126,180 research outputs found

    Caligonella haddadi Bagheri & Maleki 2013

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    <i>Caligonella haddadi</i> Bagheri & Maleki, 2013 <p> <i>Caligonella haddadi</i> Bagheri & Maleki, 2013: 632.</p> <p> <b>Distribution</b> – Iran (Bagheri <i>et al.</i> 2013), Turkiye (Doğan <i>et al</i>. 2021).</p> <p> <b>Material examined</b> – One female at 4200 m a.s.l., 17 July 2018 was collected from soil and litter by Mohammad Reza Damavandian.</p>Published as part of <i>Paktinat-Saeij, Saeid, Damavandian, Mohammad Reza & Ziaei-rad, Hossein, 2023, The first report on the Bdelloidea and Raphignathoidea mites (Acari: Trombidiformes: Prostigmata) from the heights of Damavand Mountain, Iran, pp. 587-592 in Persian Journal of Acarology 12 (4)</i> on page 589, DOI: 10.22073/pja.v12i4.83041, <a href="http://zenodo.org/record/10943413">http://zenodo.org/record/10943413</a&gt

    Bdella farabii Paktinat-Saeej & Bagheri, sp. nov.

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    Bdella farabii Paktinat-Saeej & Bagheri sp. nov. (Figs. 18–30) Female (n = 2): Dimensions: Length of body (including gnathosoma) 1150 (1025), width of body 638 (485), length of gnathosoma 263 (250), length of chelicera 245 (237); leg lengths: I 575 (570), II 555 (540), III 637 (612), IV 752 (732); VES 172 (174), DES 210 (202); palpomeres I–V: 18 (20), 140 (145), 35 (35), 22 (25), 75 (76); at 117 (122), lps 80 (78), pt 145 (158), mps 85 (82), c 1 76 (75), c 2 100 (93), d 1 80 (80), e 1 84 (77), f 1 70 (67), f 2 71 (70), h 1 82 (76), h 2 76 (65); distance: at–at 130 (121), pt–pt 136 (121), c 1 –c 2 180 (115), c 1 –d 1 125 (95). DHS 37 (34). Gnathosoma (Figs. 18–20): Six pairs of ventral hypostomal setae longitudinally aligned (vh 1 –vh 6) (Fig. 18); hypostome terminates in two lateral lips, bearing two adoral setae ad 1 9 (9), ad 2 12 (13) and with sparsely longitudinal striations, which are transverse at base. Chelicera (Fig. 19) with longitudinal striae and with two setae, distal seta 80 (76) longer than proximal seta 55 (52); movable and fixed digit smooth, straight and of same length. Palp (Fig. 20) chaetotaxy: trochanter 0, basifemur 7 sts, telofemur 1 sts, genu 4 sts, tibiotarsus 3 sts, 1 s, 2 long end setae (VES, DES). Dorsum (Figs. 21–23): at and pt slender and nude (Fig. 21). Center of prodorsum with continuous to sparsely broken longitudinal striations (Fig. 21); two internal apodemes present (Fig. 21); two pairs of eyes posterolateral to pt with transverse striae between each pair present. Setae lps closer to at than to pt. Dorsal striae of hysterosoma with continuous to sparsely broken striae (Fig. 22); dorsal setae smooth to minutely barbed (Fig. 23). Venter (Figs. 24–26): Ventral setae nude (Fig. 24); genital plates each with 9 setae longitudinally aligned; 10 aggenital setae present (Fig. 25); anal valves with 3 pairs of smooth pseudanal setae (ps 1 –ps 3), ps 1 68 (62), ps 2 51 (51), ps 3 48 (45); with 1 pair of setae (v 1) between coxae IV. Ovipositor (Fig. 26) present and has 12 subapical and 6 medial setae. Legs (Figs. 27–30): Leg chaetotaxy: coxae I–IV 6 (5)- 5-6 (7)- 4 sts; trochantera I–IV 1 - 1 -2- 1 sts; basifemora I– IV 8 (7)- 7 (8)- 6 (7)- 3 sts; telofemora I–IV 7 - 7 -8- 7 sts; genua I–IV 7 sts, 1 duplex (dxs), 1 asl- 8 sts, 1 duplex- 8 sts, 1 duplex- 8 sts, 1 duplex; tibiae I–IV 8 sts, 2 asl, 1 pe, 1 T- 9 sts, 1 asl, 1 bsl- 9 sts, 1 asl- 8 sts, 1 T; tarsi I–IV 27 (28)sts, 2 asl, 2 bsl, 1 pe– 26 (25)sts, 2 bsl– 24 sts, 1 T– 23 sts, 1 asl, 1 T. Male and Immature stages. Unknown Remarks. Bdella farabii Paktinat-Saeej & Bagheri sp. nov. is similar to B. muscorum Ewing 1909, B. kuznetsovi Maslov & Khaustov 2013, and B. longistriata Atyeo 1960. B. farabii sp. nov. is similar to B. muscorum in having duplex setae on genua I–III but can be distinguished by (1) tibiae I with two attenuated solenidia instead of four attenuated solenidia in B. muscorum; (2) genua IV with duplex setae which is absent in B. muscorum; (3) prodorsum with longitudinal striations instead of transverse striations in B. muscorum; (4) tarsus II in new species lacks the peg; (5) internal apodemes in new species weakly developed vs. distinctly developed apodemes in B. muscorum. B. farabii sp. nov. resembles B. kuznetsovi in having weakly developed internal apodemes and longitudinal striations on prodorsum but can be distinguished by (1) genua I–IV with duplex setae which is absent in B. kuznetsovi; (2) tibiae I with two attenuated solenidia and one peg vs. four attenuated solenidia and without peg in B. kuznetsovi; (3) tarsus II in new species lacks the peg. B. farabii sp. nov. resembles B. longistriata in having longitudinal striations on the prodorsum and duplex setae on genua I– IV but it can be separated by (1) different palp chaetotaxy; (2) having 9 genital setae on each genital plate vs. 11 setae in B. longistriata; (3) tarsus II in new species lacks the peg; (4) internal apodemes in the new species weakly developed vs. distinctly developed apodemes in B. longistriata. Etymology. This species is named after“Abu Naṣr Muḥammad Farabi”(872 A.D– 950 A.D), who was a Persian writer specializing in political philosophy, metaphysics, ethics, and logic. Type material. Holotype female was collected from soil and rotten leaves under citrus trees, 30 October 2013, Saeej-Mahalleh village, Amol city, Mazandaran Province, Iran, by Saeed Paktinat-Saeej and one paratype female was collected from the soil and humus under apple trees, 25 September 2014, Azarshahr city, East Azerbaijan Province, Iran by Mansoureh Ahaniazad. The holotype female is deposited in the Acarological Collection, Department of Plant Protection, Faculty of Agriculture, University of Maragheh, Maragheh, Iran and one paratype female is deposited in the Acarological Collection, Acarological Society of Iran (ASI), Department of Plant Protection, Faculty of Agriculture, University of Tehran, Karaj, Iran.Published as part of Paktinat-Saeej, Saeed, Bagheri, Mohammad, Saboori, Alireza & Ahaniazad, Mansoureh, 2015, Two new Bdellidae (Trombidiformes: Bdelloidea) from Iran and the status of Neobiscirus Gomelauri, 1963, pp. 519-530 in Zootaxa 4013 (4) on pages 524-526, DOI: 10.11646/zootaxa.4013.4.3, http://zenodo.org/record/23198

    Going Beyond Counting First Authors in Author Co-citation Analysis

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    The present study examines one of the fundamental aspects of author co-citation analysis (ACA) - the way co-citation counts are defined. Co-citation counting provides the data on which all subsequent statistical analyses and mappings are based, and we compare ACA results based on two different types of co-citation counting - the traditional type that only counts the first one among a cited work's authors on the one hand and a non-traditional type that takes into account the first 5 authors of a cited work on the other hand. Results indicate that the picture produced through this non-traditional author co-citation counting contains more coherent author groups and is therefore considerably clearer. However, this picture represents fewer specialties in the research field being studied than that produced through the traditional first-author co-citation counting when the same number of top-ranked authors is selected and analyzed. Reasons for these effects are discussed

    Cunaxoides shahriari Bagheri, Paktinat-Saeij & Castro 2016

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    <i>Cunaxoides shahriari</i> Bagheri, Paktinat-Saeij & Castro, 2016 <p> <i>Cunaxoides shahriari</i> Bagheri, Paktinat-Saeij & Castro, 2016: 2.</p> <p> <b>Distribution</b> – Iran (Bagheri <i>et al.</i> 2016).</p> <p> <b>Material examined</b> – Six females at 3500 m a.s.l., 23 August 2018 were collected from soil and litter by Mohammad Reza Damavandian.</p>Published as part of <i>Paktinat-Saeij, Saeid, Damavandian, Mohammad Reza & Ziaei-rad, Hossein, 2023, The first report on the Bdelloidea and Raphignathoidea mites (Acari: Trombidiformes: Prostigmata) from the heights of Damavand Mountain, Iran, pp. 587-592 in Persian Journal of Acarology 12 (4)</i> on page 588, DOI: 10.22073/pja.v12i4.83041, <a href="http://zenodo.org/record/10943413">http://zenodo.org/record/10943413</a&gt

    Biscirus iranensis Paktinat-Saeej & Bagheri, sp. nov.

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    Biscirus iranensis Paktinat-Saeej & Bagheri sp. nov. (Figs. 1–17) Description. Male (n = 3): Dimensions: Length of body (including gnathosoma) 1240 (1137–1225), width of body 455 (438–495), length of gnathosoma 420 (345–412), length of chelicera 366 (310–368); leg lengths: I 737 (590– 725), II 705 (535–700), III 820 (645–805), IV 962 (788–925); VES 180 (156–190), DES 252 (238–282); palpomeres I–V: 21 (14–18), 233 (190–222), 37 (27–30), 63 (40–52), 162 (117–132); at ? (220), pt ? (218), mps 52 (52), c 1 46 (43–50), c 2 50 (52), d 1 45 (45), e 1 56 (54), f 1 62 (57–63), f 2 58 (55–58), h 1 63 (60), h 2 61 (53); distance: at–at 82 (73), pt–pt 240 (243), c 1 –c 2 138 (140), c 1 –d 1 133 (116–125). Gnathosoma (Figs. 1–3): Two pairs of ventral hypostomal setae longitudinally aligned (vh 1 –vh 2) (Fig. 1); hypostome ending in two lateral lips, bearing two adoral setae ad 1 24 (23), ad 2 25 (24) and with longitudinal striations, which are transverse at base. Chelicera (Figs. 2, 14) with longitudinal striae and bear two setae, proximal seta 80 (58–72) longer than distal seta 58 (46–52); movable digit smooth and with two denticles, fixed digit straight, smooth and slightly shorter than movable digit. Palp (Fig. 3) chaetotaxy: trochanter 0, basifemur 2 sts, telofemur 1 sts, genu 2 sts, tibiotarsus 1 sts, 1 s, 2 long end setae (VES, DES). Setae on telofemur and genu finely pilose. Dorsum (Figs. 4–7, 15– 17): at and pt slender and nude. Striae on propodosoma transverse between setae at but center of propodosoma with roughly broken striations and lateral margins longitudinally striated (Fig. 4); two pairs of posterolateral eyes with oblique striae between each pair and one median eye present (Figs. 4, 15). Dorsal striae of hysterosoma continuous to sparsely broken; all striae ornamented with papillae-like patterns (Figs. 5–6, 16– 17); dorsal setae minutely pilose (Fig. 7). Venter (Figs. 8–9): Ventral setae nude; genital plates each with 12–16 setae arranged in two rows; 12–15 aggenital setae present, first pair between coxae IV; anal valves with three pairs of smooth pseudanal setae (ps 1 – ps 3). Amphioid sclerite with nine pairs of simple setae (Fig. 9). Legs (Figs. 10–13): Leg chaetotaxy: coxae I–IV 4 (5)- 3-6 (7)- 4 sts; trochantera I–IV 1 - 1 - 1 - 1 sts; basifemora I– IV 9 (10)- 9 t- 8 (9)- 4 sts; telofemora I–IV 5 - 5 (4)- 4 - 4 sts; genua I–IV 5 sts, 5 (4)asl- 5 sts, 1 asl- 5 sts, 1 asl- 4 sts, 1 asl; tibiae I–IV 13 (11)sts, 4 asl, 1 bsl, 1 pe, 1 T- 14 (11 / 13)sts, 1 asl, 1 bsl- 14 (10 / 12)sts, 1 asl- 12 sts, 1 T; tarsi I–IV 29 sts, 2 asl, 2 bsl, 1 pe- 30 sts, 2 bsl- 28 sts, 1 T- 25 sts, 1 asl, 1 T. Female (n = 1): Similar to male, but with the following specifications. Dimensions: Length of body (including gnathosoma) 1025, width of body 465, length of gnathosoma 338, length of chelicera 298; leg lengths: I 570, II 537, III 641, IV 745; VES 148, DES 230; palpomeres I–V: 14, 182, 31, 34, 105; at 175, pt 172, mps 48, c 1 42, c 2 46, d 1 43, e 1 44, f 1 62, f 2 57, h 1 60, h 2 51; distance: at–at 60, pt–pt 195, c 1 –c 2 122, c 1 –d 1 115. Ventral side with 15 genital setae on each plate and 15–16 aggenital setae. Leg chaetotaxy: coxae I–IV 4 - 3 -5(7)- 4 sts; trochantera I–IV 1 - 1 - 1 - 1 sts; basifemora I–IV 9 - 9 - 8 (9)- 4 sts; telofemora I–IV 5 - 4 - 4 - 4 sts; genua I–IV 5 sts, 4 asl- 5 sts, 1 asl- 5 sts, 1 asl- 4 sts, 1 asl; tibiae I–IV 11 sts, 4 asl, 1 bsl, 1 pe, 1 T- 10 sts, 1 asl, 1 bsl- 10 sts, 1 asl- 12 (10)sts, 1 T; tarsi I–IV 30 sts, 2 asl, 2 bsl, 1 pe- 29 sts, 2 bsl- 28 sts, 1 T- 25 sts, 1 asl, 1 T. Remarks. Biscirus iranensis Paktinat-Saeej & Bagheri sp. nov. resembles Biscirus silvaticus (Kramer, 1881) and B. arenarius Wallace & Mahon, 1972 in having the same solenidotaxy of tarsi I–IV; and resembles B. kobachidzei comb. nov. in having a median eye. B. iranensis sp. nov. can be distinguished from B. silvaticus by (1) presence of one attenuated solenidion on genua IV (absent in B. silvaticus); (2) presence of one blunt solenidion on tibiae I (absent in B. silvaticus); (3) all eugenital setae on amphioid sclerites are simple (branched and forked in B. silvaticus); (4) coxae II and telofemora IV with 3 and 4 setae, respectively (opposed to 4 and 3 in B. silvaticus). B iranensis sp. nov. differs from B. arenarius by (1) having four and one attenuated solenidion on tibiae I and III, respectively (rather than three attenuated solenidia on tibiae I and one blunt solenidion on tibiae III in B. arenarius); (2) having a median eye on the propodosoma (absent in B. arenarius); (3) coxae II and IV with 3 and 4 setae, respectively (rather than 4 and 3 in B. arenarius). B iranensis sp. nov. differs from Biscirus kobachidzei in having 9 simple eugenital setae on the amphioid sclerites (10 branched amphioid setae B. kobachidzei). Etymology. The specific epithet was derived from the country of origin, Iran. Type material. Holotype and one paratype males were collected from the soil and rotten leaves under citrus trees, 17 June 2013, Amreh village, Sari city, Mazandaran Province, by Saeed Paktinat-Saeej and one paratype male and one paratype female were collected from the soil and humus under apple trees, 25 September 2014, Azarshahr city, East Azerbaijan Province, Iran by Mansoureh Ahaniazad. The holotype male, one paratype male and one paratype female, are deposited in the Acarological Collection, Department of Plant Protection, Faculty of Agriculture, University of Maragheh, Maragheh, Iran and one paratype male is deposited in the Acarological Collection, Acarological Society of Iran (ASI), Department of Plant Protection, Faculty of Agriculture, University of Tehran, Karaj, Iran.Published as part of Paktinat-Saeej, Saeed, Bagheri, Mohammad, Saboori, Alireza & Ahaniazad, Mansoureh, 2015, Two new Bdellidae (Trombidiformes: Bdelloidea) from Iran and the status of Neobiscirus Gomelauri, 1963, pp. 519-530 in Zootaxa 4013 (4) on pages 520-523, DOI: 10.11646/zootaxa.4013.4.3, http://zenodo.org/record/23198

    Distributed Data Structures for Scientific Computation

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    Scott, L.R.; Boyle, J.M.; Bagheri, B.. (1987). Distributed Data Structures for Scientific Computation. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/4508

    Dispelling the Myths Behind First-author Citation Counts

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    We conducted a full-scale evaluative citation analysis study of scholars in the XML research field to explore just how different from each other author rankings resulting from different citation counting methods actually are, and to demonstrate the capability of emerging data and tools on the Web in supporting more realistic citation counting methods. Our results contest some common arguments for the continued use of first-author citation counts in the evaluation of scholars, such as high correlations between author rankings by first-author citation counts and other citation counting methods, and high costs of using more realistic citation counting methods that are not well-supported by the ISI databases. It is argued that increasingly available digital full text research papers make it possible for citation analysis studies to go beyond what the ISI databases have directly supported and to employ more sophisticated methods

    Azaritrombium raphanicum Saboori, Bagheri & Haddad Irani-nejad 2005

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    <p> 114. <i>Dolichotrombium raphanicum</i> (Saboori, Bagheri & Haddad Irani-nejad, 2005): 50 in Saboori <i>et al</i>. (2005a).</p> <p> Original combination: <i>Azaritrombium raphanicum</i> Saboori, Bagheri & Haddad Irani-nejad, 2005.</p> <p> <b>Holotype larva</b> (ARS- 20042228 -1a), IRAN, TABRIZ, Coll. Mohammad Bagheri. AVAILABLE.</p> <p> <b>Paratype larvae</b> (ARS- 20042228 -1d, e, f, g), same data as holotype. AVAILABLE.</p>Published as part of <i>Saboori, Alireza & Shirvani, Zeinab, 2021, A checklist of Acari type specimens deposited in the Jalal Afshar Zoological Museum, Karaj, Iran, pp. 289-311 in Zootaxa 4949 (2)</i> on page 300, DOI: 10.11646/zootaxa.4949.2.4, <a href="http://zenodo.org/record/4636405">http://zenodo.org/record/4636405</a&gt

    An insect inspired object tracking mechanism for autonomous vehicles

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    Zahra Bagheri, Benjamin S. Cazzolato, Stevend D. Wiederman, Steven Grainger, and David C. O'Carrol

    Cheylostigmaeus sepasgosariani Bagheri, Jafari & Saboori 2014

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    <p> 100. <i>Cheylostigmaeus sepasgosariani</i> Bagheri, Jafari & Saboori, 2014: 154.</p> <p> <b>Holotype female</b> (ARS-20150817-1a), IRAN, ISFAHAN, Coll. Safa Jafari. AVAILABLE.</p> <p> <b>Paratype female</b> (ARS-20150817-1b), same data as holotype. AVAILABLE.</p> <p> <i>Note</i>. In the original description, it was stated that two paratype females are deposited in JAZM.</p>Published as part of <i>Saboori, Alireza & Shirvani, Zeinab, 2021, A checklist of Acari type specimens deposited in the Jalal Afshar Zoological Museum, Karaj, Iran, pp. 289-311 in Zootaxa 4949 (2)</i> on page 299, DOI: 10.11646/zootaxa.4949.2.4, <a href="http://zenodo.org/record/4636405">http://zenodo.org/record/4636405</a&gt
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