87,145 research outputs found

    Alternative electrical energy sources for Maine

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    Prepared for the Central Maine Power Company Summary report.--Appendix A. Glaser, C. and Ruane, M. Conversion of biomass.--Appendix B. Jones, W. J. [et al.]. Conservation.--Appendix C. Waterflow, A. Geothermal energy conversion.--Appendix D. Ruane, M. Ocean thermal energy conversion.--Appendix E. Jones, W. J. Fuel cells.--Appendix F. Geary, J. and Jones, W. J. Solar energy conversion.--Appendix G. Ruane, M. Conversion of solid wastes.--Appendix H. Ruane, M. Storage of energy.--Appendix I. Mays, J. Wave energy conversion.--Appendix J. Mays, J. Ocean and riverine current energy conversion.--Appendix K. Labuszewski, T. Wind energy conversion.--Appendix L. Gruhl, J. Environmental impacts

    Stegonotus derooijae Ruane 2017

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    Stegonotus derooijae Ruane et al., 2017:13 Taxonomic status. Valid. Synonyms. None. Original name. Stegonotus derooijae Ruane et al., 2017:13. The species epithet honors Nelly de Rooij (Fig. 17I), who described S. florensis (see above). The species description was presented in English. Type specimens. Holotype: MZB Ophi.3288 (Fig. 32 A–E; Ruane et al. 2017: Fig. 6), an adult male (Table 1). Paratypes: MZB Ophi.3293 (Fig. 32 F–H), listed as possibly female. SAMA R70467 (Fig. 32 I–K), listed as possibly female. Type localities. All type specimens were collected in Raja Ampat Regency, West Papua Province, Indonesia. Holotype: Waibya Camp, Salawati Island, elev. 75 m (ca. 0.9564°S, 130.78°E). Paratypes: MZB Ophi.3293, same data as the holotype; SAMA R70467, Warinkabom, Batanta Island, elev. 50 m (ca. 0.8369°S, 130.72°E). Collection. All type specimens were collected by Stephen Richards, Burhan Tjaturadi, and Keliopas Krey between 5 and 28 June 2005. Key characteristics of the type specimens. (1) Holotype, MZB Ophi.3288: 455 mm SVL + 193 mm TL = 648 mm TTL. V ♂ = 181, SC ♂ = 94, SCR ♂ = 0.34, D = 17-17-15, SL E = 3+4, SL = 7, IL = 8, IL G = 5. (2) Paratype, MZB Ophi.3293: 450 mm SVL + 168+ mm TL = 618+ mm TTL. V ? = 178, SC ? = O, SCR ? = O, D = O-17-O, SL E = O, SL = 7, IL = 9, IL G = O. (3) Paratype, SAMA R70467: 290 mm SVL + 108 mm TL = 398 mm TTL. V ? = 178, SC ? = 90, SCR ? = 0.34, D = O-17-O, SL E = O, SL = 7, IL = 8, IL G = O. Key characteristics of the species. According to their specimen list, Ruane et al. (2017: Appendix) included four specimens (three types, one without type status) of S. derooijae in their analysis. Those the authors considered as possibly female we considered as unsexed for the purposes of our analysis and lumped them into a questionable category for the potentially sexually dimorphic values of V, SC, and SCR, as indicated by a subscripted question mark (?). Of the examined series, one unsexed specimen was collected on Batanta, one male and one unsexed specimen on Salawati, and one unsexed specimen on Waigeo. Characteristics include V ? = 178–197 (184 ± 11.0), V ♂ = 181; SC ? = 90–91, SC ♂ = 94; SCR ? = 0.33, SCR ♂ = 0.34; D = O-17-O (100%); SL E most likely 3+4; SL = 7 (n = 3, 75%) or 9 (n = 1, 25%); IL = 8 (n = 2, 50%) or 9 (n = 2, 50%); IL G most likely 5. The range in ventral scales gives us pause, as it is large and with a very high standard deviation. In other species of Stegonotus, standard deviations for ventral scales range from 4–8 scales, and 11 appears to be very high, even if two sexes are lumped together in this data set. Comment. Ruane et al. (2017) considered S. derooijae to be a member of their S. diehli complex.Published as part of Kaiser, Christine M., Kaiser, Hinrich & O'Shea, Mark, 2018, The taxonomic history of Indo-Papuan groundsnakes, genus Stegonotus Duméril et al., 1854 (Colubridae), with some taxonomic revisions and the designation of a neotype for S. parvus (Meyer, 1874), pp. 1-73 in Zootaxa 4512 (1) on page 56, DOI: 10.11646/zootaxa.4512.1.1, http://zenodo.org/record/260757

    Stegonotus melanolabiatus Ruane 2017

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    Stegonotus melanolabiatus Ruane et al., 2017:18 Taxonomic status. Valid. Synonyms. None. Original name. Stegonotus melanolabiatus Ruane et al., 2017:18. The species name is a descriptive adjective formed from the Greek melano and the Latin labia, meaning dark lips. It was selected to highlight the presence of dark coloration on the labial scales. The species description was presented in English. Type specimens. Holotype: AMS R115343 (Fig. 33 A–E, Table 1; Ruane et al. 2017: Fig. 7), an adult male. Paratypes: AMS R 122906 (Fig. 33 F–H), an adult male. AMS R115361 (Fig. 33 I–K), unsexed. Our own examination of this specimen ascertained by the presence of follicles that it is a female. AMS 115320 (Fig. 33 L–N), unsexed. Our own examination of this specimen ascertained by the presence of the m. retractor penis magnus that it is a male. Type localities. Holotype: Doido, Chimbu [now Simbu] Province, Papua New Guinea, elev. 1300 m (ca. 6.5500°S, 144.83°E). Paratypes: AMS R 122906, Waro, Southern Highlands Province, Papua New Guinea, elev. 550 m (ca. 6.5333°S, 143.18°E); AMS R115361 and R115320, Noru, Simbu Province, Papua New Guinea, elev. 1150 m (ca. 6.5833°S, 144.65°E). Collection. All type specimens were collected by Stephen C. Donnellan (South Australian Museum, Adelaide, South Australia) and Kenneth P. Aplin (Smithsonian Institution, Washington, D.C., USA) in April and May 1984. Key characteristics of the type specimens. (1) Holotype, AMS R115343: 615 (600) mm SVL + 192 (215) mm TL = 807 (815) mm TTL. V ♂ = 197 (200), SC ♂ = 92 (93), SCR ♂ = 0.32 (0.32), D = 17-17-15 (17-17- 15), SL E = 3+4 (3+4), SL = 7 (7), IL = 8 (8), IL G = 5 (5). (2) Paratype, AMS R 122906: 485 (510) mm SVL + 195 (205) mm TL = 680 (715) mm TTL. V ♂ = 186 (190), SC ♂ = 96 (100), SCR ♂ = 0.34 (0.34), D = O-15-O (15-15-15), SL E = O (3+4), SL = 7 (7), IL = 8 (8), IL G = O (5). (3) Paratype, AMS R115361: 630 (652) mm SVL + 210 (222) mm TL = 840 (874) mm TTL. V ♀ = 186 (191), SC ♀ = 89 (89), SCR ♀ = 0.32 (0.32), D = O- 17-O (17-17-15), SL E = O (3+4), SL = 7 (7), IL = 8 (8), IL G = O (5). (4) Paratype, AMS R115320: 648 (638) mm SVL + 235 (243) mm TL = 883 (881) mm TTL. V ♂ = 192 (194), SC ♂ = 94 (95), SCR ♂ = 0.33 (0.33), D = O-17-O (17-17-15), SL E = O (3+4), SL = 7 (7), IL = 8 (8), IL G = O (5). Key characteristics of the species. According to their specimen list, Ruane et al. (2017: Appendix) included ten specimens of S. melanolabiatus in their analysis. These included specimens from a locality in the recently (2012) formed Hela Province (1 ♀, 1 ♂; erroneously listed as from Southern Highlands Province), Simbu Province (2 ♀♀, 3 ♂♂) and Southern Highlands Province (2 ♀♀, 1 ♂). We have examined all of these specimens personally, and while there is general agreement between our data sets, there are three noteworthy differences (those of Ruane et al. are shown in parentheses). Our data show AMS R115360 with 15-15-15 (17-17-15) dorsals, AMS R 122360 with 17-17-15 (15-15-15) dorsals, and AMS R115321 with 7 (8) supralabials and 8 (9) infralabials. The data for supra- and infralabials is readily verified on our photographs of the specimens and is used for the following calculations. The two other data discrepancies are omitted because of their incongruence. Characteristics include V ♀ = 180–191 (184 ± 4.3), V ♂ = 190–201 (196 ± 4.7); SC ♀ = 89–100 (96 ± 4.9), SC ♂ = 93–100 (95 ± 3.3); SCR ♀ = 0.34, SCR ♂ = 0.33; D = 17-17-15 (n = 6, 75%) or 15-15-15 (n = 2, 25%); SL E = 3+4 (100%); SL = 7 (100%); IL = 8 (100%); IL G = 5. Based on the numbers of ventral scales, there appears to be some sexual dimorphism in that character, with females generally possessing a number of ventrals in the 180s (V mean = 184, only one female with V = 191), whereas males have ventral numbers in the 190s or higher (V mean = 196, two males with V ḵ 200). There does not appear to be any sexual dimorphism in the number of subcaudal scales. Comment. Ruane et al. (2017) considered S. melanolabiatus to be a member of their S. diehli complex.Published as part of Kaiser, Christine M., Kaiser, Hinrich & O'Shea, Mark, 2018, The taxonomic history of Indo-Papuan groundsnakes, genus Stegonotus Duméril et al., 1854 (Colubridae), with some taxonomic revisions and the designation of a neotype for S. parvus (Meyer, 1874), pp. 1-73 in Zootaxa 4512 (1) on page 58, DOI: 10.11646/zootaxa.4512.1.1, http://zenodo.org/record/260757

    Stegonotus iridis Ruane 2017

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    <i>Stegonotus iridis</i> Ruane <i>et al</i>., 2017:8 <p> <b>Taxonomic status.</b> Valid.</p> <p> <b>Synonyms.</b> None.</p> <p> <b>Original name.</b> <i>Stegonotus iridis</i> Ruane <i>et al</i>., 2017:8. The species epithet comes from the Latin for rainbow, in reference to “the high level of iridescence shown both dorsally and ventrally by this species.” The species description was presented in English.</p> <p> <b>Type specimens.</b> Holotype: MZB Ophi.3306 (Fig. 31 A–E; Ruane <i>et al</i>. 2017: Fig. 5), an adult male (Table 1). Paratypes: SAMA R70466, an adult male. MZB Ophi.3305 (Fig. 31 L–N), an adult male. MZB Ophi.3303 (Fig. 31 I–K), listed as possibly female. MZB Ophi.3311, an adult male. MZB Ophi.3302 (Fig. 31 F–H), an adult male.</p> <p> <b>Type localities.</b> All type specimens were collected in Raja Ampat Regency, West Papua Province, Indonesia. Holotype: Warinkabom, Batanta Island, elev. 50 m (ca. 0.8369°S, 130.72°E). Paratypes: SAMA R70466, Waire Camp, Batanta Island, elev. 25 m (ca. 0.8397°S, 130.53°E); MZB Ophi. 3303, Yakut Camp, Batanta Island, elevation 55 m (ca. 0.8958°S, 130.64°E); MZB Ophi. 3302, 3311, Waibya, Salawati Island, elev. 75 m (ca. 0.9564°S, 130.78°E); MZB Ophi. 3305, Urbinasopen, Waigeo Island, elev. 45 m (ca. 0.3372°S, 131.26°E).</p> <p>19. The original description states that TL represents 22% of TTL in the holotype. This means that SVL represents 78%, and TL can be calculated as 221 mm. We applied the same calculation to the paratype.</p> <p> 20. This value was established right at the neck, and we confirmed this count. However, within one head length posteriorly, the number of dorsal scale rows reduces to 17. The author noted that this reduction occurred “before level of twelfth ventral.” The same generally applies to species of <i>Stegonotus</i>, with the possible exception of <i>S. muelleri</i>.</p> <p> <b>Collection.</b> All type specimens were collected by Stephen Richards (South Australian Museum, Adelaide, South Australia), Burhan Tjaturadi (Sanata Dharma University, Yogyakarta, Indonesia), and Keliopas Krey (University of Papua, Manokwari, Indonesian New Guinea) in June 2005.</p> <p> <b>Key characteristics of the type specimens.</b> (1) Holotype, MZB Ophi.3306: 713 mm SVL + 238 mm TL = 951 mm TTL. V ♂ = 201, SC ♂ = 88, SCR ♂ = 0.30, D = 17-17-15, SL E = 4+5, SL = 8, IL = 10, IL G = 5. (2) Paratype, SAMA R70466: 675 mm SVL + 190+ mm TL = 865+ mm TTL. V ♂ = 204, SC ♂ = O, SCR ♂ = O, D = O-19-O, SL E = O, SL = 8, IL = 10, IL G = O. (3) Paratype, MZB Ophi.3305: 790 mm SVL + 235 mm TL = 1025 mm TTL. V ♂ = 198, SC ♂ = 78, SCR ♂ = 0.28, D = O-17-O, SL E = O, SL = “8/9?”, IL = 10, IL G = O. (4) Paratype, MZB Ophi.3303: 870 mm SVL + 265+ mm TL = 1135+ mm TTL. V ? = 203, SC ? = O, SCR ? = O, D = O-19-O, SL E = O, SL = 8, IL = 10, IL G = O. (5) Paratype, MZB Ophi.3311: 682 mm SVL + 213 mm TL = 985 mm TTL. V ♂ = 204, SC ♂ = 85, SCR ♂ = 0.29, D = O-17-O, SL E = O, SL = 8, IL = 9, IL G = O. (6) Paratype, MZB Ophi.3302: 778 mm SVL + 240 mm TL = 1018 mm TTL. V ♂ = 205, SC ♂ = 85, SCR ♂ = 0.29, D = O-19-O, SL E = O, SL = 8, IL = 9, IL G = O.</p> <p> <b>Key characteristics of the species.</b> According to their specimen list, Ruane <i>et al</i>. (2017: Appendix) included seven specimens of <i>S. iridis</i> in their analysis. Of these, three (one unsexed, 2 ♂♂) were collected on Batanta, three (3 ♂♂) on Salawati, and one male on Waigeo. Characteristics include V ♂ = 198–211 (204 ± 4.4); SC ♂ = 78–88 (84 ± 3.7); SCR ♂ = 0.29; D = 17-19-15 (n = 5, 71%) or 17-17-15 (n = 2, 29%); SL E most likely 4+5; SL = 8 (100%); IL = 9 (n = 2, 29%) or 10 (n = 5, 71%); IL G most likely 5.</p> <p> <b>Comment.</b> In their description of <i>S. iridis</i>, Ruane <i>et al</i>. (2017) listed one specimen as possibly female. For the purposes of our discussion, we considered it unsexed and omitted it from parts of the analysis where sexual dimorphism could play a role (i.e., for values of V, SC, and SCR).</p>Published as part of <i>Kaiser, Christine M., Kaiser, Hinrich & O'Shea, Mark, 2018, The taxonomic history of Indo-Papuan groundsnakes, genus Stegonotus Duméril et al., 1854 (Colubridae), with some taxonomic revisions and the designation of a neotype for S. parvus (Meyer, 1874), pp. 1-73 in Zootaxa 4512 (1)</i> on pages 54-56, DOI: 10.11646/zootaxa.4512.1.1, <a href="http://zenodo.org/record/2607575">http://zenodo.org/record/2607575</a&gt

    Foreign direct investment in Ireland

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    Stegonotus admiraltiensis Ruane 2017

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    <i>Stegonotus admiraltiensis</i> Ruane <i>et al</i>., 2017:21 <p> <b>Taxonomic status.</b> Valid.</p> <p> <b>Synonyms.</b> None.</p> <p> <b>Original name.</b> <i>Stegonotus admiraltiensis</i> Ruane <i>et al</i>., 2017:21. The species name references the Admiralty Islands of Manus Province, Papua New Guinea, where the species is thought to be endemic. The description was presented in English.</p> <p> <b>Type specimens.</b> Holotype: LSUMZ 93598 (Ruane <i>et al</i>. 2017: Fig. 8), an adult male (Table 1). Paratypes: LSUMZ 93597, 93599–600 (all paratypes unsexed).</p> <p> <b>Type localities.</b> All type specimens were collected in Manus Province, Papua New Guinea. Holotype: Penchal Village, Rambutyo Island, elev. 58 m (ca. 2.3283°S, 147.77°E). Paratypes: LSUMZ 93597, Peyon Village, Los Negros Island, elev. 10 m (ca. 2.0327°S, 147.43°E); LSUMZ 93599–600, northeast of Penchal Village, Rambutyo Island, elev. 100 m (ca. 2.3405°S, 147.79°E).</p> <p> <b>Collection.</b> All type specimens were collected by Christopher C. Austin (Louisiana Museum of Natural History, Baton Rouge, Louisiana, USA) between 29 August and 3 September 2001.</p> <p> <b>Key characteristics of the type specimens.</b> (1) Holotype, LSUMZ 93598: 658 mm SVL + 185 mm TL = 843 mm TTL. V ♂ = 208, SC ♂ = 98, SCR ♂ = 0.32, D = 17-19-15, SL E = 4+5, SL = 8, IL = 10, IL G = 6. (2) Paratype, LSUMZ 93597: 560 mm SVL + 174 mm TL = 734 mm TTL. V ? = 214, SC ? = 94, SCR ? = 0.31, D = O-17-O, SL E = x, SL = 8, IL = 10, IL G = O. (3) Paratype, LSUMZ 93599: 646 mm SVL + 190 mm TL = 836 mm TTL. V ? = 206, SC ? = 93, SCR ? = 0.31, D = O-17-O, SL E = O, SL = 8, IL = 9, IL G = O. (4) Paratype, LSUMZ 93600: 598 mm SVL + 110+ mm TL = 708+ mm TTL. V ? = 202, SC ? = O, SCR ? = O, D = O-19-O, SL E = O, SL = 8, IL = 10, IL G = O.</p> <p> <b>Key characteristics of the species.</b> According to their specimen list, Ruane <i>et al</i>. (2017: Appendix) included four specimens of <i>S. admiraltiensis</i> in their analysis. Of these, one male and two unsexed specimens were collected on Rambutyo, and one unsexed specimen on Los Negros. Given that most of the specimens were not sexed, it is not possible to draw conclusions regarding the distribution of characteristics by sex or about the presence of sexual dimorphism. The characteristics we list here are therefore somewhat limited in their overall description of the species. We consider <i>S. admiraltiensis</i> to be a species with a relatively high ventral scale count (V> 200) with a relatively high number of subcaudal scales (SC> 90; SCR> 0.30). The dorsal count of 17-19-15 is unique among the species of <i>Stegonotus</i>, and its occurrence in a species that also presents dorsal counts of O-17-O (most likely 17-17-15) is unusual. The SL E is most likely 4+5 for the species given that this character tends not to be rarely variable in <i>Stegonotus</i> species. The number of supralabials was eight for all specimens, and among infralabials three specimens had IL = 10, whereas one had SL = 9. Based on the ventral view of the holotype, the sixth infralabial scale barely touches the anterior genial, and we wonder whether this character can be consistently scored as IL G = 6 across all specimens. If so, then this is another unique characteristics of <i>S. admiraltiensis</i> among the species of <i>Stegonotus</i>.</p> <p> <b>Comment.</b> Ruane <i>et al.</i> (2017) compared <i>S. admiraltiensis</i> to <i>S. modestus</i> and <i>S. parvus</i> at length, but without the benefit of having examined the holotype of the former or using the original description of the latter (characteristics of <i>S. admiraltiensis</i> in parentheses): <i>S. modestus</i> has a light neck band (absent), a subcaudal count <90 (> 90), SL E = 3+4 (4+5), and IL G = 4 (6). <i>Stegonotus parvus</i> has a ventral count <180 (> 200), SL E = 3+4 (4+5), and IL G = 4 (6). Furthermore, Ruane <i>et al</i>. (2017) referenced two additional Manus specimens but did not include them in their analysis. We have examined an additional 38 specimens from the Admiralty Islands, which include 15-15-15 (n = 3), 17-17-15 (n = 30), and 17-19-17 (n = 5) dorsal counts, with SL E = 3+4 (n = 16) or 4+5 (n = 20), with subcaudal counts that differ from <i>S. admiraltiensis</i> as defined above. Two specimens have aberrant counts of SL E, with 3+4 on one side of the head and 4+5 on the other. It therefore appears to us as if <i>S. admiraltiensis</i> is not the only species of <i>Stegonotus</i> present in the Admiralty Islands and further research will be needed to ascertain the taxonomy of groundsnakes there.</p> <p> <b> Specimen Type SCR SubC Species Synonym Sex SVL TL TTL V SC Dorsals SCE SL IL ILG Number Status (%) Condition</b> BMNH <i>heterurus</i> LT M 393 89 482 179 80 31 single 17-17-15 3 +4 7 9 4 1946.1.14.95 MZB <i>iridis</i> HT M 713 238 951 201 88 30 paired 17-19-15 4 + 5 8 10 10 Ophi.3306 MSNG <i>keyensis</i> HT M 651 164 815 200 73 27 paired 17-17-15 4 +5 8 9 5 7521 RMNH <i>lividus</i> LT F 444 123 567 197 67 25 paired 17-17-15 3 +4 7 9 4 RENA.325A AMS <i>melanolabiatus</i> HT M 615 192 807 197 92 32 paired 17-17-15 3 +4 7 8 8 R115343 RMNH <i>modestus</i> HT M 656 158 814 200 83 29 paired 17-17-15 3 +4 7 8 4 RENA.324 BMNH <i>modestus greineri</i> HT M 552 162 714 206 86 29 paired 17-17-15 3 +4 7 8 4 1946.1.13.74 BMNH <i>modestus holochrous</i> HT M 537 182 719 195 83 30 paired 17-17-15 3 +4 7 8 4 1946.1.11.40 RMNH <i>modestus rosenbergii</i> HT M 582 178 760 203 80 28 paired 17-17-15 3 +4 7 9 4 RENA.4066 MNHN <i>muelleri</i> HT F 1006 302 1308 217 97 31 paired 17-17-15 4 +5 8 9 4 848 ZMB 9R <i>muelleri samarensis</i> HT M O O O 236 98 29 paired 17-17-15 4 + 5 10 4 4294 8L MTKD <i>parvus</i> ST c O O O O 177 100 36 paired O-17-O 3+ 4 7 O O 876A MTKD <i>parvus</i> ST c O O O O O O O O O 3+4 O O O 876B RMNH <i>parvus</i> NT F 217 75 292 173 87 33 paired 17-17-15 3 +4 7 8 4 RENA.46844 NMW 164 <i>poechi</i> HT F 860 O 200 55+ O paired 19-19-17 4 +5+ 6 9 10 4 23406 + BMNH <i>reticulatus</i> LT F 880 238 1118 201 78 28 paired 17-17-15 4 +5 8 9 4 1946.1.14.87 NMBA <i>sutteri</i> HT M 567 144 711 230 83 27 single 21-21-19 3 +4+ 5 9 10 5 14872 a MTKD 573 is definitely a type specimen of <i>Lycodon magnus</i> Meyer, 1874, which was destroyed in 1945. b ZMB 8794 may be a syntype of <i>L. magnus</i>, but its status is inconclusive at this time. c MTKD 876A and 876B were destroyed in 1945. Values given are from the original description by Meyer (1874).</p>Published as part of <i>Kaiser, Christine M., Kaiser, Hinrich & O'Shea, Mark, 2018, The taxonomic history of Indo-Papuan groundsnakes, genus Stegonotus Duméril et al., 1854 (Colubridae), with some taxonomic revisions and the designation of a neotype for S. parvus (Meyer, 1874), pp. 1-73 in Zootaxa 4512 (1)</i> on pages 60-62, DOI: 10.11646/zootaxa.4512.1.1, <a href="http://zenodo.org/record/2607575">http://zenodo.org/record/2607575</a&gt

    Variations on the Author

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    “Variations on the Author” discusses two of Eduardo Coutinho’s recent films (Um Dia na Vida, from 2010, and Últimas Conversas, posthumously released in 2015) and their contribution to the general question of documentary authorship. The director’s filmography is characterized by a consistent yet self-effacing form of authorial self-inscription: Coutinho often features as an interviewer that rather than express opinions propels discourses; an interviewer that is good at listening. This mode of self-inscription characterizes him as an author who is not expressive but who is nonetheless markedly present on the screen. In Um Dia na Vida, however, Coutinho is completely absent form the image, while Últimas Conversas, on the contrary, includes a confessional prologue that moves the director from the margins to the center of his films. This article examines the ways in which these works stand out in the filmography of a director who offers new insights into the notion of cinematic authorship

    [Newspaper Clipping: Author Claims Evidence of Second JFK Assassin #1]

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    Newspaper article titled "Author Claims Evidence of Second JFK Assassin." The article states that author Richard J. Whalen concluded "that there is circumstantial evidence to support the theory of a second assassin in the shooting of President John F. Kennedy.

    Also By The Same Author: AKTiveAuthor, a Citation Graph Approach to Name Disambiguation

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    The desire for definitive data and the semantic web drive for inference over heterogeneous data sources requires co-reference resolution to be performed on those data. In particular, name disambiguation is required to allow accurate publication lists, citation counts and impact measures to be determined. This paper describes a graph-based approach to author disambiguation on large-scale citation networks. Using self-citation, co-authorship and document source analyses, AKTiveAuthor clusters papers, achieving precision of 0.997 and recall of 0.818 over a test group of eight surname clusters

    John F. Kennedy telegram to Roosevelt

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    Jersey Homesteads (later the Borough of Roosevelt) was established in the 1930s as an agro-industrial cooperative community. It was established specifically for urban Jewish garment workers, many of whom had emigrated from Europe. President John F. Kennedy sent a telegram to the citizens of Roosevelt, New Jersey, apologizing for not being able to attend the memorial dedication in honor of former President Franklin Delano Roosevelt. (Jersey Homesteads became Roosevelt in 1945 in honor of the president.) President Kennedy expressed his gratitude to the people of Roosevelt for constructing the memorial, and commented that it will serve as a constant reminder of Roosevelt's good works
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