116,257 research outputs found
Joshua Davis: Author of Spare Parts
Citation: K-State First (2016). Joshua Davis: Author of Spare Parts [Flier]. Manhattan, Kansas: K-State First.Flyer advertising Joshua Davis's author talk at Kansas State University
Steven Johnson Author Talk Poster
K-State Book NetworkA poster advertising an author talk by Steven Johnson at Kansas State University on September 3, 2014. Steven Johnson's book "The Ghost Map" was the 2014-2015 common book
A Tribute to Meenakshi Mukherjee
Tribute to Professor Meenakshi Mukherjee, member of Transnational Literature's Advisory Board, who died in September 2009
Interplay of deformation and magmatism in the Pangong Transpression Zone, eastern Ladakh, India: implications for remobilization of the trans-Himalayan magmatic arc and initiation of the Karakoram Fault
Abstract not availableKoushik Sen, Barun K. Mukherjee, Alan S. Collin
Paramita Mukherjee, Arnab K. Deb and Miao Pang (eds), China and India: History, Culture, Cooperation and Competition
Paramita Mukherjee, Arnab K. Deb and Miao Pang (eds), China and India: History, Culture, Cooperation and Competition. New Delhi: SAGE Publications, 2016, 232 pp., ₹945 (hardback). ISBN: 978-93-859-8569-0 </jats:p
Khushi Mukherjee Hot Unseen Stills Gallery
South Indian actress Khushi Mukherjee is all of 19 but is already creating ripples in the Southern movie industry for her ultra bold moves
Cauchy principal values and finite parts of boundary integrals - Revisited
The relationship between Finite Parts (FPs) and Cauchy Principal Values (CPVs) (when they exist) of certain integrals has been previously studied by Toh and Mukherjee [Toh K-C, Mukherjee S. Hypersingular and finite part integrals in the boundary element method. Int J Solids Struct 1994;31:2299-2312] and Mukherjee [Mukherjee S. CPV and HFP integrals and their applications in the boundary element method. Int J Solids Struct 2000;37:6623-6634, Mukherjee S. Finite parts of singular and hypersingular integrals with irregular boundary source points. Engrg Anal Bound Elem 2000;24:767-776]. This paper continues this study and presents and proves an interesting new relationship between the CPV and FP of certain boundary integrals (on closed boundaries) that occur in Boundary Integral Equation (BIE) formulations of some common Boundary Value Problems (BVPs) in science and engineering.</p
Kloosia incurva Mukherjee & Hazra 2023, sp.n.
<i>Kloosia incurva</i> sp.n. <p>GenBank Accession No. OP683429</p> <p>urn:lsid:zoobank.org:act: 0D8FAD19-2ADE-4456-963F-2E22C11D6057</p> <p> <b>Material examined.</b> Holotype male, labelled ‘ Holotype <i>Kloosia incurva</i> <b>sp. n.</b>, India, West Bengal, Purba Barddhaman [23.2393° N, 87.8512° E], 22.ix.2021, Coll. N. Hazra’. Paratypes 3 males, labelled ‘ Paratype <i>Kloosia incurva</i> <b>sp. n.</b>, India, West Bengal, Purba Barddhaman [23.2446° N, 87.8496° E], 30.iii.2022, Coll. B. Mukherjee’.</p> <p> <b>Diagnostic characters.</b> The adult male is distinguished by the following combination of characters: superior volsella with broad apex having 5–6 moderately long setae, elongated inferior volsella with short setae.</p> <p> <b>Etymology.</b> The name ‘ <i>incurva</i> ’, originated from a Latin word ‘ <i>incurvus</i> ’, refers to the curved gonostylus at distal end.</p> <p> <b>Male (n=4).</b> Total length 3–3.3, 3.165 mm. Wing length 1.55–1.7, 1.62 mm. Costal length 1.45–1.62, 1.53 mm. Antennal length 0.92–0.94, 0.93 mm.</p> <p>Colouration. Thorax, leg and abdomen yellowish brown.</p> <p>Head. Head width 440–500, 470 µm. Temporal setae 7–8 (IV 4, OV 3, Po 0–1). Clypeal setae 6. Frontal tubercles absent. Eyes bare with dorsomedial extension of 115–120, 117.5 µm. AR 1.4–1.5, 1.45; ultimate flagellomere 620– 630, 625 µm long. Palpomere lengths (I–V) (µm): 23: 25–27.5, 26.25: 66.5–70, 68.25: 94.5: 110.5–112, 111.25. CA 0.48–0.53, 0.505.</p> <p> Thorax. Scutal tubercle absent. Ac 2, Dc 6, Pa 2, Scts 4, Su 1. Wing (Fig. 2A). VR 0.93–0.96, 0.945. R 1 without setae, R 4+5 with 3–4 setae. Brachiolum with 2 setae. Squama with 5 fringed setae. FCu distinctly distal to RM. Anal lobe moderately developed. Legs. Fore tibia with 2 setae. Mid legs with 2 tibial spurs; 16–18, 17 µm and 27.6 µm long with 16 lateral teeth. Hind leg with 2 tibial spurs; 18.4 µm and 23 µm long with 22 teeth. Lengths and proportions of leg segments shown in table II.</p> <p>Hypopygium (Figs. 2B–E). Anal tergite band Y shaped. Anal point rounded apically, 57.5–60, 58.75 µm long and 11.5 µm wide at apex. Laterosternite IX with 2 setae on each side of anal point. Longitudinal and transverse sternapodeme 92–95, 93.5 µm and 27.5 µm long respectively. Superior volsella somewhat spatulate like at apex, 50–53, 52.5 µm long and 25.5µm wide at apex bearing 5–6 long setae. Elongated inferior volsella straight and distally widened bearing 5 small setae, 90–92 µm long and 30 µm wide at apex. Gonocoxite 132–138, 135 µm long. Gonostylus with partial cleft at apex, 149.5 –152, 150.75 µm long, fairly curved and swollen distally. HR 0.88–0.91, 0.895. HV 2.27–2.39, 2.33.</p> <p> <b>Distribution.</b> India, West Bengal.</p> <p> <b>Remarks.</b> Characters such as weakly appeared partial cleft on apex of gonostylus, non shortened inferior volsella with small setae and distally expanded superior volsella affirm positioning of the new species in the genus <i>Kloosia</i> Kruseman. Somewhat similar kind of superior volsella and anal point are present in both <i>Kloosia dorsenna</i> (Saether, 1983) and the new species, but they differ in variable number of setae on superior volsella (5–6 setae on superior volsella of new species while it is 3 in number in <i>K. dorsenna</i>), shape of gonostylus (roughly straight gonostylus present in <i>K. dorsenna</i> while distally curved in the new species.</p> <p> <b> A world key to the species of the genus <i>Kloosia</i> Kruseman (male)</b> </p> <p>1. Superior volsella not overreaching the anal point............................................................ 2</p> <p>- Superior volsella overreaching the anal point............................................................... 4</p> <p> 2(1). Superior volsella with more than 2 setae; gonostylus distally thickened and strongly curved inwardly (Orient).................................................................................................... <i>K. incurva</i> <b>sp. n.</b></p> <p> <b>-</b> Superior volsella having 2 setae at apex; more or less straight gonostylus......................................... 3</p> <p> 3(2). Superior volsella somewhat rectangular shaped; inferior volsella longer than anal point (Holarctic)................................................................................................... <i>K. dorsenna</i> (Saether, 1983)</p> <p> - Superior volsella strongly curved at apex; inferior volsella not longer than anal point, more or less equal in length (Afrotropics)...................................................................... <i>K. africana</i> Reiss, 1988</p> <p> 4(1). Superior volsella slightly S shaped (Palaearctic, Oriental China).............................. <i>K. koreana</i> Reiss, 1988</p> <p> - Superior volsella racquet like apically (Palaearctic)........................................ <i>K. pusilla</i> (Linné, 1767)</p>Published as part of <i>Mukherjee, Bindarika & Hazra, Niladri, 2023, Taxonomic studies on Harnischia complex from India (Diptera: Chironomidae), pp. 239-263 in Zootaxa 5278 (2)</i> on pages 243-245, DOI: 10.11646/zootaxa.5278.2.2, <a href="http://zenodo.org/record/7906073">http://zenodo.org/record/7906073</a>
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