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Coscinodon humilis was described by Milde from mica schist in the Passeiertal NE Merano (formerly southern Tyrolia in Austria, hence cited as Austria by Greven 1995. now Alto Adige in Italy). Limpricht (1890) regarded it as “verkümmerte Form von C. cribrosus”, and although Mönkemeyer (1927) still cited it, the species got forgotten by the time. Thus the species was no more mentioned by Corley et al (1981) in the European checklist and therefore no more included by Frey et al. (1995) in the German edition of the “Moos- und Farnpflanzen Europas”. Greven (1995) re-established the species in his treatment of Grimmia (and related genera) in Europe. Therefore Frey et al. (2006) included the species, which was, however, not keyed out. Finally Hill et al. (2006) listed it again in the new European checklist as a good species.
The identity of Braunia alopecura (Brid.) Limpr. with Braunia secunda (Hook.) Bruch & Schimp.
(2013)
Braunia alopecura, originally regarded as species endemic to the Southern Alps, later known in addition from the the Cape Verde Islands and recently reported from the Indohimalaya, has revealed to be identical with the neotropical Braunia secunda. This is another case of an American species in the Southern Alps and in Europe in general, as well as an example of possible long distance dispersal.
The location of Ticino in the southern Alps with an altitudinal range from 200 to more than 3000 m generates a high biodiversity of bryophytes, however, in addition, a mixture of mediterranean elements (caused by mild temperatures), atlantic elements (caused by high precipitation) and especially insubrian elements (confined to the Southern Alps) has attracted many famous bryologists over the past 150 years and make this region to a real bryological hot spot. Six of the 7 insubrian species are mainly distributed in North America. Their presence in the Southern Alps is correlated with a certain geological formation and their origin is not clear.
Thalloid liverworts with unistratose thallus margins are easily determined as Aneura maxima, which shall be identified by this character. However, forms of Pellia epiphylla and P. endiviifolia grown under humid conditions can have an unistratose undulate thallus margin and thus confused with the latter. Pellia species can, however, be distinguished from Aneura by the presence of slime hairs vz. slime papillae, which are described and illustrated here.
Hot spots are characterized by the occurrence of „hot“ species, rare, endangered, phytogeographically (for example highly disjunct) or ecologically interesting species (for example heavy metal species). The Apuanian Alps (ital. Alpi Apuani) are a place of extraordinary botanical and also bryological interest. Although situated far from the west coast of Europe, many atlantic species are found there, which have isolated occurrences and show up next in Asturias, Macaronesia. Ireland or Scotland. Representative of the oceanic element in the bryoflora are Dumortiera hirsuta, Lejeunea lamacerina, Lophocolea fragrans, Plagiochila exigua, P. bifaria, Saccogyna viticulosa, Harpalejeunea ovata and Marchesinia mackaii, supplemented by ferns such as Trichomanes speciosum and Hymenophyllum tunbrigense (Cortini-Pedrotti et al. 1992). Reasons for the presence of such species in Italy are the extraordinary climatic conditions. Situated directly along the Meditrerranean Sea, the climate is mild and due to depressions in the gulf of Genova, the rain is caught by the mountains resulting in a high precipitation of about 1400 at the foot of the region and more than 3000 mm in the summit region. This does, however, not explain whether these species are relics from the Tertiary or dispersed from the W-coast of Europe after the Pleistocene glaciations.
Dicranodontium didymodon, a species described from the Himalaya was recently reported from Spain. It has been distinguished from D. denudatum by a smooth subula. A reexamination of the type of this species revealed no additional characters which would support the recognition of a separate species. Therefore D. didymodon is synonymised with D. denudatum. The specimen from Spain is referred to D. denudatum var. glabrum, which differs from D. didymodon by larger stature and lack of brood leaves.
In the past, many bryophyte species were regarded as endemic to the Alps. Herzog listed more than 70 examples. Many of them are micro-endemisms or merely alpine forms of other species (Leptodontium styriacum) and not of taxanomic value, or considered as relics from the last interglacial period, although the Alps were covered by glaciers during the last ice age, which made a survival almost impossible, especially for forest species and epiphytes. Several of these species turned out to occur as well in Asia (Distichophyllum carinatum) or were described from there under a different name (Tayloria rudolphiana as T. delavayi). So far, one important species, Brotherella lorentziana, remained unsolved. A recent study revealed that this species is present in Asia, where it is known as B. henonii. At the present state of knowledge, five species namely Herbertus sendtneri, Riccia breidleri, Barbula bicolor, Marsupella ramosa and Trochobryum carniolicum must still be considered as endemic.
During the past years, Fontinalis specimens with round, concave leaves were collected in Germany and Spain, which were named as F. antipyretica var. mollis. A comparison with the type of F. mollis revealed that they are not identical and accordingly are described as new variety, F. antiypretica var. rotundifolia.
Fontinalis antipyretica var. mollis is recorded for Spain, which differs by orbicular, not keeled leaves. The presence in the same tufts together with var. antiypretica reveals that it is a somatic mutant of the latter. A form of Pellia epiphylla was observed which has wide thallus margins of unistratose cells resembling those of Aneura maxima. A Campylopus was collected resembling C. flexuosus but with ventral stereids in transverse section of the costa. It is described as C. flexuosus var. anomalus. An (unsuccessful) attempt has been made to find the locality in which P. Allorge found Campylopus setifolius for the only time in the Iberian Peninsula. The bryophilous fungus Octosporella jungermanniarum is reported as new to Spain. Dicranodontium didymodon, known before from the Himalaya and western China, is reported as new to Europe.
Eight specimens of bryophytes from Baltic amber are described and illustrated, five mosses and three hepatics. The genus Grimmia as well as Brothera leana are reported for the first time as fossils. The mosses Ctenidium capillifolium, Atrichum groehnii and Hypnodontopsis fossilis as well as the hepatics Cylindrocolea dimorpha and Scapania hoffeinsiana are reported repeatedly. The hepatic Spruceanthus polonicus is recorded the second time and photographs are presented for the first time. In addition, a haplolepideous moss capsule as well as a unknown apparently pleurocarpous moss are illustrated.
Since 150 years, the surroundings of Meran in the Etsch valley (Prov. Alto Adige (Südtirol), Italy) are known as an extraordinary place for rare bryophyte species. It is an attraction for bryologists, who collect species, which are found in Europe only in a few places in the southern Alps. The region is especially well known by the fieldwork of Julius Milde, who stayed there 2 years and described some species as new. In spite of the bryological importance of this region, descriptions of this area as well comments on the phytogeographical background seem to lack.
Leptodontium styriacum shall be distinguished from the closely related L. flexifolium by the frequent occurrence of gemmae, leaves ending in a hyaline cell and larger laminal cells. A critical evaluation of these characters revealed that these differences are obsolete. Therefore both species are synonymised with the result, that L. flexifolium has a disjunct range between the oceanic parts of Europe and the Alps, a distribution pattern also found in several other species.
Scopelophila cataractae, a species on heavy metal rich substrates, was first recorded for Europe in 1967 from Britain and subsequently recorded from many localities contaminated with heavy metal especially around zinc works. It was found in Germany on schist-walls nearby mines from the nineteenth century. This could indicate that the species was present in Europe already prior to 1967 but overlooked. Records even from solid rock nearby mines suggest a status as native species, however, the species had not been observed in the inrtensively floristically studied region before 1870.
Based on collections of the author in February and March 2012, Notothylas breutelii, Syzigiella perfoliata, Campylopus lamellinervis. as well as the genus Riccia are reported as new to the Dominican Republic. Sixteen new provincial records are given. Updated and revised lists of the mosses of the Dominican republic as well as the province of La Plata are given.
The habitat as well as the unicellular thallus margins of Aneura maxima lead to the assumption that this species could be a hygromorphosis of A. pinguis. Therefore specimens of A. pinguis were cultivated in water. Even after four months the multicellular thallus margins were retained, which proved to be a stable character to separate A. pinguis from A. maxima. Therefore plants even with a small unistratose border, which are attributed to aquatic forms of A. pinguis, may belong to A. maxima. It is supposed that A. maxima was overlooked in Europe but regarded as aquatic forms of A. pinguis named as fo. rivularis. Such plants show unicellular thallus margins and are regarded as hygrophytic form of A. maxima. The presence viz. absence of an unicellular thallus margin seems to be a sufficient character to separate both species. The discussion about the width of the unistratose thallus margin is useless because the type of A. maxima has only 2-4 rows of unicellular cells and not 6-12 or more as attributed by European hepaticologists. This raises doubts whether the European material is identical with A. maxima rather with A. pellioides from Japan.
Germinating tests with bryophytes were undertaken with three moss species and two hepatic species. For the first time these tests were performed with aquaceous extracts of bryophytes in contrast to previous studies in which seeds were directly placed on moist bryophytes. First tests showed an inhibition of the germination rate in 3 species but an increase of the germination in one species. A second study revealed that aquaceous as well as alcoholic extracts in high concentrations inhibited the growth of cress, highly diluted extracts promoted the growth. Other authors found either only germination promoting effects or both, promoting and inhibiting effects. Experiments with compounds extracted from bryophytes cited in the literature had only growth inhibiting effects. Brachythecium rutabulum revealed growth inhibiting effects in a previous but growth promoting effects in this study. The conflicting results are hard to explain and should stimulate further more detailed studies. They maybe due to various combinations of different concentrations of bryophyte extracts, different bryophyte species, different pH and different seeds but also contamination by dust, soil, bacteria and fungi .
Plants variable in size and appearence, from a few mm to more than 10 cm tall, in loose to dense tufts. Stems erect, simple, rarely branched, radiculose, sometimes densely tomentose; rhizoids reddish-brown to whitish. Leaves erect-patent, sometimes curled when dry or falcate (sometimes erect and falcate expressions in the same species), short to longly lanceolate, often subulate; margins entire or serrate at leaf tips; costa single, percurrent to short excurrent, sometimes hyaline excurrent, filling 1/6 to 4/5 of leaf width, in transverse-section with median deuter cells and dorsal stereids, rarely hyalocysts, ventrally either stereids or more rarely hyalocysts; laminal cells usually smooth, occasionally bulging mammillose, cell walls smooth; alar cells differentiated or not, when distinct, hyaline or reddish brown, inflated, thin-walled or incrassate, basal laminal cells mostly rectangular, thin-walled or incrassate, occasionally pitted, upper laminal cells quadrate to rectangular or oval, leaf border present in some taxa. Vegetative propagation by microphyllous branches, deciduous leaves or stem tips, or anisophyllous brood leaves in the axils of the upper leaves. Dioicous or autoicous. Perichaetia terminal, or occasionally pseudolateral by stem innovations, perichaetial leaves often different in shape, from sheathing base subulate. Seta mostly elongate (1-4 cm), rarely short (<1 cm) or almost absent, erect, in few genera flexuose, cygneously curved and twisted. Capsule immersed to more commonly exserted, inclined to suberect or erect, symmetric to asymmetric, short long-cylindrical to ovoid-cylindrical or ovoid,, smooth or furrowed when dry and empty; stomata present or absent; annulus present or absent. Operculum conical to long-rostrate. Peristome single, teeth 16, mostly divided 1/2 or more toward base, vertically striate below, distally papillose to papillose throughout. Calyptra cucullate, smooth, naked, base entire or ciliate. Spores almost smooth to coarsely papillose.