1,667 research outputs found
L-R: Katie Lee; Leo Walters; Bruce Berger sitting on a boat on the Colorado River.
Photo of Photo of Arizona folk singer and author Katie Lee (far left), Leo Walters (center), and writer Bruce Berger (far right), sitting on a raft on the Colorado River, Glen Canyon, Uta
The Idaho Forester - 1988 (Vol. 69)
Dedication 1 Letter From the Editor 4 Feature Articles Caribou, Grizzly Bears, and Wolves, Bart Butterfield, James Peek, David Volson, Chris Warren 6 Electric Hike, John L. Edwards 11 "Learn Today... To Lead Tomorrow" A Centennial View of FWR Traditions, John C. Hendee, Dean 12 Value in Idaho's Forest Industry, Governor Cecil D. Andrus 15 Idaho's "Community" Forests, Craig Foss 17 Strategic Forest Defense Initiative, Joseph J. Ulliman 18 Planting a Wildlife Seed, David D. Musil 20 Herb and the Spoon, Dan Dallas 22 Did We Ask the Right Questions In Idaho Timber Supply Studies?, Charley McKetta 24 More than Meets the Fly, Ken Johnston 28 College Focus UI Experimental Forest, Harold L. Osborne 33 Biotechnology Comes to Forest Resources!, Carol M. Stiff and Steven J. Brunsfeld 35 Wood for Energy: A Working Example On the UI Campus, Leonard R. Johnson 37 Lee A. Sharp Experimental Area 41 Clark Fork Field Campus 42 1987 Forestry, Wildlife and Range Sciences Awards Banquet 43 Student Activities Natural Resources Week 1987, Bruce Higgins 44 American Fisheries Society Palous Unit, Idaho Chapter, Gary Asbridge 45 Proper Fly Casting, Craig H. Dolan 46 Forest Products 47 Idaho Forester 49 Range Club News, Lynn Pence 50 Society of American Foresters/Associated Foresters 51 Student Affairs Council 54 Wildland Recreation Management Association, Sarah Topp 56 Wildlife Society, Cindy Sills 58 Earth Day 1987, Ed Ohlweiler 60 Continuing Education 61 Student Directory 63 Index to Advertisers 66 Acknowledgements 6
Deterministic network optimization : a bibliography
"7-102-77." Includes author index. Cover title.Supported in part by the U.S. Deaprtment of Transportation, Transportation Advanced Research Program (TARP) contract no. DOT-TSC-1058by Bruce L. Golden and Thomas L. Magnanti
Computational data from: "Maximising recombination across macadamia populations to generate linkage maps for genome anchoring"
<p>Computational files associated with the publication “Maximising recombination across macadamia populations to generate linkage maps for genome anchoring” (not yet published – further details to be provided when published).</p><p>Data Processing: Single nucleotide polymorphism (SNP) and dominant markers were identified using the DArT Pty Ltd. genome complexity reduction method. Genetic linkage maps were constructed using JoinMap v5. Visual representations of each map were generated using MapChart v2.3. A complete description of the methods is provided in “Maximising recombination across macadamia populations to generate linkage maps for genome anchoring” (Langdon et al. unpublished – manuscript under review)</p><p>Excel spreadsheet containing information on a series of Genetic linkage maps. Marker id, genetic position and the sequence associated with the marker for each map is provided. Visual representation of each genetic linkage map (using the program MapChart v2.3) is provided as a PDF.</p><p>Data generated was established by Kirsty S Langdon, Graham J King, Abdul Baten, Ramil Mauleon, Peter C Bundock, Bruce L Topp and Catherine J Nock</p><p>Leaf samples were collected by Kirsty Langdon, Catherine Nock and Asuka Kawamata from Southern Cross University and Mobashwer Alam from the University of Queensland.</p>
Editorial for progressive education: Antecedents of educating for democracy
Journal Articl
L-R: Katie Lee; Natalie Gignoux; Leo Walters exploring a side canyon.
Photo of Arizona folk singer and author Katie Lee (far left), Natalie Gignoux (center), and Leo Walters (far right) exploring a side canyon in Glen Canyon, Uta
L-R: Katie Lee (in boat); Leo Walters; Natalie Gignoux loading rafts with gear during their trip down Glen Canyon.
Photo of Arizona folk singer and author Katie Lee (sitting in raft), Leo Walters (standing next to raft), and Natalie Gignoux (far right), next to the Colorado River, Glen Canyon, Uta
Collaboration through writing and reading: Exploring possibilities
Betsy Bowen (with A. Rosebery, L. Flower, B. Warren, B. Bruce, M. Kantz & Ann Penrose ) is a contributing author, The problem-solving processes of readers and writers: Similarities and differences , pp. 136-163
Nectarine skin speckling is associated with flesh soluble solids content
The relationship between skin speckling and flesh soluble solids content (SSC) was investigated for 45 nectarine [Prunus persica (L.) Batsch] genotypes from the University of Florida breeding program. Skin speckling as measured on firm ripe fruit by count of speckles cm and a 0 to 5 speckle rating was significantly correlated with SSC (r = +0.72 and +0.78 respectively). There was significant variation among genotypes for speckle number, speckle rating and SSC with broad sense heritabilities estimated as 0.67, 0.79 and 0.58 respectively. The term sugar speckles is commonly used to describe this skin speckling and accurately reflects the association between the two traits. The challenge for breeders is to increase eating quality without adversely affecting fruit appearance
Tridentella katlae Bruce & Svavarsson 2018, sp. nov.
Tridentella katlae sp. nov. Figs 6–9 Holotype: ♀ (non-ovig. 8.0 mm), New Caledonia, Iles Loyaute, Lifou, Baie du Santal, SE Récif Shelter, 20°54.1’S, 167°03.3'E, atelier, 7–19 November 2000, 150 – 200 m, LIFOU 2000, stn DW1648, N.O.“Alis”, (MNHN-IU- 2017-20). Description: Body 3.0 times as long as greatest width, dorsal surfaces polished in appearance, widest at pereonite 5, lateral margins subparallel. Head smooth, without ornamentation, rostral point absent. Eyes mesially united; occupying 55% of head length, each eye made up of ~10 transverse rows of ommatidia, each row with ~30 ommatidia, eye colour black. Pereon with partial transverse impressed line on pereonites 5–7; pereonite 1 and coxae 2–3 each with posteroventral angle rounded; coxae 5–7 with incomplete oblique carina; posterior margins of pereonites 5–7 smooth. Pleon with pleonite 1 visible in dorsal view; pleonites 3–5 posterior margin with irregular small nodules; posterolateral angles of pleonite 2 forming acute point, not posteriorly produced; pleonite 3 with posterolateral margins not extending to posterior margin of pleonite 4, acute; posterolateral margins of pleonite 4 clearly extending beyond posterior margin of pleonite 5, acute. Pleotelson 0.8 times as long as anterior width, dorsal surface with paired, serrate submedian carinae, third lower median carina; surface with multiple low, blunt nodules; lateral margins weakly convex, prominently serrate; posterior margin weakly serrate, posterior margin truncate, with shallow notch, with small distinct median point; with 0 RS. Antennula peduncle articles 1 and 2 distinct, articulated; article 2 1.2 times as long as article 1; articles 3 and 4 1.2 times as long as combined lengths of articles 1 and 2; posterodistal angle not produced; flagellum with 12 articles, extending to posterior margin of eye. Antenna peduncle article 4 2.5 times as long as wide, 2.2 times as long as article 3, inferior margin with 1 simple seta, and 1 short simple setae; article 5 1.6 times as long as article 4, 4.7 times as long as wide, inferior margin with 0 pappose setae, anterodistal angle with cluster of 4 short simple setae; extending to posterior of pereonite 2. Frontal lamina pentagonal, longer than greatest width, lateral margins concave, anterior margins straight, anterior margin forming median point. Maxilliped palp article 2 mesial margin with 2 slender setae, lateral margin distally with 0 slender setae, article 3 mesial margin with 6 slender setae, lateral margin with 1 slender setae, article 4 mesial margin with 5 slender setae, lateral margin with 2 slender setae (article 4 fused to article 5), article 5 distomesial margin with 7 setae, lateral margin with 2 setae; endite extending to distal margin of palp article 4 with 0 long circumplumose setae. Pereopod 1 basis 3 times as long as greatest width, superior distal angle with cluster of 2 acute simple setae; ischium 0.3 times as long as basis, inferior margin with 3 setae, superior distal margin with 3 RS; merus inferior margin with 3 RS (small, acute), set as two rows, superior distal angle with 1 setae; carpus inferior margin with 1 RS (small, acute, + 1 seta); propodus 2.1 times as long as wide, inferior margin with 0 RS; propodal palm weakly concave; dactylus 0.3 as long as propodus. Pereopod 2 more slender than pereopod 1. Pereopod 2 ischium inferior margin with 0 stout RS (1 acute RS), superior distal margin with 1 RS (+4 setae); merus inferior margin with 3 stout RS (small, acute), set as two groups, superior distal margin with 0 acute RS (2 setae); carpus inferodistal angle with 1 RS. Pereopod 2 propodal palm with 4 RS. Pereopod 3 similar to pereopod 2. Pereopod 6 similar to pereopod 7. Pereopod 7 basis 3.1 times as long as greatest width, superior margin weakly convex (with 6 plumose setae), inferior margin with 0 palmate setae; ischium 0.4 times as long as basis, inferior margin with 2 acute RS, superior distal angle with 3 RS, inferior distal angle with 4 RS; merus 0.9 times as long as ischium, 1.9 times as long as wide, inferior margin with 4 acute RS, superior distal angle with 5 RS, inferior distal angle with 3 RS; carpus 0.8 times as long as ischium, 1.6 times as long as wide, inferior margin with 1 RS, superior distal angle with 8 RS, inferior distal angle with 4 RS; propodus 1 as long as ischium, 3.1 times as long as wide, inferior margin with 2 RS, superior distal angle with 2 slender setae (and 2 acute RS), inferior distal angle with 1 RS. Pleopod 1 exopod 1.4 times as long as wide, lateral margin weakly convex, distally broadly rounded, mesial margin strongly convex, with PMS from distal one-third, with ~31 PMS; endopod 1.6 times as long as wide, distally broadly rounded, lateral margin weakly concave, with PMS on distal margin only, mesial margin with PMS on distal margin only, endopod with ~17 PMS; peduncle 2.2 times as wide as long; mesial margin with 5 coupling hooks. Pleopod 2 exopod with ~40 PMS, endopod with ~19 PMS. Uropod peduncle lateral margin with medial short acute robust seta, uropod peduncle posterior lobe about onehalf as long as endopod; rami not extending beyond pleotelson, marginal setae in single tier, apices broadly rounded. Endopod apically not bifid; lateral margin straight, proximal lateral margin with 0 RS; distal lateral margin with 0 RS, mesial margin straight (then convex proximally), with 0 RS. Exopod not extending to end of endopod, 3.1 times as long as greatest width, apically shallowly and equally bifid; lateral margin straight, serrate with 5 teeth and 0 RS; mesial margin sinuate, proximally concave, with 0 RS. Male: Not known. Remarks: Tridentella katlae sp. nov. is the only species in the family with eyes that are medially united in dorsal view and occupying most of the head, a character that occurs also in the family Aegidae (see Bruce 2009). This character together with the tri-carinate pleotelson, with serrated lateral margins and the presence of numerous small simple nodules over the pleon and pleotelson serve to identify the species. Etymology: Named for Katla Magnúsdóttir, the mother-in-law of the second author, a kind and caring person, who passed away during the second authors sabbatical in Australia.Published as part of Bruce, Niel L. & Svavarsson, Jörundur, 2018, Three new species of Tridentella Richardson, 1905 (Isopoda: Cymothoida: Tridentellidae) from New Caledonia, pp. 101-118 in Zootaxa 4399 (1) on pages 108-111, DOI: 10.11646/zootaxa.4399.1.6, http://zenodo.org/record/120649
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