Halophytic flora and vegetation in southern Moravia and northern Lower Austria: past and present

Warning

This publication doesn't include Institute of Computer Science. It includes Faculty of Science. Official publication website can be found on muni.cz.
Authors

DANIHELKA Jiří CHYTRÝ Kryštof HARÁSEK Martin HUBATKA Petr KLINKOVSKÁ Klára KRATOŠ Filip KUČEROVÁ Anna SLACHOVÁ Karolína SZOKALA Daniel PROKEŠOVÁ Helena ŠMERDOVÁ Eva VEČEŘA Martin CHYTRÝ Milan

Year of publication 2022
Type Article in Periodical
Magazine / Source Preslia
MU Faculty or unit

Faculty of Science

Citation
Web https://doi.org/10.23855/preslia.2022.013
Doi http://dx.doi.org/10.23855/preslia.2022.013
Keywords Czech Republic; flora; habitat; halophyte; history; inland saltmarsh; Lower Austria; Moravia; nature conservation; saline; vegetation
Description Halophytic habitats are distinctive components of the landscape in southern Moravia, Czech Republic, and the Pulkau valley in northern Lower Austria. We provide a historical overview of their flora and vegetation since the early 19th century and describe the current state assessed in the field at all remaining sites in 2020. We summarized the historical and current distribution of 17 species with the strongest affinity for saline habitats in the study area: Bupleurum Triglochin maritima and Tripolium pannonicum. Of these, Galatella cana, Salicornia perennans, Suaeda prostrata and Triglochin maritima are regionally extinct. We also characterized the bryoflora typical of saline habitats. We classified historical and newly recorded releves and identified 14 halophytic associations belonging to the alliances Chenopodion rubri, Meliloto nellion limosae, Juncion gerardii and Festucion pseudovinae. The vegetation of the alliance Salicornion prostratae had disappeared in the study area by the 1970s. The alliance Festucion pseudovinae, with the association Centaureo pannonicae-Festucetum pseudovinae, was recognized as a new vegetation type for the Czech Republic. Using soil pH and electrical conductivity measurements, we evaluated the relationships of individual species and vegetation types to soil salinity. This synthetic study shows that the once well-developed halophytic flora and vegetation in the study area steadily declined from the early 19th century to the 1980s, initially mainly due to drainage and after the mid-20th century due to the combination of drainage and cessation of grazing. The introduction of conservation management in the 1990s and ecological restoration contributed to stabilizing plant diversity at the last saline sites. The future of halophytic flora and vegetation depends on the continuation of conservation management.
Related projects:

You are running an old browser version. We recommend updating your browser to its latest version.

More info