3,692 research outputs found

    Pauropsylla purpurescens Mathur 1975

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    <i>Pauropsylla purpurescens</i> Mathur, 1975 <p> <b>Distribution.</b> India: Uttarakhand (Mathur 1935, as <i>Pauropsylla</i> sp.; Mathur 1975).</p> <p> <b>Host plant.</b> <i>Ficus racemosa</i> (Moraceae).</p>Published as part of <i>Burckhardt, Daniel, Sharma, Anamika & Raman, Anantanarayanan, 2018, Checklist and comments on the jumping plant-lice (Hemiptera: Psylloidea) from the Indian subcontinent, pp. 1-38 in Zootaxa 4457 (1)</i> on page 24, DOI: 10.11646/zootaxa.4457.1.1, <a href="http://zenodo.org/record/1457537">http://zenodo.org/record/1457537</a&gt

    Diaphorina communis Mathur 1975

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    <i>Diaphorina communis</i> Mathur, 1975 <p> <b>Distribution.</b> Bhutan (Donovan <i>et al.</i> 2012); India: Uttarakhand (Mathur 1935, as <i>Diaphorina</i> sp.; Mathur 1975; Loginova 1978, as <i>D. mathuri</i>); Nepal (Hodkinson 1986).</p> <p> <b>Host plant.</b> <i>Murraya koenigii,</i> <i>M. paniculata</i> (Rutaceae).</p>Published as part of <i>Burckhardt, Daniel, Sharma, Anamika & Raman, Anantanarayanan, 2018, Checklist and comments on the jumping plant-lice (Hemiptera: Psylloidea) from the Indian subcontinent, pp. 1-38 in Zootaxa 4457 (1)</i> on page 11, DOI: 10.11646/zootaxa.4457.1.1, <a href="http://zenodo.org/record/1457537">http://zenodo.org/record/1457537</a&gt

    Aphalara ossiannilssoni Mathur 1975

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    <i>Aphalara ossiannilssoni</i> Mathur, 1975 <p> <b>Distribution.</b> India: West Bengal (Mathur 1975).</p> <p> <b>Host plant.</b> <i>Polygonum microcephalum</i> (Polygonaceae).</p>Published as part of <i>Burckhardt, Daniel, Sharma, Anamika & Raman, Anantanarayanan, 2018, Checklist and comments on the jumping plant-lice (Hemiptera: Psylloidea) from the Indian subcontinent, pp. 1-38 in Zootaxa 4457 (1)</i> on page 3, DOI: 10.11646/zootaxa.4457.1.1, <a href="http://zenodo.org/record/1457537">http://zenodo.org/record/1457537</a&gt

    Macrohomotoma geniculata Mathur 1975

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    <i>Macrohomotoma geniculata</i> Mathur, 1975 <p> <b>Distribution.</b> India: Karnataka (Mathur 1975), Uttahakhand (Mathur 1975).</p> <p> <b>Host plant.</b> <i>Ficus microcarpa</i> (Moraceae).</p> <p> <b>Comments.</b> Hayat and Khan (2014) listed <i>Macrohomotoma gladiata</i> Kuwayama, 1908 (as <i>gladiatum</i>) on <i>Ficus religiosa</i> as host of the encyrtid <i>Psyllaephagus punensis</i> Hayat & Khan, 2014 from India: Maharashtra. This is a likely misidentification of another species, possibly not even of <i>Macrohomotoma</i>. There is no identification key for immatures of <i>Macrohomotoma</i> species and the authors apparently did not have adults at hand. <i>M. gladiata</i> occurs in China, Taiwan and Japan (Ryuku Islands) and has been introduced into the Mediterranean Basin and North America. It is monophagous on <i>Ficus microcarpa</i>.</p>Published as part of <i>Burckhardt, Daniel, Sharma, Anamika & Raman, Anantanarayanan, 2018, Checklist and comments on the jumping plant-lice (Hemiptera: Psylloidea) from the Indian subcontinent, pp. 1-38 in Zootaxa 4457 (1)</i> on page 9, DOI: 10.11646/zootaxa.4457.1.1, <a href="http://zenodo.org/record/1457537">http://zenodo.org/record/1457537</a&gt

    Geometry of D1-D5-P bound states

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    Supersymmetric solutions of 6-d supergravity (with two translation symmetries) can be written as a hyperkahler base times a 2-D fiber. The subset of these solutions which correspond to true bound states of D1-D5-P charges give microstates of the 3-charge extremal black hole. To understand the characteristics shared by the bound states we decompose known bound state geometries into base-fiber form. The axial symmetry of the solutions make the base Gibbons-Hawking. We find the base to be actually `pseudo-hyperkahler': The signature changes from (4,0) to (0,4) across a hypersurface. 2-charge D1-D5 geometries are characterized by a `central curve' S1S^1; the analogue for 3-charge appears to be a hypersurface that for our metrics is an orbifold of S1×S3S^1\times S^3

    Agonoscena bimaculata Mathur 1973

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    <i>Agonoscena bimaculata</i> Mathur <p> <b>Material examined</b>. Iran: 4 ♂, 4 ♀, Kerman, Sirjan, N 28°57’, E 55°44’, 5.x.2017, <i>P</i>. <i>khinjuk</i>, M. Lashkari leg. (KGUT).</p> <p> <b>Published records.</b> Kerman (Davatchi 1958, as <i>Agonoscena</i> aff. <i>menozzii</i>; Burckhardt & Lauterer 1993).</p> <p> <b>Host plant.</b> <i>Pistacia khinjuk</i> Stocks (Anacardiaceae) (Burckhardt & Lauterer 1993).</p>Published as part of <i>Lashkari, Mohammadreza & Burckhardt, Daniel, 2020, Jumping plant-lice (Hemiptera: Psylloidea) of Kerman, Iran, with the description of one new Cacopsylla species, pp. 576-590 in Zootaxa 4803 (3)</i> on page 582, DOI: 10.11646/zootaxa.4803.3.11, <a href="http://zenodo.org/record/3920207">http://zenodo.org/record/3920207</a&gt

    Oxidative dealkylation of a hindered phenol catalyzed by copper (II) bis benzimidazole diamide complex

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    The oxidative dealkylation of 2,4,6-tri-tert-butylphenol (TTBP) has been investigated using molecular oxygen and Cu(NO3(GBHA)(NO3) as catalyst, where GBHA is N,N′-bis((benzimidazol-2-yl)methyl)hexanediamide (a) M. Gupta, P. Mathur, R.J. Butcher, Inorg. Chem. 40 (2001) 878; (b) M. Gupta, S.K. Das, P. Mathur, A.W. Cordes, Inorg. Chim. Acta 353 (2003) 197; (c) S. Tehlan, M.S. Hundal, P. Mathur, Inorg. Chem. 43 (2004) 6589; (d) F. Afreen, P. Mathur, A. Rheingold, Inorg. Chim. Acta 358 (2005) 1125.. X-ray structural characterization of complex Cu(NO3)(GBHA)(NO3)·CH3OH confirms that the Cu (II) ion is in a distorted square pyramidal geometry (τ=0.168). The TTBP oxidation reaction proceeds via tri-tert-butylphenoxyl radical producing two products 2,6-di-tert-butyl-1,4-benzoquinone (A) and 4,6-di-tert-butyl-1,2-benzoquinone (B). Both A and B have been well characterized by 1H NMR, 13C NMR, UV–Vis and mass data

    Metawars_Supplement – Supplemental material for Finding Common Ground in Meta-Analysis “Wars” on Violent Video Games

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    Supplemental material, Metawars_Supplement for Finding Common Ground in Meta-Analysis “Wars” on Violent Video Games by Maya B. Mathur and Tyler J. VanderWeele in Perspectives on Psychological Science</p

    FINANCING COMMUNITY FACILITIES: A CASE STUDY OF THE PARKS AND RECREATIONAL GENERAL OBLIGATION BOND MEASURE OF SAN JOSE, CALIFORNIA

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    This study of the City of San Jose’s Parks and Recreation General Obligation (GO) Bond Measure seeks to identify the politics-, management-, and planning-related lessons learned by the City as it developed its community facilities using the GO bonds proceeds. The study finds that these lessons include: be conservative in what you promise the residents; be prepared for changes in economic environment by identifying supplementary funding sources should the primary source not yield adequate funds; make sure that the jurisdiction is organizationally capable of handling the increased workload; and prepare detailed project plans prior to the bond issuance.Community Infrastructure and Services; Municipal Bonds; Public Finance
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