Further Spider (Arachnida: Araneae)
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Investigation of Population Establishment Pattern in The
Copyright © 2014 Scienceline Publication Journal of Civil Engineering and Urbanism Volume 4, Issue 4: 390-396 (2014) ISSN-2252-0430 Investigation of Population Establishment Pattern in the Residential Centers of Tehran Metropolitan Area in Relation to the Role of Urban- Regional Management and Planning System (1966-2011) Manijeh Lalepour Assistant Professor, Department of Geography and Urban Planning, University of Maragheh, Maragheh, Iran *Corresponding author’s E-mail: [email protected] ABSTRACT: Current study has analyzed the trend of population establishment in residential centers of Tehran metropolitan area between 1986-2011 in relation to the role of formal management and planning system of the country. Hence, the trend of spatial establishment of population in the region has been considered through population absorption pattern of urban and rural settlements of the region and new towns position. The research method is descriptive-analytical. Results show that the structure of management and ORIGINAL ARTICLE Received 15 Jun. 2014 15 Jun. Received planning of Tehran metropolitan area in the organization of region’s population establishment hasn’t 2014 10 Jul. Accepted solidarity and coordination. Population settlement plans in Tehran metropolitan area which has been implemented in the framework of new towns plan has acted in an abstract space without paying attention to policy making and integrated planning for development of other physical elements such as industrial activity centers, communication network and public services and utilities of metropolitan area has acted. This matter has caused that regardless of considerable capacity making in planned new towns, these centers don’t play important role in organization of population establishment in the region. -
TFG Lucas Fernandez Miriam.Pdf
UNIVERSIDAD DE JAÉN Facultad de Ciencias Experimentales Trabajo Fin de Grado Revisión bibliográfica de los Licósidos (Araneidae, Lycosidae) presentes en el sureste de la península ibérica Ciencias Experimentales Alumno: Miriam Lucas Fernández Facultad de Julio, 2020 UNIVERSIDAD DE JAÉN FACULTAD DE CIENCIAS EXPERIMENTALES GRADO EN BIOLOGÍA Trabajo Fin de Grado Revisión bibliográfica de los Licósidos (Araneidae, Lycosidae) presentes en el sureste de la península ibérica Miriam Lucas Fernández Julio, 2020 1 RESUMEN ………………………………………………………………………………3 2 INTRODUCCIÓN ................................................................................................ 4 2.1 Distribución y diversidad de las arañas ......................................................... 4 2.2 Morfología biológica ...................................................................................... 5 2.3 Biología reproductiva del orden Araneae ...................................................... 7 3 OBJETIVOS ........................................................................................................ 8 4 MATERIALES Y MÉTODOS ............................................................................... 9 5 FAMILIA LYCOSIDAE: Perspectiva mundial e ibérica ....................................... 9 5.1 Taxonomía .................................................................................................. 10 5.2 Identificación ............................................................................................... 12 5.3 Hábitat ........................................................................................................ -
Comparative Functional Morphology of Attachment Devices in Arachnida
Comparative functional morphology of attachment devices in Arachnida Vergleichende Funktionsmorphologie der Haftstrukturen bei Spinnentieren (Arthropoda: Arachnida) DISSERTATION zur Erlangung des akademischen Grades doctor rerum naturalium (Dr. rer. nat.) an der Mathematisch-Naturwissenschaftlichen Fakultät der Christian-Albrechts-Universität zu Kiel vorgelegt von Jonas Otto Wolff geboren am 20. September 1986 in Bergen auf Rügen Kiel, den 2. Juni 2015 Erster Gutachter: Prof. Stanislav N. Gorb _ Zweiter Gutachter: Dr. Dirk Brandis _ Tag der mündlichen Prüfung: 17. Juli 2015 _ Zum Druck genehmigt: 17. Juli 2015 _ gez. Prof. Dr. Wolfgang J. Duschl, Dekan Acknowledgements I owe Prof. Stanislav Gorb a great debt of gratitude. He taught me all skills to get a researcher and gave me all freedom to follow my ideas. I am very thankful for the opportunity to work in an active, fruitful and friendly research environment, with an interdisciplinary team and excellent laboratory equipment. I like to express my gratitude to Esther Appel, Joachim Oesert and Dr. Jan Michels for their kind and enthusiastic support on microscopy techniques. I thank Dr. Thomas Kleinteich and Dr. Jana Willkommen for their guidance on the µCt. For the fruitful discussions and numerous information on physical questions I like to thank Dr. Lars Heepe. I thank Dr. Clemens Schaber for his collaboration and great ideas on how to measure the adhesive forces of the tiny glue droplets of harvestmen. I thank Angela Veenendaal and Bettina Sattler for their kind help on administration issues. Especially I thank my students Ingo Grawe, Fabienne Frost, Marina Wirth and André Karstedt for their commitment and input of ideas. -
October 2005
January 2014 CURRICULUM VITAE and LIST OF PUBLICATIONS PERSONAL DETAILS Name: YAEL DEVORA LUBIN Date and Place of Birth: 23 September 1945 Cambridge, MA, USA Date of Immigration: September 1984 Address and Telephone: Mitrani Department of Desert Ecology, Blaustein Institute for Desert Research, Ben Gurion University of the Negev, Sede Boqer Campus, Midreshet Ben-Gurion 84990, Israel Tel (work): 08-659-6782, Tel (home): 08-653-2968, Fax: 08-659-6772 Email: [email protected] EDUCATION 1963-1964 Hebrew University, Jerusalem, Israel B.S. 1965-1967 Columbia University, New York, USA M.S. 1967-1968 Columbia University, New York, USA* Ph.D. 1968-1972 University of Florida, Gainesville, USA** *M.S. Thesis: Communication among termites. Advisor: Dr. F. E. Warburton **Ph.D. Dissertation: Behavioral ecology of tropical tent spiders of the genus Cyrtophora (Araneae, Araneidae), Advisor: Dr. J. H. Kaufmann Special honors and fellowships awarded during studies: Phi Beta Kappa, 1967 Columbia University Graduate Fellowship, 1967 University of Florida Graduate Fellowship, 1968 NDEA Title IV Fellowship, 1969 EMPLOYMENT HISTORY 1 2013 Professor Emeritus 2001-2005 Head, Mitrani Department of Desert Ecology, Jacob Blaustein Institutes for Desert Research, Sede Boqer Campus, Ben-Gurion University of the Negev 2000-2013 Full Professor, as above 1995-2000 Associate Professor, as above 1988-1995 Senior Lecturer, tenured, as above 1986-1988 Adjunct Lecturer, Ben-Gurion University of the Negev (Biology Department) Research Scientist B, Mitrani Center for Desert Ecology, -
Powerpoint Bemutató
Mezőfi et al., 2020: Beyond polyphagy and opportunism: natural prey of hunting spiders in the canopy of apple trees. Supplemental figures Arboreal hunting spider assemblage 1.72 2 GLM-g, F1,647 = 235.74, P < 0.001, R = 0.23 exp(-0.82 + 0.526x) 4 Season: Spring Summer 3 Fall 2 1.13 Prey width (mm)Prey thorax 1 0 0 1 2 3 Spider prosoma width (mm) Figure S1: Relationship between spider prosoma and prey thorax widths (jittered, N=649) for the arboreal hunting spider assemblage. On the marginal boxplots red squares indicate the mean values. Spring 16 1 2 3 4 5 6 7 8 9 10 11 13 Prey taxa Spiders N=325 C.xanth O.salt Ph.cesp E.tri Xys Club Prey Natural economic enemy Neutral Pest Figure S2: Spring aspect (N=325); throphic interactions between the most abundant hunting spider groups and the arthropod community in the canopy of apple trees in spring. The middle bars represent spider groups and upper and bottom bars represent the spiders’ prey divided taxonomically and according their economic status. The width of the links between the trophic levels depict the frequency of interactions and bar widths indicate the relative abundance of each category. Numbers refer to following prey taxa: 1 Acari, 2 Araneae, 3 Coleoptera, 4 Lepidoptera, 5 Formicidae, 6 Other Hymenoptera, 7 Brachycera, 8 Nematocera, 9 Auchenorrhyncha, 10 Heteroptera, 11 Sternorrhyncha, 13 Neuroptera, 16 Trichoptera; Spiders: C.xanth = Carrhotus xanthogramma, O.salt = Other salticids, Ph.cesp = Philodromus cespitum, E.tri = Ebrechtella tricuspidata, Xys = Xysticus spp., Club = Clubiona spp. -
Landslide Zonation in Fasham Area of Tehran Province (Iran) Abstract Introduction
LANDSLIDE ZONATION IN FASHAM AREA OF TEHRAN PROVINCE (IRAN) Shadi Khoshdoni Farahani, Assoc.Prof.Dr.Md Nor Kamarudin, Dr. Mojgan Zarei Nejad Faculty of Geoinformation Science and Engineering, Universiti Teknologi Malaysia 81300 Skudai, Johor, Malaysia Email: [email protected] Faculty of Geoinformation Science and Engineering, Universiti Teknologi Malaysia 81300 Skudai, Johor , Malaysia Email: [email protected] GIS Center, Solvegatan 12, 223 62 Lund, Lund University, Sweden Email: [email protected] ABSTRACT Tehran province which encircles the capital of the Islamic Republic of Iran is highly momentous from the politico- socio-economic-cultural aspects. This significance has instigated the implementation of the geological, geographical and climatological studies in this state in a comprehensive and precise manner. Fasham district in the north eastern part of Tehran province which is a geologically and geographically area has been opted out in this research for semi- detailed studies. the case studied in this research is the landslide in Fasham area. Iran is one of the highly landslide prone countries due to its particular geological, topographical and climatological conditions. Heavy financial lost are reported each year due to the landslide occurrence. The transpiration of these landslides occasionally brings about other death tolls and financial lost originating from earthquakes. Some of the factors affecting this phenomenon are as follows: the alteration of the slope amplitude, geotechnical and litho logical circumstances, earthquake and trembling, tectonics motions, structural alterations, pluvial effects and snow thawing, the extermination of the vegetation, land utilization alteration. The zone under studied is prone to landslide due to various reasons such as possessing special geological conditions and special geographical position. -
Distribution of Spiders in Coastal Grey Dunes
kaft_def 7/8/04 11:22 AM Pagina 1 SPATIAL PATTERNS AND EVOLUTIONARY D ISTRIBUTION OF SPIDERS IN COASTAL GREY DUNES Distribution of spiders in coastal grey dunes SPATIAL PATTERNS AND EVOLUTIONARY- ECOLOGICAL IMPORTANCE OF DISPERSAL - ECOLOGICAL IMPORTANCE OF DISPERSAL Dries Bonte Dispersal is crucial in structuring species distribution, population structure and species ranges at large geographical scales or within local patchily distributed populations. The knowledge of dispersal evolution, motivation, its effect on metapopulation dynamics and species distribution at multiple scales is poorly understood and many questions remain unsolved or require empirical verification. In this thesis we contribute to the knowledge of dispersal, by studying both ecological and evolutionary aspects of spider dispersal in fragmented grey dunes. Studies were performed at the individual, population and assemblage level and indicate that behavioural traits narrowly linked to dispersal, con- siderably show [adaptive] variation in function of habitat quality and geometry. Dispersal also determines spider distribution patterns and metapopulation dynamics. Consequently, our results stress the need to integrate knowledge on behavioural ecology within the study of ecological landscapes. / Promotor: Prof. Dr. Eckhart Kuijken [Ghent University & Institute of Nature Dries Bonte Conservation] Co-promotor: Prf. Dr. Jean-Pierre Maelfait [Ghent University & Institute of Nature Conservation] and Prof. Dr. Luc lens [Ghent University] Date of public defence: 6 February 2004 [Ghent University] Universiteit Gent Faculteit Wetenschappen Academiejaar 2003-2004 Distribution of spiders in coastal grey dunes: spatial patterns and evolutionary-ecological importance of dispersal Verspreiding van spinnen in grijze kustduinen: ruimtelijke patronen en evolutionair-ecologisch belang van dispersie door Dries Bonte Thesis submitted in fulfilment of the requirements for the degree of Doctor [Ph.D.] in Sciences Proefschrift voorgedragen tot het bekomen van de graad van Doctor in de Wetenschappen Promotor: Prof. -
List of Cities in Iran
S.No. Name of City 1 Abadan 2 Abadeh 3 Abyek 4 Abhar 5 Abyaneh 6 Ahar 7 Ahvaz 8 Alavicheh 9 Aligoodarz 10 Alvand 11 Amlash 12 Amol 13 Andimeshk 14 Andisheh 15 Arak 16 Ardabil 17 Ardakan 18 Asalem 19 Asalouyeh 20 Ashkezar 21 Ashlagh 22 Ashtiyan 23 Astaneh Arak 24 Astaneh-e Ashrafiyyeh 25 Astara 26 Babol 27 Babolsar 28 Baharestan 29 Balov 30 Bardaskan 31 Bam 32 Bampur 33 Bandar Abbas 34 Bandar Anzali 35 Bandar Charak 36 Bandar Imam 37 Bandar Lengeh 38 Bandar Torkman 39 Baneh 40 Bastak 41 Behbahan 42 Behshahr 43 Bijar 44 Birjand 45 Bistam 46 Bojnourd www.downloadexcelfiles.com 47 Bonab 48 Borazjan 49 Borujerd 50 Bukan 51 Bushehr 52 Damghan 53 Darab 54 Dargaz 55 Daryan 56 Darreh Shahr 57 Deylam 58 Deyr 59 Dezful 60 Dezghan 61 Dibaj 62 Doroud 63 Eghlid 64 Esfarayen 65 Eslamabad 66 Eslamabad-e Gharb 67 Eslamshahr 68 Evaz 69 Farahan 70 Fasa 71 Ferdows 72 Feshak 73 Feshk 74 Firouzabad 75 Fouman 76 Fasham, Tehran 77 Gachsaran 78 Garmeh-Jajarm 79 Gavrik 80 Ghale Ganj 81 Gerash 82 Genaveh 83 Ghaemshahr 84 Golbahar 85 Golpayegan 86 Gonabad 87 Gonbad-e Kavous 88 Gorgan 89 Hamadan 90 Hashtgerd 91 Hashtpar 92 Hashtrud 93 Heris www.downloadexcelfiles.com 94 Hidaj 95 Haji Abad 96 Ij 97 Ilam 98 Iranshahr 99 Isfahan 100 Islamshahr 101 Izadkhast 102 Izeh 103 Jajarm 104 Jask 105 Jahrom 106 Jaleq 107 Javanrud 108 Jiroft 109 Jolfa 110 Kahnuj 111 Kamyaran 112 Kangan 113 Kangavar 114 Karaj 115 Kashan 116 Kashmar 117 Kazeroun 118 Kerman 119 Kermanshah 120 Khalkhal 121 Khalkhal 122 Khomein 123 Khomeynishahr 124 Khonj 125 Khormuj 126 Khorramabad 127 Khorramshahr -
196 Arachnology (2019)18 (3), 196–212 a Revised Checklist of the Spiders of Great Britain Methods and Ireland Selection Criteria and Lists
196 Arachnology (2019)18 (3), 196–212 A revised checklist of the spiders of Great Britain Methods and Ireland Selection criteria and lists Alastair Lavery The checklist has two main sections; List A contains all Burach, Carnbo, species proved or suspected to be established and List B Kinross, KY13 0NX species recorded only in specific circumstances. email: [email protected] The criterion for inclusion in list A is evidence that self- sustaining populations of the species are established within Great Britain and Ireland. This is taken to include records Abstract from the same site over a number of years or from a number A revised checklist of spider species found in Great Britain and of sites. Species not recorded after 1919, one hundred years Ireland is presented together with their national distributions, before the publication of this list, are not included, though national and international conservation statuses and syn- this has not been applied strictly for Irish species because of onymies. The list allows users to access the sources most often substantially lower recording levels. used in studying spiders on the archipelago. The list does not differentiate between species naturally Keywords: Araneae • Europe occurring and those that have established with human assis- tance; in practice this can be very difficult to determine. Introduction List A: species established in natural or semi-natural A checklist can have multiple purposes. Its primary pur- habitats pose is to provide an up-to-date list of the species found in the geographical area and, as in this case, to major divisions The main species list, List A1, includes all species found within that area. -
SA Spider Checklist
REVIEW ZOOS' PRINT JOURNAL 22(2): 2551-2597 CHECKLIST OF SPIDERS (ARACHNIDA: ARANEAE) OF SOUTH ASIA INCLUDING THE 2006 UPDATE OF INDIAN SPIDER CHECKLIST Manju Siliwal 1 and Sanjay Molur 2,3 1,2 Wildlife Information & Liaison Development (WILD) Society, 3 Zoo Outreach Organisation (ZOO) 29-1, Bharathi Colony, Peelamedu, Coimbatore, Tamil Nadu 641004, India Email: 1 [email protected]; 3 [email protected] ABSTRACT Thesaurus, (Vol. 1) in 1734 (Smith, 2001). Most of the spiders After one year since publication of the Indian Checklist, this is described during the British period from South Asia were by an attempt to provide a comprehensive checklist of spiders of foreigners based on the specimens deposited in different South Asia with eight countries - Afghanistan, Bangladesh, Bhutan, India, Maldives, Nepal, Pakistan and Sri Lanka. The European Museums. Indian checklist is also updated for 2006. The South Asian While the Indian checklist (Siliwal et al., 2005) is more spider list is also compiled following The World Spider Catalog accurate, the South Asian spider checklist is not critically by Platnick and other peer-reviewed publications since the last scrutinized due to lack of complete literature, but it gives an update. In total, 2299 species of spiders in 67 families have overview of species found in various South Asian countries, been reported from South Asia. There are 39 species included in this regions checklist that are not listed in the World Catalog gives the endemism of species and forms a basis for careful of Spiders. Taxonomic verification is recommended for 51 species. and participatory work by arachnologists in the region. -
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 -
Assessing Spider Species Richness and Composition in Mediterranean Cork Oak Forests
acta oecologica 33 (2008) 114–127 available at www.sciencedirect.com journal homepage: www.elsevier.com/locate/actoec Original article Assessing spider species richness and composition in Mediterranean cork oak forests Pedro Cardosoa,b,c,*, Clara Gasparc,d, Luis C. Pereirae, Israel Silvab, Se´rgio S. Henriquese, Ricardo R. da Silvae, Pedro Sousaf aNatural History Museum of Denmark, Zoological Museum and Centre for Macroecology, University of Copenhagen, Universitetsparken 15, DK-2100 Copenhagen, Denmark bCentre of Environmental Biology, Faculty of Sciences, University of Lisbon, Rua Ernesto de Vasconcelos Ed. C2, Campo Grande, 1749-016 Lisboa, Portugal cAgricultural Sciences Department – CITA-A, University of Azores, Terra-Cha˜, 9701-851 Angra do Heroı´smo, Portugal dBiodiversity and Macroecology Group, Department of Animal and Plant Sciences, University of Sheffield, Sheffield S10 2TN, UK eDepartment of Biology, University of E´vora, Nu´cleo da Mitra, 7002-554 E´vora, Portugal fCIBIO, Research Centre on Biodiversity and Genetic Resources, University of Oporto, Campus Agra´rio de Vaira˜o, 4485-661 Vaira˜o, Portugal article info abstract Article history: Semi-quantitative sampling protocols have been proposed as the most cost-effective and Received 8 January 2007 comprehensive way of sampling spiders in many regions of the world. In the present study, Accepted 3 October 2007 a balanced sampling design with the same number of samples per day, time of day, collec- Published online 19 November 2007 tor and method, was used to assess the species richness and composition of a Quercus suber woodland in Central Portugal. A total of 475 samples, each corresponding to one hour of Keywords: effective fieldwork, were taken.