, 139-165.
16
Eylmann, E., (1887) Beitrag zur Systematik der europäischen Daphniden. Berichte der Berichte der Naturforschende Gesellschaft zu Freiburg im Breisgau Veröffentlichungen, 2, 61-148.
17
Gießler, S., E. Mader & K. Schwenk, (1999) Morphological evolution and genetic differentiation in Daphnia species complexes. J. Evol. Biol. 12: 710-723.
18
Glagolev, S.M. & M. Alonso, (1990) Daphnia (Ctenodaphnia) hispanica sp. nov., a new daphnid (Cladocera) from Spain. Hydrobiologia 194: 149-162.
19
Gurney, R., (1921) Fresh-Water Crustacea collected by Dr. P. A. Buxton in Mesopotamia and Persia. The Journal of the Bombay Natural History Society, 27, 835-843.
20
Haghparast S. & K. Darvish Bastami, (2011) Daphnia pulex through physical and chemical factors. Iranian Scientific Fisheries Journal, 19.
21
Haghparast, S., A. Shabani, B. Shabanpour, & S. A. Hoseini, (2012) Hatching Requirements of Daphnia magna Straus, 1820, and Daphnia pulex Linnaeus, 1758, Diapausing Eggs from Iranian Populations in vitro. Journal of Agricultural Science and Technology, 14, 811-820.
22
Haghparast, S., A. Shabani, B. Shabanpour, S. A. Hoseini & M. H. Pahlavani, (2011) Experimental induction of hatching in ephippial eggs of Daphnia similis. Iranian journal of Biology, 24.
23
Havel, J.E., (1986) Predator-induced defences: a review. Pp 263-277. In: W.C. Kerfoot & A. Sih, (eds) Predation: direct and indirect impacts of aquatic communities. University Press of New England, Hanover, London.
24
Hebert, P.D.N., (1977) A revision of the taxonomy of the genus Daphnia (Crustacea: Daphnidae) in southeastern Australia. Aust. J. Zool. 25: 371-398.
25
Hebert, P.D.N., (1978) Cyclomorphosis in natural populations of Daphnia cephalata King. Freshwat. Biol. 8: 79-90.
26
Hemsen, J., (1952) Cladoceren und freilebende Copepoden der Kleingewasser und des Kaspisees, in: Ergebnisse der Osterr. Iranexpedition 1949/50. Sitzungsberichte Österreichische Akademie der Wissenschaften Mathematisch Naturwissenschaftliche Klasse, Abteilung I. 161.
27
Hobæk, A., Skage, M. & Schwenk, K. (2004). Daphnia galeata x D. longispina hybrids in western Norway. Hydrobiologia, 526, 55–62.
28
Hudec, I., (1991) Vyskyt a biologia druhov rodu Daphnia, podrod Daphnia (Cladocera: Daphniidae) na Slovensku 3. Cast: D. galeata, D. cucullata. Biologia, 46, 129-138.
29
Hutchison, G.E., (1967) A treatise on Limnology. Vol 2. Wiley, New York. 1116 pp.
30
Jafari, N., Nabavi, S. and Akhavan, M., (2011) Ecological investigation of zooplankton abundance in the river Haraz, northeast Iran: impact of environmental variables. Arch. Biol. Sci., Belgrade, 63 (3), 785-798, doi: 10.2298/abs1103785j
31
Johnson, D. S., (1952) The British species of the genus Daphnia (Crustacea, Cladocera). Proceedings of the Zoological Society of London, 122, 435-462.
32
http://dx.doi.org/10.1111/j.1096-3642.1952.tb00320.x
33
Korinek, V. (2010-2016) Cladocera collection. Available from: http://www.cladocera-collection.cz/ (accessed 2 May 2016)
34
Kurz, W., (1874) Dodekas neuer Cladoceren nebst einer kurzen Übersicht der Cladoceranfauna Böhmens. Osterreichische Akademie der Wissenschaften Mathematisch-naturwissenschaftliche Klasse. Sitzungsberichte. 70: 1-88.
35
Lampert, W. & H.G. Wolf, (1986) Cyclomorphosis in Daphnia cucuUata: morphometric and population genetic analyses. J. Plankton Res. 8: 289-303.
36
Lehman, N., M.E. Prfender, P.A. Morin, T.J. Crease & M. Lynch, (1995) A hierarchical molecular phylogeny within the genus Daphnia. Mol. Phyl. Evol. 4: 395-407.
37
Leydig, F., (1860) Naturgeschichte der Daphniden (Crustacea Cladocera). Tubingen. 252 pp.
38
Lindberg, K., (1942) Cyclopoides nouveaux du continent Indo-Iranien III-IV. Records of the Indian Museum, Calcutta, 44, 15-27
39
Loffler, H., (1961) Beitrage zur Kenntnis der Iranischen Bin- nengewasser II. Regional limnologische Studie mit besonderer Berticksichtigung der Crustaceen fauna. International Review of Hydrobiology, 46, 309-406. http://dx.doi.org/10.1002/iroh.19610460304
40
Manca, M. & A.G. Tognota, (1993) Seasonal changes in morphology and size of Daphnia hyalina Leydig in Lake Maggiore. Hydrobiologia 264: 159-167.
41
Mohammadyari, A., Ghassemzadeh, F., Mirshamsi, O., Aliabadian, M., Vukic, J. & Petrusek A., (2014) Diversity of Daphnia in Caspian and Urmia Lake Basins (Northern Iran): a molecular approach. Abstract book of 10th International Symposium on Cladocera, Lednice, 28 Dec. – 3 Oct. 2014, Czech Republic.
42
Mort, M.A., (1989) Cyclomorphosis in Daphnia galeala mendotae: variation and stability in phenotypic cycles. Hydrobiologia 171: 159-170.
43
Müller, O.F., (1776) Zoologicae Danicae prodromus seu animalium Daniae et Norvegiae indigenarum characteres, nomina et synonyma imprimis popularum. Havniae, 264 pp.
44
Müller, O.F., (1785) Entomostraca seu Insecta testacea quae in aquis Daniae et Norvegiae reperit, descripsit et iconibus illustravit Otho Fridericus Müller. Lipsiae et Havniae, 135 pp. http://dx.doi.org/10.5962/bhl.title.14414
45
Petrusek, A., F. Bastiansen, K. Schwenk, (2005) European Daphnia Species (EDS) - Taxonomic and genetic keys. [Build 2006-01-12 beta]. CD-ROM, distributed by the authors. Department of Ecology and Evolution, J.W. Goethe-University, Frankfurt am Main, Germany & Department of Ecology, Charles University, Prague, Czechia.
46
Petrusek, A., Tollrian, R., Schwenk, K., Haas, A., & Laforsch, C. (2009). A “crown of thorns” is an inducible defense that protects Daphnia against an ancient predator. Proceedings of the National Academy of Sciences, 106(7), 2248-2252.
47
Pijanowska, J., (1990) Cyclomorphosis in Daphnia: an adaptation to avoid invertebrate predation. Hydrobiologia 198:41-50.
48
Pijanowska, J., 1992. Anti-predator defence in three Daphnia species. Int. Revue ges. Hydrobiol. 77: 153-163.
49
Rylov, V. M., (1928) Zur Eucopepoden-Fauna von Kaukasus, Transkaukasien und Nord-Persia. Travaux de la Station Biologique de Roscoff, Caucase Nord 6, 2.
50
Sabkara, J. & M. Makaremi, (2003) Density investigation and plankton distribution in Maku dam lake. Iranian Scientific Fisheries Journal, 12th year, No. 2.
51
Salavatian S. M., A. Aliyev & B. S. A. Nezami, (2012) Investigation on Identification, Density and Distribution of Zooplankton in Lar Reservoir. World Journal of Zoology, 7, 40-46.
52
Sars, CO., (1862) Oversigt af de af ham i Omegnen af Christiana iagttagne Crustacea Cladosera. Forh. Vidensk. Selsk. Christiana 1861: 144-167,250-302.
53
Sars, G. O., (1864) Inberetningomen I Sommeren 1862-1863 foretagen zoologisk Reise I Christianasog Trondhjems Stifter. Nytt Magazines for Naturvidenskapene, 12, 193-252.
54
Straus, E.H., (1820) Memoire sur les Daphnia de la classe des Crustaces. Memoires du Museum National d'Histoire Naturelle, Paris, 6, 149-162.
55
Wesenburg-Lund, C, (1908) Plankton investigations of the Danish Lakes. Copenhagen, Gyldenalske Boghandel.
56
Wesenburg-Lund, C, (1926) Contributions to the biology and morphology of the genus Daphnia with some remarks on heredity. (K.) Danske Videnskabernes selskab Biol. Skiifter 11: 89-251.
57
Zaret, T.M., (1980) Predation and freshwater communities. Yale University Press, New Haven and London. 187 pp.
58
ORIGINAL_ARTICLE
Molecular genetics and divergence time study of the cone snail species in the Persian Gulf
Marine gastropod genus' Conus diversified rapidly during the Miocene includes the most species-rich modern marine genus. The aim of this study is an expanded molecular phylogenetic analysis and divergence time of two dominant cone snail species from the Persian Gulf. The mitochondrial cytochrome oxidase subunit I sequence data of Conus coronatus and Conus frigidus species from the Persian Gulf were used to compare with the other Conus species in Viroconus and Virgoconus clades from the different regions. Moreover, divergence time of the Persian Gulf clusters was estimated from the substitution rate of the genome. Results showed, low differences between the Conus species of the Persian Gulf and Indo-Pacific, and divergence time of the Persian Gulf Conus species was about 2 million years ago. So, the Persian Gulf Conus species originated from the Indo-Pacific parallel to the geological events and after the Ice Age. Then, these species were transferred through the Indian Ocean to the Persian Gulf. These findings give use a knowledge of the origin and the evolution of these species in the Persian Gulf.
https://ijab.um.ac.ir/article_28953_6cfd205dbf2313bf27d9025e4fbe1da3.pdf
2017-12-01
109
118
10.22067/ijab.v13i1.65870
Beast Software
Conus
Divergence Time
DNA barcoding
Molecular Genetics
Halimeh
Rajabi
halimeh.rajabi@gmail.com
1
Khorramshahr University of Marine Sciences and Technology
LEAD_AUTHOR
Hossein
Zolgharnein
zolgharnein@kmsu.ac.ir
2
Khorramshahr University of Marine Sciences and Technology
AUTHOR
Mohammad Taghi
Ronagh
mt.ronagh@yahoo.com
3
Khorramshahr University of Marine Science and Technology
AUTHOR
Ahmad
Savari
savari53@yahoo.com
4
Khorramshahr University of Marine Science and Technology
AUTHOR
Mohammad Sharif
Ranjbar
sharif.ranjbar@gmail.com
5
Hormozgan University
AUTHOR
Akbari, T., Masoudian, S. A. 2009. Regionalization of temperature regions of Iran. Geography Environmental Planning Seasonal Journal 33 (1), 59–74 (in Persian, abstract available in English).
1
Al-Khayat, J. A. 2008. Molluscs of the state of Qatar. Qatar Biodiversity Newsletter 2, 1-5.
2
Bandyopadhyay, P.K., Stevenson, B.J., Cady, M.T., Olivera, B.M., Wolstenholme, D.R. 2006. Complete mitochondrial DNA sequence of a Conoidean gastropod, Lophiotoma (Xenuroturris) cerithiformis: gene order and gastropod phylogeny. Toxicon 48, 29–43.
3
Bandyopadhyay, P.K., Stevenson, B.J., Ownby, J.P., Cady, M.T., Watkins, M., Olivera, B.M. 2008. The mitochondrial genome of Conus textile, coxI-coxII intergenic sequences and conoidean evolution. Molecular Phylogeny and Evolution 46, 215–223.
4
Biass, D., Violette, A., Hulo, N., Lisacek, F. and Favreau, P. 2015. Uncovering intense protein diversification in a cone snail venom gland using an integrative venomics approach. Journal of Proteome Research 14, 628-638.
5
Bouchet, P., Kantor, Y., Sysoev, A., Puillandre, N. 2011. A new operational classification of the Conoidea (Gastropoda). Journal of Moluscan Study 77, 273–308.
6
Brauer, A., Kurz, A., Stockwell, T., Baden-Tillson, H., Heidler, J., Wittig, I., Kauferstein, S., Mebs, D., Stocklin, R., Remm, M. 2012. The Mitochondrial Genome of the Venomous Cone Snail Conus consors. Plos one 7 (12), 1-10.
7
Craik, D. J., Fairlie, D. P., Liras, S. and Price, D. 2013. The future of peptide-based drugs. Chemical Bioligy and Drug Design 81 (1), 136-147.
8
Cunha, R. L., Tenorio, M. J., Afonso, C., Castilho, R., Zardoya, R., 2008. Replaying the tape: recurring biogeographical patterns in Cape Verde Conus after 12 million years. Molecular Ecology 17, 885–901.
9
Duda, T. F., Kohn, A. J., Palumbi S. R. 2001. Origins of diverse feeding ecologies within Conus, a genus of venomous marine gastropods. Biological Journal of the Linnean Society 73, 391–409.
10
Duda, T. F., Kohn, A. J. 2005. Species-level phylogeography and evolutionary history of the hyperdiverse marine gastropod genus Conus. Molecular Phylogeny and Evolution 34, 257–272.
11
Duda, T. F., Palumbi, S. R. 1999. Molecular genetics of ecological diversification: duplication and rapid evolution of toxin genes of the venomous gastropod Conus. Proceed National Academy Science 96, 6820–6823.
12
Duda, T. F. 2008. Differentiation of venoms of predatory marine gastropods: divergence of orthologous toxin genes of closely related Conus species with different dietary specializations. Journal of Molecular Evoluation 67, 315-321.
13
Dutertre, S., Jin, A. H., Kaas, Q., Jones, A., Alewood, P. F., Lewis, R. J. 2013. Deep venomics reveals the mechanism for expanded peptide diversity in cone snail venom. Molecular and Cell Proteome 12, 312–329.
14
Espino, S. L., Kohn, A. J., Villanueva, J. A., Heralde, F. M., Corneli, P., Concepcion, G. P., Olivera, B. M., Santos, A. D. 2008. Feeding behavior, phylogeny, and toxinology of Conus furvus Reeve, 1843 (Gastropoda: Neogastropoda: Conidae). Nautilus 122, 143–150.
15
Folmer, O., Black, M., Hoeh, W., Lutz, R., Vrijenhoek, R. 1994. DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. Molecular Marine Biology and Biotechnology 3, 294–299.
16
Hu, H., Bandyopadhyay, P. K., Olivera, B. M., Yandell, M. 2011. Characterization of the Conus bullatus genome and its venom-duct transcriptome. BMC Genomics 60, 1471-2164.
17
Kaas, Q., Westermann, J., Craik, D. J. 2010. Conopeptide characterization and classifications: An analysis using ConoServer. Toxicon, 55(8), 1491-1509.
18
Kraus, N. J., Watkins, M., Bandyopadhyay, P. K., Seger, J., Olivera, B. M., Corneli, P. 2012. A very short, functionally constrained sequence diagnoses cone snails in several Conasprella clades. Molecular Phyogenyl Evoluation 65, 335–338.
19
Lewis, R. J., Dutertre, S., Vetter, I., Christie, M. J. 2012. Conus Venom Peptide Pharmacology. Pharmacol Review 64, 259–298
20
Lorenz, F., Puillandre, N. 2015. Conus hughmorrisoni, a new species of cone snail from New Ireland, Papua New Guinea (Gastropoda: Conidae). European Journal of Taxonomy 129, 1–15.
21
Nam, H.H., Corneli, P.S., Watkins, M., Olivera, B., Bandyopadhyay, P. 2009. Multiple genes elucidate the evolution of venomous snail-hunting Conus species. Molecular Phylogeny and Evoluation 53, 645–652.
22
Palumbi, S.R. 1996. PCR and molecular systematics. In Molecular Systematics, 2 edition, D. Hillis, C. Moritz, A. and Mable B. Eds. Sinauer Press, 205-247 pp.
23
Pereira, C.M., Rosado, J., Seabra, S.G., Pina-Martins, F., Paulo, O.S., Fonseca, P.J. 2010. Conus pennaceus: a phylogenetic analysis of the Mozambican molluscan complex. African Journal of Marine Science 32, 591–599.
24
Puillandre, N., Samadi, S., Boisselier, M.C., Sysoev, A.V., Kantor, Y.I., Cruaud, C., Couloux, A., Bouchet, P. 2008. Starting to unravel the toxoglossan knot: molecular phylogeny of the ‘‘turrids’’ (Neogastropoda: Conoidea). Molecular Phylogeny and Evoluation 47, 1122–1134.
25
Puillandre, N., Bouchet, P., Duda, T.F., Kauferstein, S., Kohn, A., Olivera, B. M., Watkins, M., Meyer, C. 2014. Molecular phylogeny and evolution of the cone snails, Molecular Phylogeny and Evoluation 78, 290-303.
26
Rambaut, A., Drummond, A.J. 2007. Tracer v1.4. <http://beast.bio.ed.ac.uk/Tracer>.
27
Rodreguez, A. M., Dutertre, S., Lewis, R. J., Mari, F. 2015. Intraspecific variation in Conus purpurascens injected venom using LC/MALDI-TOF-MS and LC-ESI-Triple TOF-MS. Analytical and Bioanalytical Chemistry 407, 6105-6116.
28
Ronquist, F., Huelsenbeck, J. P. 2003. MrBayes 3: Bayesian phylogenetic inference under mixed models. Bioinformatics 19, 1572–1574 pp.
29
Stamatakis, A. 2006. RAxML-VI-HPC: maximum likelihoodbased phylogenetic analyses with thousands of taxa and mixed models. Bioinformatics 22, 2688–2690.
30
Tamura, K., Stecher G., Peterson, D., Filipski, A.m Kumar, S. 2013. MEGA6: Molecular Evolutionary Genetics Analysis Version 6.0.
31
Violette, A., Biass, D., Dutertre, S., Koua, D., Piquemal, D., Pierrat, F., Stöcklin, R. Favreau, P. 2012. Large-scale discovery of conopeptides and conoproteins in the injectable venom of a fish-hunting cone snail using a combined proteomic and transcriptomic approach. Journal of Proteomics 75 (17), 5215– 5225.
32
WoRMS. 2014. World Register of Marine Species. Available from http:// www.marinespecies.org.
33
ORIGINAL_ARTICLE
Study of rodents’ fauna of the Jiroft, Kerman Province in southeast of Iran
In this study, rodent’s assemblages from Jiroft and Anbarabad townships in the southeast Iran, were studied. A total of 54 specimens were collected and identified during the period of June 2011 until September, 2012. The collected specimens consist of 9 species belonging to 9 genera and two families including: Muridae (Golunda ellioti, Acomys dimidiatus, Tatera indica, Nesokia indica, Meriones persicus, Mus musculus, Apodemus witherbyi, Rattus rattus), Cricetidae (Cricetulus migratorius). Standard external morphological and morphometric characteristics, including cranial and dental characters are given. The family Muridae with eight species, showed the highest diversity among the families represented here. Tatera indica showed the high frequency compare to other species examined in this study.
https://ijab.um.ac.ir/article_28986_243fb46736cb6ac604f146bc44c229d7.pdf
2017-12-01
119
129
10.22067/ijab.v13i1.59907
Fauna
Jabalbarez Mountains
Golunda ellioti
Yaser
Amir afzali
y.a.afzali@gmail.com
1
Department of Biology, Faculty of Sciences, Ferdowsi University of Mashhad, Mashhad, Iran
LEAD_AUTHOR
Jamshid
Darvish
darvish@um.ac.ir
2
Department of Biology, Faculty of Sciences, Ferdowsi University of Mashhad, Mashhad, Iran
AUTHOR
Faezeh
Yazdani moghadam
faezeh.um@gmail.com
3
Department of Biology, Faculty of Sciences, Ferdowsi University of Mashhad, Mashhad, Iran
AUTHOR
Agrawal, V.C., 2000. Taxonomic studies on Indian Muridae and Hystricidae (Mammalia: Rodentia). Records of the Zoological survey of India 180, 1-177.
1
Ashrafzadeh, M., Shahi, T., Karami, M., Darvish, J., 2011. Intraspecific variations within Tatera indica Hardwicke, 1807 (Muridae, Rodentia) populations in Hormozgan province, Iran. Journal of Natural Environmental, Iranian Journal of Natural Resources, 64: 347-361.
2
Azarpira, M., Mdjdzadeh, S.M., Darvish, J., 2012. A faunistic study of rodents (Mammalia: Rodentia) in Anjerk prohibited hunting area, Kerman province. Iranian Journal Biology 25, 240-251.
3
Calandriello, C.J., 1999. The rodent fauna of long pin key, Everglades National Park: Acomparition habitat types. Master of Science in Biology Thesis. Florida International University.
4
Corbet, G.B., 1978. The mammals of the Palearctic region; A taxonomic review, British Museum, London, England.
5
Darvish, J., Amir afzali, Y., Hamidi, K., 2012. Further record of Golunda ellioti Gray, 1837 from south East of Iran with notes on its postcranial skeleton. Iranian Journal of Animal Biosystematics, 1, 79-82.
6
Darvish, J., Siahsarvie, R., Mirshamsi, O., Kayvanfar, N., Hashemi, N., Sadeghie shakib, F., 2006. Diversity of the rodents of northeastern Iran. Iranian Journal of Animal Biosystematics, 2, 57-76.
7
Elkinton, J.S., Healy, W.M., Buonaccorsi, J.P., Boettner, G.B., Hazzard, A.M., Smith, H.R, Leibhold, A.M., 1966. Interaction among gypsy moths, withe-footed mice and acorns. Ecology 77, 2332-2342.
8
Ellerman, J.R., 1948. Key to the rodents of south-West Asia in the British meuseum collection. British Meuseum, London, England.
9
Ellerman, I.R., 1966. The families and genera of living rodents. Wbeldon & Wesley, Ltd.
10
Etemad, E., 1978. Mammals of Iran. Vol. I, Rodents and key to their identification. National Society of Natural Sources and Human Environment Protection Publications. Iran, Tehran.
11
Golabzadeh, M., 2010. Kerman tourism. Valli Publications. Iran, Kerman.
12
Goodwin, G.G., 1940. Mammals collected by the Legendre 1938 Iran expedition. American Museum Novitates.
13
Hanski, I.P., Turchin, E., Korpimaki, E., Henttonen, H., 1993. Population oscillation of boreal rodents: regulation by mustelid predators leasd to chaos. Nature 364, 232-235.
14
Hardwicke, 1807. (Muridae, Rodentia) in Eastern border of Iran. Pakistan Journal of Biological Sciences 13(2), 59-65.
15
Khajeh, A., Meshkani, J., 2010. A study of intraspecies variations of Indian Gerbil, Tatera indica Hardwicke, 1807 (Muridae, Rodentia) in Eastern border of Iran. Pakistan Journal of Biological Science 13, 59-65.
16
Khajeh, A., Darvish, J., Razmi, G.H., 2015. Acontribution on rodents fauna of the Jaz Murian depression, Southeast Iran. Biodiversity Journal 7, 203-214.
17
Lay, D.M., 1967. A study of the mammals of Iran resulting from the street expedition of 1962-1963. Fieldiana Zoology 54, 1-282.
18
Misonne, X., 1959. Analyse zoogeographique des mammiferes de l'Iran. Memoires d’Institut Royal des Sciences Naturelles de Belgique, deuxieme serie. 59, 1-157.
19
Moraveti, M., Nazari, F., Malikov, V.G., 2010. Manual detection harmful rodents agriculture. Institute of Plant Research. Iran, Tehran.
20
Nazari, F., Farid, A., 1991. Golunda ellioti a new record for Iran. Applied entomology 58, 81-86.
21
Ostfeld, R.S., Jones, C.G., Wolf, J.O., 1996. Of mice and mast. Bioscience, 46: 323-330.
22
Roberts, T.J., 1977. The Mammals of Pakistan. Oxford University Press, Karachi.
23
Wilson, D.E., Reeder, D.M., 2005. Mammal species of the world: a taxonomic and geographic reference. 3rd ed. John Hopkins University Press, Baltimore.
24
ORIGINAL_ARTICLE
First record of Alpine long-eared bat, Plecotus macrobullaris Kuzjakin, 1965 (Chiroptera: Vespertilionidae) from east of Iran
The Alpine long-eared bat, Plecotus macrobullaris Kuzjakin, 1965 is distributed in western half of Iran. The previous easternmost occurrence of this species was from Gandab (Semnan province), while the distribution of this species is poorly known. In the present study, P. macrobullaris is recorded from NE of Iran (Moghan cave, Khorasan-e-Razavi province) for the first time. Moreover, the presence of the Lesser Mouse-eared Myotis, Myotis blythii (Tomes, 1857) in the cave is confirmed after 1999.
https://ijab.um.ac.ir/article_29094_2fef3fd82748015921d1892540fbbbd0.pdf
2017-12-01
131
136
10.22067/ijab.v13i1.50317
Plecotus macrobullaris
Moghan cave
Khorasan-e-Razavi
Iran
first record
Mehdi
Dezhman
mehdidesuman@yahoo.com
1
Department of Biology, Faculty of Sciences, Ferdowsi University of Mashhad, Mashhad, Iran
AUTHOR
Amir
Pourshabanan
pourshabanan@yahoo.com
2
Department of Biology, Faculty of Sciences, Ferdowsi University of Mashhad, Mashhad, Iran
AUTHOR
Mehdi
Elahi
mehdielahi61@gmail.com
3
Department of Biology, Faculty of Sciences, Ferdowsi University of Mashhad, Mashhad, Iran
AUTHOR
Hassan
Maddahi
sa.maddahi@yahoo.com
4
Department of Biology, Faculty of Sciences, Ferdowsi University of Mashhad, Mashhad, Iran
LEAD_AUTHOR
Alberdi, A., Garin, I., Aizpurua, O., Aihartza, J., 2013. Review on the geographic and elevational distribution of the mountain long-eared bat Plecotus macrobullaris, completed by utilising a specific mist-netting technique. Acta Chiropterologica 15(2), 451-61.
1
Alberdi, A., Aizpurua, O., Aihartza, J., Garin, I., 2014. Unveiling the factors shaping the distribution of widely distributed alpine vertebrates, using multi-scale ecological niche modelling of the bat Plecotus macrobullaris. Frontiers in zoology 11(1), 77.
2
Benda, P., Kiefer, A., Hanak, V., Veith, M., 2004. Systematic status of African populations of long-eared bats, genus Plecotus (Mammalia: Chiroptera). Folia Zoologica 53, 1-47.
3
Benda, P., Faizolahi, K., Andreas, M., Obuch, J., Reiter, A., Ševcik, M., 2012. Bats (Mammalia: Chiroptera) of the Eastern Mediterranean and Middle East. Part 10. Bat fauna of Iran. Acta Societatis Zoologicae Bohemicae 76, 163-582.
4
Darvish, J., Rastegar-Pouyani, E., 2012. Biodiversity conservation of reptiles and mammals in the Khorasan Provinces, northeast of Iran. Progress in Biological Sciences 2(1), 95-109.
5
Dietz, C., von Helversen, O., 2004. Illustrated identification key to the bats of Europe.
6
Etemad, E., 1967. Notes on bats from Iran. Mammalia 31(2), 275-80.
7
Herkt, K.MB., Barnikel, G., Skidmore, AK., Fahr, J., 2016. A high-resolution model of bat diversity and endemism for continental Africa. Ecological Modelling 320, 9-28.
8
Faizolahi, K., 1999. Motâle’e-ye moqaddamâti-ye parvâz va shenâsâ’i-ye chand gune az khoffash’ha-ye shomâl-e khorâsân [Preliminary Study of Flight Anatomy and Identification of Several North Khorasani Bat Species]. Unpubl. BSc. Thesis, Ferdowsi University, Mashhad.139 pp (In Persian).
9
Karami, M., Hutterer, R., Benda, P., Siahsarvie, R., Krystufek, B., 2008. Annotated check-list of the mammals of Iran. Lynx, series nova 39(1), 63-102.
10
Kiefer, A., 2008. Phylogeny of Western Palaearctic long-eared bats (Mammalia, Chiroptera, Plecotus)–a molecular perspective. Ph.D. Thesis, Johannes Gutenberg-Universität in Mainz.
11
Spitzenberger, F., Strelkov, P.P., Winkler, H., Haring, E., 2006. A preliminary revision of the genus Plecotus (Chiroptera, Vespertilionidae) based on genetic and morphological results. Zoologica Scripta 35(3), 187-230.
12