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In Luxemburg sind infolge von Landnutzungsintensivierungen nur noch wenige Relikte nährstoffarmer Feuchthabitate mit hohem Naturschutzwert erhalten. Eine kleinräumig differenzierte Untersuchung der Zusammenhänge zwischen Bodenfaktoren und Vegetation stand für diese Relikte bisher aus. Aus diesem Grund wurden in fünf Luxemburger Niedermoorkomplexen Vegetationszusammensetzung, Vegetationsstruktur (90 %-Perzentil der Vegetationshöhe, Streudeckung) und für die Pflanzenernährung relevante, bodenchemische Variablen (pH-Wert, Phosphor-, Kalium-, Calcium-, Magnesium-Gehalt) erfasst sowie Ellenberg-Zeigerwerte (Feuchte- und Nährstoff-Zahl) ausgewertet. Dabei ging es insbesondere um die Klärung der Fragen, welche Umweltgradienten der auffälligen Zonierung in Kern- und Randbereiche zugrunde liegen und welche Habitateigenschaften mit der Anzahl von gefährdeten Arten korrelieren. Hierzu wurden insgesamt 74 Kleinflächen in den beiden Zonen angelegt und floristisch sowie bodenchemisch analysiert.
Die Kleinflächen spannten einen Säuregradienten von annähernd drei pH-Stufen über die Gebiete hinweg auf (pH 3,9–6,5). Es ließen sich floristische, strukturelle und bodenchemische Unterschiede zwischen den Zonen ausmachen. In den meisten Gebieten unterschieden sich Diversität (in Kernbereichen erhöht) und Produktivität (nach Maßgabe von 90 %-Perzentil und Nährstoff-Zahl in Randbereichen erhöht). Die bodenchemischen Variablen zeigten je nur in einzelnen Gebieten Zonenunterschiede. Die beiden Gebiete mit den niedrigsten bzw. höchsten pH-Werten wiesen die meisten Variablen mit signifikanten Zonenunterschieden auf. Die Feuchte-Zahl war in keinem Gebiet zonenkennzeichnend. Die Diversität an bedrohten Arten korrelierte am häufigsten mit dem Magnesiumgehalt im Boden (meist positiv) und dem 90 %-Perzentil (stets negativ).
Unsere Ergebnisse legen nahe, dass in den untersuchten Niedermoorkomplexen mehrere Variablen zugleich und in unterschiedlicher Kombination für die Zonation verantwortlich sein könnten. Es werden Managementoptionen für die gefährdeten Gebiete diskutiert.
The influence of the Eastern migration route on the Slovak flora – a comparison after 40 years
(2017)
Transport is an important source of introduction and spread of alien plants into new areas and countries. This study provides comprehensive research of selected railway localities in South-Eastern Slovakia to determine the influence of the Eastern Migration Route on the Slovak flora. Railway transshipment yards in Čierna nad Tisou, Dobrá, Velké Kapušany and Matovce were studied from 1964 to 2013; with historic data sampled 1964–1998 and recent data sampled 2012–2013. These data sets were compared to determine differences in species structure following the decreased use of the transshipment yards.
A total of 657 vascular plant taxa were recorded in all localities (566 taxa in the historic and 431 taxa in the recent data set). Native species prevailed over aliens and archaeophytes over neophytes in both time periods. The most frequent aliens were naturalised taxa, where Asiatic and European species prevailed. The most frequent families were Poaceae, Asteraceae and Brassicaceae, and while many species introduced with Russian wheat were recorded only in the past, several taxa are also recorded only recently. Hemicryptophytes were the most abundant life form. Most recorded species were competitors, reproducing by seed and pollinated by insects. Zoochory and hemerochory were the most frequent dispersal types. The proportion of species traits has not changed over time. We identified 49 threatened taxa (38 in the historic and 27 in the recent data set). The Eastern migration route significantly increases the species number of alien vascular plants in the Slovak flora. Although this route had much greater importance in the past, when the role of the Eastern Slovak trans-shipment railway yards was much higher, the studied yards remain an important gateway to Eastern Central Europe and they continue to support agestochory migration of adventive plants.
This paper presents a study on a population of Pulsatilla patens conducted in 2009 in the Natura 2000 wildlife refuge called "Grasslands in the Military Training Grounds in Orzysz" in the Masurian Lake District (NE Poland). The purpose of the study was to determine the population structure of Pulsatilla patens, especially with regard to abundance, density, and percentage of life cycle stages in the total population. Correlations were examined between these population features and selected environmental characteristics including cover of phanerogams, cryptogams, litter, and bare soil. For the evaluation of the linear relationship between the variables, Spearman's correlation coefficient was used. In order to identify the factors that have significant influence on the values of the dependent variables, a multiple regression analysis was performed. In total, 316 individuals of Pulsatilla patens were recorded: 62 flower ing adults, 202 vegetative adults and 52 juveniles. The number of flowers per individual varied from one to 12, the average being three flowers. Most individuals occurred in dry heath, and the smallest number of individuals was found in pine forest. The mean density per habitat ranged from one to 11 individuals per 4 m2. Increased cover of phanerogams and cryptogams caused a decrease in the density of Pulsatilla patens individuals.
High grazing pressure from over-abundant macropods (kangaroos) is perceived to have a detrimental impact on biodiversity. Studies have shown potential changes in state and retardation of degraded vegetation recovery while other investigations have shown correlations with increased floristic diversity. The responses of grasslands to high impact macropod grazing may not be universal. Endangered Themeda triandra-dominated grasslands, on coastal headlands of New South Wales (NSW) and the associated threatened flora are thought to be negatively affected by high macropod grazing. We assess these assumptions via a comparative investigation across 46 headlands (467 plots) on the North Coast of NSW, and a BACI (Before and After Control Incident) design grazing exclusion experiment at a particularly significant site. We compare floristic richness, species density, evenness, Shannon H, Whittaker Beta Diversity, occurrence of listed threatened flora, average sward height and macropod density. Look At Me Now Headland (LAMN), between Coffs Harbour and Woolgoolga has one of the highest recorded population densities of macropods. Here 16 permanent plots were placed with grazing exclusion cages erected around half. Sampling occurred annually (October-November) for four consecutive years (2015-2018). Under high macropod grazing pressure LAMN Headland was found to have the highest scores for total richness, species density, species diversity and moderate to high values for species evenness and beta diversity. Within grazing exclusion plots the sward height increased significantly and was associated with a significant decrease in species density, beta and alpha diversity. Our results indicate that macropod grazing, even at the highest intensities, may be beneficial to floristic species diversity within the endangered Themeda-grasslands of coastal headlands and seacliffs within the North Coast Bioregion of NSW; our broader comparative study would suggest that this may also be the case on other headlands.
The Paddys River Wetlands in the New South Wales Southern Highlands, southwest of Sydney, are characterised by several watercourses with associated swamps (fens), some of which, on Forestry Corporation of NSW land, have been the focus for removal of Pinus radiata wildings by the Penrose Swamps Conservation Group. In this study we map a population of Eucalyptus aquatica trees in one of these swamps perched above Paddys River (latitude 34.65575o S, longitude 150.21831o E; 600 m elevation). Eucalyptus aquatica is geographically restricted to the Paddys River area and is listed as a threatened species at state and national levels. New findings on the physical characteristics of the swamp in relation to the bedrock geology, stream geomorphology, peat development and the main native plant species, are presented. The occurrence of clumps of Eucalyptus aquatica appears to be independent of the type or thickness of the growing substrate. Rather it is suggested that a continuous supply of water and the shelter afforded by the narrow valley may be key factors determining the distribution of the trees at the study site. An on-going programme of research is underway to study other occurrences of Eucalyptus aquatica.
A checklist with preliminary conservation assessments of native South American species of Acalypha is presented. This work is supported by the study of ca 6500 herbarium specimens and an in-depth literature review. As a result, 87 species (83 native and four introduced) and eight subspecies are accepted, and a further 395 names are considered synonyms. Geographical distribution, habitat, and altitudinal range for all species are also indicated. Brazil is the richest country in number of species of Acalypha (40), followed by Peru (32), Bolivia (29), Colombia and Ecuador—including Galapagos Islands—(24), Venezuela (18), Argentina (17), Paraguay (13), Guyana (8), Uruguay (5), French Guiana (4), and Suriname (3). The presence of the genus Acalypha in Chile is reported for the first time, alongside new country records of A. poiretii in Peru and A. venezuelica in Guatemala. The specimens previously identified as A. plicata from Colombia and Venezuela, are here considered belonging to A. cuspidata. The red list provided follows IUCN criteria and includes 39 species and three subspecies, 47% of total native species of Acalypha in South America: 16 species and one subspecies Critically Endangered (nine of them probably extinct), 15 species and two subspecies Endangered, and eight species Vulnerable.