Cities and Disturbed Areas as Man-made Shelters for Orchid Communities

Many species from the family Orchidaceae spread in anthropogenic habitats and numerous studies documenting this process are known. Unfortunately, such data are scattered throughout various papers and reports, sometimes fragmentary and hard to reach (the ‘grey literature’). Scientific elaboration on this topic still lacks a comprehensive review and summary of the scale of this phenomenon. Therefore, the main aim of this study was to gather, review and analyse such data, seeking the answer to the question whether the man-made habitats can be considered as refugee for orchids. The paper summarises data on the occurrence of orchid species in man-made habitats in Europe originating from published and unpublished sources. The particular emphasis was placed in urban habitats. For this purpose, the floristically data from 42 European cities were used. The conducted studies showed that the apohytism phenomenon in the family Orchidaceae was more widespread than had been previously reported. As a result, 70 species of orchids in the distinguished man-made habitats were found. The majority of the species grow on sand and clay pits. The most common species were Epipactis helleborine and Dactylorhiza majalis. The gathered data have confirmed that man-made habitats become refugee for many orchid species in the aftermath of the loss of their natural habitats. Thus, protection of sites transformed by man with orchid occurrence should be taken into consideration. These sites can become a source of very useful information for biogeographically and phylo-geographically analyses of many valuable and endangered species

Database and Digitization of Regional Historical Herbaria: A Case Study of Margittai Collection in the Uzhhorod National University Herbarium (UU)

The digitization of herbarium collections guarantees a preservation and long-term use of scientifically valuable objects, e.g., wide and convenient access to these materials online and exchange between institutions. These are also important elements in the education and popularization of botanical knowledge. No less significant is the practical aspect of these studies due to the danger of these collections’ destruction as a result of Russian aggression—some of them have already been destroyed. The analyzed Margittai collection (1500 specimens) is kept at the Uzhhorod National University Herbarium (UU) and belongs to the historical and regional ones. This material is valuable because of its scientific, historical and cultural significance. By the initiative and thanks to the efforts of Prof. S. Fodor, the studied collection (most of which are doublet specimens) was transferred in 1965 from the Hungarian Natural History Museum (BP), where the main herbarium of the researcher is preserved (40,000 specimens), to the Uzhhorod State University. Due to the fact that the collection has not been studied, in 2021, the authors began a special investigation of this collection and assessment of its current state. The structure of the database has been developed, it is being filled, and the digitization of type materials has begun

Alien Species in the Pioneer and Ruderal Vegetation of Ukraine

Invasions of nonnative plants are widely recognized as one of the major threats to the biodiversity of natural ecosystems on a global scale. Pioneer and ruderal habitats are the primary locations for the penetration of alien plants. Both pioneer and ruderal vegetation are very close in their genesis and beginning of development; therefore, a comparative analysis of their alien components and historical trends would contribute to clarifying the direction of successional changes and the possible management of destructive processes caused by anthropogenic influences in different types of habitats. The results of a structural and comparative analysis of the alien fractions of the coenofloras of the pioneer and ruderal vegetation of Ukraine indicated that the systematic, biomorphological, ecological, and geographical structures of these species show a high similarity, according to many of the main indicators, which allows them to successfully implement a strategy of invasion, particularly in communities characterized by instability and weak coenotic connections. It was established that the ecotopes of both types of vegetation are very favorable to the penetration and establishment of alien species; however, disturbed habitats of the ruderal type are more prone to invasions. In the communities of both pioneer and ruderal vegetation, alien species can become successfully established at the coenotic level, forming phytocoenoses of different hierarchical ranks. The results of this study will contribute to the identification of general patterns of invasions and the optimization (management) of disturbed and unstable natural ecosystems

Alien Species in the Pioneer and Ruderal Vegetation of Ukraine

Invasions of nonnative plants are widely recognized as one of the major threats to the biodiversity of natural ecosystems on a global scale. Pioneer and ruderal habitats are the primary locations for the penetration of alien plants. Both pioneer and ruderal vegetation are very close in their genesis and beginning of development; therefore, a comparative analysis of their alien components and historical trends would contribute to clarifying the direction of successional changes and the possible management of destructive processes caused by anthropogenic influences in different types of habitats. The results of a structural and comparative analysis of the alien fractions of the coenofloras of the pioneer and ruderal vegetation of Ukraine indicated that the systematic, biomorphological, ecological, and geographical structures of these species show a high similarity, according to many of the main indicators, which allows them to successfully implement a strategy of invasion, particularly in communities characterized by instability and weak coenotic connections. It was established that the ecotopes of both types of vegetation are very favorable to the penetration and establishment of alien species; however, disturbed habitats of the ruderal type are more prone to invasions. In the communities of both pioneer and ruderal vegetation, alien species can become successfully established at the coenotic level, forming phytocoenoses of different hierarchical ranks. The results of this study will contribute to the identification of general patterns of invasions and the optimization (management) of disturbed and unstable natural ecosystems

Grindelia squarrosa (Pursh) Dunal in Ukraine: current distribution and ecological and coenotic peculiarities

Grindelia squarrosa (Pursh) Dunal. (Asteraceae) is a species with high invasiveness capacity in Ukraine, especially in the Steppe zone. The first data on the finding of escaped plants in Europe were recorded in the 40's of the last century. There were three naturalization centres in Ukraine, from where the species began to spread. In the secondary range in Ukraine, G. squarrosa is characterized by high levels of seed productivity and germination, variable modes of dispersal, wide ecological and coenotic amplitudes and CSR-strategy. The trend continues with the spread of the species in western, north-western and northern directions, and today more than 300 localities confirming this trend are already known. In the past 20 years, 92 new localities have been recorded. G. squarrosa is a transformer, widespread in the southern regions of the Steppe zone. As a result, new plant communities are formed, reaching the syntaxonomic level of associations. In general, this species is recorded in communities of five vegetation classes. G. squarrosa has been identified within the territory of many protected areas of Ukraine. In terms of ecological indicators, the optimum of the species is in the Steppe zone. A distinctive feature of all the scales is that the amplitude towards the minimum is wider than the mean values of the maximum. It can be predicted that, due to the potential ability of the species to adapt and under the influence of climatic change, there is a higher probability that the species will spread in the future in northern and western directions. The condition for such an expansion is disturbance of meadow-steppe fringe xeromesic communities, with decreased coenotic competition

Seed variability of Sisymbrium polymorphum (Murray) Roth (Brassicaceae) across the Central Palaearctic

This study presents the results of investigation of the micromorphology and variability of Sisymbrium polymorphum seeds collected in 49 localities in the core range and isolated populations of Central Europe, Eastern Europe and Central Asia. In addition, we compared the ultrastructure of the seeds of S. polymorphum with that of the closely-related species S. loeselii and S. linifolium. The seeds were measured with a stereoscopic microscope and a biometric programme (ImageJ) and micromorphological studies were performed by scanning electron microscopy (SEM). The seed variability showed intraspecific stability of the ultrastructure and low variability of metric features within the studied range. Studied species showed differences in the ultrastructure, which will be valuable for diagnostic purposes. We present and describe, for the first time, the ultrastructure of S. polymorphum seeds