802 research outputs found
Bennett Reimer Papers
Bennett Reimer (born 1932), a wind player, music educator and noted author, held the John W. Beattie Endowed Chair in Music position at Northwestern University where he was Chair of Music Education Department, Director of the Ph.D Program in Music Education, and founder and Director of the Center for the Study of Education and the Musical Experience.The collection consists of published books and accompanying materials, unpublished works, journal articles, guest lecture materials and drafts of speeches given by Reimer, and materials related to books Reimer published for Silver-Burdett Music. This collection is unprocessed; an inventory is available upon request
die Umbenennung der Berliner Universität 1945 bis 1949 und die Gründung der Freien Universität Berlin 1948 ; Veranstaltung am 9. Februar 2009
War die Wiederaufnahme des Lehrbetriebs Anfang 1946 eine Neu- oder eine Wiedereröffnung der Berliner Universität? Warum erhielt die Universität erst 1949 – und auffällig unspektakulär – den neuen Namen „Humboldt-Universität“? Diesen Fragen widmete sich der emeritierte FU-Historiker Reimer Hansen fast auf den Tag genau 60 Jahre nach der Umbenennung der Berliner „Linden-Universität“ in einer Veranstaltung am 9. Februar 2009
Beiträge zur lateinischen Schulgrammatik
von Oberlehrer Dr. Reimer HansenIn FrakturProgr. Nr. 26
Antipathozoanthus hickmani Reimer & Fujii 2010, sp. n.
Antipathozoanthus hickmani sp. n. urn:lsid:zoobank.org:act: BC6BFB57-105C-4EC4-AEF4-87CC8B33DBDE Figures 1, 5, 7, 9, Tables 1, 2, 3 Etymology. Named after Dr. Cleveland Hickman, Jr., who graciously invited the first author to the Galápagos, and collected the first specimens of this new species. Noun in the genitive case. Material examined. Type locality: Ecuador, Galapagos: Floreana I., La Batielle, 1.2904°S 90.4989°W. Holotype: Specimen number MHNG-INVE-67495. Colony of approximately 40 polyps connected by well-developed coenenchyme on two branches of Antipathes galapagensis Diechmann, 1941 branches. Both branches approximately 7 cm long. Polyps approximately 1.5–4.0 mm in diameter, and approximately 1.0–6.0 mm in height from coenenchyme. Coenenchyme covers branches of antipatharian. Polyps and coenenchyme sand encrusted, cream-yellow in color. Collected from La Batielle, Floreana I., Galapagos, Ecuador, at 31.4 m by A. Chiriboga (AC), March 13, 2007. Preserved in 99.5% ethanol. Paratypes (all from Galapagos, Ecuador): Paratype 1. Specimen number CMNH-ZG 05883. Collected from Roca Onan, Pinzon I., at 27 m by AC, March 14, 2007. Figure ļ. Antipathozoanthus hickmani sp. n. in situ in the Galapagos. a holotype MHNG-INVE-67495 showing the entire colony covering an Antipathes galapagensis, with living antipatharians visible in the background. Image by Angel Chiriboga (AC) b specimen MISE 441 at Don Ferdi, Bainbridge Rocks, Santiago I., at 23 m by JDR, March 9, 2007 c and d specimen MISE 474, Roca Onan. Pinzon I., at 35 m by AC. All scale bars: 1 cm except in a (10 cm). Paratype 2. Specimen number USNM 1134064. Collected from Cousins Rock, at 28 m by James D. Reimer (JDR), March 10, 2007. Other material (all from Galapagos, Ecuador): MISE 03-221, Cousins Rock, at 12 m by AC on October 9, 2003; MISE 03-539, Cousins Rock, at 20 m by CH on November 11, 2003; MISE 03-549, Cousins Rock, at 23 m by CH on November 11, 2003; MISE 04-341, Elizabeth Bay, Isabela I., at 25 m by G. Edgar (GE) on December 2, 2003; MISE 440, Don Ferdi, Bainbridge Rocks, at 22 m by JDR, March 9, 2007; MISE 441, Don Ferdi, Bainbridge Rocks, at 23 m by JDR, March 9, 2007; MISE 444, Cousins Rock, Galapagos, Ecuador, at 21 m JDR, March 10, 2007; MISE 474, La Batielle, Floreana I., at 35 m by AC, March 14, 2007. Sequences. See Table 1. Description. Size: Polyps in situ approximately 4–12 mm in diameter when open, and approximately 4–15 mm in height. Morphology: Antipathozoanthus hickmani has approximately 40 bright yellow and/ or red tentacles, with long red, yellow, or cream-colored polyps that extend well clear of the coenenchyme (Figure 1). Tentacles are almost always longer than the expanded oral disk diameter. Cnidae: Basitrichs and microbasic p-mastigophores (often difficult to distinguish), holotrichs (large and medium), spirocysts (see Table 2, Figure 9). Table ļ. Examined zoanthid specimens for new species from the Galapagos Islands, and GenBank Accession Numbers. NA = not available or data not acquired. aSpecimens with the designations such as 03-560 are from 2001-2004 surveys (see Reimer et al. 2008b). Other specimens are from 2007 and have either specimen numbers (e.g. 471) in JDR’s collection, or museum type specimen numbers as given. Abbreviations: USNM: National Museum of Natural History, Smithsonian Institution, Washington, D.C., USA, CMNH: Chiba Prefectural Natural History Museum, Japan, MHNG: Natural History Museum of Geneva, Switzerland, MISE: Molecular Invertebrate Systematics and Ecology Laboratory, University of the Ryukyus, Nishihara, Okinawa, Japan. bLatitude and longitude values that are negative represent South and West values respectively, while positive values (latitude only) represent North values. cCollector abbreviations: CH = C. Hickman, Jr., LV = L. Vinueza, AC = A. Chiriboga, GE = G. Edgar, JDR = JD Reimer, RP = R. Pepolas, FL = F. Liss, BR = B. Riegl, DR = D. Ruiz, FR = F. Riveiria, OB = O. Breedy, MV = M. Vera. Differential diagnosis. Differs from Antipathozoanthus macaronesicus (Ocaña & Brito, 2004) (with regards to distribution; Galapagos as opposed to Cape Verde), coloration (no red or cream colors observed in A. macaronesicus), substrate (Antipathes galapagensis as opposed to Tanacetipathes cavernicola Opresko, 2001). Other morphologically similar and undescribed zoanthids (epizoic on antipatharians, similar sizes, yellowish in color) have been recorded from Madagascar and Japan (specimens in JDR’s collection), although these other specimens were found on different antipatharian species than Antipathozoanthus hickmani, and were never red or cream in color. Antipathozoanthus hickmani is the only zoanthid in the Galápagos found on living Antipathes galapagensis (Table 3). Habitat and distribution. All collected samples from Galapagos were on the black coral Antipathes galapagensis, at depths of 12 m to 35 m. Although A. galapagensis is found throughout the archipelago, Antipathozoanthus hickmani colonies were observed only at Santiago, Floreana, Isabela and Pinzon Islands, and it may be that this genus has a patchy distribution in the Galápagos. A. hickmani is potentially also found at Isla del Coco (Costa Rica) on the same antipatharian species, based on Museo de Zoologia, University of Costa Rica specimen UCR 827, although this has yet to be confirmed with detailed examinations. Biology and associated species. Antipathozoanthus hickmani may cover only a portion of a living Antipathes galapagensis black coral colony, or cover the entire colony, suggesting this species may be parasitic. Some A. hickmani specimens were found on completely dead A. galapagensis colonies or branches. Notes. Previously mentioned in Reimer et al. (2008b, 2010) and Hickman (2008) as Parazoanthus sp. G1.Published as part of Reimer, James & Fujii, Takuma, 2010, Four new species and one new genus of zoanthids (Cnidaria, Hexacorallia) from the Galapagos Islands, pp. 1-36 in ZooKeys 42 (42) on pages 6-14, DOI: 10.3897/zookeys.42.378, http://zenodo.org/record/57665
The Hansen Family and the Micro-Physics of the Everyday
One of the dates of faith in the history of Christiania is April 1st, 1976. After some years of vacillating in the so called Christiania question, in the spring of 1975 the Danish Parliament had finally set the deadline for the clearance of the Free Town. Some three months before the planned clearing, however, a documentary entitled Dagbog fra en fristad (Denmark, 1971; English translation Diary from a Free Town) was broadcast on national television. This documentary by Danish filmmaker Poul Martinsen followed the ‘typical’ Danish family Hansen from Hedehusene, a suburban city between Copenhagen and Roskilde, on their visit to Christiania. Featuring Eli Hansen, an unemployed construction worker in his forties; Lise Hansen, a cleaning assistant in her late thirties; and their two sons, Morten, eleven and Jesper, sixteen years old, as they agreed to spend a week in the Free Town, the documentary provided a combined insider/outsider perspective of the contested area. While the family initially held the view that the community should be closed, by the end of the week Mr and Mrs Hansen and their two sons had changed opinion. Having shared the daily life of the Christianites, the family was much closer to the view that Christiania presented an alternative that should remain. Transmitting a shift in attitude, the televised stay of the Family Hansen eventually made the liberal government understand that a clearance was politically impossible, and only two days before the planned closure, the government launched the idea of a ‘soft landing’, changing the demand for immediate closure to a closure ‘without unnecessary delay.’
When the Danish broadcasting company through Poul Martinsen twelve years later staged a revisit, Gensyn med Christiania (Danmark, 1988; English translation Return to Christiania), the Hansen Family was confronted with an equally contested, yet perhaps even more precarious situation. While everyday life in the mid seventies was a self evident public and political concern, it had by the late eighties become harder to locate and picture. Taking the point of departure in Martinsen’s project about the Hansens’ sojourns in the Free Town, this chapter will address the composite relationship between social experimentation, documentary practice and the ambiguous and yet politically charged notion of ‘everyday life’
The Hansen Family and the Micro-Physics of the Everyday [Elektronisk resurs]
One of the dates of faith in the history of Christiania is April 1st, 1976. After some years of vacillating in the so called Christiania question, in the spring of 1975 the Danish Parliament had finally set the deadline for the clearance of the Free Town. Some three months before the planned clearing, however, a documentary entitled Dagbog fra en fristad (Denmark, 1971; English translation Diary from a Free Town) was broadcast on national television. This documentary by Danish filmmaker Poul Martinsen followed the ‘typical’ Danish family Hansen from Hedehusene, a suburban city between Copenhagen and Roskilde, on their visit to Christiania. Featuring Eli Hansen, an unemployed construction worker in his forties; Lise Hansen, a cleaning assistant in her late thirties; and their two sons, Morten, eleven and Jesper, sixteen years old, as they agreed to spend a week in the Free Town, the documentary provided a combined insider/outsider perspective of the contested area. While the family initially held the view that the community should be closed, by the end of the week Mr and Mrs Hansen and their two sons had changed opinion. Having shared the daily life of the Christianites, the family was much closer to the view that Christiania presented an alternative that should remain. Transmitting a shift in attitude, the televised stay of the Family Hansen eventually made the liberal government understand that a clearance was politically impossible, and only two days before the planned closure, the government launched the idea of a ‘soft landing’, changing the demand for immediate closure to a closure ‘without unnecessary delay.’ When the Danish broadcasting company through Poul Martinsen twelve years later staged a revisit, Gensyn med Christiania (Danmark, 1988; English translation Return to Christiania), the Hansen Family was confronted with an equally contested, yet perhaps even more precarious situation. While everyday life in the mid seventies was a self evident public and political concern, it had by the late eighties become harder to locate and picture. Taking the point of departure in Martinsen’s project about the Hansens’ sojourns in the Free Town, this chapter will address the composite relationship between social experimentation, documentary practice and the ambiguous and yet politically charged notion of ‘everyday life’.</p
Minderheiten im deutsch-daenischen Grenzbereich
Die Publikation stellt die historisch-politische Entwicklung im deutsch-daenischen Grenzraum und die Situation der jeweiligen nationalen Minderheiten dar. Reimer Hansen gibt einen Rueckblick auf rund 1200 Jahre schleswig-holsteinische Geschichte unter dem Aspekt der Grenzziehung zwischen Daenen und Deutschen. Peter Iver Johansen stellt die politische Entwicklung und Organsiation der deutschen Minderheit in Nordschleswig seit 1920 dar, wobei der Schwerpunkt seiner Darstellung auf der Entwicklung seit den Bonn-Kopenhagener Erklaerungen von 1955 bis zur Gegenwart liegt. Johann Runge zieht bei seiner Darstellung der daenischen Minderheit in Suedschleswig einen weiteren Bogen von der ersten Haelfte des 19. Jahrhunderts ueber die nationalen Auseinandersetzungen bis 1864, die politische Entwicklung und Organisation der daenischen Minderheit unter preussischer Herrschaft, waehrend der Weimarer Republik, im nationalsozialistischen Deutschland, in der Nachkriegszeit bis zur gegenwaertigen Situation. Im Anhang: Eine kurze Literaturuebersicht, eine Liste der wichtigsten daenischen Organisationen und tabellarische statistische Uebersichten. (efms, LITDOC)SIGLEAvailable from efms-Bibliothek / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische InformationsbibliothekDEGerman
The soda lake—mesosaline halite lake transition in the Ries impact crater basin (drilling Löpsingen 2012, Miocene, southern Germany)
Lacustrine sediments of impact craters form valuable climate archives, although chemical evolution and changes in the catchment area potentially superimpose, distort, or obliterate primary climate signals. The 15 Ma Nördlinger Ries in southern Germany, one of the most intensively studied terrestrial impact structures, harbors a well-preserved but controversially interpreted lacustrine sedimentary fill. While earlier studies proposed a climate-driven development from a playa to a mesosaline soda lake (Units A and B), which then decreased in salinity (Units C and D), new investigations suggest a chemical evolution from a playa and soda lake (Units A–C) to a mesosaline halite lake (Unit D), which then turned into a hypersaline halite lake, until an outlet formed. However, problems in the stratigraphic correlation of basin center and margin sediments impeded the recognition of the hypothetical soda to halite lake transition to date. A new drilling in the central crater now provides a solution for the problem. Unit C still comprises analcime-rich dolomite marl with reversely correlated δ13C and δ18O values, thereby reflecting a shallow, highly alkaline, saline meromictic lake (Na–Mg–CO3–SO4). In turn, Unit D is characterized by a change to cycles composed of lignite, diatomite, claystone, marl, and limestone. Gypsum pseudomorphs at the cycle tops indicate saline lake water (Na–Mg–Cl–SO4) with increased Ca2+ concentrations. Reworked, previously aragonitic, green algal tubes prove that early parts of Unit D sediments formed contemporaneously to basin margin green algal bioherms, contrary to previous assumptions. Therefore, the change from a highly alkaline soda lake to a mesosaline halite lake reflects increasing influx of waters from the Bunte Breccia into the lake, while suevite-derived weathering solutions decreased. Low-salinity conditions during Unit D are temporary phases during lake-level rise at the beginning of short-term cycles, whereas stable oxygen isotope ratios indicate meso- to hypersaline conditions at cycle tops. However, the long-term increase in salinity leading to continuous hypersaline conditions is only preserved in carbonates at the crater rim
Terrazoanthus onoi Reimer & Fujii 2010, sp. n.
<i>Terrazoanthus onoi</i> sp. n. <p>urn:lsid:zoobank.org:act: 429212C7-BC17-4ECC-BC66-85465AFE7C83</p> <p>Figures 3, 5, 6, 8, 9, Tables 1, 2, 3</p> <p> <b>Etymology.</b> This species is named in honor of Dr. Shusuke Ono, who introduced the first author to zoanthids and has played a major role in zoanthid research in Japan. Noun in the genitive case.</p> <p> <b>Material examined.</b> <i>Type locality</i>: Ecuador, Galapagos: Espanola I., Anchorage, 1.3646°S 90.2953°W.</p> <p> <i>Holotype</i>: MHNG-INVE-67496. Colony on rock, approximately 3.0 × 6.0 cm. Total of approximately 130 polyps connected by well-developed coenenchyme. Polyps approximately 1.0–3.0 mm in diameter, and approximately 0.5–2.0 mm in height from coenenchyme. Polyps and coenenchyme encrusted with sand, tissue of polyps and coenenchyme dark brown in color. Collected from Anchorage, Espanola I., Galapagos, Ecuador, at low tide line, collected by AC, March 12, 2007. Preserved in 99.5% ethanol.</p> <p> <i>Paratypes</i> (all from Galapagos, Ecuador):</p> <p>Paratype 1. Specimen number CMNH-ZG 05885. Glynn’s Reef, Darwin I., at 13 m, collected by FL and AC, March 8, 2007.</p> <p>Paratype 2. Specimen number USNM 1134066. Whale Rock, San Cristobel I., at 21 m, collected by JDR, March 12, 2007.</p> <p> <b>Other material</b> (all from Galapagos, Ecuador): MISE 02-59, Punta Vincente Roca, Isabela I., at 9 m, collected by CH, May 20, 2002; MISE 03-46, Punta Vincente Roca, Isabela I., at 2 m, collected by CH, January 16, 2003; MISE 03-135, Roca Onan, Pinzon I., depth not available, collected by L. Vinueza (LV), January 20, 2003; MISE 03-566, Punta Espejo, Marchena I., at 9 m, collected by CH, November 12, 2003; MISE 03-641, Punta Vincente Roca, Isabela I., depth not available, collected by CH, November 15, 2003; MISE 04-140, La Botella, Floreana I., at 8 m, collected by AC, February 8, 2004; MISE 04-343, Caleta Iguana, Isabela I., depth not available, collected by GE, December 3, 2004; MISE 04-345, Caleta Iguana, Isabela I., at 8 m, collected by CH, December 3, 2004; MISE 04-346, Elizabeth Bay, Isabela I., at 25 m, collected by GE, December 2, 2004; MISE 04-347, Elizabeth Bay, Isabela I., at 13 m, collected by CH, December 2, 2004; MISE 467, Gardner, Floreana I., 14 m, collected by JDR and CH, March 13, 2007; MISE 469, Devil’s Crown, Floreana I., 12 m, collected by JDR and MV, March 13, 2007; MISE 473, La Botella, Floreana I., at 12–15 m, collected by AC, March 13, 2007; MISE 475, Roca Onan, Pinzon I., 8 m, collected by AC, March 14, 2007</p> <p> <b>Sequences.</b> See Table 1.</p> <p> <b>Description.</b> <i>Size</i>:</p> <p>Polyps are approximately 4–12 mm in diameter when open, and rarely more than 20 mm in height. Colonies may reach sizes of over a meter in diameter.</p> <p> <i>Morphology</i>: <i>Terrazoanthus onoi</i> has bright red or red-brown oral disks and the outer surface of polyps is tan to dark brown, with polyps relatively clear of the coenenchyme. <i>T. onoi</i> has 32 to 40 tentacles that are almost as long as the diameter of the expanded oral disk (Figure 3).</p> <p> <i>Cnidae</i>: Basitrichs and microbasic p-mastigophores (often difficult to distinguish), holotrichs (large, medium, and small), spirocysts (see Table 2, Figure 9).</p> <p> <b>Differential diagnosis.</b> In the Galápagos, <i>Terrazoanthus onoi</i> differs from <i>Parazoanthus darwini</i> and <i>Antipathozoanthus hickmani</i> by substrate preference (rock as opposed to sponges and anthipatharians, respectively), as well as from <i>Terrazoanthus sinnigeri</i> sp. n. (below) by both color (bright red as opposed to brown, white or transparent) and habitat ecology (exposed rock surfaces as opposed to under rocks and rubble). In addition, <i>T. onoi</i> is bigger (oral disk diameter and polyp height) than <i>T. sinnigeri</i>, and forms much larger colonies (Table 3). <i>T. onoi</i> commonly has only basitrichs and microbasic p-mastigophores in its pharynx, and no large or small holotrichs at all, unlike <i>T. sinnigeri</i> (Table 2).</p> <p>Phylogenetically, <i>Terrazoanthus onoi</i> is very closely related to <i>T. sinnigeri</i>, with identical COI and mt 16S rDNA sequences, but consistently differs by four base pairs in ITS-rDNA, and forms a clade separate from <i>T. sinnigeri</i>.</p> <p>An extensive literature search revealed no other described Parazoanthidae species from the Pacific that are non-epizoic and bright red in color. An undescribed zoanthid species inhabiting rock and coral reef substrata from Indonesia often referred to as “yellow polyps” (<i>sensu</i> Sinniger et al. 2005) is likely also a <i>Terrazoanthus</i> sp., but is distinct from <i>T. onoi</i> in terms of color and distribution, and is phylogenetically different.</p> <p> <b>Habitat and distribution.</b> Specimens of <i>Terrazoanthus onoi</i> were found on rock substrate in areas of high current (i.e., the base of large rocks, rock walls, etc.). Colonies were found at Darwin, Marchena, Genovesa, Isabela, Pinzon, Española, and Floreana Islands, and it is likely <i>T. onoi</i> is found throughout the archipelago. This species has been found from the low infra-littoral to depths of over 35 m, and is likely to be at even deeper depths.</p> <p> <b>Biology and associated species.</b> Found on the top surfaces of rocks and biogenic non-living substrate, <i>Terrazoanthus onoi</i> is often found close to sponges, seaweed, and oth- er benthos, but is not epizoic and does not have an association with any particular species.</p> <p> <b>Notes.</b> Previously mentioned in Reimer et al. (2008b, 2010) and Hickman (2008) as <i>Parazoanthus</i> sp. G3, except for specimen MISE 02-27 mentioned below.</p> <p>It should be noted that specimen MISE 02-27 was found to have an ITS-rDNA sequence inconsistent with other <i>Terrazoanthus onoi</i> specimens (Figure 6), although other data (morphology, mt 16S rDNA and COI data) fit well with <i>T. onoi</i>. For these reasons, this specimen has not been conclusively assigned to <i>T. onoi</i> or to the other new <i>Terrazoanthus</i> species below. These results indicate there may be other <i>Terrazoanthus</i> species in the Galápagos that await discovery and description.</p>Published as part of <i>Reimer, James & Fujii, Takuma, 2010, Four new species and one new genus of zoanthids (Cnidaria, Hexacorallia) from the Galapagos Islands, pp. 1-36 in ZooKeys 42 (42)</i> on pages 20-23, DOI: 10.3897/zookeys.42.378, <a href="http://zenodo.org/record/576650">http://zenodo.org/record/576650</a>
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