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Watts, N J, NX37674
This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete.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/424455Surname: WATTS. Given Name(s) or Initials: N J. Military Service Number or Last Known Location: NX37674. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 42702.252318
Item: [2016.0049.56716] "Watts, N J, NX37674
Tallinn manual on the international law applicable to cyber warfare
The product of a three-year project by twenty renowned international law scholars and practitioners, the Tallinn Manual identifies the international law applicable to cyber warfare and sets out ninety-five 'black-letter rules' governing such conflicts. It addresses topics including sovereignty, State responsibility, the jus ad bellum, international humanitarian law, and the law of neutrality. An extensive commentary accompanies each rule, which sets forth the rule's basis in treaty and customary law, explains how the group of experts interpreted applicable norms in the cyber context, and outlines any disagreements within the group as to each rule's application. Creighton School of Law Professor Sean Watts was a member of the International Group of Experts who prepared this work
Paul Watts
W 4 gravity is treated algebraically, represented by a set of transformations on classical fields. The Ward identities of the theory are determined by requiring the algebra to close. The general forms for the anomalies are found by looking for solutions to the Wess-Zumino consistency conditions, and some specific cases are considered. PACS-95: 11.25.Hf 11.30.Ly MSC-91: 81T40 81T50 Keywords: W-algebras, anomalies, Ward identities 1 E-mail: [email protected], Tel: +353-1-6140148, Fax: +353-1-6680561, Home Page: http://www.stp.dias.ie/~watts 1 Introduction Since conformal symmetries play such a large role in modern physics, it may be of some interest to see to what degree such symmetries may be extended. One such extension to consider is the role of W-algebras in 2-dimensional physics [1]. A WN algebra is, simply put, any consistent algebra which contains the Virasoro algebra, as well as a tower of Virasoro-primary currents such that N is the highest conformal weight. In general, for..
Carabhydrus stephanieae Watts, Hancock & Leys 2007
Carabhydrus stephanieae Watts, Hancock & Leys, 2007 (Figs 6, 29) Carabhydrus stephanieae Watts, Hancock & Leys 2007: 56. Type locality: Groundwater bore, 17.4 km east of Scone, Pages River, Hunter Valley, New South Wales, Australia. Type material: Holotype: Female: “Department Natural resources monitoring bore n. 80439 (32°02´57´´S, 150°56´35´´E), 17.4 km east of Scone, NSW. P. Hancock 3.iv.2005 ”; “ HOLOTYPE Carabhydrus stephanieae Watts et al. 2007 ” [red printed label] (SAMA). Paratypes: 4 females: 1 with same data as holotype, slide mounted (SAMA); 2 same data as holotype except “bore n. 80437 (32°03´00´´S, 150°49´06´´E), 4.vii.2005 ” (SAMA). All paratypes are provided with blue printed paratype labels. Re-description: Measurements: TL = 2.10–2.50 mm, TL-H = 1.95–2.20 mm, MW = 1.00– 1.10 mm. A detailed description of the first stygobitic species of the genus is given in Watts et al. (2007). The male is still unknown. Notes: Unlike most other Australian stygobitic Dytiscidae, whose realtionships were initially uncertain, C. stephanieae is clearly a member of the Hydroporinae genus Carabhydrus and retains the general body shape, exposed scutellum and even traces of elytral grooves characteristic of that genus. This placement was confirmed by a molecular analysis (Watts et al. 2007). The only clearly stygal features are the lack of eyes, although the uniform, but still strong, colour, and reduction of elytral ridges (Watts et al. 2007) are sugestive of a stygobitic existance. Differential diagnosis: The uniformly pale testaceous colour, flat body, broad pronotum which is as wide as elytra in middle, and the eye remnants reduced to short sutures, distinguish this species from all other species of the genus (Fig. 6). Distribution: Tributaries of Hunter River in eastern New South Wales (Fig. 29). Habitat: All specimens were collected from two groundwater-monitoring bore holes, at depths of 11 to 13 m, from alluvial aquifers associated with two tributaries of the Hunter River near Scone. At all localities, sampling consisted of 10 hauls of a weighted (63 µm mesh) net followed by the filtering (through 63 µm mesh) of 300 litres of pumped water (Waterra Power Pump II, Enviroequip, Sydney). Both the net and the pump succeeded in collecting beetles, indicating that they were living in both the bore casing and the surrounding aquifer (Watts et al. 2007).Published as part of Hendrich, Lars & Watts, Chris H. S., 2009, Taxonomic revision of the Australian predaceous water beetle genus Carabhydrus Watts, 1978 (Col. Dytiscidae, Hydroporinae, Hydroporini), pp. 1-30 in Zootaxa 2048 (1) on page 22, DOI: 10.11646/zootaxa.2048.1.1, http://zenodo.org/record/532301
Antiporus jenniferae Watts 1997
Antiporus jenniferae Watts, 1997 Material studied (4 specimens). Northern Territory: 4 exs.: Kakadu Hwy Bowerbird Creek, 5 km W Mary River Roadh., large pool, 20m 24.VIII. 2006 13.38.142S 132.10.345E, L. & E. Hendrich leg. (NT 15 b) (CLH, ZSM). Distribution. Tropical northern Australia. From Cape York Peninsula (QLD), Adelaide River region (NT) and Synnot Creek in NW Australia. Habitat. A lotic species which inhabits rest pools of intermittent creeks and rivers.Published as part of Hendrich, Lars & Watts, Chris H. S., 2010, An endemic predaceous water beetle from the Murchison River in Western Australia — Antiporus kalbarriensis sp. n. (Coleoptera: Dytiscidae, Hydroporinae, Hydroporini), pp. 35-42 in Zootaxa 2338 on page 41, DOI: 10.5281/zenodo.19324
Tiporus queenslandicus Hendrich, Balke & Watts, 2016, sp. n.
Tiporus queenslandicus sp. n. (Figs 1–2, 5, 8, 11) Type locality. Australia, Northern Queensland, Silver Valley, 17°34'S 145°18'E. Type material. Holotype, male: “ Australia: No. Qld. Silver Valley Dec 8, 1997 G.Challet ” [17°34'S 145°18'E, 700 m], “ Holotype Tiporus queenslandicus sp. n. Hendrich, Watts & Balke des. 2016” [printed red label] (SAMA). Paratypes. 6 exs., with same data as holotype (CGC, CLH, NHM); 18 exs., “Qld. Watson [Watsonville] 14 km W Herberton 31/3/96 C. Watts ”, “ SAMA Database No 25-001341” (SAMA); 5 exs., 12k N. Laura Qld 2/8/74 C. Watts, “SAMA Database No 25-001344” (SAMA); 16 exs., “Lakeland Downs Qld. 10/83 C.Watts”, “SAMA Database No 25-001342” (SAMA); 2 exs., “Qld. Irvine Bank 17.2524S 145 12 53E 2/8/03 CHSWatts”, “SAMA Database No 25-009342”, one specimen “DNA VOUCHER”, “SAMA Database No 25-009325”, (SAMA); 1 ex., “McIlwraith Rng. Weather Stn. N Qld. 23/7/82 C. Watts”, “SAMA Database No 25-001350” (SAMA); 1 ex., Qld. Herberton 10 km W 31/3/96 C.Watts”, “SAMA Database No 25-001349” (SAMA); 2 exs., “Cairns Qld.”, “SAMA Database No 25-001347” (SAMA); 1 ex., “Qld. Petford 20 km W 28/3/96 C.Watts”, “SAMA Database No 25- 001348” (SAMA); 1 ex., “25k. N. Coen Qld. 29/9/84 ”, 1 ex., Qld. Herberton 10 km W 31/3/96 C.Watts”, “SAMA Database No 25-001346” (SAMA); 1 ex., “Helenvale Qld. 29/7/82 C.Watts”, “SAMA Database No 25-001345” (SAMA); 2 exs., “ 10 km W Herberton Qld CHS Watts 31/3/96 ”, “ DNA VOUCHER ”, “2476” and “2479”, “ SAMA Database No 25 - 013137 ” (SAMA); 8 exs., “ Ewan Road, 10 miles west of Paluma N.Q. 5.I.66 J.G. Brooks Q.243”, “ SAMA Database No 25-001351” (SAMA); 4 exs., “ AUSTRALIA Qld Luster Cr 15 km se Mt Carbine Nov 15/90 D. Larson ” (ANIC); 3 exs., “ AUSTRALIA Qld.Watsonville 10 kmW Herberton Dec 9/90 Larson ” (ANIC); 2 exs., “ AUSTRALIA Qld Luster Cr 15 km se Mt Carbine Nov 15/90 D. Larson ” (ANIC); 6 exs., “ Mt. Spec. NQ 5.1.1966 J.G.Brooks ” (ANIC); 6 exs., “ Australia QLD. 15 km W Petford pool dry stream Nov. 3/90 Larson” (ANIC); 8 exs., “ Australia QLD. Silver Vlly 15 km s Herberton Dec 17/90 Larson ” (ANIC); 36 exs., “ AUSTRALIA Qld. Emu Cr 5 km E Petford, Nov 3 1990 D. Larson (ANIC, CLH, ZSM); 4 exs., “ AUSTRALIA Qld. Catherine Cr nr Collins [Collinsville] Weir Nov. 20.1990” (ANIC, ZSM); 1 ex., “ AUSTRALIA Qld. 10 km N Ravenshoe Dec 9/90 Larson & Storey ” (ANIC); 4 exs., “1306 S 142.56 E QLD Wenlock River Xing 26 Oct.1992 T.Weir, P.Zborowski still stagnant pools in dry river bed” (ANIC); 3 exs., “ Australia: No. Qld. Emu Creek near Petford Dec 4, 1997 G.L. Challet (CGC, CLH, NHM); 2 exs., “ Australia: No. Qld. pond @ Mcleod River Dec 4, 1997 GChallet” (CGC, NHM); 2 exs., “ Australia: No. Qld. Pond on Development Rd 2km S Cookshire Dec9, 1997 GChallet” (CGC, CLH); 1 ex., “ Australia: No. Qld. Silver Valley 14.4 km from Hwy 1 Dec 7, 1997 G.Challet ” (CGC); 1 ex., “ Australia: No. Qld. pond @ Mcleod River No. of Mt. Carbine Dec 3, 1997 G.Challet ” (CGC, NHM); 1 ex., “ Australia: No. Qld. Chilagoe Creek Dec 8, 1997 G.L. Challet ” (CGC). Each paratype was provided with a printed red paratype label. Remarks: Most of the specimens deposited in SAMA and ANIC were published under T. undecimmaculatus in Watts (2000) before. Description. A large, blackish and broadly-elongate species, widest in middle, with reddish markings on elytra and pronotum (Figs 1, 2). Measurements. TL: 4.6–4.7 mm (holotype 4.7 mm); TL–H: 4.1–4.2 mm (holotype 4.2 mm); MW: 2.4–2.5 mm (holotype 2.5 mm); TL/MW: 1.88–1.91. Colour. Head black. Pronotum sides, base and portions of middle dark red-brown; with two reddish spots basally. Elytron with six vague red patches dorsally and laterally. Ventral surface dark reddish-brown. Epipleuron, prosternum and legs mainly rufo-piceous; metatibia and -tarsus dark brown. Appendages rufo-piceous, apical segments of male protarsus almost black. Sculpture. Dorsal surface reticulate, strongly and densely rugose-punctate throughout, but punctures on dorsal surface shallow. Pronotum with a distinct raised ridge parallel to and a little distant from each side, area just inside ridge depressed, ridge and depression strongest anteriorly, weak posteriorly. Elytron weakly margined, strongly convex, rounded and slightly broadened behind middle. Prothoracic process narrow, strongly convex, roundly pointed at apex, little constricted between procoxae. Metacoxal lines raised, slightly to moderately diverging anteriorly. Male. Protarsus 3-segmented. Protarsomeres broadened and proximally expanded, those on mesotarsomeres little expanded. Single claw on protarsus (there is only one claw in males of Tiporus) weakly curved, slightly thickened and with a small tooth on underside near base. Male protibia with small tooth just beyond middle (Fig. 1). Tip of last abdominal ventrite weakly to strongly tuberculate in middle and with short carina. Metatibia normal, not expanded. Median lobe of aedeagus broad in centre but narrow at tip (Figs 5 a, b); right paramere as in Fig. 5 c. Female. Protarsus 5-segmented, robust somewhat expanded on inside, with two simple claws. Protibia on posterior side without tooth (Fig. 2). Tip of last abdominal ventrite flattened. Lateral extension of elytron near tip weak but visible. Etymology. Named after the Queensland State in Australia where all the type material has been collected. The species name is an adjective in the nominative singular. Distribution. North-eastern Queensland, Australia, from the Wenlock River in the north to Collinsville in the south (Fig. 11). Habitat. A lotic species. At Watsonville T. queenslandicus sp. n. was collected in deeper rest pools of a broad, shallow and sandy creek. The associated fauna comprised Copelatus irregularis W.J. Macleay, 1871, Laccophilus clarki Sharp, 1882, Necterosoma regulare Sharp, 1882, Sternopriscus hansardii (Clark, 1862), Hydroglyphus mastersii (W.J. Macleay, 1871), Hydroglyphus daemeli (Sharp, 1882) and Limbodessus rivulus (Larson, 1994). Near Herberton it was collected in a still flowing but temporary stream, forming pools together with Laccophilus walkeri Balfour-Browne, 1939 and the hydrophilid Berosus trishae Watts, 1987. Affinities. In habitus T. queenslandicus sp. n. is similar to T. giuliani (Fig. 3) and T. undecimmaculatus (Fig. 4). From the darker T. undecimmaculatus it can be separated by its well-developed dorsal colour pattern, the spine on the male protibia which is close to the centre (Fig. 8), not toward the apex (Fig. 10), and the broader central lobe of the aedeagus (Figs 7 a, b). From T. giuliani it can be distinguished by the form of the median lobe and parameres (Figs 6 a, b, c), and the almost black legs and tarsi. Furthermore, in T. giuliani the margin in lateral view of the elytron curves forward for a short distance immediately before it meets the edge of the pronotum, whereas it is straight or almost so in T. queenslandicus sp. n. Tiporus undecimmaculatus and T. giuliani are also distinctly smaller (TL of T. undecimmaculatus: 3.6–3.7 mm and T. giuliani: 4.0– 4.1 mm) than Tiporus queenslandicus sp. n. (TL: 4.6–4.7 mm). The new species is restricted to north-eastern Queensland whereas T. giuliani and T. undecimmaculatus are only known from the Northern Territory and north-western Australia (Fig. 11). Genetically, all Tiporus species are comparably strongly differentiated from each other based on mitochondrial cox1 gene divergences. This has been shown by Hendrich et al. (2010, fig. 2 D), where clustering specimens using uncorrected p-distances even at 10% threshold will retrieve the same clusters corresponding to morphologically delineated species. Accordingly, when we compared a cox1 sequence for Tiporus queenslandicus sp. n. available from Genbank (EU617001, from R. Leys and under the name T. undecimmaculatus) with one of our true T. undecimmaculatus (Genbank FR733053) we find divergence of about 14% which is very high for Coleoptera and strong indicator for presence of different species. Comparison with T. giuliani (FR733049) revealed the same magnitude of divergence.Published as part of Hendrich, Lars, Balke, Michael & Watts, Chris H. S., 2016, Description of a new Tiporus Watts, 1985 from northern Queensland, Australia (Coleoptera: Dytiscidae, Hydroporinae), pp. 174-182 in Zootaxa 4189 (1) on pages 175-180, DOI: 10.11646/zootaxa.4189.1.10, http://zenodo.org/record/16572
Antiporus kalbarriensis Hendrich & Watts, 2010, sp.n.
<i>Antiporus kalbarriensis</i> sp.n. <p>Figs 2, 4, 5, 6, 7, 8</p> <p> <b>Type locality</b>. Western Australia, 24 km N Binnu [27°33´S 114°25´E], Murchison River, backwater pool.</p> <p> <b>Type material</b>. <b>Holotype</b>: Male: “WA Murchison River 24 k N Binnu 18/5/01 C.H.S. Watts”, “ HOLOTYPE <i>Antiporus kalbarriensis</i> <b>sp.n.</b> Hendrich & Watts des. 2009” [red label, printed] (WAM). <b>Paratypes</b>: 2 males and 2 females; same locality data as holotype and “ PARATYPE <i>Antiporus kalbarriensis</i> sp.n. Hendrich & Watts des. 2009” [red label, printed] (SAMA, CLH); 1 female: “ DNA M. Balke 2704” [green label, printed], “ AUSTRALIA, WA, Batavia Coast, Kalbarri N.P., Ross Graham Lookout, 5.9.2002, 27°33´S 114°25´E, Hendrich leg./Loc. 19/183”, “ PARATYPE <i>Antiporus kalbarriensis</i> sp.n. Hendrich & Watts des. 2009” [red label, printed] (CLH).</p> <p> <b>Etymology</b>. Named after the Kalbarri National Park where part of the type material was collected.</p> <p> <b>Description</b>. Measurements. TL = 3.6–3.8 mm (holotype 3.8 mm); TL-H = 3.3–3.5mm (holotype 3.5 mm); MW = 1.95–2.05 mm (holotype 2.0 mm).</p> <p> <b>Colour</b>. Upper side yellowish-brown; portions of elytron and sutural lines a bit darker, sutural lines broadly bordered with broad pale strip, apical portions lighter (Fig. 2). Venter yellowish, including pronotum, epipleuron, metaventrite, metacoxal plate, prosternal process, legs and abdominal sternites. All antennomeres completely pale yellowish.</p> <p> <b>Sculpture</b>. Dorsal surface strongly, densely and evenly punctured throughout; those on head weaker and sparser, a little smaller than eye facet. Pronotum and elytron with narrow but well marked lateral beading. Microreticulation on head and pronotum fine, moderately impressed, on elytron very fine and almost unvisible. Ventral surface; punctures very dense, microreticulation similar to that on elytron. Prosternal process narrowly lanceolate, rounded tip, almost keeled in cross section, slightly narrowed between procoxae. Metacoxal lines raised, moderately separated, subparallel in posterior half, diverging to about twice their narrowest width in anterior half.</p> <p> <b>Male</b>. Protarsi moderately expanded, robust; single proclaw thickened, strongly bent near base, continously narrowing to sharp point at apex, with slightly curved large tooth at base (Fig. 5). Mesotibia robust, broadly but weakly indented on inner side in middle. Seta tufts on mesotrochanters somewhat thicker than on female. Median lobe of aedeagus in lateral view rather thin, elongated, in ventral view symmetric tapering towards tip (Fig. 4).</p> <p> <b>Female</b>. Pro- and mesotarsi narrower than in males, not expanded. Proclaws simple. Mesotibia narrow.</p> <p> <b>Affinities</b>. The new species appears closest to <i>A. bakewellii</i>, <i>A. jenniferae</i> and <i>A. simplex</i>. From <i>A. bakewellii</i> (TL = 3.1–3.45 mm) (Figs 1, 3) it differs by its larger size, less marked and more diffuse elytral colour pattern, the more parallel sided and elongated form of the median lobe, and the robust and well developed spine at the base of the claw on the male protarsi (compare Watts 1978: 65 and Watts 1997: 39). From the smaller <i>A. jenniferae</i> (TL = 3.4–3.6 mm) it can be distinguished by its yellowish tarsi (totally black in <i>A. jenniferae</i>), and the form of the aedeagus which is slender and tapering to the tip in <i>A. kalbarriensis</i> <b>sp.n.</b>. From the slightly smaller (TL = 3.5–3.7 mm) <i>A. simplex</i> Watts, 1978 from Queensland, <i>A. kalbarriensis</i> <b>sp.n.</b> can be well separated by its more elongated median lobe of aedeagus, which is more tapered at the tip, and its larger and more robust spine at the base of the claw on the male protarsi as well as a stronger dorsal colour pattern which is virtually absent in <i>A. simplex</i> (compare Watts 1978: 65 and Watts 1997: 39). In the key given in Watts 1997 the species will run to couplet 7.</p> <p> <b>Distribution</b>. Western Australia, Murchison District. Only known from two localities along the Murchison River (Fig. 6).</p> <p> <b>Habitat</b>. At both localities the specimens were collected from half-shaded (sedges at the banks), shallow, sandy backwater pools, with dense mats of Chara and other floating vegetation, beside the Murchison River (Fig. 7). The bottom consisted of fine sand with a thin layer of mud and plant debris (Fig. 8). Apart from the <i>Antiporus</i>, the water beetle coenosis included the following species: Murchison River north of Binnu: Haliplidae: <i>Haliplus</i> <b>sp.n.</b> (Watts & MacRae 2010); Dytiscidae: <i>Hyphydrus elegans</i> (Montrouzier, 1860), <i>H.</i></p> <p> <i>lyratus</i> Swartz, 1808; Hydrophilidae: <i>Berosus dallasi</i> Watts, 1987, <i>Enochrus elongatus</i> (W.J. Macleay, 1873), <i>E. maculiceps</i> (W.J. Macleay, 1873). Ross Graham Lookout: Dytiscidae: <i>Allodessus bistrigatus</i> (Clark, 1862), <i>Antiporus gilberti</i> (Clark, 1862), <i>Eretes australis</i> (Erichson, 1842), <i>H. elegans</i>, <i>Limbodessus inornatus</i> (Sharp, 1882), <i>Megaporus howittii</i> (Clark, 1862), <i>Necterosoma penicillatum</i> (Clark, 1862) <i>N. regulare</i> Sharp, 1882, <i>Rhantus suturalis</i> (W.S. Macleay, 1825); Hydrophilidae: <i>Enochrus eyrensis</i> (Blackburn, 1894), <i>Limnoxenus zealandicus</i> (Broun, 1880), <i>Paracymus pygmaeus</i> (W.J. Macleay, 1871).</p>Published as part of <i>Hendrich, Lars & Watts, Chris H. S., 2010, An endemic predaceous water beetle from the Murchison River in Western Australia — Antiporus kalbarriensis sp. n. (Coleoptera: Dytiscidae, Hydroporinae, Hydroporini), pp. 35-42 in Zootaxa 2338</i> on pages 38-39, DOI: <a href="http://zenodo.org/record/193247">10.5281/zenodo.193247</a>
Watts Building
Black and white photograph of the Watts Building at the corner of 3rd Ave. N. and 20th St. N. Visible is Exchange Security Bank, Britling Cafeteria and Blackburn's facing 20th St. N. Lollars, Adam, Russell Stover Candies and Utopia Cleaners are on the ground floor of the Watts Bldg. Porter's is across 3rd Ave. N
Walter Watts
Botanico: Watts, Walter (1856-1920).
Titolo manoscritto sul recto, dove compaiono anche le note: fot. 1900, autogr.; Racc. [Raccolta] Levier.
Nota manoscritto sul verso: Rev. W. Walter Watts Ballina, N. S. Wales, Australia. Taken in 1900. To Dr. E Levier Florence with compliments. Walter Watts.
Montata su cartone 167 x 108 mm.
1 fotografia : gelatina a sviluppo ; 131 x 93 mm.
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