307,893 research outputs found

    Parade Float: John E. Swenson, Dry Goods

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    John E. Swenson, Dry Goods parade float on Avenue D in Clifton, Texas. Dittrich Brothers store in background

    The Oscar E. Swenson Family circa 1901

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    Oscar E. Swenson, Hilda Constance Anderson with children Milton and Oscar

    Karl F. Swenson at Norwich University, 1978

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    Black-and-white photograph of Karl Swenson (Norwich University Class of 1980) in front of a building on the Norwich University campus in Northfield, Vermont, photographed in 1978 for the university's yearbook

    Pichonia munzingeri Gateble & Swenson 2019, spec. nova

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    Pichonia munzingeri Gâteblé & Swenson, spec. nova (Fig. 1B, 2–3). Pichonia munzingeri Gâteblé & Swenson is similar to but differs from P. daenikeri (Aubrév.) Swenson et al. in being a much smaller shrub having small, up to 5 cm long, oblong, almost glabrous leaves; petioles being canaliculate and less than 10 mm long. Holotypus: NEW CALEDONIA. Prov. Sud: Mont-Dore, La Coulée, Captage de la Oumbéa, 21°11'19"S 166°34’ 22"E, 150 m, 14.III.2018, fl., Gâteblé & Rochard 1011 (P [P001156237]!; iso-: G [G00341841]!, MO!, MPU!, NOU [NOU089084]!, S [S18-39759]!). Shrub up to 3–4 m tall, usually erect but sometimes decumbent and even with erect and decumbent branches on the same plant. Branches tomentulose when young, ferruginous, soon glabrous. Leaves simple, alternate (a few sometimes subopposite), usually oblong but sometimes broadly elliptic to obovate, blade 3.0–5.0 (–7.0) × 1.5–2.5 (–3.0) cm, coriaceous, somewhat conduplicate in its entire length, slightly revolute; young leaves tomentulose, quickly glabrescent on both surfaces, with some scattered, usually short, appressed trichomes remaining below, especially along the midvein, but all eventually vanish; leaf base round; leaf apex obtuse or sometimes retuse; leaf venation brochidodromous with weak submarginal loops, midvein impressed above, prominent below; secondary venation of 8–12 pairs, weak; tertiary venation laxly reticulate, faint; higher venation areolate (high magnification); petiole 5–7(–10) mm long, ferruginously tomentulose, usually glabrescent and canaliculate. Flower 5-merous, bisexual, usually axillary and solitary, rarely in fascicle of two, sessile or subsessile, subtended by a minute bract. Sepals ovate, 2–3 mm long, base c. 1.5 mm wide, the outers tomentulose on the entire outer surface, the inners with tomentum in the central part, flanked with glabrous surfaces and fimbriate margins, all being glabrous inside. Corolla campanulate, yellowish or greenish with paler lobe margins, 4–5 mm long, glabrous; corolla lobes suborbicular or quadrangular in shape, of about the same length as the corolla tube. Stamens inserted in the tube orifice, shorter than the corolla lobes; anthers c. 1 mm long. Staminodes inserted in the corolla sinus, oblong to lanceolate, entire. Gynoecium flask-shaped, c. 5 mm long in total; ovary c. 2 mm long, pubescent; style 2.5–3.0 mm long, glabrous, slightly exserted, simple, without visible stigmatic areas. Fruit 1-seeded, ellipsoid, 28 × 14 mm, crowned with 3-mm-long remnant style; seed ellipsoid with a scar 25% of circumference and 100% of the seed length (observed from a single immature seed); cotyledons planoconvex without endosperm and radicle. Etymology. – This new species is named in honor of our colleague and friend Jérôme Munzinger who has revised, along with numerous authors, many taxa in New Caledonia. Jérôme used the Centre IRD in Nouméa for seven years as his base for numerous fieldworks in the archipelago. His eye for undescribed species has generated too many novelties for a single researcher to handle and that is why he built an extensive collaborator network across the world. In 2011 Jérôme returned to Montpellier (France) where he continues his excellent botanical studies. At the time of writing, he has described 69 endemic species for New Caledonia of which 46 are Sapotaceae. Distribution and Ecology. – Pichonia munzingeri is so far only known from the Oumbéa Creek, one of the tributaries of La Coulée River within the Mont-Dore municipality (Fig. 4). It grows in degraded maquis and rainforest remnants, on the lower and wettest parts of the slopes, though it is not a riparian species. It occurs on ultramafic substrate with peridotites rocks. It seems to flower and fruit mainly between March and June. So far, during seven visits between 2016 and 2018, only one fruit has been observed. One possible explanation is habitat destruction and a decline of natural pollinators following the fire in 2005 (see conservation status below). We suspect that the species is protandrous with pollen release before the style becomes exserted and receptive to pollen in order to prevent self-pollination. Conservation status. – Even if only preliminary results are available, Pichonia munzingeri has a unique phylogenetic position, being the sister species to all congeners in New Caledonia and, hence, the oldest lineage of its kind in the territory. It has been found in only one location with two very small subpopulations on both sides of Oumbéa Creek separated by less than 600 m. The upper subpopulation has some 30 individuals whereas only three have been located in the lower one. In the upper subpopulation, P. munzingeri grows along a track to a water catchment area built in 1997 that was expanded in 2001. It is possible that some individuals were removed when the catchment area was established. Oumbéa Creek, Coulée River, and the Montagne des Sources protected area were severely damaged by a deliberately set fire at the end of the 2005 dry season that burned around 43 km ² (Fig. 1A). Both subpopulations of P. munzingeri must have been badly impacted by this anthropogenic fire because most plants are regrowth from burnt stumps and not juveniles. The lower subpopulation is adjacent to a popular water hole where people enjoy swimming during the hot season and where the vegetation (including the new Pichonia) is regularly cut down for setting up camp fires. After the 2005 Montagne des Sources severe fire, the ground has become infested by Pteridium esculentum (G. Forst.) Cockayne, a species that is highly flammable in the dry season and well known to facilitate the spread of new fires (JAFFRÉ et al., 1998). Hence, the main threat to Pichonia munzingeri is the frequent anthropogenic fires which are likely to further reduce the populations size. The calculated Area of occupancy (AOO) value is only 4 km ² (grid of 2 × 2 km) a value also applicable for Extent of Occurrence (EOO). All in all, effective in situ conservation appears very important to maintain high genetic diversity and we therefore suggest that P. munzingeri is assigned a preliminary status of “Critically Endangered” [CR B1ab(i,ii,iii,iv,v)+2ab(i,ii,iii,iv,v); C2a(i); D] based on the IUCN Red List Categories and Criteria (IUCN, 2012). Notes. – Pichonia munzingeri is particularly similar to Pycnandra francii in habit, from which it is distinguished by an areolate venation and the presence of staminodes (see above). The areolate venation is a feature present in all species of Pichonia and Pleioluma (Baill.) Baehni, but Pichonia have stamens inserted in the tube orifice (not in the lower half of the corolla tube) and seeds with plano-convex cotyledons without endosperm (not foliaceous cotyledons with endosperm). Among the congeners, P. daenikeri is the most similar but P. balansae (Baehni) Swenson & Munzinger is also to some extent similar. The foliage of P. munzingeri is much smaller (usually less than 5 cm long) and somewhat conduplicate with canaliculate, shorter petioles (usually no more than 7 mm long) than those of P. daenikeri and P. balansae. The foliage together with sessile (or subsessile) flowers make P. munzingeri a species easy to identify in the field. Paratypi. – NEW CALEDONIA. Prov. Sud: Mont-Dore, La Coulée, Captage de la Oumbéa, 21°11'19"S 166°34'22"E, 150 m, 8.V.2017, fl., Gâteblé 936 (MPU, NOU, P, S); ibid. loco, 8.V.2017, fl., Gâteblé 937 (NOU, P, S); ibid. loco, 14.III.2018, fl., Gâteblé & Rochard 1012 (P); ibid. loco, 14.III.2018, fl., Gâteblé & Rochard 1013 (NOU); ibid. loco, 14.III.2018, fl., Gâteblé & Rochard 1014 (S); ibid. loc., 21.V.2018, fr., Gâteblé 1026 (NOU, P).Published as part of Gâteblé, Gildas & Swenson, Ulf, 2019, Pichonia munzingeri (Sapotaceae), a new and rare micro-endemic species from New Caledonia, pp. 1-7 in Candollea 74 (1) on pages 2-4, DOI: 10.15553/c2019v741a1, http://zenodo.org/record/340449

    Fig. 2 in Pichonia munzingeri (Sapotaceae), a new and rare micro-endemic species from New Caledonia

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    Fig. 2. – Pichonia munzingeri Gâteblé & Swenson. A. Overview of a single shrub; B. Decumbent shrub with leaves from above, resembling those of Pycnandra francii (Guillaumin & Dubard) Swenson & Munzinger; C–E. Sessile flower; F. Immature fruit. [Photos: A–D, F: G. Gâteblé; E: G. Rochard]Published as part of Gâteblé, Gildas & Swenson, Ulf, 2019, Pichonia munzingeri (Sapotaceae), a new and rare micro-endemic species from New Caledonia, pp. 1-7 in Candollea 74 (1) on page 5, DOI: 10.15553/c2019v741a1, http://zenodo.org/record/340449

    Going Beyond Counting First Authors in Author Co-citation Analysis

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    The present study examines one of the fundamental aspects of author co-citation analysis (ACA) - the way co-citation counts are defined. Co-citation counting provides the data on which all subsequent statistical analyses and mappings are based, and we compare ACA results based on two different types of co-citation counting - the traditional type that only counts the first one among a cited work's authors on the one hand and a non-traditional type that takes into account the first 5 authors of a cited work on the other hand. Results indicate that the picture produced through this non-traditional author co-citation counting contains more coherent author groups and is therefore considerably clearer. However, this picture represents fewer specialties in the research field being studied than that produced through the traditional first-author co-citation counting when the same number of top-ranked authors is selected and analyzed. Reasons for these effects are discussed

    Dispelling the Myths Behind First-author Citation Counts

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    We conducted a full-scale evaluative citation analysis study of scholars in the XML research field to explore just how different from each other author rankings resulting from different citation counting methods actually are, and to demonstrate the capability of emerging data and tools on the Web in supporting more realistic citation counting methods. Our results contest some common arguments for the continued use of first-author citation counts in the evaluation of scholars, such as high correlations between author rankings by first-author citation counts and other citation counting methods, and high costs of using more realistic citation counting methods that are not well-supported by the ISI databases. It is argued that increasingly available digital full text research papers make it possible for citation analysis studies to go beyond what the ISI databases have directly supported and to employ more sophisticated methods

    BJC Bagpipe band (1955)

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    BJC Bagpipe band (1955). Left to right: P. Warming, K. Upgren, H. Kepler, D. Swenson, A. Wolff, E. Ely,D. Birch, J. Payseno, V. Barrett, G. Bruhjell

    Letter re: pecans sent

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    Letter from E. P. Swenson, New York banker, to Amon Carter thanking Carter for sending pecans

    Letter re: Honey Ball season

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    Letter from E. P. Swenson, New York banker, to Amon Carter about Honey Ball season
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