From the Persian Gulf and Oman Sea (Gobioidei: Gobiidae)

Total Page:16

File Type:pdf, Size:1020Kb

From the Persian Gulf and Oman Sea (Gobioidei: Gobiidae) ArchiveIranian of Journal SID of Fisheries Sciences 19(2) 612-622 2020 DOI: 10.22092/ijfs.2018.119368. Shape variation of the Indian Ocean slender mudskipper, Scartelaos tenuis (Day, 1876) from the Persian Gulf and Oman Sea (Gobioidei: Gobiidae) Ghanbarifardi M.1*; Aliabadian M.2,3; Esmaeili H.R.4 Received: January 2017 Accepted: September 2017 Abstract The shape diversity among populations of Scartelaos tenuis (Day 1876) from five stations (194 specimens) in the Persian Gulf, Strait of Hormuz (Qeshm Island), and the Oman Sea were investigated. The shape variation was assessed by geometric morphometrics, using 14 morphological landmarks. The two sexes were not distinguishable by the shape. Fish samples were classified into two distinct groups, the fish from the Persian Gulf (Heleh and Asaluyeh), and the specimens of Qeshm Island and the Oman Sea (Chahoo, Dargahan and Jask). The Persian Gulf and the Oman Sea are characterized by specific environmental parameters of surface waters, including temperature and salinity. The shape discrepancies of Scartelaos tenuis specimens from different stations are probably because of ecological parameters of the Persian Gulf and Oman Sea. Our results suggest that the observed pattern of morphological variation is almost some kind of polyphenism induced by distinct environmental factors. Keywords: Geometric morphometrics, Environmental factors, Polyphenism, Scartelaos tenuis, Persian Gulf, Oman Sea Downloaded from jifro.ir at 8:41 +0430 on Saturday April 4th 2020 1-Department of Biology, Faculty of Sciences, University of Sistan and Baluchestan, Zahedan, Iran 2-Department of Biology, Faculty of Sciences, Ferdowsi University of Mashhad, Mashhad, Iran 3-Research Department of Zoological Innovations (RDZI), Institute of Applied Zoology, Faculty of Sciences, Ferdowsi University of Mashhad, Mashhad, Iran. 4-Ichthyology and Molecular Systematics Research Lab., Department of Biology, College of Sciences, Shiraz University, Shiraz 71454, Iran *Corresponding author's Email: [email protected] www.SID.ir Archive613 Ghanbarifardi of SID et al., Shape variation of the Indian Ocean slender mudskipper, Scartelaos tenuis from… Introduction dimensional coordinates of biologically Three species of mudskippers are definable landmarks are used for distributed in the Persian Gulf and Oman Landmark-based geometric morphometric Sea, including Boleophthalmus methods. Superimposition approaches dussumieri, Periophthalmus waltoni, and remove non-shape variation (variation in Scartelaos tenuis (Ghanbarifardi and position, orientation, and scale of the Malek, 2007). Based on recent molecular specimens) in configurations of landmarks phylogenetic trees for mudskippers, the by overlaying them and employing some Indian Ocean slender mudskipper, optimization criteria. Generalized Scartelaos tenuis (Day, 1876) is included Procrustes Analysis (GPA) is usually used in the “Periophthalmus lineage” of to superimpose landmark configurations gobionelline-like gobies (Gobiidae) and and remove the non-shape variation. After sister taxa for Boleophthalmus genus; the non-shape diversity has been moreover, ecomorphological adaptations eliminated, the shape variables could be of three Iranian mudskippers have been compared via multivariate statistics, and examined by geometric morphometric graphical representations of shape (thin- method (Ghanbarifardi et al., 2016; Polgar plate spline transformation grids) are et al., 2017). S. tenuis specimens from generated for comparison. GM presents Chabahar and Qeshm Island have been shape diversification, and it is employed as compared using meristic and a substitute to the linear measurements, morphometric characteristics; this study counts, and ratios used in conventional proves some differences between fish from morphometrics (Adams et al., 2004). GM two stations regarding length-weight has been used to study fish ecology, relationship and condition factor (Hashemi population biology and stock et al., 2015). Geometric morphometric and discrimination (Silva, 2003; Costa and Downloaded from jifro.ir at 8:41 +0430 on Saturday April 4th 2020 traditional morphometric methods have Cataudella, 2007; Mostafa et al., 2010). It been employed to investigate the has also been established that several morphologic diversity among various environmental elements have transiently or populations of P. waltoni (Ghanbarifardi et permanently affected the morphological al., 2014a,b). These two studies prove that traits of fish. Temperature (Loy et al., P. waltoni populations from the Persian 1996a), fish body condition (Fitzgerald et Gulf differ from those of the Oman Sea al., 2002), adaptations to specific habitat regarding the morphological types (Langerhans et al., 2003), predation characteristics. Age, growth (Abdoli et al., risk (Eklov and Svanback, 2006), and 2010) and feeding habits (Abdoli et al., salinity (Loy et al., 1996b) 2012) of Scartelaos tenuis have been are among the most important ecological f surveyed. However, there is no study to actors. compare different populations of this The Persian Gulf is a limited waterbody, species in a wide geographical range. linked to the Oman Sea via the narrow Geometric morphometrics (GM) is a Strait of Hormuz (Fig. 1); therefore, its method to compare the shape of organisms water transmission with the Oman Sea is (Rohlf and Marcus, 1993). Two- or three- restricted. The average depth of the www.SID.ir Archive of SID Iranian Journal of Fisheries Sciences 19(2) 2020 614 Persian Gulf is only ~35 m. The surface Jask 44) along the Iranian coasts of the water of the Persian Gulf experiences Persian Gulf and Oman Sea, in February broad seasonal temperature alterations and 2013 (Fig. 1, Table 1). The specimens are superior salinity readings because of the transferred to the Zoological Museum of low rainfall and high evaporation values Ferdowsi University of Mashhad (Yao, 2008). On the other part, the Oman (ZMFUM, Table 1). Specimens were Sea is widely connected to the Indian caught by hand net during low tide Ocean and much deeper than the Persian and preserved in 5% formalin. The Gulf (~1000 m). Enough circulation, direct urogenital papilla is pointed in males and connection with the Indian Ocean and spatulate in females, and this character is confined extension of shallow regions are used to sex determination of all fish three characters of the Oman Sea that (Miller, 1986; Ghanbarifardi et al., 2014a). make ecological conditions of To evaluate the trustworthiness of this this waterbody steadier than those of the method, 20 accidentally chosen specimens Persian Gulf (Reynolds, 1993). were also sex determined by dissection. This survey explores shape variation The left side of each sample was among populations of S. tenuis from five photographed using a Canon SX150 digital stations in the Persian Gulf, Strait of camera mounted on a bench-top camera Hormuz (Qeshm Island) and Oman Sea, stand. Fish images were converted into utilizing GM. TPS files with tpsUtil v. 1.38 (Rohlf, 2006), and 14 definable homologous Materials and methods landmarks (Fig. 2) were digitized from One hundred and ninety four specimens of each image using tpsDig v. 2.17 (Rohlf, S. tenuis (standard length > 70 mm) were 2013). Downloaded from jifro.ir at 8:41 +0430 on Saturday April 4th 2020 collected from five stations (Heleh 39, Asaluyeh 34, Chahoo 38, Dargahan 39, Table 1: Sampling coordinates, area, number and call numbers of Scartelaos tenuis specimens collected at five stations. Station Coordinates Area Specimens ZMFUM call numbers Heleh 29° 14.93' N 50° 40.72' E Persian Gulf 13 females, 26 males 104 hs-142hs Asaluyeh 27°26'N 52°40'E Persian Gulf 15 females, 19 males 3as-36as Chahoo 26° 41.47' N 55° 28.75' E Qeshm Island 18 females, 20 males 143qws-149qws (Strait of 18qws-49qws Hormuz) Dargahan 26° 58.39' N 56° 4.85' E Qeshm Island 19 females, 20 males 50qes-88qes (Strait of Hormuz) Jask 25° 33.85' N 58° 10.61'E Oman Sea 21 females, 23 males 100js-118js 74js-99js www.SID.ir Archive615 Ghanbarifardi of SID et al., Shape variation of the Indian Ocean slender mudskipper, Scartelaos tenuis from… Figure 1: Sampling stations. 1: Heleh, 2: Asaluyeh, 3: Chahoo, 4: Dargahan, 5: Jask. Landmark data from each specimen was Results aligned using Generalized Procrustes DFA method could not distinguish Analysis (GPA) for superimposition significant difference in shape between (Rohlf, 1999) with MorphoJ v. 1.04a females and males of S. tenuis (Table 2). (Klingenberg, 2011). The GPA method Therefore, all specimens of each translates, rotates, and scales all landmarks population were considered as a whole and to eliminate the non-shape variation and CVA was conducted. The thin-plate spline size factor (Zelditch et al., 2004). After (transformation grids) and lollipop plot Procrustes analysis, discriminant function along CV1 were used to depict the Downloaded from jifro.ir at 8:41 +0430 on Saturday April 4th 2020 analysis (DFA) was carried out with deformation in shape. The shape of the MorphoJ v. 1.04a to assess any shape snout (Landmark 1), the eye situation difference between sexes. Canonical (landmarks 3 and 4) and the position of the variate analysis (CVA) of landmark data first and second dorsal fins and anal fin was performed to evaluate any significant (landmarks 5, 6, 7, 8, 10 and 11) are dissimilarity in shape among fish samples. disfiguring for the most (Fig. 3). The CVA was conducted using SPSS 20.0 (© initial three canonical variates (CVs) IBM); for CVA, 34 specimens of each achieved 66.0%, 19.1%
Recommended publications
  • Rare Birds in Iran in the Late 1960S and 1970S
    Podoces, 2008, 3(1/2): 1–30 Rare Birds in Iran in the Late 1960s and 1970s DEREK A. SCOTT Castletownbere Post Office, Castletownbere, Co. Cork, Ireland. Email: [email protected] Received 26 July 2008; accepted 14 September 2008 Abstract: The 12-year period from 1967 to 1978 was a period of intense ornithological activity in Iran. The Ornithology Unit in the Department of the Environment carried out numerous surveys throughout the country; several important international ornithological expeditions visited Iran and subsequently published their findings, and a number of resident and visiting bird-watchers kept detailed records of their observations and submitted these to the Ornithology Unit. These activities added greatly to our knowledge of the status and distribution of birds in Iran, and produced many records of birds which had rarely if ever been recorded in Iran before. This paper gives details of all records known to the author of 92 species that were recorded as rarities in Iran during the 12-year period under review. These include 18 species that had not previously been recorded in Iran, a further 67 species that were recorded on fewer than 13 occasions, and seven slightly commoner species for which there were very few records prior to 1967. All records of four distinctive subspecies are also included. The 29 species that were known from Iran prior to 1967 but not recorded during the period under review are listed in an Appendix. Keywords: Rare birds, rarities, 1970s, status, distribution, Iran. INTRODUCTION Eftekhar, E. Kahrom and J. Mansoori, several of whom quickly became keen ornithologists.
    [Show full text]
  • Fxm2483part1index
    UIT - BUREAU DES ITU - RADIOCOMMUNICATION UIT - OFICINA DE RADIOCOMMUNICATIONS BUREAU RADIOCOMUNICACIONES FXM provisoire / provisional N° 2483 Index / Indice Partie 1P / Part 1P / Parte 1P Date/Fecha: 26-11-2002 Détails des assignations de fréquence Particulars of frequency assignment Detalles de las notificaciones de asignación de reçues par le BR dans le format TerRaSys notices received by the BR in TerRaSys frecuencia recibidas por la BR en formato (voir CR/118). format (see CR/118). TerRaSys (ver CR/118). Cette partie 1P est aussi publiée en fichier This Part 1P is also published in Esta Parte 1P se publica también en el fichero MS-Access (mdb). Afin de faciliter l'utilisation MS-Access (mdb) file. In order to facilitate MS-Acces (mdb). Para facilitar la utilización del du fichier, le numéro d’index provisoire trouvé the use of the file, the provisional index mismo, el número de índice provisional que se en cette page d’index indique le numéro de number found in this index page indicates encuentra en esta página de índice indica el série de la notice dans le fichier. Veuillez the serial number of the notice in the file. número de serie de la notificación en dicho utiliser le programme fourni “FXM Part 1P Please use the supplied program “FXM Part fichero. Sírvase utilizar el programa suministrado: Software” pour visualiser les notices. 1P Software” to view the notices. “FXM Part 1P Software” para visualizar las notificaciones. Index Intent B 4B/5B 1A [MHz] 4A/5A 6A Adm. Ref. Identifier 248302543 ADD ARM ARM 890.200000 YEREVAN YE 03
    [Show full text]
  • BR IFIC N° 2509 Index/Indice
    BR IFIC N° 2509 Index/Indice International Frequency Information Circular (Terrestrial Services) ITU - Radiocommunication Bureau Circular Internacional de Información sobre Frecuencias (Servicios Terrenales) UIT - Oficina de Radiocomunicaciones Circulaire Internationale d'Information sur les Fréquences (Services de Terre) UIT - Bureau des Radiocommunications Part 1 / Partie 1 / Parte 1 Date/Fecha: 16.12.2003 Description of Columns Description des colonnes Descripción de columnas No. Sequential number Numéro séquenciel Número sequencial BR Id. BR identification number Numéro d'identification du BR Número de identificación de la BR Adm Notifying Administration Administration notificatrice Administración notificante 1A [MHz] Assigned frequency [MHz] Fréquence assignée [MHz] Frecuencia asignada [MHz] Name of the location of Nom de l'emplacement de Nombre del emplazamiento de 4A/5A transmitting / receiving station la station d'émission / réception estación transmisora / receptora 4B/5B Geographical area Zone géographique Zona geográfica 4C/5C Geographical coordinates Coordonnées géographiques Coordenadas geográficas 6A Class of station Classe de station Clase de estación Purpose of the notification: Objet de la notification: Propósito de la notificación: Intent ADD-addition MOD-modify ADD-additioner MOD-modifier ADD-añadir MOD-modificar SUP-suppress W/D-withdraw SUP-supprimer W/D-retirer SUP-suprimir W/D-retirar No. BR Id Adm 1A [MHz] 4A/5A 4B/5B 4C/5C 6A Part Intent 1 103058326 BEL 1522.7500 GENT RC2 BEL 3E44'0" 51N2'18" FX 1 ADD 2 103058327
    [Show full text]
  • Mayors for Peace Member Cities 2021/10/01 平和首長会議 加盟都市リスト
    Mayors for Peace Member Cities 2021/10/01 平和首長会議 加盟都市リスト ● Asia 4 Bangladesh 7 China アジア バングラデシュ 中国 1 Afghanistan 9 Khulna 6 Hangzhou アフガニスタン クルナ 杭州(ハンチォウ) 1 Herat 10 Kotwalipara 7 Wuhan ヘラート コタリパラ 武漢(ウハン) 2 Kabul 11 Meherpur 8 Cyprus カブール メヘルプール キプロス 3 Nili 12 Moulvibazar 1 Aglantzia ニリ モウロビバザール アグランツィア 2 Armenia 13 Narayanganj 2 Ammochostos (Famagusta) アルメニア ナラヤンガンジ アモコストス(ファマグスタ) 1 Yerevan 14 Narsingdi 3 Kyrenia エレバン ナールシンジ キレニア 3 Azerbaijan 15 Noapara 4 Kythrea アゼルバイジャン ノアパラ キシレア 1 Agdam 16 Patuakhali 5 Morphou アグダム(県) パトゥアカリ モルフー 2 Fuzuli 17 Rajshahi 9 Georgia フュズリ(県) ラージシャヒ ジョージア 3 Gubadli 18 Rangpur 1 Kutaisi クバドリ(県) ラングプール クタイシ 4 Jabrail Region 19 Swarupkati 2 Tbilisi ジャブライル(県) サルプカティ トビリシ 5 Kalbajar 20 Sylhet 10 India カルバジャル(県) シルヘット インド 6 Khocali 21 Tangail 1 Ahmedabad ホジャリ(県) タンガイル アーメダバード 7 Khojavend 22 Tongi 2 Bhopal ホジャヴェンド(県) トンギ ボパール 8 Lachin 5 Bhutan 3 Chandernagore ラチン(県) ブータン チャンダルナゴール 9 Shusha Region 1 Thimphu 4 Chandigarh シュシャ(県) ティンプー チャンディーガル 10 Zangilan Region 6 Cambodia 5 Chennai ザンギラン(県) カンボジア チェンナイ 4 Bangladesh 1 Ba Phnom 6 Cochin バングラデシュ バプノム コーチ(コーチン) 1 Bera 2 Phnom Penh 7 Delhi ベラ プノンペン デリー 2 Chapai Nawabganj 3 Siem Reap Province 8 Imphal チャパイ・ナワブガンジ シェムリアップ州 インパール 3 Chittagong 7 China 9 Kolkata チッタゴン 中国 コルカタ 4 Comilla 1 Beijing 10 Lucknow コミラ 北京(ペイチン) ラクノウ 5 Cox's Bazar 2 Chengdu 11 Mallappuzhassery コックスバザール 成都(チォントゥ) マラパザーサリー 6 Dhaka 3 Chongqing 12 Meerut ダッカ 重慶(チョンチン) メーラト 7 Gazipur 4 Dalian 13 Mumbai (Bombay) ガジプール 大連(タァリィェン) ムンバイ(旧ボンベイ) 8 Gopalpur 5 Fuzhou 14 Nagpur ゴパルプール 福州(フゥチォウ) ナーグプル 1/108 Pages
    [Show full text]
  • Rationale of the Study
    European Online Journal of Natural and Social Sciences 2014; www.european-science.com Vol.3, No.4 Special Issue on Architecture, Urbanism, and Civil Engineering ISSN 1805-3602 Seeking Archetype of Water Storages of Qeshm Island Mehdi Bavaghar Zaeimi, Fatemeh Jafari* Young Researchers and Elite Club, Bandar Abbas branch, Islamic Azad University, Bandar Abbas, Iran *Email: [email protected] Abstract Throughout history, water as one of the most important natural factors played an important role in human life. In dry and waterless areas, people have always been in difficulty to provide and maintain and distribute water, and over centuries, different strategies have been applied to use water. In this article, water storage as one of the principle strategies to use water which has cultural and social indicators and dimensions was studied. Water storage as an urban structure remained from the past, is a valuable experience of Iranian art and belief values that can be used as a cultural and natural capital. Persian Gulf Islands, because of the lack of water has numerous water storages with different architecture plans and water storage can be called as a sign of this province beside wind towers. Wind towers is a phenomenon derived from confirmation of cultural and technical characteristics of humans with the natural features of the surrounding environment. With regard to drinking groundwater tables, Qeshm Island is one of the most disadvantaged areas of the country and people could already solve some of the problems related to annual lack of water by using their natural aptitudes in building water storage and well.
    [Show full text]
  • T.C. Tahran Büyükelçiliği Ticaret Müşavirliği HORMOZGAN 1. Genel Bilgiler Nüfusu Ve Ülke Nüfusu İçindeki Payı 1.776
    T.C. Tahran Büyükelçiliği Ticaret Müşavirliği HORMOZGAN 1. Genel Bilgiler Nüfusu ve Ülke Nüfusu İçindeki 1.776.415 (%2,22) Payı Coğrafi Büyüklüğü ve Ülke 70.712 Km2 (%4,3) Büyüklüğü İçindeki Oranı (Yüzde) Ostanlar Arası Gelişmişlik % 0,27 - 31 Eyalet Arasında 30. Sırada Sıralamasında Yeri Ostandaki İşsizlik Oranı % 16,6 ; 15-29 yaş grubunda ise %21,6 İklimi ve Coğrafyası Sıcak ve Kuru İklimi Komşu Eyaletleri Kuzey ve Kuzey Doğudan Kerman Eyaleti Batı ve Kuzey Batıdan Fars ve Buşehr Eyaletleri Doğudan Sistan ve Belucistan Eyaleti Güneyden Fars Körfezi 2. Ekonomi ve Dış Ticaretine İlişkin Bilgiler Ülke GSMH İçindeki Payı % 2 Ülke Dış Ticareti İçindeki Payı İhracat : %19,03 İthalat : %44,83 Ostanın İhracat Yaptığı Önde Gelen Çimento Ürünler Çelik Ürünleri Su Ürünleri (Karides başta olmak üzere) T.C. Tahran Büyükelçiliği Ticaret Müşavirliği Konserve Balık Balık Unu Bağ ve Tarım ürünleri (Hurma, Sebzeler, Limon ve Mango başta olmak üzere) Muhtelif Petrokimya Ürünleri Alüminyum ve Bileşimleri Kromit Ostanın İthalat Yaptığı Önde Gelen Üretim Tesisatlarının Makineleri Ürünler Elektrik ve Elektronik Parçaları ve Bileşenleri, Muhtelif Üretim Makineleri Parçaları Tarım için gereken Thomlar ve Gübreler Rıhtımları yeniden inşa etmek için gereken teçhizatlar Ostanın Dış Ticaretinde Önde Gelen Kuveyt, Umman, BAE, Irak, Afganistan, Suriye, Pakistan, Azerbaycan, Ermenistan, Türkiye, Ülkeler Kazakistan, Hindistan, Avrupa ve Kuzey Afrika Ülkeleri Ostanın Ekonomisindeki Tarım, Sanayi, Tarım Ürünleri Maden ve Doğal Kaynaklar, Enerji Ekim yapılan toplam alan 154.931 hektar ve Ülkedeki Payı % 1,13 Sektörlerinin Detayları Bahçe ekimi yapılan toplam alan 77.117 hektar ve Ülkedeki Payı %2,69 Toplam bahçe ürünleri üretimi 585.596 Ton ve Ülkedeki Payı %2,79 Toplam seracılık alanı 176,1 hektar ve Ülkedeki Payı %1,57 Tarla ve Bahçe Bitkileri Tarla alanı 77.117 hektar ve ülkedeki tarlalar içindeki payı %2.69 Hormozgan'da tarımsal üretimde domates, patlıcan, soğan, karpuz, salatalık, kavun, bamya gibi yazlık meyve ve sebze türleri önemli bir yer tutmaktadır.
    [Show full text]
  • The Desalination Potential for Southern Iran Abstract
    THE DESALINATION POTENTIAL FOR SOUTHERN IRAN ABSTRACT Reza Kheirandish M.Sc. Agricultural Engineering The Desalination potential for Small Communities in Southern Iran Southern Iran is sparsely populatedi much of the population is concentrated into small widely scattered communities, each of less than 1000 inhabitants. These isolated communities face an acute shortage of fresh water. The existing sources of fresh water supply, such as rainwater, ground and surface water, are inadequate and often unsuitable. However, brackish or saline water is available which can be desalted. In view of the low daily fresh water demand in these communities, solar distillation appears to be a suitable desalination process. In this thesis the possibility of using solar desalination for the isolated communities of Southern Iran has been considered from bath technical and economic standpoints. Two alternates have been studied: one of building large-scale community solar stills and the other relating to the provision of small-scale family-size units. As a part of the investigation five small-scale experimental solar stills were built and tested in Montreal and the results extrapolated to Southern Iran. THE DESALINATION POTENTIAL FOR SMALL COMMUNITIES IN SOUTHERN IRAN by Reza Kheirandish Thesis Submitted to the Graduate Faculty in Partial Fulfillment of The Requirements for the Degree of MASTER OF SCIENCE Department of Agricultural Engineering McGill University July 1972 @ Reza Kheirandish 1973 TABLE OF CONTENTS Page No. Title Page Abstract Acknowledgements List of Figures iii List of Tables ............................................. iv Definitionsof Terminology l Main Section chapter No. Chapter Title l Introduction 2 2 Development of the Existing Sources of Wa ter Supply ••••••••....•.••••.••••.•••••• 12 3 Solar Desalination 16 4 Experimental Investigations 23 5 Analysis, Results and Discussions 26 Conclusions 41 Recommendations 42 List of References 43 Figure Nos.
    [Show full text]
  • Residents' Perceptions of Geotourism in Qeshm Island UNESCO Global
    Edith Cowan University Research Online Theses: Doctorates and Masters Theses 2018 Residents’ perceptions of geotourism in Qeshm Island UNESCO Global Geopark, Iran Shahrzad Khodayar Edith Cowan University Follow this and additional works at: https://ro.ecu.edu.au/theses Part of the Tourism and Travel Commons Recommended Citation Khodayar, S. (2018). Residents’ perceptions of geotourism in Qeshm Island UNESCO Global Geopark, Iran. https://ro.ecu.edu.au/theses/2157 This Thesis is posted at Research Online. https://ro.ecu.edu.au/theses/2157 Edith Cowan University Copyright Warning You may print or download ONE copy of this document for the purpose of your own research or study. The University does not authorize you to copy, communicate or otherwise make available electronically to any other person any copyright material contained on this site. You are reminded of the following: Copyright owners are entitled to take legal action against persons who infringe their copyright. A reproduction of material that is protected by copyright may be a copyright infringement. Where the reproduction of such material is done without attribution of authorship, with false attribution of authorship or the authorship is treated in a derogatory manner, this may be a breach of the author’s moral rights contained in Part IX of the Copyright Act 1968 (Cth). Courts have the power to impose a wide range of civil and criminal sanctions for infringement of copyright, infringement of moral rights and other offences under the Copyright Act 1968 (Cth). Higher penalties may apply, and higher damages may be awarded, for offences and infringements involving the conversion of material into digital or electronic form.
    [Show full text]
  • The Project for Community-Based Sustainable Development Master Plan of Qeshm Island Toward “Eco-Island” in the Islamic Republic of Iran
    Qeshm Free Zone Organization Japan International Cooperation Agency (JICA) (QFZO) THE PROJECT FOR COMMUNITY-BASED SUSTAINABLE DEVELOPMENT MASTER PLAN OF QESHM ISLAND TOWARD “ECO-ISLAND” IN THE ISLAMIC REPUBLIC OF IRAN FINAL REPORT Volume 6: GIS Atlas January 2019 RECS International Inc. PADECO Co., Ltd. Kokusai Kogyo Co., Ltd. Currency Equivalents (as of November 30, 2015) US$1.00=IRR 29,885 US$1.00=JPY 122.70 JPY 1=IRR 243.258 Source: OANDA.COM, http://www.oanda.com. The Project for Community-based Sustainable Development Master Plan of Qeshm Island toward “Eco-island” Final Report List of Appendixes E-20. Zirong Village Land Use (1:8,000) ..................................................................................... E-20 E-21. Sohli Village Land Use (1:8,000) ....................................................................................... E-21 A. LOCATION & BASE MAPS E-22. Tabl Village Land Use (1:10,000) ....................................................................................... E-22 A-01. Study area location map in Hormozgan province (1:1,500,000) ......................................... A-1 E-23. Haft Rangou Village Land Use (1:6,000) ........................................................................... E-23 A-02. Study area base map (1:300,000) ......................................................................................... A-2 E-24. Dourbani Village Land Use (1:6,000) ................................................................................ E-24 A-03. Howmeh Rural District (East
    [Show full text]
  • Download This PDF File
    Iran. J. Ichthyol. (March 2014), 1(1): 23–28 Received: January 28, 2014 © 2014 Iranian Society of Ichthyology Accepted: March 20, 2014 E-ISSN: 2383-0964 ; P-ISSN: 2383-1561 doi: doi: Assignment of Acanthopagrus populations in the Persian Gulf drainage system of Iran to Acanthopagrus arabicus Iwatsuki, 2013 (Perciformes: Sparidae) Hamid Reza ESMAEILI*, Mojtaba MASOUDI, Hamid Reza MEHRABAN 1Department of Biology, College of Sciences, Shiraz University, Shiraz, Iran. Email: [email protected] Abstract: The distribution of yellowfin seabream populations in estuaries and inland rivers in coastal area of the Persian Gulf and Strait of Hormuz is presented. Based on morphological and mersitic characteristics and also color pattern, these populations are assigned to the recently described sparid fish, Acanthopagrus arabicus Iwatsuki, 2013 which is distinguished by pelvic and anal fins vivid or strong yellow; black streaks proximally on inter-radial membranes between yellow anal-fin rays absent; lower caudal-fin lobe yellow; clear black blotches usually absent just beneath inter-radial membranes between dorsal-fin rays but upper dorsal- fin membrane often with darker margin; weak diffuse dark blotch at origin of lateral line, usually covering first pored lateral-line scale, continuing as a dense dark shading over upper part of posterior opercle. Keywords: Yellowfin seabream, Distribution, Persian Gulf, Iran. Introduction valid species of the genus Acanthopagrus to 20 The sea breams or porgies (Sparidae) are found in species (see Iwatsuki 2013). shallow temperate and tropical waters of the Different populations of the only species of genus Atlantic, Indian and Pacific oceans and comprise Acanthopagrus in Tigris River and Persian Gulf about 36 genera and about 130 species (Eschmeyer basins of Iran have been considered as and Fong 2011).
    [Show full text]
  • Using Earthquake Recording and Microtremor Measurments 1 2 E
    th The 14 World Conference on Earthquake Engineering October 12-17, 2008, Beijing, China SITE EFFECT EVALUATION IN QESHM ISLAND (IRAN) USING EARTHQUAKE RECORDING AND MICROTREMOR MEASURMENTS 1 2 E. Haghshenas , M. Khandan Bakavoli and R. Ghods-Azar3 1 Assistant Professor, Dept. of Geotechnical Engineering, International Institute of Earthquake Engineering and Seismology, Tehran. Iran 2 Ph.D Student, Geotechnical Engineering, International Institute of Earthquake Engineering and Seismology, Tehran. Iran 2 Msc. Student, International Institute of Earthquake Engineering and Seismology, Tehran. Iran Email: [email protected] ABSTRACT : Un earthquake of Mw =6.0 struck the central part of Qeshm Island, the greatest Iranian island in the Persian Gulf in November 27, 2005 (13:52 local time) after a relatively long period of seismic silence during 20th century in the region. This earthquake caused some of causalities and important damages to rural areas. This leads the Qeshm free zone organization and International Institute of Earthquake Engineering and Seismology (IIEES) to conduct a comprehensive study on the surface ground motion characteristics and earthquake geotechnical engineering in this Island. This paper shows some of the results obtained using earthquake data and Microtremors measurements. In this regards, the data of a seismological network consisting of 17 stations, installed after the earthquake (from 2005 December 2 to 2006 February 26) and 49 single station Microtremors measurements were used. More than 100 seismic events have been extracted for each station to estimate site effect by conventional methods such as Standard Spectral Ratio (SSR), General Inversion (GI) and horizontal/vertical spectral ratio (HVSR) Methods. Microtremor measurements were mostly focused on the 2 important city of the region, Qeshm and Dargahan.
    [Show full text]
  • Rare Birds in Iran in 1980−2010 Abolghasem Khaleghizadeh 1*, Derek A
    Podoces, 2011, 6(1): 1–48 PODOCES 2011 Vol. 6, No. 1 Journal homepage: www.wesca.net Rare Birds in Iran in 1980−2010 Abolghasem Khaleghizadeh 1*, Derek A. Scott 2, Mohammad Tohidifar 3, Seyed Babak Musavi 4, Meysam Ghasemi 5, Mohammad E. Sehhatisabet 6, Abbas Ashoori 7, Ali Khani 8, Parviz Bakhtiari 9, Hamid Amini 10 , Cees Roselaar 11 , Raffael Ayé 12 , Magnus Ullman 13 , Bagher Nezami 14 & Farshad Eskandari 15 1) Ornithology Laboratory, Agricultural Zoology Research Department, Iranian Research Institute of Plant Protection, Tehran, Iran 2) Castletownbere Post Office, Castletownbere, Co. Cork, Ireland 3) Biodiversity & Habitats Division, Faculty of Environment & Energy, Science and Research Branch, Islamic Azad University, Tehran , Iran 4) No 5, Sattari 24, Vakil-Abad, Mashhad, Iran 5) Hormozgan Provincial Office of the Department of the Environment, Bandar Abbas, Iran 6) Kerman Provincial Office of the Department of the Environment, Kerman, Iran 7) Gilan Provincial Office of the Department of the Environment, Rasht, Iran 8) Khorasan-e Razavi Provincial Office of the Department of the Environment, Mashhad, Iran 9) Tarlan Birdwatching Co., Tehran, Iran 10) Ornithology Unit, Wildlife Bureau, Department of the Environment, Tehran, Iran 11) Curator Bird Department, National Centre for Biodiversity Naturalis, Leiden, The Netherlands 12) Im Zimmerhof 7, 4054 Basel, Switzerland 13) Triangeln 13, SE-272 38 Brantevik, Sweden 14) Department of Environment and Energy, Science and Research Branch, Islamic Azad University, Tehran, Iran 15) Islamic Azad University, Khuzestan Science and Research Branch, Iran This is the first official release of "Iran Bird Records Committee". Authors of Nos. 1−9, 12 and 13 are members of the committee.
    [Show full text]