Journal articles on the topic 'Clementisti'
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1
Žilka, Tibor. "Násilná smrť v postkoloniálnej próze." Slavica Wratislaviensia 168 (April 18, 2019): 337–48. http://dx.doi.org/10.19195/0137-1150.168.28.
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Violent death in postcolonial proseIn the years 1953–1960 Rudolf Dobiáš was imprisoned for his anti-state activities for 7 years, most of which he spent in uranium mines in Jáchymov. Both his non-fiction and prosaic work are based on his personal experience and they also concern the executions of young people. He described in detail the sentencing of three graduates of a grammar school in Trenčín, who were given the death penalty and were executed in February 1951. At the Higher Military Court in Trenčín he discovered the writings of a lieutenant of the Czechoslovak People’s Army, Tomáš Chovan. He was sentenced by the State Court in Bratislava to the death penalty for treason and spying. He was executed in November 1951 at the age of 25. His farewell to his family is presented in the story Younger Brother Mladší brat, which is one of the best works of Dobiáš. Ľuboš Jurík also wrote a biographical novel entitled The Death of a Minister Smrť ministra. It is about the Slovak communist politician Vladimír Clementis 1902–1952, who was the Minister of Foreign Affairs in the years 1948–1950. Clementis was imprisoned in 1951 to face a fabricated accusation. He was given the death penalty too. Jurík’s novel is composed of an interview with a fictive figure — the advocate. Just before the execution, he talks to him about the whole life of the politician Clementis. In the spirit of Stalinism, it was his ex-party colleagues and friends who were behind the execution. Jurík wrote a book about Alexander Dubček as well, entitled A Year Longer Than a Century Rok dlhší ako storočie, in which he asks whether the end of the symbol of Prague Spring was violent or not. There is evidence that it could have been so. Gwałtowna śmierć w postkolonialnej prozieRudolf Dobiáš, skazany za działalność antypaństwową, lata 1953–1960 spędził w więzieniu, z czego większą część w kopalniach uranu w Jáchymowie. Swoje doświadczenia opisuje we wspomnieniach, a także w tekstach prozatorskich, w których pojawia się motyw egzekucji młodych ludzi. Dobiáš szczegółowo opisał skazanie na śmierć trzech absolwentów gimnazjum w Trenczynie i ich egzekucję w lutym 1951 roku. W Wyższym Sądzie Wojskowym w Trenczynie pojawiły się również akta porucznika Czechosłowackiej Armii Ludowej Tomáša Chovana, którego sąd w Bratysławie skazał na karę śmierci za zdradę państwa i szpiegostwo. W listopadzie 1951 roku w wieku 25 lat Chovan został stracony. Dobiáš opisał pożegnanie porucznika z rodziną przed śmiercią w opowiadaniu Młodszy brat Mladší brat, które można zaliczyć do jego najlepszych utworów. Z kolei Ľuboš Jurík jest autorem biograficznej powieści pod tytułem Śmierć ministra Smrť ministra o słowackim komunistycznym polityku Vladimirze Clementisie 1902–1952, który w latach 1948–1950 pełnił funkcję ministra spraw zagranicznych Czechosłowacji. Clementis w 1951 roku został uwięziony i podczas procesu pokazowego skazany na karę śmierci. Autor skonstruował powieść w sposób następujący: adwokat jako postać fikcyjna rozmawia z Clementisem tuż przed egzekucją i podczas tej rozmowy czytelnik poznaje całe życie słowackiego polityka. Co typowe dla czasów stalinizmu, duży udział w skazaniu polityka na śmierć mieli jego partyjni towarzysze i przyjaciele. Jurík opublikował również książkę o Aleksandrze Dubčeku Rok dłuższy niż wiek Rok dlhší ako storočie, w której pojawia się pytanie, czy śmierć Dubčeka — symbolu praskiej wiosny — też mogła być spowodowana przez osoby trzecie, ponieważ istnieją na to pewne dowody.
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Longosz, Stanisław. "Geneza i pierwsze znaczenie terminu „świecki" – „laicus" w literaturze wczesnochrześcijańskiej." Vox Patrum 42 (January 15, 2003): 53–65. http://dx.doi.org/10.31743/vp.7143.
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Hac in dissertatiuncula primum vocis laicos - laicus genesis, quae radices in traditione veterotestamentaria (lSm 21, 5; Ez 48, 15 et 22,16) necnon in traductionibus biblicis Aquilae, Theodotionis et Symmachi habet, exponitur. Deinde eiusdem vocis antiquissima Christiana notio, quae imprimis christianum non-sacerdotem significat, locis ex scriptis Clementis Romani, Clementis Alexandrini, Origenis, Hippolyti Romani, Tertulliani, Cypriani Carthaginiensis, Pontii Diaconi.
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Clementini, G., R. Merighi, M. Tosi, R. Gratton, and E. Carretta. "New results on field and cluster RR Lyraes." International Astronomical Union Colloquium 139 (1993): 335–36. http://dx.doi.org/10.1017/s0252921100117762.
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AbstractRR Lyrae stars both in the field and in clusters can be used to derive the metal abundance of the regions and systems where they are found.(1) New data have been collected on a sample of field ab-type RR Lyraes with the aim of studying the composition of the halo and the disk of the galaxy, (Clementini et al. 1992a, in preparation), using the relation found by Clementini et al. (1991), (hereafter CTM91), between [Fe/H] and the equivalent width of the Ca II K-line W‘(K). (2) A quantitative chemical abundance analysis of the ab type RR Lyrae (V29) in the globular cluster M4 has been performed using high resolution, high S/N spectroscopy. We obtain [Fe/H]=–1.3 ± 0.2 and the α– elements (Mg and Ti) are overabundant by 0.6 dex. These results are in good agreement with determinations from high resolution spectra of giants and blue horizontal branch stars (Clementini et al. 1992b, in preparation).
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Sanna, Sebastiano. "Nota su I Clementis16, 2." Augustinianum 48, no. 1 (2008): 7–14. http://dx.doi.org/10.5840/agstm20084811.
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Bissoli, G. "Kindynos – «Pericolo» nella Prima Clementis." Liber Annuus 51 (January 2001): 133–44. http://dx.doi.org/10.1484/j.la.2.303529.
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Ostrowski, Henryk. "Problem definicji wiary w "Dywanach" Klemensa Aleksandryjskiego." Vox Patrum 10 (June 15, 1986): 163–76. http://dx.doi.org/10.31743/vp.10471.
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J.F., Veldkamp. "A REVISION OF ISACHNE IN MALESIA 2: SECT. ALBENTES (GRAMINEAE, ISACHNEAE)." REINWARDTIA 17, no. 1 (June 29, 2018): 1. http://dx.doi.org/10.14203/reinwardtia.v17i1.3489.
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VELDKAMP, J. F. 2018. A revision of Isachne in Malesia 2: Sect. Albentes (Gramineae, Isachneae). Reinwardtia 17 (1): 1–33. — There are 23 species of Isachne in Malesia of which the 16 belonging to sect. Albentes are revised here. Isachne fera (N. Sumatra) and I. glandulosa (W. Sumatra) are new species, and so is I. bsipiana from Vanuatu. Isachne clementis and I. vulcanica are distinct species. Isachne albomarginata and I. beneckei are reduced to I. clarkei, I. obtecta to I. stricta, I. repens to I. commelinifolia (which is reinstated here), I. saxicola to I. clementis. Isachne kunthiana restricted to Sri Lanka and S. India has been much misapplied to specimens of I.commelinifolia and I. schmidtii. Fifteen lectotypes are designated.
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Paciorek, Antoni. "Egzegeza IV Ewangelii w pismach Ojców Apostolskich." Vox Patrum 12 (August 23, 1987): 325–35. http://dx.doi.org/10.31743/vp.10554.
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Hoc in brevi articulo expositum est, quomodo locutiones ac ideae Joannis evangelistae in selectis scriptis (Epistola Clementis Romani ad Corinthios, Epistolae Ignatii Antiocheni, Epistola Barnabae) mutuatae sint.
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Tomlik-Wyremblewska, Anna. "Pollen morphology of genus Rubus L., Part II. Introductory studies on the Malesian species of subgenus Micranthobatus." Acta Societatis Botanicorum Poloniae 69, no. 1 (2014): 31–40. http://dx.doi.org/10.5586/asbp.2000.005.
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The results of studies on pollen morphology of 6 Malesian <em>Rubus</em> species are presented (<em>R. clementis</em>, <em>R. cordiformis</em>, <em>R. diclinis</em>, <em>R. megacarpus</em>, <em>R. novoguineensis</em> and <em>R. royenii</em> var. ikilimbu). The examination has been made by SEM for the first time and also by LM. Detailed descriptions of the pollen grains are given. The pollen grains are small, isopolar and trizonocolporate. Ornamentation is generally classified as striate, although with some modifications. A striate-reticulate pattern has been observed in only one species (<em>R. cordiformis</em>). A rugulate-striate pattern represents <em>R. novoguineensis</em>. The typical striate patterns differed in form, width and orientation of the muri are observed in <em>R. clementis</em>, <em>R. diclinis</em>, <em>R. megacarpus</em>, <em>R. royenii</em> var. ikilimbu. The tectum perforations are clearly observed in <em>R. clementis</em>, <em>R. diclinis</em>,<em> R. megacarpus</em>, <em>R. royenii</em> var. ikilimbu. The relation between the species has also been disscused. Pollen morphological studies confirmed partly the systematic concept. <em>Rubus megacarpus</em>, <em>R. cordiformis</em>, <em>R. novoguineensis</em> show completely different patterns and can not be regarded as closely related species; <em>Rubus clementis</em> has its own striate pattern, which resembles the pollen morphological type of <em>R. lucens</em> (not included in this study). <em>Rubus diclinis</em> and <em>R. royenii</em> var. ikilimbu have almost the same type of pollen morphology.
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Turek, Waldemar. "Exempla starotestamentalnych kobiet w interpretacji Prima Clementis." Vox Patrum 66 (December 16, 2018): 9–23. http://dx.doi.org/10.31743/vp.3442.
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Some scholars have recently tried to show that the problems in the Christian community at Corinth were caused in a particular way by women wishing to have a more significant role within the community, and that the primary purpose of Saint Clement’s Letter to the Corinthians was to bring them to order and to show them their proper place in the community’s life and activity. The current study primarily tries to show that Prima Clementis was addressed to the entire Corinthian community. This is followed by an analysis of the passages in which Saint Clement presents the feminine figures of the Old Testament: Miriam (the sister of Moses and Aaron), Lot’s wife, Rahab, Judith, and Esther, and interprets them in the context of the Christian situation at Corinth. In this way, it is shown that Clement, by using the exempla method, creates the image of a perfect, ordered, and harmonious community in which women are outstanding for their strong faith, love, and hospitality.
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Turek, Waldemar. ""Prima Clementis": zagadnienie prymatu biskupa Rzymu w ujęciu współczesnych opracowań patrystycznych." Vox Patrum 46 (July 15, 2004): 33–49. http://dx.doi.org/10.31743/vp.6739.
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La prima Clementis scritta negli ultimi anni del primo secolo ha suscitato un vivo interesse filologico, storico e teologico, come dimostrano vari studi apparsi in diversi ambienti nel secolo scorso. Molti autori dedicarono la loro ricerca ai vari aspetti della Lettera concernenti l'intervento di Clemente Romano nella vita della comunita di Corinto, mettendo in evidenza il tema del primato del vescovo di Roma. Un'analisi attenta dei vari elementi esaminati dimostra comunąue come siamo lontani dalie soluzioni definitive circa il concetto di gerarchia ecclesiastica presentato nel'opera e, in modo particolare, circa la posizione ed il ruolo del vescovo di Roma. Va comunque osservato che gli autori protestanti si soffermano soprattutto sugli aspetti filologia della Lettera, mentre gli autori cattolici, non trascurando questo tipo di ricerca, prendono in considerazione in maniera piu puntuale il contesto storico-teologico in cui la Prima Clementis fu scritta. Essi vedono poi nelFopera un segno, piuttosto chiaro, della coscienza di responsabilita di Clemente per tutti i fedeli.
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Ferrer, Daniel, and Marlena G. Corcoran. "Clementis's Cap: Retroaction and Persistence in the Genetic Process." Yale French Studies, no. 89 (1996): 223. http://dx.doi.org/10.2307/2930349.
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Neil, Bronwen. "Rufinus’ Translation of the Epistola Clementis an Iacobum." Augustinianum 43, no. 1 (2003): 25–39. http://dx.doi.org/10.5840/agstm20034312.
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Leeratiwong, Charan, Saijai Jornead, and Conor V. Meade. "Uvaria clementis (Annonaceae), a new record for Thailand." Thai Forest Bulletin (Botany) 49 (2021): 241–44. http://dx.doi.org/10.20531/tfb.2021.49.2.12.
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Turek, Waldemar. "Bóg, w którego wierzą chrześcijanie według "Prima Clementis"." Vox Patrum 61 (January 5, 2014): 269–82. http://dx.doi.org/10.31743/vp.3624.
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In his First Letter to the Corinthians, Saint Clement of Rome offers a conception of God based on biblical texts, philosophical arguments (especially Greek), and juridical reasoning (especially based on Roman law). Taking into consideration the various terms that refer to God in the Prima Clementis, the author of this paper analyzes those that occur most frequently, including theos, kyrios, despotes and pater. He attempts to uncover the meaning of these terms in the Prima Clementis and in the preceding tradition, as well as the theological ideas that these terms were intended to express. In this way, the author aims not only to present the concept of God as elaborated by Clement, but also Clement’s cultural background which hitherto has remained in the dark. The word theos indicates God’s omnipotence, emphasizing his power to create and justify; as kyrios God brings order to the created world and establishes harmony among its various elements; despotes, Clement’s favourite term, describes God as the one who invites man to change his behaviour, the one who chooses him and justifies him with his grace; pater refers to the God of peace who encourages all believers to collaborate, especially the community at Corinth.
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GARCÍA-BELTRÁN, JOSÉ ANGEL. "Taxonomic and nomenclatural update of Cenostigma (Leguminosae: Caesalpinioideae) in Cuba." Phytotaxa 543, no. 5 (April 22, 2022): 291–96. http://dx.doi.org/10.11646/phytotaxa.543.5.4.
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Caesalpinia s.l. is a traditionally polymorphous and unnatural genus, which was finally segregated into 27 genera based on robust phylogenetic analysis. Three of the Caesalpinia species recognized in the Flora of the Republic of Cuba were transferred to Cenostigma, while the infraspecific taxa of the two endemic species were not accepted. In this sense, the delimitation of taxa and nomenclature of Cenostigma in Cuba is reviewed. Only Cenostigma myabense var. clementis is recognized as an infraspecific taxon in Cenostigma myabense and the new combination is presented. The infraspecific classification of Caesalpinia pinnata is accepted and three new combinations are presented: Cenostigma pinnatum subsp. oblongifolium, Cenostigma pinnatum var. oblongifolium and Cenostigma pinnatum var. savannarum. The lectotypes for five names are designated: Caesalpinia myabensis, Libidibia pauciflora var. puberula, Caesalpinia hermeliae, Caesalpinia hornei, and Caesalpinia savannarum. The second step lectotype of Poincianella clementis is designated. The diagnosis of all taxa is presented, and nomenclatural information and geographic distribution are included here. In this way, worldwide the Cenostigma genus is composed of 14 species (three in Cuba, two endemic), one subspecies (endemic to Cuba) and nine varieties (two endemic to Cuba).
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Baumann, Julia, and Francisco Ferragut. "Description and observations on morphology and biology of Imparipes clementis sp. nov., a new termite associated scutacarid mite species (Acari, Heterostigmatina: Scutacaridae; Insecta, Isoptera: Rhinotermitidae)." Systematic and Applied Acarology 24, no. 2 (February 28, 2019): 303. http://dx.doi.org/10.11158/saa.24.2.12.
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A new species of Scutacaridae (Acari: Heterostigmatina: Pygmephoroidea) associated with Reticulitermes banyulensis Clément, 1978 termites (Isoptera: Rhinotermitidae) is described from Spain. By rearing the mites in laboratory cultures, all life stages (larva, female and male) of Imparipes clementis Baumann sp. nov. were available for descriptions, and information on the mites’ biology could be provided. As the new species strongly resembles I. adleri Delfinado & Baker, 1976, a multivariate morphometric analysis was performed to further support its species status.
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Ferrer, Daniel. "La toque de Clementis, rétroaction et rémanence dans les processus génétiques." Genesis 6, no. 1 (1994): 93–106. http://dx.doi.org/10.3406/item.1994.979.
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Cacciari, C., and A. Bruzzi. "Masses of c-type RR Lyrae Variables in Globular Clusters." International Astronomical Union Colloquium 139 (1993): 324. http://dx.doi.org/10.1017/s0252921100117737.
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The mass of RR Lyrae variables has been a controversial problem for about a decade: while the stellar evolution theory predicts masses ranging between 0.65 and 0.75 M⊙ for Oosterhoff type I and II clusters respectively, the stellar pulsation theory predicts smaller masses (0.55 and 0.65 respectively) using the double-mode pulsators. Simon (1990, M.N.R.A.S. 246, 70), comparing hydrodynamical models with observed stars by means of Fourier parameters, has found relations between the stellar mass and its luminosity, pulsation period, Helium content and Fourier parameter ϕ31. Combining his equations we obtain:(1)from which one can estimate the stellar mass by using the observable quantities P and ϕ31 and a luminosity scale, e.g. the one derived by Cacciari, Clementini and Fernley (1992, Astrophys. J. in press).
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Valchev, Ivan. "Festivals of Jupiter in Lower Moesia." Istoriya-History 30, no. 2 (March 10, 2022): 168–83. http://dx.doi.org/10.53656/his2022-2-3-fes.
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The festivals in honor of Jupiter, celebrated in the Roman province of Lower Moesia, have not been studied extensively. Fourteen precisely dated Latin inscriptions have been analyzed for this purpose. The 13th of June is defined as a fixed feast in the calendar of vicus Quintionis, and probably to one more village in Northern Dobruja. Most of the monuments were dedicated on different days and it is impossible to determine whether they were consecrated on a holiday in honor of the god. Some villages in Dobruja, such as vicus Secundini, vicus Clementiani and vicus classicorum performed regular, perhaps even annual dedications to Jupiter, but the day of the consecration of the altars is not specified in the inscriptions. The cyclic recurrence of this act presupposes observance of a certain holiday calendar with a fixed festival of Jupiter.
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Pardo Fariña, Felipe Gonzalo. "Influencia de algunos aspectos de la filosofía política de Aristóteles en la Prima Clementis." Cuestiones Teológicas 46, no. 105 (2019): 125–47. http://dx.doi.org/10.18566/cueteo.v46n105.a05.
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KEMPF, DAMIEN. "A textual détournement: from Paul the Deacon's Liber de episcopis Mettensibus to the Vita Clementis." Early Medieval Europe 20, no. 1 (January 19, 2012): 1–16. http://dx.doi.org/10.1111/j.1468-0254.2011.00332.x.
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Marisi, Rossella. "Muzio Clementis didaktische Werke: die Klavierschule Op. 42 und der Gradus ad Parnassum Op. 44." Musicologica Brunensia, no. 2 (2016): 95–113. http://dx.doi.org/10.5817/mb2016-2-8.
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Stewart-MacDonald, R. H. "Review: London und der Klassizismus in der Musik: Die Idee der ‘absoluten Musik’ und Muzio Clementis Klavierwerke." Music and Letters 85, no. 3 (August 1, 2004): 445–49. http://dx.doi.org/10.1093/ml/85.3.445.
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Müller, Harald. "Broser, Tanja, Der päpstliche Briefstil im 13. Jahrhundert. Eine stilistische Analyse der Epistole et dictamina Clementis pape quarti." Zeitschrift der Savigny-Stiftung für Rechtsgeschichte: Kanonistische Abteilung 105, no. 1 (June 26, 2019): 387–88. http://dx.doi.org/10.1515/zrgk-2019-0023.
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Stanghellini, L., J. B. Kaler, and R. A. Shaw. "O VI Central Stars of Planetary Nebulae: NGC 2371." Symposium - International Astronomical Union 155 (1993): 492. http://dx.doi.org/10.1017/s0074180900172250.
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We performed detailed spectral analysis of the planetary nebula NGC 2371 and its nucleus. The central star of NGC 2371 is a member of the 0 VI PNNi class, and it shows luminosity variations (Bond & Ciardullo 1990, ASP Conf. Ser. vol 11, Confrontation between Stellar Pulsation and Evolution, C. Cacciari & G. Clementini (eds.), p. 529) that could be associated to nonradial pulsations. From the spectrum of NGC 2371 we calculate the nebular parameters and the abundance of the most prominent ions. The nucleus is hot (Teff ≥ 120,000K) and luminous (V=15.4), it is probably close to the blue bend of the post-AGB evolutionary sequence, and shows prominent O VI emission with (so far) unique double narrow-broad feature, as shown in the Figures. This feature can not be related to the shock front of the fast wind into the planetary nebula. This star has been analyzed together with the other O VI PNNi known. A preliminary correlation between the stellar parameters and the total O VI strength have been derived, and the locus of NGC 2371 on the logTeff – logL/L⊙ plane have been studied in relation to the locus of the post-AGB nonradial instability strips. These results, together with a study on the other O VI central stars of planetary nebulae, will be published in the near future.
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Feenstra, R. "De Nieuwe Nederlandse Vertaling Van Hugo De Groot's De Iure Belli Ac Pacis Door J.F. Lindemans." Tijdschrift voor Rechtsgeschiedenis / Revue d'Histoire du Droit / The Legal History Review 63, no. 1-2 (1995): 143–60. http://dx.doi.org/10.1163/157181995x00086.
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AbstractEn octobre 1993 J.F. Lindemans publia une traduction néerlandaise des Prolégomènes et du Livre 1 du De iure belli ac pacis de Grotius, pourvue d'une introduction et de notes explicatives. Cette publication mérite un compte rendu assez détaillé que nous publions sous forme d'un article. Il s'agit d'une traduction intégrale: elle ne se borne pas au texte mais inclut l'annotation de Grotius. Elle suit l'editio maior de 1939, fondée sur un collationnement des cinq éditions préparées par Grotius lui-même. Malheureusement le traducteur n'a pas encore pu tenir compte de la réimpression anastatique de cette édition avec des notes additionelles, parue en septembre 1993 (cf. le compte rendu de P. Haggenmacher dans cette revue, t. 62 (1994), p. 402-406). Dans sa propre annotation Lindemans s'est fait inspirer dans une large mesure - mais pas toujours d'une façon heureuse - de celle de Jean Barbeyrac dans sa traduction française, publiée pour la première fois en 1724 (une réimpression anastatique parut en 1984). Il a ajouté cependant un certain nombre de nouvelles références, entre autres au traité De legibus (1613) de François Suarez, à qui Grotius doit peut-être plus qu'il ne l'a avoué. En utilisant les tables d'auteurs et de sources de l'édition de Lindemans on peut constater quelques graves déficiences dans l'identification des références grotiennes. Il a confondu notamment les Constitutiones Clementis (ou Constitutiones Apostolicae), qu'on a attribuées à St. Clément (le pape Clément I, décédé circa 100 après J. Chr.), avec les Clementinae du pape Clément V (1313-1314); dans l'une de ses notes L. mentionne encore comme auteur de ce texte le pape Clément III († 1191)! L'analyse de ces erreurs nous a amené à formuler quelques précisions sur un texte qui fait partie des Constitutiones Clementis, à savoir les Canones Apostolorum (version avec 84 ou 85 canones, à distinguer de celle avec 50 canones qui figure dans la collectio Dionysiana). Grotius en possédait une édition à part avant son emprisonnement mais pour le De iure belli ac pacis il s'est probablement servi d'une autre édition. La traduction même laisse à désirer dans nombre de passages, notamment quand il s'agit de rendre des nuances juridiques. Nous donnons des exemples pour les §§ 8, 53, 54 et 55 des Prolégomènes et pour I, 1, 4-6, I, 3, 4-5, I, 3, 12, 3 et I, 3, 24. Aux endroits où le traducteur se sert de termes latins on doute souvent de ses connaissances de cette langue (dans des cas comme 'societas civile' ou 'summum potestas' il ne peut pas s'agir d'erreurs typographiques). Lindemans fait également preuve d'un manque assez grave de connaissances en ce qui concerne la bibliographie grotienne. Son ignorance dans le domaine de l'histoire du droit, notamment pour la période du ius commune, est alarmante. Si la traduction sera continuée pour les livres II et III du De iure belli ac pacis on doit espérer que de pareilles déficiences seront évitées.
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Gardner, E. M., and N. J. C. Zerega. "Taxonomic updates to Artocarpus subgenus Artocarpus (Moraceae) and allied taxa with a particular focus on the species native to Singapore." Gardens’ Bulletin Singapore 73, no. 2 (December 10, 2021): 309–74. http://dx.doi.org/10.26492/gbs73(2).2021-08.
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The breadfruit genus Artocarpus J.R.Forst. & G.Forst. (Moraceae) has sixteen species in Singapore, fourteen of them native. In this precursory study to the treatment of Artocarpus for the Flora of Singapore, we present updated phylogenomic analyses of Artocarpus subgenus Artocarpus based on 517 nuclear genes. The following taxonomic changes based on recent phylogenetic analyses, review of herbarium specimens, and field observations, are proposed. Artocarpus subg. Cauliflori (F.M.Jarrett) Zerega is reduced to a section within Artocarpus subg. Artocarpus, and Artocarpus sect. Glandulifolium F.M.Jarrett is raised to subgenus status. The new monotypic subgenus Artocarpus subg. Aenigma E.M.Gardner & Zerega is proposed for Artocarpus sepicanus Diels, whose phylogenetic position remains uncertain and may be of ancient hybrid origin. Artocarpus elasticus Reinw. ex Blume, A. scortechinii King and A. corneri Kochummen are recognised as distinct species. Artocarpus clementis Merr. is reinstated as distinct from A. lanceifolius Roxb. Artocarpus calophyllus Kurz and A. melinoxylus Gagnep. are reinstated as distinct from both A. chama Buch.-Ham. and A. rigidus Blume. Artocarpus nigrescens Elmer is reinstated as distinct from A. treculianus Elmer. Keys to the subgenera, the sections of Artocarpus subg. Artocarpus and to the species found in Singapore are presented. A nomenclatural synopsis of subgenera Artocarpus, Aenigma and Glandulifolium is presented with taxonomic notes to aid in identification. Seventeen lectotypes, six of them in a second step, and two neotypes are designated.
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SPITZER, MICHAEL. "ANSELM GERHARD LONDON UND DER KLASSIZISMUS IN DER MUSIK: DIE IDEE DER ‘ABSOLUTEN MUSIK’ UND CLEMENTIS KLAVIERWERKE Stuttgart and Weimar: Metzler, 2002 pp. 379, ISBN 3 475 00976 9." Eighteenth Century Music 3, no. 2 (September 2006): 330–36. http://dx.doi.org/10.1017/s1478570606240636.
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Taló, J. E. "Clemente DE ROMA, Carta a los Corintios. Homilía Anónima (Secunda Clementis), introducción, traducción y notas a cargo de Juan José Ayán Calvo, Editorial Ciudad Nueva, Madrid 1994, 209 pp., 15, 5 x 23, 7." Scripta Theologica 27, no. 3 (January 26, 2018): 1064. http://dx.doi.org/10.15581/006.27.16129.
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Delgado, Gregorio. "JESÚS HORTAL SANCHEZ, S. J., De initio potestatis primatialis romani pontificis, (Investigatio historico-juridica a tempore Sancti Gregorii Magni usque ad tempus Clementis V), 1 vol. de 163 págs., Libreria Editrice dell'Università Gregoriana, Roma, 1968." Ius Canonicum 9, no. 17 (April 13, 2018): 291–93. http://dx.doi.org/10.15581/016.9.22612.
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Coors, V., P. Rodrigues, C. Ellul, S. Zlatanova, R. Laurini, and M. Rumor. "PREFACE." ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences VIII-4/W1-2021 (September 3, 2021): 1–2. http://dx.doi.org/10.5194/isprs-annals-viii-4-w1-2021-1-2021.
Full textAbstract:
Abstract. Simply defined, a Smart City is a city overlaid by a digital layer, which is used for the governance of the city. A Smart City uses intelligent technology to enhance our quality of life in urban environments, bringing together people and data from disparate sources such as sensors, demographics, topographic and 3D mapping, Building Information Models and many more. Increasingly, Smart Cities use this data in a variety of ways, to address key challenges related to transportation, communications, air quality, noise, well-being of the citizens, decision making relating to education and health and urban planning, as well as in relation to initiatives such as startups and fostering economic growth and employment within the city. As more data becomes available, the challenges of storing, managing and integrating such data are also multiplied.The first Urban Data Management Symposium (UDMS) was held in 1971 in Bonn, Germany, made the choice of hosting the 6th international conference on Smart Data and Smart Cities (SDSC) in Stuttgart a very natural one. SDSC was established in 2016 as the successor of the UDMS, and this year we celebrate the 40th anniversary of the series of symposia and conferences. The SDSC 2021 will be part of the scientific week on intelligent cities at HFT Stuttgart. Together four events were held during the week of 14th – 17th September 2021, and alongside SDSC participants were invited to attend the “Energy, water and food for the cities of the future” conference, the “LIS-City – liveable, intelligent, and sustainable City” workshop, and the mobility day Stuttgart. Participant interaction – and the ability to attend sessions across the four events – was particularly encouraged. SDSC 2021 itself was organised by the Urban Data Management Society (UDMS www.udms.net), ISPRS and HFT Stuttgart (the University of Applied Science Stuttgart), and Professor Volker Coors Chaired the SDSC committee.As in previous years, three key conference themes were proposed to represent the Smart Cities: Smart Data (sensor network databases, on-the-fly data mining, geographic and urban knowledge modeling and engineering, green computing, urban data analytics and big data, big databases and data management), Smart People (volunteered information, systems for public participation) and Smart Cities (systems of territorial intelligence, systems for city intelligence management, 3D modeling of cities, internet of things, social networks, monitoring systems, mobility and transportation, smart-city-wide telecommunications infrastructure, urban knowledge engineering, urban dashboard design and implementation, new style of urban decision-making systems, geovisualization devoted to urban problems, disaster management systems).This volume consists of 14 papers, which were selected from 41 submissions on the basis of double blind review, with each paper being reviewed by a minimum of three reviewers. These papers present novel research concerning the use of spatial information and communication technologies in Smart Cities, addressing different aspects of Smart Data and Smart Citizens. The selected papers tackle different aspects of Smart Cities: 3D; Citizen Engagement; transport, sustainable mobility; dashboards and web GIS; citizen engagement and participation; sensors; urban decision making.The editors are grateful to the members of the Scientific Committee for their time and valuable comments, which contributed to the high quality of the papers. Reviews were contributed by: Alias Abdul-Rahman, Giorgio Agugiaro, Ken Arroyo Ohori, John Barton, Martina Baucic, Filip Biljecki, Lars Bodum, Pawel Boguslawski, Azedine Boulmakoul, Matteo Caglioni, Caesar Cardenas, Eliseo Clementini, Volker Coors, Youness Dehbi, Abdoulaye Abou Diakité, Adil El Bouziri, Claire Ellul, Tarun Ghawana, Gesquiere Gilles, Didier Grimaldi, Ori Gudes, Stephen Hirtle, Martin Kada, Lamia Karim, Robert Laurini, Christina Mickrenska-Cherneva, Christopher Petit, Alenka Poplin, Ivana Racetin, Dimos Pantazis, Preston Rodrigues, Camilo Leon Sanchez, Genoveva Vargas Solar, Nils Walravens, Parag Wate, Besri Zineb, Sisi Zlatanova. We are also grateful to the work of the local organising committee at HFT Stuttgart, without whom this conference would not have been possible.
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Coors, V., P. Rodrigues, C. Ellul, S. Zlatanova, R. Laurini, and M. Rumor. "PREFACE." International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XLVI-4/W1-2021 (September 3, 2021): 1–2. http://dx.doi.org/10.5194/isprs-archives-xlvi-4-w1-2021-1-2021.
Full textAbstract:
Abstract. Simply defined, a Smart City is a city overlaid by a digital layer, which is used for the governance of the city. A Smart City uses intelligent technology to enhance our quality of life in urban environments, bringing together people and data from disparate sources such as sensors, demographics, topographic and 3D mapping, Building Information Models and many more. Increasingly, Smart Cities use this data in a variety of ways, to address key challenges related to transportation, communications, air quality, noise, well-being of the citizens, decision making relating to education and health and urban planning, as well as in relation to initiatives such as startups and fostering economic growth and employment within the city. As more data becomes available, the challenges of storing, managing and integrating such data are also multiplied.The first Urban Data Management Symposium (UDMS) was held in 1971 in Bonn, Germany, made the choice of hosting the 6th international conference on Smart Data and Smart Cities (SDSC) in Stuttgart a very natural one. SDSC was established in 2016 as the successor of the UDMS, and this year we celebrate the 40th anniversary of the series of symposia and conferences. The SDSC 2021 will be part of the scientific week on intelligent cities at HFT Stuttgart. Together four events were held during the week of 14th – 17th September 2021, and alongside SDSC participants were invited to attend the “Energy, water and food for the cities of the future” conference, the “LIS-City – liveable, intelligent, and sustainable City” workshop, and the mobility day Stuttgart. Participant interaction – and the ability to attend sessions across the four events – was particularly encouraged. SDSC 2021 itself was organised by the Urban Data Management Society (UDMS www.udms.net), ISPRS and HFT Stuttgart (the University of Applied Science Stuttgart), and Professor Volker Coors Chaired the SDSC committee.As in previous years, three key conference themes were proposed to represent the Smart Cities: Smart Data (sensor network databases, on-the-fly data mining, geographic and urban knowledge modeling and engineering, green computing, urban data analytics and big data, big databases and data management), Smart People (volunteered information, systems for public participation) and Smart Cities (systems of territorial intelligence, systems for city intelligence management, 3D modeling of cities, internet of things, social networks, monitoring systems, mobility and transportation, smart-city-wide telecommunications infrastructure, urban knowledge engineering, urban dashboard design and implementation, new style of urban decision-making systems, geovisualization devoted to urban problems, disaster management systems).This volume consists of 18 papers, which were selected from 41 submissions on the basis of peer review. These papers present novel research concerning the use of spatial information and communication technologies in Smart Cities, addressing different aspects relating to Smart Data. Selected papers tackle different aspects of Smart Cities: transport, sustainable mobility; dashboards and web GIS; citizen engagement and participation; sensors; urban decision making.The editors are grateful to the members of the Scientific Committee for their time and valuable comments, which contributed to the high quality of the papers. Reviews were contributed by: Alias Abdul-Rahman, Giorgio Agugiaro, Ken Arroyo Ohori, John Barton, Martina Baucic, Filip Biljecki, Lars Bodum, Pawel Boguslawski, Azedine Boulmakoul, Matteo Caglioni, Caesar Cardenas, Eliseo Clementini, Volker Coors, Youness Dehbi, Abdoulaye Abou Diakité, Adil El Bouziri, Claire Ellul, Tarun Ghawana, Gesquiere Gilles, Didier Grimaldi, Ori Gudes, Stephen Hirtle, Martin Kada, Lamia Karim, Robert Laurini, Christina Mickrenska-Cherneva, Christopher Petit, Alenka Poplin, Ivana Racetin, Dimos Pantazis, Preston Rodrigues, Camilo Leon Sanchez, Genoveva Vargas Solar, Nils Walravens, Parag Wate, Besri Zineb, Sisi Zlatanova. We are also grateful to the work of the local organising committee at HFT Stuttgart, without whom this conference would not have been possible.
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RASCH, RUDOLF. "BIANCA MARIA ANTOLINI, CONSTANTINO MASTROPRIMIANO, EDS MUZIO CLEMENTI: COMPOSITORE, (FORTE)PIANISTA, EDITORE. ATTI DEL CONVEGNO INTERNAZIONALE DI STUDI, PERUGIA, CONSERVATORIO DI MUSICA, 4–6 OTTOBRE 2002, IN COLLABORAZIONE CON LA SOCIETÀ ITALIANA DI MUSICOLOGIALucca: Libreria Musicale Italiana, 2006 Strumenti della Ricerca Musicale 9 pp. x + 342, ISBN 978 88 7096 439 4 - RICHARD BÖSEL, MASSIMILIANO SALA, EDS MUZIO CLEMENTI: COSMOPOLITA DELLA MUSICA. ATTI DEL CONVEGNO INTERNAZIONALE IN OCCASIONE DEL 250O ANNIVERSARIO DELLA NASCITA (1752–2002), ROMA, 4–6 DICEMBRE 2002Bologna: Ut Orpheus Edizioni, 2004 Quaderni Clementiani 1 pp. xi + 236, ISBN 978 88 8109 450 9." Eighteenth Century Music 6, no. 1 (March 2009): 113–16. http://dx.doi.org/10.1017/s1478570609001754.
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Helmholz, P., S. Zlatanova, J. Barton, and M. Aleksandrov. "GEOINFORMATION FOR DISASTER MANAGEMENT 2020 (Gi4DM2020): PREFACE." ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XLIV-3/W1-2020 (November 18, 2020): 1–3. http://dx.doi.org/10.5194/isprs-archives-xliv-3-w1-2020-1-2020.
Full textAbstract:
Abstract. Across the world, nature-triggered disasters fuelled by climate change are worsening. Some two billion people have been affected by the consequences of natural hazards over the last ten years, 95% of which were weather-related (such as floods and windstorms). Fires swept across large parts of California, and in Australia caused unprecedented destruction to lives, wildlife and bush. This picture is likely to become the new normal, and indeed may worsen if unchecked. The Intergovernmental Panel on Climate Change (IPCC) estimates that in some locations, disaster that once had a once-in-a-century frequency may become annual events by 2050.Disaster management needs to keep up. Good cooperation and coordination of crisis response operations are of critical importance to react rapidly and adequately to any crisis situation, while post-disaster recovery presents opportunities to build resilience towards reducing the scale of the next disaster. Technology to support crisis response has advanced greatly in the last few years. Systems for early warning, command and control and decision-making have been successfully implemented in many countries and regions all over the world. Efforts to improve humanitarian response, in particular in relation to combating disasters in rapidly urbanising cities, have also led to better approaches that grapple with complexity and uncertainty.The challenges however are daunting. Many aspects related to the efficient collection and integration of geo-information, applied semantics and situational awareness for disaster management are still open, while agencies, organisations and governmental authorities need to improve their practices for building better resilience.Gi4DM 2020 marked the 13th edition of the Geoinformation for Disaster Management series of conferences. The first conference was held in 2005 in the aftermath of the 2004 Indian Ocean earthquake and tsunami which claimed the lives of over 220,000 civilians. The 2019-20 Australian Bushfire Season saw some 18.6 million Ha of bushland burn, 5,900 buildings destroyed and nearly three billion vertebrates killed. Gi4DM 2020 then was held during Covid-19 pandemic, which took the lives of more than 1,150,000 people by the time of the conference. The pandemic affected the organisation of the conference, but the situation also provided the opportunity to address important global problems.The fundamental goal of the Gi4DM has always been to provide a forum where emergency responders, disaster managers, urban planners, stakeholders, researchers, data providers and system developers can discuss challenges, share experience, discuss new ideas and demonstrate technology. The 12 previous editions of Gi4DM conferences were held in Delft, the Netherlands (March 2005), Goa, India (September 2006), Toronto, Canada (May 2007), Harbin, China (August 2008), Prague, Czech Republic (January 2009), Torino, Italy (February 2010), Antalya, Turkey (May 2011), Enschede, the Netherlands (December, 2012), Hanoi, Vietnam (December 2013), Montpellier, France (2015), Istanbul, Turkey (2018) and Prague, Czech Republic (2019). Through the years Gi4DM has been organised in cooperation with different international bodies such as ISPRS, UNOOSA, ICA, ISCRAM, FIG, IAG, OGC and WFP and supported by national organisations.Gi4DM 2020 was held as part of Climate Change and Disaster Management: Technology and Resilience for a Troubled World. The event took place through the whole week of 30th of November to 4th of December, Sydney, Australia and included three events: Gi4DM 2020, NSW Surveying and Spatial Sciences Institute (NSW SSSI) annual meeting and Urban Resilience Asia Pacific 2 (URAP2).The event explored two interlinked aspects of disaster management in relation to climate change. The first was geo-information technologies and their application for work in crisis situations, as well as sensor and communication networks and their roles for improving situational awareness. The second aspect was resilience, and its role and purpose across the entire cycle of disaster management, from pre-disaster preparedness to post-disaster recovery including challenges and opportunities in relation to rapid urbanisation and the role of security in improved disaster management practices.This volume consists of 22 scientific papers. These were selected on the basis of double-blind review from among the 40 short papers submitted to the Gi4DM 2020 conference. Each paper was reviewed by two scientific reviewers. The authors of the papers were encouraged to revise, extend and adapt their papers to reflect the comments of the reviewers and fit the goals of this volume. The selected papers concentrate on monitoring and analysis of various aspects related to Covid-19 (4), emergency response (4), earthquakes (3), flood (2), forest fire, landslides, glaciers, drought, land cover change, crop management, surface temperature, address standardisation and education for disaster management. The presented methods range from remote sensing, LiDAR and photogrammetry on different platforms to GIS and Web-based technologies. Figure 1 illustrates the covered topics via wordcount of keywords and titles.The Gi4DM 2020 program consisted of scientific presentations, keynote speeches, panel discussions and tutorials. The four keynotes speakers Prof Suzan Cutter (Hazard and Vulnerability Research Institute, USC, US), Jeremy Fewtrell (NSW Fire and Rescue, Australia), Prof Orhan Altan (Ad-hoc Committee on RISK and Disaster Management, GeoUnions, Turkey) and Prof Philip Gibbins (Fenner School of Environment and Society, ANU, Australia) concentrated on different aspects of disaster and risk management in the context of climate change. Eight tutorials offered exciting workshops and hands-on on: Semantic web tools and technologies within Disaster Management, Structure-from-motion photogrammetry, Radar Remote Sensing, Dam safety: Monitoring subsidence with SAR Interferometry, Location-based Augmented Reality apps with Unity and Mapbox, Visualising bush fires datasets using open source, Making data smarter to manage disasters and emergency situational awareness and Response using HERE Location Services. The scientific sessions were blended with panel discussions to provide more opportunities to exchange ideas and experiences, connect people and researchers from all over the world.The editors of this volume acknowledge all members of the scientific committee for their time, careful review and valuable comments: Abdoulaye Diakité (Australia), Alexander Rudloff (Germany), Alias Abdul Rahman (Malaysia), Alper Yilmaz (USA), Amy Parker (Australia), Ashraf Dewan (Australia), Bapon Shm Fakhruddin (New Zealand), Batuhan Osmanoglu (USA), Ben Gorte (Australia), Bo Huang (Hong Kong), Brendon McAtee (Australia), Brian Lee (Australia), Bruce Forster (Australia), Charity Mundava (Australia), Charles Toth (USA), Chris Bellman (Australia), Chris Pettit (Australia), Clive Fraser (Australia), Craig Glennie (USA), David Belton (Australia), Dev Raj Paudyal (Australia), Dimitri Bulatov (Germany), Dipak Paudyal (Australia), Dorota Iwaszczuk (Germany), Edward Verbree (The Netherlands), Eliseo Clementini (Italy), Fabio Giulio Tonolo (Italy), Fazlay Faruque (USA), Filip Biljecki (Singapore), Petra Helmholz (Australia), Francesco Nex (The Netherlands), Franz Rottensteiner (Germany), George Sithole (South Africa), Graciela Metternicht (Australia), Haigang Sui (China), Hans-Gerd Maas (Germany), Hao Wu (China), Huayi Wu (China), Ivana Ivanova (Australia), Iyyanki Murali Krishna (India), Jack Barton (Australia), Jagannath Aryal (Australia), Jie Jiang (China), Joep Compvoets (Belgium), Jonathan Li (Canada), Kourosh Khoshelham (Australia), Krzysztof Bakuła (Poland), Lars Bodum (Denmark), Lena Halounova (Czech Republic), Madhu Chandra (Germany), Maria Antonia Brovelli (Italy), Martin Breunig (Germany), Martin Tomko (Australia), Mila Koeva (The Netherlands), Mingshu Wang (The Netherlands), Mitko Aleksandrov (Australia), Mulhim Al Doori (UAE), Nancy Glenn (Australia), Negin Nazarian (Australia), Norbert Pfeifer (Austria), Norman Kerle (The Netherlands), Orhan Altan (Turkey), Ori Gudes (Australia), Pawel Boguslawski (Poland), Peter van Oosterom (The Netherlands), Petr Kubíček (Czech Republic), Petros Patias (Greece), Piero Boccardo (Italy), Qiaoli Wu (China), Qing Zhu (China), Riza Yosia Sunindijo (Australia), Roland Billen (Belgium), Rudi Stouffs (Singapore), Scott Hawken (Australia), Serene Coetzee (South Africa), Shawn Laffan (Australia), Shisong Cao (China), Sisi Zlatanova (Australia), Songnian Li (Canada), Stephan Winter (Australia), Tarun Ghawana (Australia), Ümit Işıkdağ (Turkey), Wei Li (Australia), Wolfgang Reinhardt (Germany), Xianlian Liang (Finland) and Yanan Liu (China).The editors would like to express their gratitude to all contributors, who made this volume possible. Many thanks go to all supporting organisations: ISPRS, SSSI, URAP2, Blackash, Mercury and ISPRS Journal of Geoinformation. The editors are grateful to the continued support of the involved Universities: The University of New South Wales, Curtin University, Australian National University and The University of Melbourne.
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Helmholz, P., S. Zlatanova, J. Barton, and M. Aleksandrov. "GEOINFORMATION FOR DISASTER MANAGEMENT 2020 (GI4DM2020): PREFACE." ISPRS Annals of Photogrammetry, Remote Sensing and Spatial Information Sciences VI-3/W1-2020 (November 17, 2020): 1–2. http://dx.doi.org/10.5194/isprs-annals-vi-3-w1-2020-1-2020.
Full textAbstract:
Abstract. Across the world, nature-triggered disasters fuelled by climate change are worsening. Some two billion people have been affected by the consequences of natural hazards over the last ten years, 95% of which were weather-related (such as floods and windstorms). Fires swept across large parts of California, and in Australia caused unprecedented destruction to lives, wildlife and bush. This picture is likely to become the new normal, and indeed may worsen if unchecked. The Intergovernmental Panel on Climate Change (IPCC) estimates that in some locations, disaster that once had a once-in-a-century frequency may become annual events by 2050.Disaster management needs to keep up. Good cooperation and coordination of crisis response operations are of critical importance to react rapidly and adequately to any crisis situation, while post-disaster recovery presents opportunities to build resilience towards reducing the scale of the next disaster. Technology to support crisis response has advanced greatly in the last few years. Systems for early warning, command and control and decision-making have been successfully implemented in many countries and regions all over the world. Efforts to improve humanitarian response, in particular in relation to combating disasters in rapidly urbanising cities, have also led to better approaches that grapple with complexity and uncertainty.The challenges however are daunting. Many aspects related to the efficient collection and integration of geo-information, applied semantics and situational awareness for disaster management are still open, while agencies, organisations and governmental authorities need to improve their practices for building better resilience.Gi4DM 2020 marked the 13th edition of the Geoinformation for Disaster Management series of conferences. The first conference was held in 2005 in the aftermath of the 2004 Indian Ocean earthquake and tsunami which claimed the lives of over 220,000 civilians. The 2019-20 Australian Bushfire Season saw some 18.6 million Ha of bushland burn, 5,900 buildings destroyed and nearly three billion vertebrates killed. Gi4DM 2020 then was held during Covid-19 pandemic, which took the lives of more than 1,150,000 people by the time of the conference. The pandemic affected the organisation of the conference, but the situation also provided the opportunity to address important global problems.The fundamental goal of the Gi4DM has always been to provide a forum where emergency responders, disaster managers, urban planners, stakeholders, researchers, data providers and system developers can discuss challenges, share experience, discuss new ideas and demonstrate technology. The 12 previous editions of Gi4DM conferences were held in Delft, the Netherlands (March 2005), Goa, India (September 2006), Toronto, Canada (May 2007), Harbin, China (August 2008), Prague, Czech Republic (January 2009), Torino, Italy (February 2010), Antalya, Turkey (May 2011), Enschede, the Netherlands (December, 2012), Hanoi, Vietnam (December 2013), Montpellier, France (2015), Istanbul, Turkey (2018) and Prague, Czech Republic (2019). Through the years Gi4DM has been organised in cooperation with different international bodies such as ISPRS, UNOOSA, ICA, ISCRAM, FIG, IAG, OGC and WFP and supported by national organisations.Gi4DM 2020 was held as part of Climate Change and Disaster Management: Technology and Resilience for a Troubled World. The event took place through the whole week of 30th of November to 4th of December, Sydney, Australia and included three events: Gi4DM 2020, NSW Surveying and Spatial Sciences Institute (NSW SSSI) annual meeting and Urban Resilience Asia Pacific 2 (URAP2).The event explored two interlinked aspects of disaster management in relation to climate change. The first was geo-information technologies and their application for work in crisis situations, as well as sensor and communication networks and their roles for improving situational awareness. The second aspect was resilience, and its role and purpose across the entire cycle of disaster management, from pre-disaster preparedness to post-disaster recovery including challenges and opportunities in relation to rapid urbanisation and the role of security in improved disaster management practices.This volume consists of 16 peer-reviewed scientific papers. These were selected on the basis of double-blind review from among the 25 full papers submitted to the Gi4DM 2020 conference. Each paper was reviewed by three scientific reviewers. The authors of the papers were encouraged to revise, extend and adapt their papers to reflect the comments of the reviewers and fit the goals of this volume. The selected papers concentrate on monitoring and analysis of forest fire (3), landslides (3), flood (2), earthquake, avalanches, water pollution, heat, evacuation and urban sustainability, applying a variety of remote sensing, GIS and Web-based technologies. Figure 1 illustrates the scope of the covered topics though the word count of keywords and titles.The Gi4DM 2020 program consisted of scientific presentations, keynote speeches, panel discussions and tutorials. The four keynotes speakers Prof Suzan Cutter (Hazard and Vulnerability Research Institute, USC, US), Jeremy Fewtrell (NSW Fire and Rescue, Australia), Prof Orhan Altan (Ad-hoc Committee on RISK and Disaster Management, GeoUnions, Turkey) and Prof Philip Gibbins (Fenner School of Environment and Society, ANU, Australia) concentrated on different aspects of disaster and risk management in the context of climate change. Eight tutorials offered exciting workshops and hands-on on: Semantic web tools and technologies within Disaster Management, Structure-from-motion photogrammetry, Radar Remote Sensing, Dam safety: Monitoring subsidence with SAR Interferometry, Location-based Augmented Reality apps with Unity and Mapbox, Visualising bush fires datasets using open source, Making data smarter to manage disasters and emergency situational awareness and Response using HERE Location Services. The scientific sessions were blended with panel discussions to provide more opportunities to exchange ideas and experiences, connect people and researchers from all over the world.The editors of this volume acknowledge all members of the scientific committee for their time, careful review and valuable comments: Abdoulaye Diakité (Australia), Alexander Rudloff (Germany), Alias Abdul Rahman (Malaysia), Alper Yilmaz (USA), Amy Parker (Australia), Ashraf Dewan (Australia), Bapon Shm Fakhruddin (New Zealand), Batuhan Osmanoglu (USA), Ben Gorte (Australia), Bo Huang (Hong Kong), Brendon McAtee (Australia), Brian Lee (Australia), Bruce Forster (Australia), Charity Mundava (Australia), Charles Toth (USA), Chris Bellman (Australia), Chris Pettit (Australia), Clive Fraser (Australia), Craig Glennie (USA), David Belton (Australia), Dev Raj Paudyal (Australia), Dimitri Bulatov (Germany), Dipak Paudyal (Australia), Dorota Iwaszczuk (Germany), Edward Verbree (The Netherlands), Eliseo Clementini (Italy), Fabio Giulio Tonolo (Italy), Fazlay Faruque (USA), Filip Biljecki (Singapore), Petra Helmholz (Australia), Francesco Nex (The Netherlands), Franz Rottensteiner (Germany), George Sithole (South Africa), Graciela Metternicht (Australia), Haigang Sui (China), Hans-Gerd Maas (Germany), Hao Wu (China), Huayi Wu (China), Ivana Ivanova (Australia), Iyyanki Murali Krishna (India), Jack Barton (Australia), Jagannath Aryal (Australia), Jie Jiang (China), Joep Compvoets (Belgium), Jonathan Li (Canada), Kourosh Khoshelham (Australia), Krzysztof Bakuła (Poland), Lars Bodum (Denmark), Lena Halounova (Czech Republic), Madhu Chandra (Germany), Maria Antonia Brovelli (Italy), Martin Breunig (Germany), Martin Tomko (Australia), Mila Koeva (The Netherlands), Mingshu Wang (The Netherlands), Mitko Aleksandrov (Australia), Mulhim Al Doori (UAE), Nancy Glenn (Australia), Negin Nazarian (Australia), Norbert Pfeifer (Austria), Norman Kerle (The Netherlands), Orhan Altan (Turkey), Ori Gudes (Australia), Pawel Boguslawski (Poland), Peter van Oosterom (The Netherlands), Petr Kubíček (Czech Republic), Petros Patias (Greece), Piero Boccardo (Italy), Qiaoli Wu (China), Qing Zhu (China), Riza Yosia Sunindijo (Australia), Roland Billen (Belgium), Rudi Stouffs (Singapore), Scott Hawken (Australia), Serene Coetzee (South Africa), Shawn Laffan (Australia), Shisong Cao (China), Sisi Zlatanova (Australia), Songnian Li (Canada), Stephan Winter (Australia), Tarun Ghawana (Australia), Ümit Işıkdağ (Turkey), Wei Li (Australia), Wolfgang Reinhardt (Germany), Xianlian Liang (Finland) and Yanan Liu (China).The editors would like to express their gratitude to all contributors, who made this volume possible. Many thanks go to all supporting organisations: ISPRS, SSSI, URAP2, Blackash, Mercury and ISPRS Journal of Geoinformation. The editors are grateful to the continued support of the involved Universities: The University of New South Wales, Curtin University, Australian National University and The University of Melbourne.
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"Tristania clementis." CABI Compendium CABI Compendium (January 7, 2022). http://dx.doi.org/10.1079/cabicompendium.54847.
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"Elaeocarpus clementis." CABI Compendium CABI Compendium (January 7, 2022). http://dx.doi.org/10.1079/cabicompendium.20615.
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"Prunus clementis." CABI Compendium CABI Compendium (January 7, 2022). http://dx.doi.org/10.1079/cabicompendium.44272.
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Pardo, Felipe. "Análisis de 1Clem 19,2.20,1-10: conexiones y diferencias." Theologica Xaveriana 69, no. 187 (January 18, 2019). http://dx.doi.org/10.11144/javeriana.tx69-187.a1cd.
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El presente artículo revisa la cosmología de la Prima Clementis en 19,2.20,1-10, y la ubica en relación con aspectos de la cosmología de Aristóteles y de la Septuaginta. Dicho análisis cosmológico se centra en los conceptos de movimiento, causa del movimiento, estructura del universo y relación del mundo con la divinidad. Las razones que permiten el contacto de las tres cosmologías son, por una parte, la cercanía cronológica del autor de la Prima Clementis con Quintiliano, y por otra, la favorable recepción de la Septuaginta del autor de la Prima Clementis.
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"Elaeocarpus clementis var. clemensiae." CABI Compendium CABI Compendium (January 7, 2022). http://dx.doi.org/10.1079/cabicompendium.20612.
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"Elaeocarpus clementis var. borneensis." CABI Compendium CABI Compendium (January 7, 2022). http://dx.doi.org/10.1079/cabicompendium.20611.
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"Elaeocarpus clementis var. kostermansii." CABI Compendium CABI Compendium (January 7, 2022). http://dx.doi.org/10.1079/cabicompendium.20613.
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Hieu, Nguyen Van, Lai Viet Hung, Phan Van Truong, Dang Minh Tu, Pham Thanh Huyen, Nguyen Quynh Nga, Pham Thi Ngoc, et al. "Uvaria clementis (Merr.) Attan., I. M. Turner and R. M. K. Saunders (Annonaceae), a New Record for the Flora of Vietnam." VNU Journal of Science: Natural Sciences and Technology, October 15, 2022. http://dx.doi.org/10.25073/2588-1140/vnunst.5261.
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The genus Uvaria Juss. is distinguished other genus of Annonaceae especially: Stellate or caespitose hairs, flowers bisexual opposite to leaves, flower are solitary or cymose. Sepal 3, valvate,… Uvaria clementis (Merr.) Attan., I.M. Turn&R.M.K Saunders distributed from Malaysia, Indonesia, Brunei to Thailan, Campuchia,… The specimen which collected at Dongnai province and saved at The Hebarium National Instiute of Medicinal Materialis is newly recorded for the flora of Vietnam. This study, we are described, illustrated and notes on taxonomy of Uvaria clementis Teaching and scientific research are two main.
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Tan, Mario A., Byron Leander U. Tan, Maribel G. Nonato, and Seong Soo A. An. "Neuroprotective effects on amyloid-beta induced cytotoxicity of Pandanus clementis Merr." 3 Biotech 11, no. 7 (June 13, 2021). http://dx.doi.org/10.1007/s13205-021-02889-3.
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