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1
Knapp, Sandra. "Solanum pimpinellifolium ‒ new for the alien flora of Austria, with comments on Austrian records of S. triflorum and S. nitidibaccatum." Neilreichia 9 (March 12, 2018): 49–53. https://doi.org/10.5281/zenodo.1196135.
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Abstract: Solanum pimpinellifolium has been found in Vienna in 2012 and is new for the alien flora of Austria. The single Austrian herbarium specimen of Solanum triflorum – collected in Vienna in 1969 – could be confirmed. Characters and native distributions of both species are discussed. Solanum nitidibaccatum has been treated as subspecies of S. physalifolium in the recent Excursion Flora of Austria by Fischer & al. (2008), but is a distinct, well-defined species with different native distribution in South America whereas S. physalifolium is not known outside its native range. All records of S. physalifolium in Austria represent plants of S. nitidibaccatum. Solanum sarrachoides has not been found in Austria yet. The population collected and published by Helmut Melzer as S. sar[r]achoides is in fact S. nitidibaccatum. uploaded for Neilreichia by Plazi
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Štech, Milan, Petr Koutecký, Andreas Tribsch, Luise Schratt-Ehrendorfer, Beata Paszko, and Clemens Pachschwöll. "Calamagrostis purpurea – ein lange übersehenes boreales Element, neu für die Flora von Österreich." Neilreichia 11 (October 9, 2020): 133–52. https://doi.org/10.5281/zenodo.4016760.
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<em>Calamagrostis purpurea, a presumably relict boreal wetland grass with a wide distribution in Eurasia, is presented here as new for the flora of Austria. The currently known distribution of this species in Central Europe and its ecological preferences are summarized. After revision of herbarium vouchers, C. purpurea has to be excluded from the flora of Hungary, as the single known population on a ski slope in the Börzsöny Mts. turned out to be the single currently known population of C. villosa in Hungary. Putative occurrences of C. purpurea (published under C. phragmitoides) from the Waldviertel (Lower Austria), documented in phytosociological relevés that were overlooked in the floristic literature, are erroneous. Herbarium vouchers of Austrian material of C. purpurea exist from Piburger See (Ötztal, North Tyrol) and Lunzer Obersee (Ybbstaler Alpen, Lower Austria), where the species was confirmed during field work in 2016 and 2017. Whereas the 1975 collection from Piburger See was correctly identified during a herbarium revision in 2012, the occurrence at Lunzer Obersee was already suspected during a floristic mapping excursion in 1992. A misidentified voucher was collected at Lunzer Obersee in 1907, thus being the oldest record of C. purpurea for Austria. All revised specimens from both localities are enumerated and discussed in the context of published floristic and vegetation ecological data. The population size and ecological conditions of the two Austrian populations, as well as the possibility of a relict status vs. postglacial migration, are discussed. The category “endangered” (EN) is suggested for the future Austrian Red Data Book. An identification key for the three most frequently misidentified species of Austrian Calamagrostis (C. purpurea, C. canescens and C. villosa) is presented as an Appendix.</em>
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Fischer, A. Manfred. "Towards an Excursion Flora for Austria and all the Eastern Alps." Botanica Serbica 42, no. 1 (2018): 5–33. https://doi.org/10.5281/zenodo.1173550.
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This is on the one hand an announcement of the two-volume Fourth Edition of the Excursion Flora for Austria expanded by also including the remaining parts of the Eastern Alps (chapter 1), and on the other hand a rough survey of the flora of the Eastern Alps in connection with the main vegetation types (chapter 2). The geographical scope includes, besides Austria, the entire Eastern Alps from the Rhine valley in E Switzerland (Grisons) to the Vipava valley in SW Slovenia. Volume 1 mainly contains comprehensive introductory chapters like introductions to plant morphology, taxonomy, and nomenclature, as well as a sketch of ecomorphology and habitat ecology, a survey of vegetation types (phytosociology) and floristic peculiarities of the different natural regions, a rough history of floristic research, a detailed glossary including the meaning of epithets, etc., and drawings of several plant species characteristic of the flora covered. The structure of the keys concentrated in volume 2 is explained: besides the descriptive traits, they include for each taxon comprehensive ecological and plant geographical data, as well as information about Red Lists of the countries involved, plant uses, and taxonomical problems. Genus names are given not only in German, but also in the Romansh (Rumantsch Grischun), Italian, and Slovenian languages. In chapter 2, some important chorotypes including endemics are characterised, and an overview of floristic diversity (lists of exemplary taxa) in accordance with the main and most characteristic vegetation types is presented.
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Englmaier, Peter. "Ranunculus sect. Batrachium (Ranunculaceae): Contribution to an excursion flora of Austria and the Eastern Alps." Neilreichia 8 (December 21, 2016): 97–125. https://doi.org/10.5281/zenodo.292936.
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A treatment of <em>Ranunculus</em> sect. <em>Batrachium</em> is presented for the Eastern Alpine territory as covered by the forthcoming 4th ed. of the “Excursion flora of Austria and the entire Eastern Alps”. A newly designed key as well as alternative keys for terrestrial modificants and vegetative specimens are presented. A new outline for the section is applied including (1) the <em>Ranunculus fluitans</em> group (<em>R. fluitans</em> and <em>R. pseudofluitans</em>); (2) the <em>R. trichophyllus</em> group (<em>R. trichophyllus</em>, <em>R. confervoides</em>, and <em>R. rionii</em>); (3) the <em>R. aquatilis</em> group, including the <em>R. aquatilis</em> subgroup with <em>R. aquatilis</em> (the only member present in Europe), the <em>R. peltatus</em> subgroup (<em>R. peltatus</em> and <em>R. baudotii</em>) as well as related hybridogenous taxa (<em>R. penicillatus</em> s. str.) and (4) <em>R. circinatus</em>. The distribution of all species is given for the Austrian federal states, the Bavarian Alps, Liechtenstein and the South Alpine regions of Switzerland, Italy and Slovenia.
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Englmaier, Peter, and Thomas Wilhalm. "Alien grasses (Poaceae) in the flora of the Eastern Alps: Contribution to an excursion flora of Austria and the Eastern Alps." Neilreichia 9 (March 12, 2018): 177–245. https://doi.org/10.5281/zenodo.1196285.
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This overview presents the recent knowledge on non-native (archaeophytic, neophytic and regionally neophytic) grasses in Austria and the Eastern Alpine territory. In total, 220 taxa are discussed, 175 of them are neophytes, 19 are regional neophytes, 3 are subspontaneous garden escapes and 23 are quoted as archaeophytes. By comparison with Walter & al. (2002) and Fischer & al. (2008), the impact of neophytes in the recent past can be estimated for the Austrian part of the territory, where 152 alien taxa are actually known, 32 (21 percent) were newly recorded in the last decade, among them, 6 are invasive or suspectedly invasive. Meanwhile, several species are naturalized, but the share of invasive and potentially invasive taxa (44 species, 20 percent) is surprisingly low. They are subject of enhanced attention. Commonly, invasive characteristics are considered only as a suppression of the native flora, but an impact is also caused by introgression (via hybridization of aliens with closely related native taxa), and such processes may remain undetected for a long time. Increasing traffic, fitout of transport routes and their maintenance support the propagation of alien species as well as globalized product flows in general, especially trading of ornamental plants, seeds and horticultural accessories. Moreover, climatic change may facilitate a spread of species requiring warmer environmental conditions. It will need some more legal regulations to control this trend. Considering that, expertise of botanists, as well as of experienced horticulturists is indispensable. uploaded for Neilreichia by Plazi
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Fischer, Manfred A. "THE FLORA AND VEGETATION OF AUSTRIA AND THE EASTERN ALPS – AND PROBLEMS IN WRITING A MODERN EXCURSION FLORA." Visnyk of Lviv University. Biological series, no. 78 (December 10, 2018): 25–31. http://dx.doi.org/10.30970/vlubs.2018.78.06.
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Gottschlich, Günter. "Taxonomische und nomenklatorische Änderungen in der Gattung Hieracium fŭr die Neuauflage der "Exkursionsflora fŭr Österreich und die gesamten Ostalpen"." Neilreichia 10 (April 30, 2019): 53–68. https://doi.org/10.5281/zenodo.2630525.
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Results of preliminary studies on taxonomy and nomenclature of Hieracium (Asteraceae) relating to the next edition of the "Excursion Flora for Austria and all the Eastern Alps" are presented: Hieracium clusii is recognized at specific rank; H. tephrosoma s. lat. is divided into H. tephrosoma s. str. and H. kuekenthalianum; H. duronense is synonymized with H. antholzense; H. pseudinuloides is validated; four new subspecific combinations are made under H. atratum, H. balbisianum, H. cavillieri and H. inuloides; H. variifurcum is combined to Pilosella variifurca; the date of publication of H. cochleare is corrected; and 9 names are lectotypified.
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Fischer, Manfred A., Karl Oswald, and Wolfgang Adler. "Ergänzungen und Aktualisierungen zur 3. Auflage (2008) der Exkursionsflora für Österreich, Liechtenstein und Südtirol." Neilreichia 6 (December 16, 2011): 327–63. https://doi.org/10.5281/zenodo.321402.
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Verbesserungen, die erst nach dem Redaktionsschluss der 3. Auflage möglich geworden sind, meist aufgrund neuerer taxonomischer Ansichten und sonstiger Daten; außerdem zahlreiche Nachträge zum Literaturverzeichnis.
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PIEŃKOWSKI, GRZEGORZ, GRZEGORZ NIEDŹWIEDZKI, and MARTA WAKSMUNDZKA. "Sedimentological, palynological and geochemical studies of the terrestrial Triassic–Jurassic boundary in northwestern Poland." Geological Magazine 149, no. 2 (2011): 308–32. http://dx.doi.org/10.1017/s0016756811000914.
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AbstractThe Kamień Pomorski IG-1 borehole (Pomerania, NW Poland) yields a profile through the Triassic–Jurassic (T–J) transition in continental deposits. An integrated study of the sedimentology, sequence stratigraphy, palynology, biostratigraphy and geochemistry of these deposits has been carried out on the boundary interval, which represents a time of major environmental change. Two lithological units within the transitional section are distinguished: the Lower–Middle Rhaetian Wielichowo Beds of alluvial plain facies, which shows evidence of a semi-arid climate, and the Upper Rhaetian to Lower Hettangian Zagaje Formation, lying above a marked erosional sequence boundary, composed of mudstone-claystone and sandstone deposited in a fluvial-lacustrine environment. Carbon isotope values obtained from palynomaceral separates, and thus reflecting isotopic changes in atmospheric CO2, show significant fluctuations through the Rhaetian; the most conspicuous negative δ13Corgexcursion is correlated with the Rhaetian ‘initial’ excursion and shows two sub-peaks, pointing to short-term carbon-cycle disturbances of lesser magnitude. Above the ‘initial’ negative excursion, there is a positive excursion followed again by more negative values, representing subordinate fluctuation within a positive excursion and is correlated with the T–J boundary. Seventy-two miospore taxa have been determined from the studied T–J transitional section. Two major palynological assemblages have been distinguished: the lower one, typically Rhaetian, named theCingulizonates rhaeticus–Limbosporites lundblandiiassociation, which corresponds to theRhaetipollis–Ricciisporites(=Rhaetipollis–Limbosporites) Zone; and the upper one, typically Hettangian, named theConbaculatisporites mesozoicus– Dictyophyllidites mortoni–Cerebropollenites thiergartiiassociation (with the age-diagnostic pollenC.thiergartii), which corresponds to thePinuspollenites–Trachysporites(= Trachysporites–Heliosporites) Zone. The T–J palynofloral turnover occurred in a humid period and is more conspicuous then palynofloral changes observed in Greenland, the Tethyan domain or other parts of NE Europe. The osmium isotope system is studied herein for the first time from T–J continental deposits and shows marked disturbances similar to those measured in marine deposits and attributed to volcanic fallout. Carbon and osmium isotope correlation and coeval increase in polycyclic aromatic hydrocarbon (PAH) content and darkening of miospores confirm that eruptions of the Central Atlantic Magmatic Province (CAMP) contributed to the perturbances in climate and crisis in the terrestrial biosphere. A series of periodical atmospheric loading by CO2, CH4or alternatively by SO2, sulphate aerosols and toxic compounds is inferred to have caused a series of rapid climatic reversals, directly influencing the ecosystem and causing the Triassic floral crisis. A floral turnover period commenced at the ‘initial’ δ13C excursion, with the onset of CAMP volcanism. Obtained values of initial187Os/186Os between 2.905 and 4.873 and very low iridium content (about 5 ppt) lend no support to a role for an extraterrestrial impact at the T–J boundary event. The position of the ‘initial’ negative carbon isotope excursion about 12 m below the T–J boundary, position of sequence boundaries (emergence surfaces) and other isotope excursions allow reliable correlation with marine profiles, including St Audrie's Bay (UK), Csövár (Hungary) and the GSSP profile at Kuhjoch (Austria).
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Fischer, Manfred A., and Peter Englmaier. "Vorläufiger Bericht über Neuerungen in der im Entstehen begriffenen vierten Auflage der Exkursionsflora." Neilreichia 9 (March 12, 2018): 355–88. https://doi.org/10.5281/zenodo.1196435.
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Provisional report on novelties approaching the fourth edition of the Austrian Excursion Flora Some geographic, taxonomic, floristic, and nomenclatural changes, for the time being, are reported. The geographical range is enlarged as to comprise the entire Eastern Alps, i. e. also the Bavarian Alps, eastern Grisons, the Italian Alps East of lake Como und the Slovenian Alps. In addition to changes mentioned already in Neilreichia 6 (2011) and 7 (2015), the most important changes are: Dryopteridaceae (s. lat.) are split into Athyriaceae, Cystopteridaceae, Dryopteridaceae s. str., Onocleaceae and Woodsiaceae; Dryopteris lacunosa is a new apogamic species within D. affinis agg. – Aegilops and Triticum are kept separate; Bromus remains s. lat. (including Ceratochloa, Bromopsis, and Anisantha); Festuca includes Drymochloa, Leucopoa, Psilurus, and Vulpia; Lolium s. lat. includes Schedonorus; Koeleria is expanded to include Trisetum spicatum; Gaudinia and Trisetum s. str. remain separate; Pennisetum and Cenchrus are fused; Oloptum is split from Piptatherum; Poa and Bellardiochloa are separated; Psilathera and Sesleriella are split from Sesleria. – Lloydia is included in Gagea. – Neottia s. str. is maintained and Listera thus remains as a paraphyletic genus; Platanthera bifolia consists of two subspecies – Arenaria is split into Eremogone (E. graminifolia ← A. procera) and Arenaria s. str.; Minuartia is split into Cherleria, Facchinia, Mcneillia, Minuartia s. str., and Sabulina; the traditional subspecies in Cerastium carinthiacum are sunk to doubtful varieties. – Chenopodiaceae and Amaranthaceae (s. str.) are kept in traditional circumscription. The splitting of traditional Chenopodium results in five new or differently circumscribed genera: Blitum, Chenopodiastrum, Chenopodium s. str., Lipandra, Oxybasis. – Euphorbia austriaca and Eu. villosa are conspecific; Eu. kerneri and Eu. triflora s. str. are accepted as species. – The new genus Petrosedum (Sedum rupestre agg.) is accepted. – Most of the microspecies in Rubus sect. Rubus subsect. Hiemales ser. Glandulosi remain doubtful and not sufficiently studied and therefore are not accepted so far; Sorbus is revised according to new investigations. – The illegitimate name Malus domestica is not changed to M. pumila, because ist was conserved. – Cytisus and Chamaecytisus are merged as are C. (Chamaecytisus) hirsutus and C. (Chamaecytisus) supinus at species level; lumping of Vicia with Lens and of Lathyrus with Pisum are accepted as are the genera Ervilia and Ervum. – Blackstonia perfoliata agg. is treated as a species. – Loiseleuria is united with Kalmia and therefore named K. procumbens. Vaccinium uliginosum agg. will probably be turned to a species consisting of two subspecies. – Memoremea is accepted as a separate, new monospecific genus of the Boraginaceae. – Plantaginaceae are enlarged by including Globulariaceae and Anthirrhinaceae but excluding Callitrichaceae and Hippuridaceae and thus become paraphyletic. Lindernia is a genus in Linderniaceae, Mimulus in Phrymaceae. Buddleja and Limosella are shifted to Scrophulariaceae s. str. – Leonurus s. lat. will possibly be split into Leonurus s. str. and Chaiturus. – Dichoropetalum is separated from Peucedanum on generic level. – Stenoendemic Knautia carinthiaca is rectricted to one single locality only: in the Görtschitz valley in Carinthia. – The subspecies in Doronicum clusii are upgraded to species level. Telekia s. lat. is split into Telekia s. str. and Xerolekia. Anthemis is split into Anthemis s. str. and Cota. Cyanus as well as Cnicus are lumped with Centaurea and the genus Rhaponticoides is accepted (← Centaurea alpina in the Southern Alps); the subgenera of Hieracium s. lat. are upgraded to Hieracium s. str. and Pilosella. uploaded for Neilreichia by Plazi
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Noble, Emily. "Excursion – Illabarook and Flora list." Ballarat Naturalist (2018:Nov) (November 2018): 8–15. http://dx.doi.org/10.5962/p.385237.
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Gregurke, John E. "Excursion – Linton Flora and Fauna Block." Ballarat Naturalist (1992:Jul) (July 1992): 7. http://dx.doi.org/10.5962/p.384143.
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Johns, Tony. "Excursion – Inverleigh Flora and Fauna Reserve." Ballarat Naturalist (2001:Dec) (December 2001): 2–4. http://dx.doi.org/10.5962/p.384627.
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Radcliffe-Smith, A., and K. M. Matthew. "An Excursion Flora of Central Tamilnadu, India." Kew Bulletin 48, no. 3 (1993): 627. http://dx.doi.org/10.2307/4118732.
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Herman, A. B., and J. Kvaček. "Early Campanian Grünbach flora of Austria." Paleontological Journal 41, no. 11 (2007): 1068–76. http://dx.doi.org/10.1134/s0031030107110068.
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Pott, Christian. "Late Cretaceous Grünbach Flora of Austria." Cretaceous Research 31, no. 4 (2010): 458. http://dx.doi.org/10.1016/j.cretres.2010.05.005.
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Lefnaer, Stefan. "Floristic novelties from the Lower Austrian Weinviertel and Vienna north of the Danube, 3." Neilreichia 11 (October 9, 2020): 27–46. https://doi.org/10.5281/zenodo.4016738.
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From the Weinviertel region, in north-eastern Lower Austria, and from the northern part of Vienna, occurrences of rare plant species are reported. New for the flora of Austria is the neophyte Verbena rigida. New for the flora of Vienna are the recently described species Stellaria ruderalis and local introductions or escapes of Acorus calamus, Cenchrus caudatus, Erica carnea and Lysimachia thyrsiflora. New for the flora of Vienna north of the Danube are Hornungia petraea, Thesium dollineri and Trifolium striatum. New for the flora of Lower Austria are Eleocharis palustris subsp. waltersii and Eragrostis virescens. New for the flora of the Weinviertel region are Dinacrusa hirsuta and Sambucus racemosa. New localities of further 21 remarkable taxa are presented, of which 2 are “critically endangered”, 13 “endangered” and 2 “vulnerable” according to the current Red List of Austria: Adonis flammea, Bromus secalinus subsp. decipiens, Chenopodium rubrum, Cirsium brachycephalum, Helminthotheca echioides, Hesperis sylvestris, Lathyrus pannonicus subsp. collinus, Lepidium squamatum, Lycopus exaltatus, Muscari tenuiflorum, Myosurus minimus, Ophrys apifera, Phlomis tuberosa, Piptatherum virescens, Polycnemum majus, Potamogeton nodosus, Potentilla sterilis, Reseda phyteuma, Solanum villosum subsp. alatum, Spergularia rubra and Veronica scardica. Additionally, localities of the following rare neophytes or taxa of unclear floristic status are presented: Amaranthus blitum subsp. emarginatus, Heliotropium europaeum and Hordeum jubatum.
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Gilli, Christian, Clemens Pachschwöll, and Harald Niklfeld. "New floristic records from Austria (376–429)." Neilreichia 11 (October 9, 2020): 165–228. https://doi.org/10.5281/zenodo.4016771.
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Regarding native species, a recent occurrence of Astragalus hypoglottis in Carinthia is confirmed. Callitriche cophocarpa is new for Burgenland, Schlagintweitia huteri subsp. lantoscana is new for Carinthia and Poa humilis is new for Salzburg and Tyrol. Tanacetum corymbosum subsp. subcorymbosum is confirmed for Burgenland, Achillea distans for Carinthia and Artemisia nitida for (East) Tyrol. For Avenula pratensis subsp. hirtifolia, recent findings from Burgenland und historical ones from Vienna are presented. The status as indigenous is confirmed for Ilex aquifolium in Burgenland, for Centaurea jacea subsp. angustifolia in Upper Austria and for Festuca guestfalica in Salzburg. Revisional records are presented for Orobanche elatior s. str. for Burgenland, Lower and Upper Austria. New for Austria are 14 local introductions or escapes: Allium hollandicum in Burgenland, Arabis rosea, Berberis ×ottawensis, Helleborus argutifolius, Mahonia ×decumbens, M. ×wagneri, Ornithogalum oligophyllum, Psephellus dealbatus and Sida hermaphrodita in Lower Austria, Achillea clypeolata, Cicer arietinum, Selinum silaifolium in Vienna, Agastache rugosa in Salzburg and Salix babylonica (var. pekinensis) in Upper Austria and Salzburg. Allium tuberosum is new to the alien flora of Lower Austria and Vienna, Othocallis mischtschenkoana is new to the alien flora of Lower Austria and Styria. The following taxa are new to the alien flora of one federal state: Arundo donax to Burgenland; Asperula taurina, Corydalis cheilanthifolia, Hyacinthoides italica, Panicum virgatum and Puschkinia scilloides to Lower Austria; Alyssum murale, Asparagus verticillatus, Chasmanthium latifolium, Muscari armeniacum and M. azureum to Vienna; Crepis foetida subsp. foetida and Elodea nuttallii to Carinthia; Iris sanguinea to Salzburg; Chenopodium giganteum and Tradescantia Andersoniana hybrids to Tyrol.
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Perkins, Ern. "Excursion to Pilcher's Bridge Fauna and Flora Reserve." Castlemaine Naturalist 18, no. 203 (1994): 3. http://dx.doi.org/10.5962/p.400162.
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Garnock-Jones, P. J., and I. Breitwieser. "New Zealand floras and systematic botany: Progress and prospects." Australian Systematic Botany 11, no. 2 (1998): 175. http://dx.doi.org/10.1071/sb97008.
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Botanists have produced vascular plant Floras of New Zealand at regular intervals since 1775. The current tracheophyte Flora series is nearing completion, but early volumes already need major revision. There are few Flora treatments covering algae and fungi. Moss and liverwort Floras are in early stages, while the Lichen Flora is now under revision. Current research attention is focused on revisions of critical groups, phylogenetic studies to investigate generic circumscriptions or family placements, and provision of new tools for plant identification. Plans are under way to produce an Excursion Flora.
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Korte, Christoph, and Heinz W. Kozur. "Bio- and chemostratigraphic assessment of carbon isotope records across the Triassic–Jurassic boundary at Csővár quarry (Hungary) and Kendlbachgraben (Austria) and implications for global correlations." Bulletin of the Geological Society of Denmark 59 (December 19, 2011): 100–115. http://dx.doi.org/10.37570/bgsd-2011-59-10.
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Carbon isotope trends are useful for stratigraphic correlation, especially for time intervals when major perturbations of the global carbon cycle occurred. Such perturbations have been documented for the Triassic–Jurassic (T–J) boundary, and several successions from this time interval are characterized by (1) an initial negative excursion, followed by (2) a pronounced positive excursion and a subsequent (3) main negative carbon isotope excursion. These features, however, are not present in all T–J boundary sections, or the stratigraphic position of the positive or the main negative excursion has variable locations. In the present study, we analysed carbon isotopes in bulk carbonate from the pelagic Csővár quarry section in Hungary and from the intra-platform basin to shallow subtidal marine Kendlbachgraben section in Austria. Both T–J boundary successions are biostratigraphically well controlled enabling – with particular focus on the bio- and chemostratigraphy of other T–J boundary sections – correlation of the carbon isotope trends. This evaluation shows that the apex of the initial negative δ13C excursion occurred slightly, but distinctly, below the mass extinction event and represents an excellent stratigraphic correlation tool.
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de Maccus, Natalie. "Excursion to Conglomerate Gully Flora Reserve 11/8/07." Castlemaine Naturalist 32, no. 347 (2007): 1–2. http://dx.doi.org/10.5962/p.401203.
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Hall, Carol. "Excursion – Mt Erip Flora Reserve and Happy Valley Crossing." Ballarat Naturalist (2001:May) (May 2001): 7. http://dx.doi.org/10.5962/p.384597.
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Tønsberg, Tor, Roman Türk, and Paul Hofmann. "Notes on the lichen flora of Tyrol (Austria)." Nova Hedwigia 72, no. 3-4 (2001): 487–97. http://dx.doi.org/10.1127/nova.hedwigia/72/2001/487.
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Grims, F. "Contribution to the moss flora of upper Austria." Herzogia 7, no. 1-2 (1985): 247–57. http://dx.doi.org/10.1127/herzogia/7/1985/247.
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Zechmeister, Harald G., and Michaela Kropik. "The Bryophyte Flora of Vienna." Plants 12, no. 16 (2023): 3002. http://dx.doi.org/10.3390/plants12163002.
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The bryophyte flora of Vienna is documented only in parts. Old finds often appeared in publications about Lower Austria; only one study addressed the bryophytes of the inner city. Here, we present a bryophyte flora of Vienna, including historical reports and the results of recent investigations. From 1998 to 2023, we recorded 329 bryophyte taxa in Viennese urban territory. Fifty-six of these were liverworts, and 273 were mosses. Sixty-seven taxa are new for Vienna. Forty-nine taxa, given in historical studies, could no longer be found. If we also count these, 378 taxa occurred in Vienna to date. Of the current occurring bryophytes, 67 species have an endangerment classification. Rich in bryophytes were the dry grasslands of the Lobau, the oxbow lakes of the Lobau and the Prater, and large parts of the Wienerwald. But flat roofs and inner-city areas also showed more than 100 species. Compared to other European cities, Vienna is decidedly species-rich and highly responsible for some species in Austria. Reasons for this are the extensive green spaces and the pronounced climatic gradient from the sub-oceanic west to the sub-continental east of Vienna. Awareness raising for bryophytes we recommend in addition to the existing biotope protection.
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Lefnaer, Stefan. "Floristische Neuigkeiten aus dem niederösterreichischen Weinviertel und Wien nördlich der Donau." Neilreichia 9 (March 12, 2018): 133–42. https://doi.org/10.5281/zenodo.1196233.
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Floristic novelties from the Lower Austrian Weinviertel and Vienna north of the Danube From the southern, western and central parts of the Weinviertel region, in north-eastern Lower Austria, and from the northern part of Vienna, occurrences of rare plant species are reported. New for the flora of Vienna north of the Danube are Amaranthus viridis, Anchusa arvensis subsp. orientalis, Kickxia elatine and Panicum hillmanii. New for the flora of Lower Austria is the alien Ceratostigma plumbaginoides. New localities of further 17 remarkable taxons are presented, of which three are critically endangered, nine endangered and four vulnerable according to the current Red List of Austria: Alcea biennis, Calluna vulgaris, Helosciadium repens, Hesperis sylvestris, Hibiscus trionum, Himantoglossum adriaticum, Malus sylvestris, Mentha pulegium, Odontites vernus, Orlaya grandiflora, Orobanche coerulescens, Orobanche kochii, Papaver argemone, Ranunculus arvensis, Sideritis montana, Stipa pulcherrima subsp. pulcherrima and Thesium dollineri. uploaded for Neilreichia by Plazi
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Givulescu, R. "Some Considerations on the late Miocene Flora from Vienna‐Türkenschanze (Austria)." Feddes Repertorium 100, no. 5-6 (1989): 271–75. http://dx.doi.org/10.1002/j.1522-239x.1989.tb00185.x.
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SummaryVegetation, ecology and climate are investigated on leaf flora of the late Miocene flora from Türkenschanze — Vienna (Austria), Arguments for a xeromorphic, short period of extremely aride climate are invalid. The fossil plant record, and the percentage of entire margined leaves indicates a warm temperate, of variable humidity, climate without remarkable dry season.
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Lefnaer, Stefan. "Floristische Neuigkeiten aus dem niederösterreichischen Weinviertel und Wien nördlich der Donau, 2." Neilreichia 10 (April 30, 2019): 69–83. https://doi.org/10.5281/zenodo.2630527.
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From the southern and central parts of the Weinviertel region, in north-eastern Lower Austria, and from the northern part of Vienna occurrences of rare plant species are reported. New for the flora of Vienna is Cyperus longus subsp. longus. New for the flora of Vienna north of the Danube are Geranium sibiricum, Kickxia spuria and Panicum miliaceum subsp. agricola. New for the flora of Weinviertel is Centaurea diffusa. New localities of further 19 remarkable taxa are presented, of which 2 are critically endangered, 9 endangered and 6 vulnerable according to the current Red List of Austria: Alcea biennis, Carex pseudocyperus, Chenopodium rubrum, Crepis praemorsa, Eleocharis uniglumis, Galega officinalis, Galium tricornutum, Helminthotheca echioides, Hibiscus trionum, Lathyrus aphaca, L. hirsutus, Lythrum hyssopifolia, Nasturtium officinale, Potamogeton nodosus, Reseda phyteuma, Scirpoides holoschoenus, Trifolium ochroleucon, T. striatum and Veronica scardica. Additionally, localities of the following rare neophytes or taxa of unclear floristic status are presented: Malus dasyphylla, Nicandra physalodes, Vicia lutea, Xanthium orientale s. lat. and X. spinosum.
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Maurer, W. "New contributions on the moss flora of Styria, Austria." Herzogia 7, no. 1-2 (1985): 299–303. http://dx.doi.org/10.1127/herzogia/7/1985/299.
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Brugger, Barbara, Marion Fink, and Thomas Wilhalm. "The Rupert Huter Herbarium." Neilreichia 10 (April 30, 2019): 9–51. https://doi.org/10.5281/zenodo.2630523.
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Rupert Huter (born 1834 in Kals am Großglockner, died 1919 in Ried near Sterzing/Vipiteno), priest by profession, was a hard-working plant collector and explorer of the flora of the Eastern Alps who left to posterity a large herbarium of high scientific value. The herbarium, owned by the Episcopal Institute Vinzentinum in Brixen/Bressanone, is in the custody and under scientific supervision of the Museum of Nature South Tyrol in Bozen/Bolzano (BOZ) since 2010. After 20 years of restoration work and digitizing specimen data, the Huter Herbarium has been completely recorded since late 2016. The Huter Herbarium encompasses 74,025 specimens, and may be divided into four parts of different arrangement. Its core collection, handed over by Huter in 107 fascicles with an accompanying catalogue following the system of Nyman's "Conspectus Florae Europaeae", accounts for 69% of the total herbarium and includes exclusively vascular plants. The exsiccata series "Flora exsiccata Austro-Hungarica", which Huter helped to establish and distribute, contains 6% of the herbarium. A third part (16%) comprises the cryptogam collection of Hieronymus Gander, a prominent expert in the mosses of Tyrol. The remaining 9% of the Huter Herbarium include small fascicles that either became part of the Vinzentinum collection without Huter's involvement or were taken over by him after completion of work on his core collection. Huter did not or was no longer able to integrate these fascicles into his core collection. They are subsumed here under the category "accessory fascicles". There are specimens from 1,585 historically documented collectors in Huter's Herbarium, with the total number of all collectors amounting to c. 1,900. Hieronymus Gander contributed most to the collection, with 6,419 specimens (among them 5,833 moss specimens), followed by Huter himself (6,282). Other well-represented collectors are Pietro Porta from Valvestino (4,149) and Gregorio Rigo from Torri del Benaco (1,908), his trusted partners and travel companions during some collecting excursions. These significant collectors are responsible for the geographic focus of the herbarium: 87% of the plant material is of European origin, where Italy (28% of the European specimens) and Austria (26%) contribute the majority from the 41 European countries represented in Huter's Herbarium, which coincides with the professional sphere and the main exploration area of the leading collectors, i. e. the Old Tyrol. With regard to the amount of specimens, the collecting trips carried out by the "botanical triumvirate" Huter, Porta and Rigo in southern Italy and Spain have proved particularly successful. Rupert Huter, who himself obviously did not collect outside of Europe, came into possession of numerous non-European specimens through his excellent networking with other botanists of his time and through his excessive practice in exchanging herbarium specimens. This material accounts for 7% of his herbarium and originates from 54 countries, concentrating on a few, like Turkey (1,266 specimens, mainly from the Orient travellers Joseph Friedrich Bornmüller, Paul Ernst Sintenis and Thomas Pichler), Russia (785 specimens, main collector Alexander Becker), the former French colony of Algeria (619, Gaetano Leone Durando, Elisée Reverchon) as well as the United States of America (470, predominantly duplicates from the Biltmore Herbarium). Looking at the plant groups contained in the Huter Herbarium, the vascular plants constitute the dominant portion with 83%, the Asteraceae (10,286 specimens) being the most represented family. Huter dedicated himself with particular passion to the genera Hieracium and Cirsium, and he granted them considerable space in his herbarium. Other important families, although with far fewer specimens than the Asteraceae, are the Poaceae (4,074 specimens) and Fabaceae (3,858). Mosses are the second largest plant group in Huter's herbarium, contributing 15%, whereas lichens, algae and fungi are only marginally represented (altogether 2%). The number of currently accepted taxa (species, subspecies) from all specimen records in the Huter Herbarium totals 14,886, which corresponds to 80%–90% of the taxa originally determined by Huter himself. This discrepancy is due to the conspecificity of many taxa that were earlier recognized as distinct. Huter not only built a comprehensive herbarium but developed his own concepts, by means of sharp observation skills, and made important contributions to taxonomy, published in his "Herbarstudien" between 1903 and 1908. His expertise and appreciation by the scientific community of his time is reflected in the description of several hundred taxa and in the naming of new taxa after him, respectively. Since completing the restoring and recording of the Huter Herbarium, a declared aim of an ongoing project is to determine and record all type specimens in the Huter Herbarium. Indeed, the collection presumably includes several hundred of type specimens, a part of which has already been identified from the genus Hieracium, amongst others.
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Sprafke, Tobias, Robert Peticzka, Christine Thiel, and Birgit Terhorst. "Brunhes to burials – loess region of Krems, Lower Austria." DEUQUA Special Publications 5 (September 9, 2024): 41–54. http://dx.doi.org/10.5194/deuquasp-5-41-2024.
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Abstract. This excursion is dedicated to loess–paleosol sequences (LPSs) and the Quaternary research history in the region around Krems an der Donau (Krems a.d. Donau), Austria. The landscape at the eastern exit of the picturesque Wachau valley, carved by the Danube into crystalline basement rocks, is covered by thick loess and has a more than 100-year-long research history. Local Upper Paleolithic findings (e.g., Venus of Willendorf, Fanny of Stratzing, Wachtberg infant burials) are world famous. The outcrops of Paudorf, Göttweig-Furth, and Krems-Schießstätte were type localities of the Quaternary period until the 1970s. Recently, these complex LPSs with discontinuities and polygenetic units were reinvestigated, with a focus on the Middle to Late Pleistocene (Brunhes) record.
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Misra, Sarat. "Excursion Orchid Flora of The Pushpagiri Wildlife Sanctuary in Karnataka, Indi." Nelumbo 62, no. 2 (2020): 178. http://dx.doi.org/10.20324/nelumbo/v62/2020/156895.
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Hohla, Michael. "Artemisia gilvescens, Oenothera macrocarpa und Pseudosasa japonica – neu für Österreich – sowie weitere Beiträge zur Adventivflora von Oberösterreich und der Steiermark." Neilreichia 9 (March 12, 2018): 143–59. https://doi.org/10.5281/zenodo.1196249.
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Artemisia gilvescens, Oenothera macrocarpa and Pseudosasa japonica – new for Austria – and further contributions to the alien flora of Upper Austria and Styria Records of 16 alien vascular plant taxa are listed. New for Austria (not listed in Walter & al. 2002 and Fischer & al. 2008) are: Artemisia gilvescens, Glyceria striata subsp. difformis, Heracleum sphondylium × H. mantegazzianum, Oenothera biennis f. sulphurea, Oenothera macrocarpa, Pinus wallichiana and Pseudosasa japonica. New for Upper Austria (not mentioned in Walter & al. 2002, Fischer & al. 2008 and Hohla & al. 2009) are Aucuba japonica, Calystegia pulchra, Coix lacryma-jobi and Xanthium albinum subsp. albinum. New for the region Innviertel (Upper Austria) are Brassica juncea and Linaria supina. New for Styria (not mentioned in Walter & al. 2002 and Fischer & al. 2008) are Astilbe rubra and Limonium gmelinii. New for the Alpine region in Upper Austria (not mentioned in Hohla & al. 2009) is Cichorium calvum. All taxa are discussed in the context of floristic literature. uploaded for Neilreichia by Plazi
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Hanrahan, Fran. "Excursion – Teesdale Nursery & Inverleigh Flora & Fauna Reserve and Plant List." Ballarat Naturalist (2011:Mar) (March 2011): 3–9. http://dx.doi.org/10.5962/p.384982.
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Koponen, Timo. "Finnish–Hungarian Cooperation in Bryology; Memories from Excursions, Congresses and Research with Professor Tamás Pócs." Polish Botanical Journal 58, no. 1 (2013): 31–38. http://dx.doi.org/10.2478/pbj-2013-0002.
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Abstract The paper describes Professor Tamás Pócs’ cooperation with Finnish bryologists and other cryptogam taxonomists. Cooperation began with exchange of reprints in 1966 and identification of African bryophyte specimens in 1973. In 1976, Timo Koponen visited Budapest and Eger, and joint work continued during a University of Helsinki Department of Botany student excursion to Tanzania in 1988. Tamás Pócs, then a professor at Sokoine Agricultural University, arranged the logistics for the preparatory visit of four teachers as well as for the excursion itself. Later, Pócs participated in the Congress of Eastern Asiatic Bryology, the EU-funded ‘Advanced instruction in bryology and lichenology’ (Large Scale Facility) program and the ‘Bryophyte Flora of the Huon Peninsula, Papua New Guinea’ project organized in Helsinki. He was elected a corresponding member of the Finnish Bryological Society in 2009.
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Danihelka, Jiří, Kryštof Chytrý, Martin Harásek, et al. "Halophytic flora and vegetation in southern Moravia and northern Lower Austria." Preslia 94, no. 1 (2022): 13–110. http://dx.doi.org/10.23855/preslia.2022.013.
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Givulescu, R. "Some considerations on the late Miocene flora from Vienna-Türkenschanze (Austria)." Feddes Repertorium 100, no. 5-6 (1989): 271–75. http://dx.doi.org/10.1002/fedr.4911000510.
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Raabe, Uwe. "The genus Lindernia (Linderniaceae) in Burgenland, Austria." Neilreichia 10 (April 30, 2019): 171–83. https://doi.org/10.5281/zenodo.2630539.
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Lindernia procumbens is one of the most noteworthy species in the flora of the federal state of Burgenland in eastern Austria. There is, however little information available on the occurrence of the species. The latest and at the same time only record from more recent times documented in the literature (fish ponds near Güssing) has to be corrected, as it actually corresponds to Lindernia dubia, a species native to America. Thus, this was the first time that L. dubia was proven for Burgenland. The presence of L. dubia at the Güssing ponds was confirmed in 2017 and 2018. Furthermore, L. procumbens was found at several locations in Burgenland in 2017 and 2018. Attention should be paid to a possible further spread of L. dubia.
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Tashev, Alexander, Renate Höllriegl, and Manfred A. Fischer. "Pulsatilla styriaca (Ranunculaceae) is a new species for the Bulgarian flora, and conspecific with P. subslavica." Neilreichia 7 (December 21, 2015): 119–55. https://doi.org/10.5281/zenodo.291986.
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<em>Pulsatilla styriaca (P. halleri subsp. styriaca)</em>, up to now considered endemic to Styria within Austria, is reported as new for the Bulgarian flora. Earlier, it had been identified as <em>P. halleri</em> s. str. <em>(P. halleri subsp. halleri)</em> because it is clearly different from <em>P. rhodopaea (P. halleri subsp. rhodopaea)</em> distributed in Bulgaria. The only three populations situated in western Sredna Gora (W Balkan mts.) are small and have been monitored during the period 1998–2013. Population sizes are decreasing and the species thus endangered in Bulgaria. By morphological (phytographical) evidence, using features of traditional <em>Pulsatilla</em> taxonomy, the differences between the Bulgarian and Styrian populations of <em>P. styriaca</em>, in respect to the variation amplitude, proved to be negligible. This taxon, however, turned out to be conspecific with <em>P. subslavica</em> distributed endemically in Slovakia. This is demonstrated by a comparative survey of Slovak specimens attributed to this species and specimens of <em>P. styriaca</em> from Styria. Consequently, <em>P. styriaca</em> is no longer endemic to Styria and Austria but exhibits a highly disjunct distribution range covering western central Slovakia, eastern Austria (Styria) and western Bulgaria. Bulgarian, Slovakian and Austrian habitats of this species are compared und the conservation status is discussed.
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Hubmann, Bernhard, Lisa Verderber, and Fritz Messner. "Devonian Calcareous Green Algal Flora of the Rannach Nappe (Graz Palaeozoic, Austria)." Geologia Croatica 61, no. 2-3 (2008): 113–22. http://dx.doi.org/10.4154/gc.2008.11.
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The Lower to Middle Devonian (Emsian – Eifelian) calcareous green algal flora of the Graz Palaeozoic (Austria) contains halimedalean representatives of Pseudolitanaia, Pseudopalaeoporella, Zeapora, Maslovina and a new lanciculoid taxon. Occurrences within the Graz thrust complex are restricted to four localities in the Rannach Nappe and may be characterised as monogeneric mass occurrences. Consequently, they are interpreted as algal bafflestones originating from halimedalean meadows.
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Aleffi, Michele, Ilaria Bonini, Annalena Cogoni, et al. "Contribution to the bryological knowledge of the Tuscan-Emilian Apennines (Northern Italy)." Italian Botanist 9 (January 15, 2020): 21–34. https://doi.org/10.3897/italianbotanist.9.48009.
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The inventory of the bryophytes collected during the annual excursion of the Working Group for Bryology of the Italian Botanical Society is reported. This excursion was held in 2018 on the northern slope of the Tuscan-Emilian Apennines National Park, in the Administrative Region of Emilia-Romagna. The field work led to the finding of 113 taxa (24 liverworts and 89 mosses), including eight new records and seven confirmations for this Region. The occurrence of rare taxa for Italy (Scapania uliginosa, Rhizomnium pseudopunctatum, Racomitrium fasciculare, Scorpidium cossonii, Grimmia lisae, Orthotrichum pulchellum) is highlighted.
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Gilli, Christian, and Harald Niklfeld. "Floristische Neufunde (236–304)." Neilreichia 9 (March 12, 2018): 289–354. https://doi.org/10.5281/zenodo.1196431.
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New floristic records from Austria (236–304) New for Austria as a whole are local introductions or escapes of Astragalus galegiformis in Burgenland, Erodium manescavii in Burgenland and Vienna, Festuca rubra subsp. litoralis in Lower Austria, as well as Galanthus woronowii in Lower Austria and Vienna. Three native species are new to one Federal State: Arenaria multicaulis to Carinthia, Hieracium transylvanicum to Burgenland, and Orobanche lycoctoni to Vorarlberg. Among adventitious occurrences, 23 taxa are new to one up to three Federal States: for Burgenland, Ammi visnaga, Nassella tenuissima, Sporobolus vaginiflorus, Torilis nodosa and Tulipa sylvestris; for Lower Austria, Erigeron sumatrensis, Nassella tenuissima, Polycarpon tetraphyllum, Polypogon monspeliensis, Schoenoplectus mucronatus and Torilis nodosa; for Vorarlberg, Cerastium tenoreanum, Juncus ensifolius und Lobelia siphilitica; for Vienna even 12 species and 1 subspecies: Achnatherum calamagrostis, Catapodium rigidum, Cladium mariscus, Clematis tangutica, Eragrostis virescens, Hypericum calycinum, Nassella tenuissima, Panicum miliaceum subsp. agricola, Panicum virgatum, Potentilla micrantha, Schoenoplectus pungens, Torilis nodosa, Verbena bonariensis. Recent confirmations of species that were missed in a Federal State for a long time succeeded with Carex heleonastes in Lower Austria und with Helosciadium repens in Burgenland. Further confirmations concern several alien species from Lower Austria, Vorarlberg and Vienna. Due to better taxomic understanding, Cerastium subtetrandrum and Festuca psammophila subsp. dominii are validated as members of the native flora of Austria. Several other remarkable records are presented as well. Finally, some – partly certain, partly supposed – cases of deliberate introductions concerning the Donau-Auen National Park are treated: Gladiolus palustris (new for Vienna), Anthericum ramosum and Iris pumila (new for Lobau). uploaded for Neilreichia by Plazi
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Aleffi, Michele, Annalena Cogoni, Carmine Colacino, et al. "Contribution to the knowledge of the bryophyte flora of the Lucanian side of the Pollino National Park." Italian Botanist 18 (December 20, 2024): 225–43. https://doi.org/10.3897/italianbotanist.18.143739.
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The findings of the Bryological Excursion conducted by the Working Group for Bryology of the Italian Botanical Society from 5 to 8 July 2012 on the Lucanian side of the Pollino National Park are presented herein. The objective of the excursion was to address the paucity of knowledge regarding bryological diversity in understudied regions of Italy. This endeavour led to the discovery of 150 species of bryophytes, 41 of which are novel to the Basilicata region. For each species, the collection location and growth substrate are indicated. Some of the species are of floristic and phytogeographic interest. This is a group of boreal and arctic-alpine species, previously documented only in the Alpine arc and at the highest peaks of the Apennine chain. The Pollino massif represents the southernmost limit of their range. It is worth noting the presence of Brachydontium trichodes, Schistidium papillosum, Tortula laureri and Herzogiella striatella. Another noteworthy assemblage of species is found on the ophiolitic rocks of Timpa delle Murge. The distinctive ecological characteristics of this substrate result in the evolution of species that are exclusive to these environments. The ecological characteristics and distribution of each species within these two groups are described in detail.
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Pott, Christian, Michael Krings, and Hans Kerp. "The Carnian (Late Triassic) flora from Lunz in Lower Austria: Paleoecological considerations." Palaeoworld 17, no. 3-4 (2008): 172–82. http://dx.doi.org/10.1016/j.palwor.2008.03.001.
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Király, Gergely, and Michael Hohla. "Contributions to Rubus sect. Corylifolii (Rosaceae) in the Eastern Alps and adjacent regions." Neilreichia 12 (December 31, 2021): 145–82. https://doi.org/10.5281/zenodo.5818985.
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On the basis of comprehensive fieldwork and herbarium studies, this paper provides the revision of 15 species in <em>Rubus </em>sect. <em>Corylifolii </em>(Rosaceae) in the Eastern Alps and adjacent regions (Austria, western Hungary and northern Slovenia), including an iconography as well as con­tributions to taxonomy, distribution and ecology for each species. For <em>Rubus dollnensis</em>, <em>R. sendtneri </em>and <em>R. sylvulicola</em>, a full list of revised records in the area is given: the first one occurs in Lower and Upper Austria, the second one in Upper Austria, and the last one in Salzburg, Tyrol, and Upper Austria. <em>Rubus fasciculatus </em>is reported here for the first time from Burgenland, Upper Austria and Vienna, moreover from western Hungary and Slovenia. <em>Rubus franconicus </em>had formerly a single published record from Austria (Upper Austria); it is presented here as a floristic novelty for Bur­genland and Carinthia, and, in addition, for Hungary and Slovenia. <em>Rubus holosericeus </em>is reported as a novelty for Burgenland, and at the hitherto easternmost localities of its range in Hungary. An inventory of revised localities of <em>R. kletensis </em>in Austria is presented: it occurs in the Innviertel and the Mühlviertel (Upper Austria). <em>Rubus mollis </em>is new for Burgenland and Vienna; its occurrence in Styria has been corroborated by an herbarium voucher. <em>Rubus macrostemonides </em>is recorded at its second locality in Austria (S Upper Austria), which lies 50 km east of the type locality, near Salz­burg. <em>Rubus orthostachys </em>is reported for the first time from the Eastern Alps and adjacent regions (Styria and Upper Austria in Austria, and western Hungary S of Lake Neusiedl). A second locality (at the same time, the only current one) of <em>R. pruinosus </em>is confirmed in Austria (Upper Austria), at the southern edge of the whole range. A novelty for the flora of Austria is <em>R. scabrosus</em>, a widespread west-central European species, recorded also on the southernmost margin of its range, at two locali­ties in the Innviertel (Upper Austria). The status of <em>R. semitomentosus </em>was investigated in Carinthia and Lower Austria: in lack of supporting material, its occurrence in Carinthia can only be assumed. For <em>R. suevicola</em>, the first reliable data are presented from Vorarlberg, and a new locality (the very southernmost one) is reported from E Carinthia. <em>Rubus viridilucidus </em>(a regional species from central Germany) was found far from its locus classicus in Austria (Upper Austria: Innviertel).
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Billensteiner, Angelika, and Harald Niklfeld. "Identification of regional chorotypes of vascular plants by means of hierarchical cluster analysis based on Floristic Mapping of Austria." Neilreichia 15 (April 30, 2025): 45–74. https://doi.org/10.5281/zenodo.15196657.
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This study aims to identify regional chorotypes (floristic elements) of the vascular flora of Austria using quantitative methods. The analysis is based on more than 2 million validated observation records of the project “Floristic Mapping of Austria” and was performed by hierarchical cluster analysis. Species of similar distribution were grouped into clusters and for each cluster of similar species, the main area of distribution was identified and the binding degree of each assigned species was evaluated. A subsequent characterisation of the revealed regional chorotypes was performed by calculating statistical key figures and other parameters. At the cutlevel of 30 identified clusters, the assigned species of 24 clusters showed a satisfactory degree of binding to the clusters. The chorotypes are presented and visualised.
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Aleffi, Michele, Annalena Cogoni, Carmine Colacino, et al. "Contribution to the knowledge of the bryophyte flora of the Lucanian side of the Pollino National Park." Italian Botanist 18 (December 20, 2024): 225–43. https://doi.org/10.3897/italianbotanist.18.143739.
Full textAbstract:
The findings of the Bryological Excursion conducted by the Working Group for Bryology of the Italian Botanical Society from 5 to 8 July 2012 on the Lucanian side of the Pollino National Park are presented herein. The objective of the excursion was to address the paucity of knowledge regarding bryological diversity in understudied regions of Italy. This endeavour led to the discovery of 150 species of bryophytes, 41 of which are novel to the Basilicata region. For each species, the collection location and growth substrate are indicated. Some of the species are of floristic and phytogeographic interest. This is a group of boreal and arctic-alpine species, previously documented only in the Alpine arc and at the highest peaks of the Apennine chain. The Pollino massif represents the southernmost limit of their range. It is worth noting the presence of <i>Brachydontium trichodes</i>, <i>Schistidium papillosum</i>, <i>Tortula laureri</i> and <i>Herzogiella striatella</i>. Another noteworthy assemblage of species is found on the ophiolitic rocks of Timpa delle Murge. The distinctive ecological characteristics of this substrate result in the evolution of species that are exclusive to these environments. The ecological characteristics and distribution of each species within these two groups are described in detail.
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Kovar-Eder, Johanna, Zlatko Kvaček, Vasilis Teodoridis, Petr Mazouch, and Margaret E. Collinson. "Flora, vegetation and climate assessment of the Early/Middle Miocene Parschlug flora indicates a distinctly seasonal climate." Fossil Imprint 78, no. 1 (2022): 80–144. http://dx.doi.org/10.37520/fi.2022.005.
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The late Early/early Middle Miocene flora from Parschlug (Styria, Austria) is famous for its numerous specimens and high diversity. Some taxa previously described are revised here and 42 new angiosperm leaf morphotypes/taxa are described. The Climate Leaf Analysis Multivariate Program (CLAMP) is applied to assess the palaeoclimate. An update of the tool to assess the most suitable modern climate CLAMP calibration dataset is introduced. The Integrated Plant Record (IPR) vegetation analysis, assessing the most likely major vegetation type represented by a fossil flora, and similarity approaches Drudges 1 and 2, indicating the most similar modern vegetation proxies, had been previously applied to data from Parschlug. Both are again applied here on the enlarged floristic spectrum. The results indicate “sclerophyllous subhumid forest” as the most likely major zonal vegetation type for Parschlug and European vegetation, namely “Thermophilous mixed deciduous broadleaved forests”, distributed today in southern and southeastern Europe, as the most similar modern vegetation. The climate for Parschlug, inferred from CLAMP and the climate in the region of the modern vegetation proxies, indicates distinct seasonality in precipitation and temperature.
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Bagniuk. "VOLYNO-PODILLYA THE WORLD OF FLORA." Scientific bulletin of KRHPA, no. 10 (2018): 207–8. http://dx.doi.org/10.37835/2410-2075-2018-10-22.
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A detailed floral portrait of the Volyn-Podilskyi region of Ukraine was drawn by the participants of the International scientific-practical conference "Plant introduction in Volyn-Podillya: science, education, art of landscape formation, production", which was held at the Ternopil Oblast Communal Institute of Postgraduate Education academy them. Taras Shevchenko. The co-organizers of the scientific forum were Kremenetsky Botanical Garden, Ternopil National Pedagogical University. Volodymyr Hnatyuk, Vinnytsia National Agrarian University, National Forestry University of Ukraine (Lviv), State Ecological Academy of Postgraduate Education and Management, National University of Life and Environmental Sciences of Ukraine, as well as foreign scientific and educational institutions: University of Natural Sciences and Sciences in Lviv, Austria. In addition to representatives of other institutions, the Organizing Committee of the Conference, headed by the Director of Ternopil OKIPPO OM Petrovsky, included the Candidate of Biological Sciences, Associate Professor of the Department of Biology, Ecology and Methods of Teaching them. Taras Shevchenko NI Tsitsyura and a former employee of our educational institution, and now Doctor of Biological Sciences, Head of the Department of Content and Methods of Educational Subjects of Ternopil OIPPO, Professor VM Chernyak.