Archive for Bryology
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122
Since the existence of Nilgiri hills, bryophyte- the miniatures of plant kingdom play an important and crucial role in the stabilization of Blue Mountains ecology. Unlike Himalayas, the landslides were rare in the area, but with the time and changing global environment it had become a common sight. Significantly ever increasing population and vehicular traffic is the prime reason for them, to cater the need, roads are periodically broadened by cutting road sides destroying the habitat as also the inhabiting species. Bryophytes, are efficient soil binders that regulate the soil moisture and provide substrate for future plant succession. The habitat loss and nudeness of substratum gives impetus to rapid soil erosion that further enhances the problem of their very survival. The present communication provides significance of these avascular cryptogams in environmental assessment, ecological balance and their role in decreasing the pore pressure to check land slides.
129
In succession of terrestrial ecosystem, bryophytes, algae and lichens constitute the primary components. Not only phylogenetically but also physically they are related to each other, as they are also found in close association and intermixed with each other on same substratum. A chlorophycean alga Ulothrix zonata (Weber & Mohr) Kützing has been found growing as an epiphyte on moss Macromitrium sulcatum (Hook.) Brid.. The association is peculiar as the algal filaments form a close net over the surface of moss leaves and axis.
140
Bryoflora of Munsyari and Dharchula Tehsil of Pithoragarh, Uttarakhand, Western Himalayas, India
(2012)
Uttarakhand state of India comprises unique topographical conditions and hence is rich in bryophytes. In present work two Tehsils-Munsyari and Dharchula of Pithoragarh have been explored extensively to assess the bryophytic wealth of this district. A preliminary checklist has been prepared which revealed the occurrence of 51 taxa of bryophytes from this district.
119
Parson’s valley is an area explored for the first time in Indian Bryology; it is situated in Nilgiri hills (Western Ghats). The region is very conducive for the growth of liverworts and it is evident by the present study of recent collections from this area in which 27 taxa (under 12 genera and 5 families) of liverworts have been recorded, of which few are new to Nilgiri hills as well as south India.
134
A preliminary study has been made for Borail Wild Life Sanctuary, Assam, India. A total of 25 species of liverwort (Marchantiophyta) and one species of hornwort (Anthocerotophyta) have been enumerated. Of these, Frullania berthoumieuii is new to India, Caudalejeunea reniloba new to North East India, 13 species new to Assam and 11 species are reported for the first time from Borail WLS. Folioceros paliformis is rediscovered after its type.
124
Manche besonders artenreiche Lokalitäten mit seltenen Arten wurden von Bryologen über die Jahrhunderte immer wieder aufgesucht. Die dort gefundenen Arten haben auch Eingang in lokale Florenwerke gefunden. Am Nordrand des Sauerlandes in Nordrhein-Westfalen liegen eine ganze Reihe von solchen hot spots wie der Ramsbecker Wasserfall, die Meilerlegge bei Ostwig, die Velmedahöhle oder die Bruchhauser Steine. Will man sich aber über das Arteninventar eines solcher Gebiete orientieren, vermisst man zumindestens zusammenfassende Artenlisten wenn nicht gar Gebietsmonographien. Da hilft es nur, die Floren durchzusehen und die Arten herauszuziehen, in diesem Fall die Mooflora von Westfalen (Koppe 1935-49. Die Nachträge sind nicht mehr so interessant, da darin nur Kleinarten und unwesentliche Nefunde hinzukommen, die Funde sensationeller Arten aber bereits schon im 19. Jahrhundert gemacht wurden). Dabei reicht es, wenn das einmal gemacht wird und nicht jeder, der solch ein Gebiet besuchen möchte, diese Arbeit von neuem leisten muss. Es gibt sicherlich fähigere Bryologen als den Autor, welche die Gebiete besser kennen, was aber nichts nutzt, wenn dieses Wissen in den Köpfen schlummert und nicht verfügbar ist. Daher sind an dieser Stelle solche Artenlisten für einige solcher Gebiete am Nordrand des Sauerlandes zusammengestellt, die der Autor sich für eine Exkursion im Herbst 2011 erstellt hat. Hier haben wir besondere Voraussetzungen für ein Artenreichtum: das Gebiet bist geologisch sehr divers. Das Grundgebirge besteht aus devonischen Schiefern, das ganze Gebiet wird aber von einem schmalen Kalkriff durchzogen, und zusätzlich gibt es plutonitische Intrusionen von Diabas und Quarzporphyr. Mit Höhen von um 450 m haben wir zudem schon entsprechende Niederschläge und Feuchtigkeit. Daher wurde das Gebiet schon frühzeitig von Bryologen besucht, angefangen von H. Müller Lippstadt über Winter, Grebe, Brockhausen, Mönkemeyer bis zu den Gebrüdern Koppe. In letzter Zeit war die Moosflora der Massenkalkfelsen des nördlichen Sauerlandes Thema der Dissertation von Carsten Schmidt (2004), von dem der erste Teil in Buchform veröffentlicht ist. Das Buch ist aber nach Arten gegliedert, lässt somit auch die hier gewünschten Gebietsbeschreibungen vermissen, die man gerne hätte, wenn man solch eine Lokalität aufsucht.
147
Nachdem Sphagnum tenerum Sull. & Lesq. im 19. Jahrhundert aus Nordamerika beschrieben worden war, wurde die Art von Dismier (1928) sowie Paul (1924, 1931) als Synonym zu C. acutifolium (nemoreum, capillifolium) gestellt. Seitdem wurde das Taxon in Europa kaum mehr unterschieden. so von Daniels & Eddy (1985). Erst Lange (1982), Dierssen (1996), Ludwig et al. (1996), Koperski et al. (2000) sowie Meinunger & Schröder (2007) unterscheiden Sphagnum tenerum in Europa wieder als Art, Nyholm (1955ff) als Varietät. Zudem gibt es noch ein Sphagnum tenerum Warnst., was die Konfusion noch größer macht und eine Klärung verlangt. Warnstorf (1903) führt tenerum und schimperi an. Er schlüsselt S. tenerum aus, behandelt die Art aber nicht im Text (weil sie nicht in der Mark Brandenburg vorkam?) und führt schimperi unter S. acutifolium var. viride an, die als „grau-, gras- oder gelbgrün ohne Beimischung von Rot“ beschrieben wird.
141
Eighty-five species of liverworts can be attributed to the atlantic element in Europe. These are grouped into tropical species, macaronesian species and species which reach to a different extend from the Macaronesian Islands to the Iberian Peninsula, Brittany, England and Ireland, Scotland, SW-Norway and the Faeroers as well as species which extend to the mountains of Central Europe, and species disjunct with the Himalayas or the east coast of North America. Since many of these species are called as relict species, the origin of these species is discussed and the arguments for and against relicts/long distance dispersal are enumerated. There are many arguments for a relict status but also for long distance dispersal. It can therefore be concluded that both cases are realized in different species.
123
The Chocó region in Colombia is one of the wettest rainforests regions in the world. Isolated for about 3 million years, it is known for its high rate of endemism in flowering plants, ferns, birds and butterflies. Bryophytes (mosses and liverworts) of this region, however, were very unsufficiently known. For this reason, a first survey of the bryoflora of the Chocó region was made in 1992 along a transect from sea level to 1800 m elevation. Apparently because of the high precipitation with up to 12 m annual rainfall, terrestrial species were found growing on bark or corticolous species on leaves. The cover of epiphytic bryophytes is higher than elsewhere, especially in the lowland forest which shows usually a low bryophyte cover. The percentage of mosses compared with that of liverworts is much lower than elsewhere. Mosses form only about 10% of the bryophyte cover in contrast to 40-50% in the according elevation in other rain forest regions.
125
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.