V prispevku so predstavljeni rezultati dela botanične skupine na mladinskem raziskovalnem taboru Dolenja vas '98, ki je potekal v času od 3. do 10. julija 1998 v Dolenji vasi pri Ribnici na ...Dolenjskem. Skupina je po metodi srednjeevropskega kartiranja flore popisovala višje rastline v dveh kvadrantih: 0254/4 in 0254/3. Obravnavane so naslednje zanimivejše vrste: Leonurus cardiaca, Dactylorhiza maculata ssp. transsilvanica, Vulpia ciliata, Senecio paludosus, Senecio aquaticus, Sisyrinchium bermudiana in Tanacetum parthenium.
V prispevku so predstavljeni rezultati dela floristične skupine na mladinskem raziskovalnem taboru Čatež '97. Skupina je popisovala floro v dveh kvadrantih MTB - 0055/2 in 0055/4. Obravnavane so ...naslednje zanimivejše vrste: Geranium pyrenaicum, Nigella damascena, Coriandrum sativum, Lepidium virginicum, Spergularia salina, Euphorbia nutans in Euphorbia marginata.
Identifying adaptive genetic variation is a challenging task, in particular in non‐model species for which genomic information is still limited or absent. Here, we studied distribution patterns of ...amplified fragment length polymorphisms (AFLPs) in response to environmental variation, in 13 alpine plant species consistently sampled across the entire European Alps. Multiple linear regressions were performed between AFLP allele frequencies per site as dependent variables and two categories of independent variables, namely Moran’s eigenvector map MEM variables (to account for spatial and unaccounted environmental variation, and historical demographic processes) and environmental variables. These associations allowed the identification of 153 loci of ecological relevance. Univariate regressions between allele frequency and each environmental factor further showed that loci of ecological relevance were mainly correlated with MEM variables. We found that precipitation and temperature were the best environmental predictors, whereas topographic factors were rarely involved in environmental associations. Climatic factors, subject to rapid variation as a result of the current global warming, are known to strongly influence the fate of alpine plants. Our study shows, for the first time for a large number of species, that the same environmental variables are drivers of plant adaptation at the scale of a whole biome, here the European Alps.
In wide-ranging species, the genetic consequences of range shifts in response to climate change during the Pleistocene can be predicted to differ among different parts of the distribution area. We ...used amplified fragment length polymorphism data to compare the genetic structure of Arabis alpina, a widespread arctic-alpine and afro-alpine plant, in three distinct parts of its range: the North Atlantic region, which was recolonized after the last ice age, the European Alps, where range shifts were probably primarily altitudinal, and the high mountains of East Africa, where the contemporary mountain top populations result from range contraction. Genetic structure was inferred using clustering analyses and estimates of genetic diversity within and between populations. There was virtually no diversity in the vast North Atlantic region, which was probably recolonized from a single refugial population, possibly located between the Alps and the northern ice sheets. In the European mountains, genetic diversity was high and distinct genetic groups had a patchy and sometimes disjunct distribution. In the African mountains, genetic diversity was high, clearly structured and partially in accordance with a previous chloroplast phylogeography. The fragmented structure in the European and African mountains indicated that A. alpina disperses little among established populations. Occasional long-distance dispersal events were, however, suggested in all regions. The lack of genetic diversity in the north may be explained by leading-edge colonization by this pioneer plant in glacier forelands, closely following the retracting glaciers. Overall, the genetic structure observed corresponded to the expectations based on the environmental history of the different regions.
The population concept is central in evolutionary and conservation biology, but identifying the boundaries of natural populations is often challenging. Here, we present a new approach for assessing ...spatial genetic structure without the a priori assumptions on the locations of populations made by adopting an individual-centred approach. Our method is based on assignment tests applied in a moving window over an extensively sampled study area. For each individual, a spatially explicit probability surface is constructed, showing the estimated probability of finding its multilocus genotype across the landscape, and identifying putative migrants. Population boundaries are localized by estimating the mean slope of these probability surfaces over all individuals to identify areas with genetic discontinuities. The significance of the genetic discontinuities is assessed by permutation tests. This new approach has the potential to reveal cryptic population structure and to improve our ability to understand gene flow dynamics across landscapes. We illustrate our approach by simulations and by analysing two empirical datasets: microsatellite data of Ursus arctos in Scandinavia, and amplified fragment length polymorphism (AFLP) data of Rhododendron ferrugineum in the Alps.
Na Raziskovalnem taboru študentov biologije (RTŠB) Središče ob Dravi '97 je floristična skupina kartirala floro v 5 kvadrantih MTB (240-450 vrst v vsakem). Nekatere zanimivejše najdbe so ...predstavljene v tem prispevku: Oenothera pycnocarpa in Callitriche cophocarpa sta novi vrsti za floro Slovenije. Poleg tega smo odkrili številne potencialno naturalizirane vrste (Acer negundo, Calendula officinalis, Epilobium adenocaulon in Pinus strobus), nove vrste za subpanonsko območje Slovenije in vrste z nejasno razširjenostjo v Sloveniji. Potrdili smo pojavljanje nekaterih redkih ali ogroženih vrst in nekatere od obravnavanih vrst predlagali za vključitev v Rdeči seznam (Apium repens - E, Carex strigosa - R, Centunculus minimus - R, Lythrum hyssopifolia - E, Potentilla supina - R, Rumex aquaticus - V).