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  • Floristic data from Miskolc and the Bükk Mountains (N Hungary)
    267-274
    Views:
    106

    In the paper new floristic data originated form field works between 2009 and 2014 in the Bükk Mountains and in the city of Miskolc, Hungary are reported. Data presented here are mainly from the eastern part of the mountain range, near Miskolc, but there are also some data from the central and northern part of the mountains. The most interesting result is the discovery of a new stand of Epipactis tallosii in the inhabited area of Miskolc-Hejőcsaba, but in the inhabited area of Miskolc Cephalanthera damasonium, Neottia nidus-avis and Allium scorodoprasum was also found. New localities of Callitriche c.f. palustris, Alisma lanceolatum and Berula erecta are provided, which species have not been found in the Bükk recently, while Lactuca perennis, Crepis biennis and Lycopus europaeus was not known in the township of Miskolc so far. New localities of Iris pseudacorus, Iris sibirica, Clematis integrifolia, Carex acutiformis, Thalictrum lucidum, Pseudolysimachion longifolium etc. were found near MiskolcKomlóstető, Epipactis microphylla, Carex acuta, Eqiusetum telmateia, Listera ovata etc. were found near Miskolctapolca, and Epipactis tallosii, Juncus tenuis, Carduus nutans, Berula erecta, Scutellaria galericulata, Myosotis scorpioides and Ranunculus sceleratus were found in the vicinity of Miskolc-Görömböly. It can be concluded that the flora of the surroundings of Miskolc (i.e. Miskolc-Komlóstető, Miskolctapolca and Miskolc-Görömböly) are not yet known sufficiently.

  • Contributions to the Atlas Florae Hungariae XIII.
    85-88
    Views:
    58007

    The present paper is the 13th in a series of papers contributing new floristic data to complement the distribution maps of Atlas Florae Hungariae. We present altogether 1307 new occurrence data to advance our knowledge of the distribution of vascular plants in Hungary. New data are presented for 634 vascular plant species from 256 flora mapping quarter quadrates (CEU). Due to the unevenness of data collection, the data are highly dispersed over the area of Hungary. Most of the presented occurrence data are from the Great Hungarian Plain, the North Hungarian Mountains, and the Little Hungarian Plain regions. The enumeration includes rare native species (e.g., Androsace maxima, Erysimum crepidifolium, Orobanche gracilis, Peucedanum palustre, Pulsatilla zimmermannii, Scopolia carniolica, Vicia biennis), rare or data deficient adventive species (e.g., Euphorbia prostrata, Euphorbia serpens, Lindernia dubia), subspontaneous occurrences of native species (Asplenium scolopendrium, Daphne laureola, Chenopodium opulifolium), species spreading along linear infrastructure (Eleusine indica, Plantago coronopus, Sorghum halepense, Spergularia salina, Tragus racemosus), and also common native species with data deficient distribution maps (Agrostis stolonifera, Bromus benekenii, Bromus japonicus, Carex caryophyllea, Carex divulsa subsp. divulsa, Equisetum ramosissimum, Vulpia myuros).

  • Specific variability and ecological meaning of seed weights
    295-330
    Views:
    185

    There is an almost twelve order of magnitude difference in the seed weight of recent plant species. Studying the causes, patterns and consequences of this high variability is a crucial issue in plant ecology. In this paper we summarise the main conclusions of the studies in this topic to get a broad and general view of the possible explanations of high variability in seed weights and its consequences on dispersal, seed predation, seed bank formation, germination, establishment and plant growth, and on the structure and function of plant communities. Because of the extremely high number of papers published in this topic, we aimed at to concentrate on papers published in highranked international journals in the last few decades, having a special focus on publications from the Carpathian Basin. It was found that growth form, body size, genom size, latitude and light availability are responsible for the detected high variability in the seed weights of species. Infra-individual variability is mostly caused by the effects of the position on the maternal plant and the seed size – seed number trade-off. The effect of dispersal by wind or by seed predators on the variability of seed weights and its ecological consequences are the most studied. Predicting persistence on the basis of seed size and seed shape also has been a popular research topic lately. Studying the effects of seed weight variability on the structure of plant communities is also becoming more and more important, but no general conclusions could be drawn yet.