89,090 research outputs found

    Rouse, J F (John Frederick), NX43021

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    This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/414475Surname: ROUSE. Given Name(s) or Initials: J F (JOHN FREDERICK). Military Service Number or Last Known Location: NX43021. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 18815.233817 Item: [2016.0049.46736] "Rouse, J F (John Frederick), NX43021

    Interview with Charlie Rouse / interviewed by Felix Grant, November 21, 1979

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    Charlie Rouse discusses his career with interviewer and radio host Felix Grant. Rouse is featured on excerpts from recordings selected by Grant.Made available in DSpace on 2012-10-09T17:42:40Z (GMT). No. of bitstreams: 2 rouse_charlie.rm: 11784497 bytes, checksum: 7fde547e79f00060485c177241d3f338 (MD5) manifest.xml: 3419 bytes, checksum: 5578a8973808fc4431fcae438e4e3971 (MD5)Reflectory / P. Adams (04:39-07:08) -- Who's bossa now / B. Bailey (09:48-12:04) -- Let me go / F. Pauer (13:42-14:30)Charlie Rouse interviewed by Felix Grant on WMAL. Recorded November 21, 1979. Reproduction of radio interview produced at Washington, D.C. Station WMAL for broadcast on The Album Sound. Forms part of the Felix Grant Collection at the Felix E. Grant Jazz Archives. Original format: 1 sound tape reel (16 min.) : analog, 7 1/2 ips., full track mono; 7 in

    Synthesis and characterisation of lanthanide and other inorganic framework materials

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    Five new cerium (IV) fluoride and fluoride–arsenate framework structures have been synthesised through hydrothermal techniques using CeF4 as a fluoride source. Cs[CeIV2F8[F.H2O]] (I) consists of layers, formed from linked Ce(F,O)n polyhedra cross-linked by hydrogen bonding that defines channels containing the caesium ions. [(NH4)5(H2O)2][CeIV4(AsO4)6(H2O)F3] (II), has an open framework structure with large channels filled with NH4+ cations and H2O molecules. CeIV[AsO4]F (III) and CeIV[AsO4]F[H2O] (IV) exhibit two types of bridging (Ce–O–Ce and Ce–F–Ce) bonds between Ce(O,F)n polyhedra, and (NH4)[CeIVF2(AsO4)] (V), is isostructural with the previously reported fluoride-phosphate (NH4)[CeIVF2(PO4)].The use of metal tetra-fluorides (MF4; M = Zr, Hf) in hydrothermal reactions, has led to the production of new structures that incorporate either phosphate or arsenate oxotetrahedra linking metal oxo-fluoro polyhedra. This new synthetic pathway has provided a safer route to formation that does not require the addition of the dangerous HF reagent. Seven new zirconium and four hafnium arsenate or phosphate materials have been identified including ZrIV(HAsO4)(AsO4)(NH4) (VI) a three-dimensional framework with NH4+ within the channels, ZrIV(AsO4)F(H2O) (VII) exhibits Zr-F-Zr linkages, ZrIV(HAsO4)2 a novel three-dimensional framework (VIII) and ZrIV2(AsO4)3(NH4)(H2O) (IX) analogous to the mineral Langbeinite. Organic amines included in the reaction mixture can template the frameworks and form cavities, as observed within the channels of HfIV2F(HAsO4)(AsO4)2[Temp-Hn]1/n(H2O)1.5 (XIII) (Temp = ethylenediamine/diethylenetriamine). The substitution of fluoride ions for oxygen in the metal polyhedral unit has produced variations in the dimensionality of the materials formed as fluoride is more frequently incorporated as terminating species, reducing framework dimensionality. The controlled addition of these fluoride species, has provided a route to the rational design of one, two and three-dimensional framework structures.Hexagonal lanthanide phosphates (LnIIIPO4.nH2O) with the mineral Rhabdophane structure type were synthesised through hydrothermal techniques and analysed upon heating where a distinct increase in the a-axis lattice length was observed upon dehydration of the structure. Variable-temperature X-ray diffraction, EDX, TGA and fluorescence studies were undertaken to illustrate the interaction between the lanthanide cations and the water molecules that reside within the channels of the framework

    Teuthidodrilus Osborn, Madin & Rouse 2010

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    Teuthidodrilus Osborn, Madin & Rouse, 2010 samae Osborn, Madin & Rouse, 2010: Celebes Sea. NMA 4342, SIO 2250–2253, MCZ 99582 –99583Published as part of Salazar-Vallejo, Sergio I., Carrera-Parra, Luis F., Muir, Alexander I., León-González, Jesús Angel De, Piotrowski, Christina & Sato, Masanori, 2014, Polychaete species (Annelida) described from the Philippine and China Seas, pp. 1-68 in Zootaxa 3842 (1) on page 9, DOI: 10.11646/zootaxa.3842.1.1, http://zenodo.org/record/492848

    George F. Sternberg and Jim Rouse with a Portheus and Gillicus

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    This black and white photograph features George F. Sternberg and Jim Rouse(James Edward Rouse) at an excavation site working on the Portheus and Gillicus fossil. Printed text is at the bottom of the negative.https://scholars.fhsu.edu/sternberg_negatives/1029/thumbnail.jp

    Swima Osborn, Haddock, Pleijel, Madin & Rouse 2009

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    Swima Osborn, Haddock, Pleijel, Madin & Rouse, 2009 tawitawiensis Osborn, Haddock & Rouse, 2011: off Tawi-Tawi, Celebes Sea. NMA 437Published as part of Salazar-Vallejo, Sergio I., Carrera-Parra, Luis F., Muir, Alexander I., León-González, Jesús Angel De, Piotrowski, Christina & Sato, Masanori, 2014, Polychaete species (Annelida) described from the Philippine and China Seas, pp. 1-68 in Zootaxa 3842 (1) on page 9, DOI: 10.11646/zootaxa.3842.1.1, http://zenodo.org/record/492848

    Neogyptis Pleijel, Rouse, Sundkvist & Nygren 2012

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    Neogyptis Pleijel, Rouse, Sundkvist & Nygren, 2012 hongkongensis Pleijel, Rouse, Sundkvist & Nygren, 2012: Hong Kong, Cape d’Aquilar, Lobster Bay (22°12.4′N, 114°15.5′E). SIO 2496, 2497Published as part of Salazar-Vallejo, Sergio I., Carrera-Parra, Luis F., Muir, Alexander I., León-González, Jesús Angel De, Piotrowski, Christina & Sato, Masanori, 2014, Polychaete species (Annelida) described from the Philippine and China Seas, pp. 1-68 in Zootaxa 3842 (1) on page 18, DOI: 10.11646/zootaxa.3842.1.1, http://zenodo.org/record/492848

    Jim Rouse and George F. Sternberg with Fish Within a Fish

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    This black and white photograph features an excavation site containing a Portheus and Gillicus. The specimen Fish Within A Fish image was taken in the field with Jim Rouse(James Edward Rouse) and George F. Sternberg. The two men are next to the Fossil. This photograph was taken by Ed Almquist. Printed text is at the bottom of the negative.https://scholars.fhsu.edu/sternberg_negatives/1030/thumbnail.jp

    Endomyzostoma neridae Summers, Al-Hakim & Rouse, 2014, n. sp.

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    Endomyzostoma neridae n. sp. Summers & Rouse Fig. 2 F–G Holotype: AM W. 43447 hologenophore (1 spm: ½—in 70 % ethanol after formalin fixation; ½— 95 % ethanol). Dili, Banda Sea, Timor-Leste (8 ° 31 ' 15 "S, 125 ° 36 ' 46 " E). Collected using scuba on 19 September 2012 by Nerida Wilson and GWR. Genbank (COI—KM014169). Host. Cenometra bella (Hartlaub) (Colobometridae, Comatulida, Crinoidea). AM J. 25425. Genbank (COI—KM 491772). Paratypes: AM P. 90322 paragenophore (1 spm: in 70 % ethanol after formalin fixation). Collected on same host as holotype. Etymology. Named for Nerida Wilson, who collected this new species with GWR. Diagnosis and description. Located in cysts along ambulacral grooves of the host’s arms (Fig. 2 G). Holotype body folded along anterior-posterior axis, dorsal side inward (Fig. 2 F). Length ~ 5 mm, width ~ 3–3.5 mm (folded) following fixation. Mouth and cloaca terminal. Five pairs of very small parapodia with noticeable chaetae midway between midline and body margin (Fig. 2 F). Live color orange, cream in preservative. Remarks. Endomyzostomum neridae n. sp. is the first Endomyzostoma described from a crinoid host belonging to Mariametroidea. Remscheid (1918) recorded Endomyzostoma cysticolum (Graff, 1883) from a mariametroid, likely Amphimetra tesselata (AH Clark, 1911) in the Aru Islands (Indonesia). The drawing of the gall and specimen cannot be distinguished from E. neridae n. sp. and may represent an earlier record. Endomyzostoma cysticolum was originally described from Cape Frio, Brazil, associated with Comactinia meridionalis, a member of Comatulidae. See discussion above regarding other Endomyzostoma.Published as part of Summers, Mindi M., Al-Hakim, Iin Inayat & Rouse, Greg W., 2014, Turbo-taxonomy: 21 new species of Myzostomida (Annelida), pp. 301-344 in Zootaxa 3873 (4) on pages 305-306, DOI: 10.11646/zootaxa.3873.4.1, http://zenodo.org/record/25220

    Rouse family

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