TY - JOUR A1 - Trávníček, Bohumil A1 - Meierott, Lenz A1 - Žíla, Vojtĕch T1 - Beiträge zur Gattung Taraxacum in Bayern T1 - Contribution to the genus Taraxacum in Bavaria JF - Forum Geobotanicum N2 - Eine Reihe mehrtägiger Suchexkur-sionen / Transekte in verschiedene Regionen Bayerns in den Jahren 2011 bis 2014 waren der Gattung Taraxacum gewidmet. Unter den gesammelten und beobachteten Arten ist Taraxacum broddesonii (sect. Ruderalia / Taraxacum) neu für Deutschland. Neu für Bayern sind Taraxacum fusciflorum, marklundii, spiculatum (sect. Hamata) und Taraxacum acroglossum, atroviride, clarum, floccosum, freticola, glossodon, hemicyclum, homoschistum, infuscatum, intumescens, lacinulatum, leucopodum, lundense, ottonis, pallidipes, praestabile, pseudoretroflexum, pulverulentum, saxonicum, sellandii, sundbergii, uncidentatum, uniforme, violaceinervosum (sect. Ruderalia / Taraxacum). Taraxacum lojoënse wird als ältester und korrekter Name für T. lippertianum und T. matricium und wahrscheinlich auch für T. ampelophytum und T. debrayi angesehen. Seltenere Arten sind abgebildet. N2 - Several excursions in selected regions of Bavaria were undertaken in the years 2011-2014 to broaden our knowledge of the genus Taraxacum in Bavaria. Among the observed and collected species Taraxacum broddesonii (sect. Ruderalia / Taraxacum) is new for Germany, and the following species are new for Bavaria: Taraxacum fusciflorum, marklundii, spiculatum (sect. Hamata) and Taraxacum acroglossum, atroviride, clarum, floccosum, freticola, glossodon, hemicyclum, homoschistum, infuscatum, intumescens, lacinulatum, leucopodum, lundense, ottonis, pallidipes, praestabile, pseudo-retroflexum, pulverulentum, saxonicum, sellandii, sundbergii, uncidentatum, uniforme, violaceinervosum (sect. Ruderalia / Taraxacum). Taraxacum lojoënse is accepted as the oldest and correct name for T. lippertianum and T. matricium and probably also for T. ampelophytum and T. debrayi. The more remarkable and rare species are depicted by herbarium specimen. KW - Taraxacum KW - Bayern KW - Kuhblume KW - Löwenzahn KW - Kettenblume KW - Bayern KW - Bavaria KW - dandelion Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-126782 UR - http://www.forum-geobotanicum.net/articles/vol_6-2012/travnicek_taraxacum/Taraxacum-Bayern-FG-6-S20-49-2015.pdf SN - 1867-9315 VL - Vol. VI ER - TY - JOUR A1 - Gottschlich, Günter T1 - Hieracium rotundatum subsp. silvae-bavaricae, eine neue Hieracium-Sippe aus dem Bayerischen Wald (Deutschland) T1 - Hieracium rotundatum subsp. silvae-bavaricae, a new Hieracium taxon from the Bavarian Forest (Germany) JF - Forum Geobotanicum N2 - Hieracium rotundatum subsp. silvae-bavaricae is described as new for science and illustrated. The new subspecies belongs to a group of species (H. rotundatum, H. transylvanicum) whose main distribution is in the Balkans. The changeful nomenclatural history of the species name is described. Diagnostic features to distinguish the growth habit-similar species H. murorum, H. rotundatum and H. transylvanicum are discussed. Particular attention is drawn to the importance of the development of the basic leaf cycle. Contrary to previous knowledge, the northwestern distribution limit of H.rotundatum extends now to southeastern Bavaria. During the search for H. rotundatum a morphologically conspicuous subspecies of H. rotundatum could be detected, which is described here as new. N2 - Hieracium rotundatum subsp. silvae-bavaricae wird als neu für die Wissenschaft beschrieben und abgebildet. Die neue Unterart gehört zu einem Formenkreis von Arten (H. rotundatum, H. transylvanicum), dessen Hauptverbreitung auf dem Balkan liegt. Die wechselvolle nomenklatorische Geschichte des Artnamens wird nachgezeichnet. Diagnostische Merkmale zur Unterscheidung der in der Wuchsform ähnlichen Arten H. murorum, H. rotundatum und H. transylvanicum werden diskutiert. Dabei wird auf die Bedeutung der Ausbildung des Grundblattzyklus besonders hingewiesen. Entgegen bisheriger Kenntnis reicht die nordwestliche Verbreitungsgrenze von H. rotundatum nun bis Südost-Bayern. Bei der Suche nach H. rotundatum konnte auch eine morphologisch auffällige Unterart von H. rotundatum nachgewiesen werden, die hier als neu beschrieben wird. KW - Germany KW - Bavaria KW - new subspecies KW - Hieracium KW - Habichtskraut KW - Korbblütler Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-327145 UR - http://forum-geobotanicum.net/articles/vol_11-2023/Gottschlich_H-silvae-bavaricae_pp8-14/FG---Gottschlich_H-silvae-bavaricae.pdf SN - 1867-9315 VL - 11 ER - TY - JOUR A1 - Dunkel, Franz T1 - Lectotypisierung von Ranunculus puberulus W. Koch – eine verkannte Art aus dem Ranunculus auricomus-Komplex N2 - Die Beschreibung von Ranunculus puberulus W. Koch erfolgte bereits 1933. Walo Koch bestimmte in der Folge eine Vielzahl von Belegen zum Teil deutlich verschiedener Taxa als R. puberulus. In Übereinstimmung mit den Arbeiten von Borchers-Kolb 1985 und Brodtbeck 1988 wird unter Hinzuziehung der publizierten Diagnose ein Lectotypus aus der Originalsammlung von Kummer & Koch von Hilzingen, Baden-Württemberg, ausgewählt und abgebildet. Anhand von rezenten Aufsammlungen an der Typuslokalität wird R. puberulus nach inzwischen standardisierten Kriterien charakterisiert und dargestellt. R. puberulus ist durch eine feine unregelmäßige Zähnung der Schlussblätter auffällig und stellt im Gegensatz zur weit verbreiteten Auffassung einen Endemiten des Hegau im südwestlichsten Deutschland dar. Insgesamt sind zur Zeit nur zwei Populationen bekannt, so dass für die Art zumindest eine starke Gefährdung anzunehmen ist. N2 - Ranunculus puberulus was described by Walo Koch as early as 1933. Consequently, he identified a multitude of specimens obviously belonging to different taxa as R. puberulus. In concordance with the opinion of Borchers-Kolb (1985) and Brodtbeck (1988) a lectotype was chosen and depicted from the specimens of Hilzingen, Baden-Württemberg, collected by Kummer & Koch in 1928. Recent collections of the type locality were used to characterise R. puberulus in detail. A fine irregular dentated leaf edge of the final basal leaves is striking. In contrast to the prevailing opinion, R. puberulus is not a widespread species but a local endemic of the Hegau in southwestern Germany. Currently, there are only two populations known and R. puberulus is at least severely endangered. KW - Ranunculus puberulus KW - Lectotypus KW - lectotype KW - taxonomy KW - Taxonomie Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-108834 UR - http://www.forum-geobotanicum.net/articles/vol_6-2012/dunkel_r_puberulus/2015_Dunkel_R_puberulus.pdf SN - 1867-9315 ER - TY - JOUR A1 - Gallo, Lorenzo T1 - Nomenclatural adjustments and typifications in the genus Phedimus (Crassulaceae) JF - Forum Geobotanicum N2 - This paper deals with the taxonomical position and the nomenclature of two taxa belonging to the genus Sedum (Crassulaceae), today treated as Phedimus, namely Sedum middendorffianum Maxim var. diffusum Praeger and Sedum oppositifolium Sims. The correct taxonomical application of names is based on the nomenclatural types designated here. KW - lectotype KW - neotype KW - Phedimus middendorffianus, var. diffusus KW - Phedimus spurius subsp. oppositifolius KW - Sedum oppositifolium Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-206347 UR - http://www.forum-geobotanicum.net/articles/vol_9-2020/gallo-phedimus/gallo-phedimus.pdf SN - 1867-9315 VL - 9 ER - TY - JOUR A1 - Haveman, Rense T1 - Phytosociological notes on hedges in South Ayrshire, Scotland JF - Forum Geobotanicum N2 - On the basis of four relevées of hedges around Straiton en Dailly in South Ayrshire, Scotland, some features of hedges are discussed. On the basis of the brambles, the vegetation of these hedges can be assigned to the Pruno-Rubion sprengelii, which comprises the bramble scrubs of circumneutral and nutrient rich soils in West Europe (Haveman et al. 2017, Haveman & de Ronde 2019). Until now, this alliance was thought to be restricted to the northwestern edge of the European continent, but based on these relevées and the known distribution area of Rubus nemoralis and Rubus polyanthemus, both characteristic for the Pruno-Rubion sprengelii, large parts of North England and Scotland have to be included in the distribution area of the alliance. The Pruno-Rubion sprengelii is optimally developed in rather narrow structures, like hedges, which are pruned every year. Here, brambles and herbs alike can grow with and under the shrubs, facilitated by the light that reaches large parts of the ground. Where the economic base of hedges perishes, they are not longer maintained, and the shrubs can grow out to their natural proportions. This changes the amount of light reaching the surface in the inner parts of the thicket, changing the competition between the species. The brambles as well as the herbs are displaced to the outer edges of the scrub, and the vegetation "dissociates" in a high-growing scrub, a fore-mantle ("cuff") with brambles, and a fringe with perennial herbs. These elements can hardly ever be assigned to the Pruno-Rubion anymore. The Pruno-Rubion sprengelii in optima forma is a scrub in which the three elements (shrubs, brambles, and herbs) grow closely intertwined. This is rarely found in natural landscapes, and thus the alliance is a typical element of the old farmer landscape. What is more: the typical species of the alliance, like Rubus nemoralis and R. polyanthemus, could only evolve after the landscape was opened by farmers in the last six millennia (Matzke-Hajek 1997), giving way to Rubus ulmifolius to expand its distribution area. This caused an explosion of hybrids which stabilised through apomixis into the wealth of Rubus species inhibiting the West European landscape nowadays (Sochor et al. 2015). Many of these species have their original home in a man-made landscape. Therefore, the Pruno-Rubion sprengelii can be characterised as a "farmers alliance" pur sang. KW - agricultural landscape KW - management KW - Pruno-Rubion sprengelii KW - Rhamno-Prunetea KW - vegetation KW - Brombeere Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-312634 UR - http://forum-geobotanicum.net/articles/vol_11-2023/haveman_hedges_pp1-7/FG---haveman-hedges.pdf SN - 1867-9315 VL - 11 ER - TY - JOUR A1 - Dunkel, Franz G. T1 - Ranunculus sarntheinianus Dunkel, spec. nova, eine neue Art aus dem Ranunculus-auricomus-Komplex – seit 135 Jahren im Oberen Inntal bei Innsbruck T1 - Ranunculus sarntheinianus Dunkel, spec. nova, a new species of the Ranunculus auricomus complex – for 135 years in the Upper Inn valley near Innsbruck JF - Forum geobotanicum N2 - Für das Vorkommen einer Ranunculus auricomus-Sippe im Oberen Inntal bei Innnsbuck, Nordtirol, Österreich, existieren belegte Nachweise seit 135 Jahren. Diese Sippe sammelte L. Sarnthein am 08.06.1884, J. Murr 1887 bei Flaurling. Von beiden Aufsammlungen befinden sich Belege im Tiroler Landesmuseum (Herbarium Ferdinandeum Innsbruck; IBF). Trotz Trockenlegung der Sumpfwiesen und Eutrophierung des Biotops kommt die Art noch aktuell in einem kleinen Nasswiesenrest vor. Sie wird hier als R. sarntheinianus Dunkel beschrieben, abgebildet und ihre Taxonomie wird diskutiert. Der mutmaßlich letzte Wuchsort ist vom Aussterben bedroht. Eine graphische Darstellung soll bei Artbestimmung und Auffinden neuer Wuchsorte behilflich sein. N2 - In the Upper Inn Valley close to Innsbruck, North Tyrol, Austria, a population of the Ranunculus auricomus complex is existing for more than 135 years. On the 8 Apr 1884, L. Sarnthein collected the taxon near to the municipality of Flaurling, J. Murr in 1887. There are specimens of both collections at the Tiroler Landesmuseum (Herbarium Ferdinandeum Innsbruck; IBF). Although deterioration of the biotope took place by drainage of the swamp meadows and eutrophication of the biotope, a small population still exists in a remnant of a moistsoil meadow. The taxon is described and depicted here as Ranunculus sarntheinianus Dunkel. Its characters and taxonomy are discussed. The probably last site of R. sarntheinianus is critically endangered, and the species faces risk of extinction. KW - Ranunculus sarntheinianus KW - Ranunculus auricomus KW - Hahnenfuß KW - Österreich KW - Nordtirol Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-198183 UR - http://forum-geobotanicum.net/articles/vol_9-2020/dunkel-ranunculus_sarntheinianus/dunkel-ranunculus_sarntheinianus.pdf SN - 1867-9315 VL - 9 ER - TY - JOUR A1 - Dunkel, Franz G. T1 - Sieben neue Arten aus dem Schweizer Ranunculus auricomus-Komplex T1 - Seven new species from the Swiss Ranunculus auricomus Complex JF - Forum Geobotanicum N2 - Die Arten des Schweizer Ranunculus-auricomus-Komplexes sind nur zu einem Teil bekannt. Zur vollständigeren Erfassung des Komplexes wurden Exkursionen in die südwestliche und östliche Schweiz unternommen. Es wurden sieben neue Arten entdeckt, die hier beschrieben und abgebildet sind. Ihre Taxonomie und Gefährdung wird diskutiert. R. chalarocarpus W. Koch ex Dunkel ist bereits bei Koch provisorisch erwähnt, R. clavicornis Dunkel wird nun gültig beschrieben. Beide Arten sind aufgrund ihres Vorkommens in Auwäldern und feuchten Laubwäldern stark gefährdet, R. clavicornis sogar fast ausgestorben. Der neu beschriebene R. thurgoviae kommt im Osten der Schweiz vor (Kanton Thurgau). Die bislang bekannte Verbreitung von R. allobrogorum Dunkel, R. crenulatus Dunkel, R. genevensis Dunkel und R. lineatus ist fast vollständig auf den Kanton Genf beschränkt. Die Arten des Ranunculus auricomus-Komplexes sind ein sensibler Indikator für Veränderungen der Vegetation und Umwelt und sollten diesbezüglich deutlich mehr Gewicht bekommen. N2 - The Swiss Ranunculus auricomus complex is still not completely known. To get a rather complete overview of the complex, field investigations of the south-western and eastern parts of Switzerland were undertaken and revealed seven new species of the spectrum. They are described, depicted, and their taxonomy and vulnerability discussed. One species has already been provisionally mentioned by Walo Koch: R. chalarocarpus W. Koch ex Dunkel, another one is named by an illegitimate name and now called R. clavicornis Dunkel. Both occur in alluvial forests or humid broad-leaved forests on the Central plateau and, therefore, are threatened due to desiccation and eutrophication of their habitat. The newly described R. thurgoviae Dunkel occurs in the eastern Swiss canton Thurgau. The other newly described species R. allobrogorum Dunkel, R. crenulatus Dunkel, R. genevensis Dunkel, and R. lineatus Dunkel are restricted to the area of Geneva. Species of the Ranunculus auricomus complex are a sensitive indicator of environment changes and for conservation strategies should gain more importance. KW - Apomixis KW - new species KW - Ranunculus auricomus KW - Switzerland KW - Ranunculus Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-243782 UR - http://www.forum-geobotanicum.net/articles/vol_10-2021/dunkel-ranunculus_auricomus/FG---dunkel-ranunculus_2021.pdf SN - 1867-9315 VL - 10 ER - TY - JOUR A1 - Gottschlich, Günter T1 - Synopse der für Deutschland nachgewiesenen Arten und Unterarten der Gattung Hieracium s. l. (Hieracium s. str. und Pilosella), aufgeschlüsselt nach Vorkommen in den einzelnen Bundesländern T1 - Synopsis of all species and subspecies of the genus Hieracium s. l. (Hieracium s. str. and Pilosella) in Germany according to the records cited in literature for the German federal states JF - Forum geobotanicum N2 - Eine Liste der 205 Arten und 1561 Unterarten der Gattung Hieracium s. l. , die in Deutschland, aufgeschlüsselt nach Bundesländern vorkommen, wird vorgestellt. Da die meisten infraspezifischen Namen unter Hieracium publiziert wurden und um die Zahl der invaliden Namen unter Pilosella in der Liste zu minimieren, wird auf eine Aufteilung in Hieracium und Pilosella verzichtet. Durch Farbmarkierungen wird gekennzeichnet, welche Unterart ursprünglich aus einem Bundesland beschrieben wurde bzw. ob ein Syntypus aus einem Bundesland stammt. N2 - A list of 205 collective species and 1563 subspecies of the genus Hieracium s. l. detected for Germany and its federal states, is provided. As the most infraspecific taxa were described under Hieracium s.l. and to avoid too much invalid names under Pilosella in the list, a separation of Hieracium and Pilosella is remained undone. By coloured marking additional informations are given whether a subspecies is originally described from a german federal state or its name has a syntype from Germany. KW - diversity KW - Hieracium KW - Asteraceae KW - Habichtskraut KW - Korbblütler KW - Langhaariges Habichtskraut Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-198175 UR - http://forum-geobotanicum.net/articles/vol_9-2020/gottschlich-synopsis_hieracium/gottschlich-synopsis_hieracium.pdf SN - 1867-9315 VL - 9 ER - TY - JOUR A1 - Kirchmeier, Peter A1 - Meierott, Lenz A1 - Jung, Klaus T1 - Taraxacum sect. Borealia Hand.-Mazz. in den Alpen T1 - Taraxacum sect. Borealia Hand.-Mazz. of the Alps JF - Forum Geobotanicum N2 - The presence of Taraxacum microspecies of the section Borealia in the European Alps has been known from France, Suisse, Austria, Italy and Slowenia. The five known species are Taraxacum gallicum, T. handelii, T. kraettlii, T. mazzettii and T. melzerianum. From 2004 up to 2014 these localities have been visited. Detailed examinations of many collections make it possible to add characteristics and precise the descriptions and correct mistakes, eliminate ambiguities and fill gaps in the original descriptions. Numerous photos, drawings and a new determination key will make the access to the section Borealia easier. A new species of section Borealia, T. cimae-gallinae, from the mountain Hühnerspiel near Sterzing (Italy, South Tyrol) is described. The habitats of the Borealia in the alpine level are mostly gravel floors on wind-swept ridges or on summit levelings. The environment of Borealia-species is threatened by ski tourism or by the changes from global warming. N2 - Nach bisheriger Kenntnis sind aus den Alpen Vorkommen von fünf Taraxacum-Kleinarten der Sektion Borealia in Frankreich, der Schweiz, Österreich, Italien und Slowenien bekannt: Taraxacum gallicum, Taraxacum handelii, T. kraettlii, T. mazzettii und T. melzerianum. Zwischen 2004 und 2014 wurden diese Vorkommen und weitere potentielle Wuchsorte aufgesucht. Durch detaillierte Untersuchung der Vorkommen vor Ort sowie zahlreicher Belege aus mehreren europäischen Herbarien können nun Merkmale ergänzt, präzisiert und einige Fehler, Unklarheiten in den Originalbeschreibungen korrigiert und Lücken ergänzt werden. Zahlreiche Fotos und Zeichnungen sowie ein neugefasster Schlüssel sollen den Zugang zur Sektion Borealia erleichtern. Mit Taraxacum cimae-gallinae vom Hühnerspiel bei Sterzing (Italien, Südtirol) wird eine neue Art der Sektion Borealia beschrieben. Die Wuchsorte der Borealia-Arten in der alpinen Stufe sind überwiegend Schotterböden auf windgefegten Graten und Gipfelverebnungen. Diese sind derzeit sowohl durch den Ski-Tourismus als auch durch die Klimaerwärmung gefährdet. KW - Taraxacum cimae-gallinae spec. nov. KW - Taraxacum sect. Borealia KW - distribution KW - determination key KW - Agamospermy KW - Pflanzen KW - Systematik KW - alpine Taraxaca Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-347512 UR - http://forum-geobotanicum.net/articles/vol_11-2023/PK-LM-KJ_Taraxacum_pp35-56/FG---PK-LM-KJ_Taraxacum_sect_Borealia.pdf SN - 1867-9315 VL - 11 ER - TY - JOUR A1 - Zonneveld, Ben J. M. T1 - The DNA weights per nucleus (genome size) of more than 2350 species of the Flora of The Netherlands, of which 1370 are new to science, including the pattern of their DNA peaks JF - Forum Geobotanicum N2 - Besides external characteristics and reading a piece of DNA (barcode), the DNA weight per nucleus (genome size) via flow cytometry is a key value to detect species and hybrids and determine ploidy. In addition, the DNA weight appears to be related to various properties, such as the size of the cell and the nucleus, the duration of mitosis and meiosis and the generation time. Sometimes it is even possible to distinguish between groups or sections, which can lead to new classification of the genera. The variation in DNA weight is also useful to analyze biodiversity, genome evolution and relationships between related taxa. Moreover, it is important to know how large a genome is before one determines the base sequence of the DNA of a plant. Flow cytometry is also important for understanding fundamental processes in plants such as growth and development and recognizing chimeras. In the literature, DNA weight measurements are usually limited to one genus and often only locally (Siljak et al. 2010; Bai et al. 2012). In this study, however, it was decided to investigate all vascular plants from one country. This can also contribute to the protection of rare plants. This study is the first flora in the world whose weight of DNA per nucleus and peak patterns has been determined. More than 6400 plants, representing more than 2350 (sub)species (more than 90%) have been collected, thanks to the help of almost 100 volunteers of Floristisch Onderzoek Nederland (Floron). Multiple specimens of many species have therefore been measured, preferably from different populations, in some cases more than fifty. For 1370 species, these values were not previously published. Moreover, a good number of the remaining 45% are new for The Netherlands. In principle, each species has a fixed weight of DNA per nucleus. It has also been found that, especially between the genera, there are strong differences in the number of peaks that determine the DNA weight, from one to five peaks. This indicates that in a plant or organ there are sometimes nuclei with multiples of its standard DNA weight (multiple ploidy levels). It is impossible to show graphs of more than 2350 species. Therefore, we have chosen to show the peak pattern in a new way in a short formula. Within most genera there are clear differences in the DNA weights per nucleus between the species, in some other genera the DNA weight is hardly variable. Based on about twenty genera that were previously measured completely in most cases (‘t Hart et al. 2003: Veldkamp and Zonneveld 2011; Soes et al. 2012; Dirkse et al. 2014, 2015; Verloove et al. 2017; Zonneveld [et al.] 2000−2018), it can be noted that even if all species of a genus have the same number of chromosomes, there can still be a difference of up to three times in the weight of the DNA. Therefore, a twice larger DNA weight does not have to indicate four sets of chromosomes. Finally, this research has also found clues to examine further the current taxonomy of a number of species or genera. KW - DNA weight KW - Pflanzen KW - genome KW - flora KW - Netherlands Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-189724 UR - http://www.forum-geobotanicum.net/articles/vol_8-2018/zonneveld_flora-of-the-netherlands/zonneveld_flora-of-the-netherlands.pdf SN - 1867-9315 VL - 8 ER -