9,160 research outputs found
Bignonia sciuripabulum Lohmann
3.2. Bignonia sciuripabulum (Schumann 1894: 224) Lohmann in Hokche et al. (2008: 272) (Figs. 4 b, 5 g). Diagnosis:— Bignonia sciuripabulum can be recognized by the tetragonal and winged stems (vs. cylindrical and not winged in B. binata), and inflorescences thyrsoid (vs. racemose in B. binata). Reproductive Period:— Flowering throughout the year, fruiting in October and November. Distribution and Habitat:— It occurs in Argentina, Brazil, Bolivia, Colombia, Ecuador, Guyana, Paraguay, Peru, and Venezuela (Lohmann 2010, Lohmann & Taylor 2014, Zuntini et al. 2015). Within the study area, it was registered in all areas, in sympatry with B. binata. Selected Specimens Examined:— ARGENTINA. Misiones, Parque Nacional Iguazú: Puerto Iguazú, Sendero Yacaratia, 30 October 1995, Herrera 100 (CTES!) . BRAZIL. Paraná, Parque Nacional do Iguaçu: Foz do Iguaçu, 25°37’18.3”S, 54°26’45.9”W, 11 October 2009, Temponi (UNOP!); Céu Azul, estrada entre Céu Azul e Matelândia, 25°12’21.0”S, 53°51’57.8”W, 21 August 2015, Caxambu 6821 (HCF!, MBM!); Capanema, margens do Rio Iguaçu, 23 February 2016, Hammes 98 (UNOP!).Published as part of Hentz Júnior, Elmar J., Lohmann, Lúcia G., Caxambu, Marcelo G., Temponi, Lívia G. & Pires Lima, Laura C., 2022, Floristic Inventory of the Iguaçu and Iguazú National Parks (Brazil and Argentina): Bignoniaceae, pp. 165-192 in Phytotaxa 570 (2) on page 175, DOI: 10.11646/phytotaxa.570.2.4, http://zenodo.org/record/725660
Fridericia florida L. G. Lohmann
5.2. Fridericia florida (De Candolle 1845: 184) L.G. Lohmann in Lohmann & Taylor (2014: 438) (Fig. 7 b–c). Diagnosis:— Fridericia florida can recognized by the white and small flowers (vs. pink corolla in F. chica and F. mutabilis; red in F. samydoides; purple in F. triplinervia). Reproductive Period:— Flowers were collected throughout the year, fruiting in June and August. Distribution and Habitat:— It occurs throughout the Neotropic (Lohmann 2010, Lohmann & Taylor 2014). Within the study area, it was registered in Céu Azul, Matelândia/Serranópolis do Iguaçu, Capanema, Foz do Iguaçu, and in the PARNA Iguazú, usually in the top of the trees. Selected Specimens Examined:— ARGENTINA. Misiones, Parque Nacional Iguazú: Puerto Iguazú, 4 February 1996, Herrera 141 (CTES!) . BRAZIL. Paraná, Parque Nacional do Iguaçu: Capanema, margens do Rio Iguaçu, 22 February 2016, Hammes 88 (UNOP!); Céu Azul, estrada de chão entre Céu Azul – Serranópolis, 25°12’33.3”S, 53°52’14.0”W, 01 October 2015, Caxambu 6909 (MBM!); Foz do Iguaçu, 25°38’33.0”S, 54°26’26.6”W, 04 June 2005, Caxambu 6490 (DVPR, HCF!, MBM!).Published as part of Hentz Júnior, Elmar J., Lohmann, Lúcia G., Caxambu, Marcelo G., Temponi, Lívia G. & Pires Lima, Laura C., 2022, Floristic Inventory of the Iguaçu and Iguazú National Parks (Brazil and Argentina): Bignoniaceae, pp. 165-192 in Phytotaxa 570 (2) on pages 177-179, DOI: 10.11646/phytotaxa.570.2.4, http://zenodo.org/record/725660
Dolichandra quadrivalvis Lohmann 2008
4.4. Dolichandra quadrivalvis (Jacquin 1809: 37) Lohmann (2008: 273) (Fig. 4 a–b). Diagnosis:— Dolichandra quadrivalvis can be recognized by the oblong fruit (vs. linear fruits in all other Dolichandra). Reproductive Period:— Flowers were collected in May and August, no fruiting data. Distribution and Habitat:— It occurs from México to Uruguay, and throughout Brazil (Lohmann 2010, Lohmann & Taylor 2014, Fonseca et al. 2017). Within the study area, it was registered in Céu Azul and Capanema, on dry locations such as the Céu Azul-Serranópolis do Iguaçu unpaved road, and on the Iguaçu river bank. Selected Specimens Examined:— BRAZIL. Paraná, Parque Nacional do Iguaçu: Capanema, margem do Rio Iguaçu, 25°34’25.9”S, 54°03’29.9”W, 03 March 2019, Rauber 375 (UNOP!); Céu Azul, borda do Parque, 25°12’26.1”S, 53°51’57.7”W, 21 August 2015, Caxambu 6813 (HCF!, MBM!, DVPR).Published as part of Hentz Júnior, Elmar J., Lohmann, Lúcia G., Caxambu, Marcelo G., Temponi, Lívia G. & Pires Lima, Laura C., 2022, Floristic Inventory of the Iguaçu and Iguazú National Parks (Brazil and Argentina): Bignoniaceae, pp. 165-192 in Phytotaxa 570 (2) on page 177, DOI: 10.11646/phytotaxa.570.2.4, http://zenodo.org/record/725660
Figure 5 from: Kataoka EY, Lohmann LG (2021) Taxonomic revision of Martinella Baill. (Bignonieae, Bignoniaceae). PhytoKeys 177: 77-116. https://doi.org/10.3897/phytokeys.177.64465
Figure 5 Martinella insignis A.H. Gentry ex Zuntini & L.G. Lohmann A flowering branch B interpetiolar region C stipitate glandular trichomes D flower in lateral view E calyx (opened) and gynoecium F fruit G roots with swollen portions. Illustration reproduced from Zuntini and Lohmann (2014); illustrated by Klei Sousa, based on A.R. Zuntini 151 (A–E) and 321 (G), SPF; D. Sucre 5519 (F), RB
Air route development and transit tourism in the Middle East
Air route development is a key industry process and, in many respects, is related to transit tourism. The growing interest in the relationship between air transport and tourism is, in general, also supported in the academic literature where the number of publications on this topic has tripled between 2000– 2014 (Spasojevic, Lohmann, & Scott 2018). Air route development involves not only the development and maintenance of routes, but also, on a strategic level, the opportunity to exploit gateway or transit tourism opportunities. Previous studies (Lohmann, Albers, Koch, & Pavlovich 2009; Warnock- Smith & O’Connell 2011; Zhang & Findlay 2014) have identified the Middle East and Southeast Asia as places that have successfully exploited transit air transport tourism opportunities.
Transit air transport tourism development parallels the transformation of airports from transportation hubs to tourist destinations. This transformation has only been possible through well- orchestrated stakeholder engagement exercises. According to Chen and Lee (2012), the successful transformation from an air hub to a tourism destination depends on the following four key elements: improved international airport terminal facilities; aviation market liberalisation; improved aviation competitiveness; and effective tourism marketing. Lohmann et al. (2009) compare two successful examples: Singapore and Dubai. In both cases, the geographical location of the hub was an attractive factor for further integration of government policy, destination marketing organisations (DMOs), airports and airlines, who foresaw the benefits of transforming these air transport hubs into world- leading tourism destinations. In both cases, the close stakeholder collaboration amongst airlines, airport, DMOs, and other aviation- related companies is controlled by government agencies. Led by these successful examples, other countries and regions are exploring the potential benefits of closer collaboration between air transport and tourism to foster transit tourism. For example, Taiwan, whose location makes it a desirable potential air hub for East Asia, has recognised the opportunity for transformation into a leading tourist transport centre.No Full Tex
Egg-Laying Characteristics of Hens Belonging to "Lohmann Brown-Classic" and "Lohmann Sandy" Crosses
The article presents changes in egg laying characteristics of hens belonging to "Lohmann brown-classic" and "Lohmann sandy" crosses and draws conclusions
Review: Hybrid Warriors: Proxies, Freelancers and Moscow’s Struggle for Ukraine
Author: Anna Arutunyan
Reviewed by Dr. Sarah Lohmann, teaching faculty, University of Washington
Dr. Sarah Lohmann, editor of What Ukraine Taught NATO about Hybrid Warfare (US Army War College Press, 2022), calls Anna Arutunyan\u27s latest book, Hybrid Warriors, a must-read for senior members of the US defense community that encourages strategists to think beyond segmented operations to ensure Russia\u27s broad defeat. Lohmann highlights the book\u27s value in that it provides perspectives that have not yet been heard in the West, as Arutunyan relies on Russian sources from media and academia, as well as hundreds of interviews. Lohmann also notes how Arutunyan challenges what she believes to be the Western narrative around the 2022 Russia-Ukraine War.https://press.armywarcollege.edu/parameters_bookshelf/1042/thumbnail.jp
High levels of air pollution reduce team performance
Stata dataset and code for the paper "High levels of air pollution reduce team performance" by P. M. Lohmann, B. Probst, E. Gsottbauer and A. Kontoleon
Halacarus robustus Lohmann 1907
Halacarus robustus Lohmann, 1907 Halacarus actenus var. robusta: Lohmann (1907: 385, pl. 36, figs 1–7). Halacarus robustus: Newell (1984: 57–59). Diagnosis. Length of female 850–900 µm (Lohmann 1907), 731–809 µm (Newell 1984), of male 653–705 µm (Newell 1984). Frontal spine long, slender, extending almost to end of P- 2. Length of spine almost half that of AD and 0.1–0.2 times that of idiosoma. Posterior part of AD linguiform, with truncate posterior margin (Lohmann 1907) or short, triangular (Newell 1984). Dorsum with five (Newell 1984) to six (Lohmann 1907) pairs of gland pores. Pair of glp- 1 at 0.6 (Lohmann 1907) to 0.7 (Newell 1984). Pair of ds- 1 well posterior to level of glp- 1. OC small, ovate, with cornea and canaliculus. Pair of ds- 5 distinctly anterior to glp- 4. Pair of ds- 6 immediately adjacent to glp- 5 (Newell 1984). Two pairs of pgs in striated integument in both female and male, anterior pair (pgs- 1) level with end of PE, following pair of setae close to GA. Distance between pgs- 1 and wide, rounded to straight anterior margin of female GA almost same (Lohmann 1907) or twice (Newell 1984) that between anterior margins of GA and GO. The latter distance equalling about length of GO. Anterior margin of male GA round, with 45–48 pgs on either side of GO. Distance from anterior margin of GA to GO more than length of GO. Gnathosoma about 2.3 times longer than wide. Rostrum longer than gnathosomal base and extending to end of P- 3. Basal seta on P- 2 at 0.7. Epicuticula of legs delicately punctate. Trochanters I to IV with 1, 1, 2, 1 setae, basifemora I to IV with 2, 4, 2, 2 setae. Telofemur to tibia I with 2, 2, 4 smooth, tapering ventral spines. Ventral spine on telofemur I at 0.3–0.4. Ventromedial seta on genu II smooth, both these setae on tibia II bipectinate. According to Newell (1984), tarsi I to IV with 2, 2– 4 (?), 0, 0 bristle-like ventral setae, tarsi III and IV with four and three dorsal setae. Paired claws with accessory process but no tines. Remarks. The description by Lohmann (1907: pl. 36, figs 1–7), though rather detailed, left several details unmentioned, Newell (1984) re-described the species on the basis of a female of the type series (from Kerguelen Islands) and specimens from off the Macquarie Island. The specimens mentioned by Bartsch (1979 b), taken off the Marion Island, Prince Edward Islands, are much smaller and bear a single pair of pgs in the striated integument; the specimens are most similar to H. falklandensis. Distribution and ecology. Southern Indian and adjacent Pacific Ocean (Kerguelen, off Macquarie Island). From shallow to 278 m water depth.Published as part of Bartsch, Ilse, 2011, Halacarus socius (Acari: Halacaridae), description of the male and diagnoses of species of the Halacarus actenos group, pp. 18-40 in Zootaxa 2800 on pages 34-35, DOI: 10.5281/zenodo.27704
High levels of air pollution reduce team performance
Stata dataset and code for the paper "High levels of air pollution reduce team performance" by P. M. Lohmann, B. Probst, E. Gsottbauer and A. Kontoleon
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