Login
Registrieren
Passwort zurücksetzen
Veröffentlichen & Verteilen
Verlagslösungen
Vertriebslösungen
Themen
Allgemein
Altertumswissenschaften
Architektur und Design
Bibliotheks- und Informationswissenschaft, Buchwissenschaft
Biologie
Chemie
Geowissenschaften
Geschichte
Industrielle Chemie
Informatik
Jüdische Studien
Kulturwissenschaften
Kunst
Linguistik und Semiotik
Literaturwissenschaft
Materialwissenschaft
Mathematik
Medizin
Musik
Pharmazie
Philosophie
Physik
Rechtswissenschaften
Sozialwissenschaften
Sport und Freizeit
Technik
Theologie und Religion
Wirtschaftswissenschaften
Veröffentlichungen
Zeitschriften
Bücher
Konferenzberichte
Verlage
Blog
Kontakt
Suche
EUR
USD
GBP
Deutsch
English
Deutsch
Polski
Español
Français
Italiano
Warenkorb
Home
Zeitschriften
Quaestiones Geographicae
AHEAD OF PRINT
Uneingeschränkter Zugang
Erosion Control Ecosystem Service Provided by
Salix Acutifolia
Willd. Neophyte on the South Baltic Coast: Insights from Wolin Island, Poland
Janina Borysiak
Janina Borysiak
,
Paweł Czyryca
Paweł Czyryca
und
Małgorzata Stępniewska
Małgorzata Stępniewska
| 26. Juni 2024
Quaestiones Geographicae
AHEAD OF PRINT
Über diesen Artikel
Vorheriger Artikel
Nächster Artikel
Zusammenfassung
Artikel
Figuren und Tabellen
Referenzen
Autoren
Artikel in dieser Ausgabe
Vorschau
PDF
Zitieren
Teilen
Online veröffentlicht:
26. Juni 2024
Seitenbereich:
-
Eingereicht:
17. Jan. 2024
DOI:
https://doi.org/10.14746/quageo-2024-0023
© 2024 Janina Borysiak et al., published by Sciendo
This work is licensed under the Creative Commons Attribution 4.0 International License.
Fig. 1.
The location of the study area. Reference data: OpenStreetMap contributors.
Fig. 2.
Natural conditions in the study area from 53°54′47.7″N, 14°18′56.3″E to 54°00′22.0″N 14°40′50.1″E on Wolin Island: A – transformations of the cliff topography as a result of strong storms with a violent wind (Barbara 28–29.12.2016, Axel 04–06.01.2017), photo 17.02.2017; B – embryonic dunes formed from sand trapped by Honckenya peploides; C – phytogenic aeolian microforms with H. peploides that are degraded during autumn storms; D – a sandy clay terminal moraine cliff; E – rapid transformation of the cliff foot due to rockfall; F – sandy talus cones at the cliff foot; G – alluvial deposits overlapping talus cones at the cliff foot; H – mass movement and water-erosion processes on the slopes of a clay cliff; I – a phytogenic aeolian pattern with L. arenarius formed from wind-blown sediments. Photo by J. Borysiak.
Fig. 3.
Length of the parent branch of measured S. acutifolia in 2017; Wolin Island, the coastline from 53°54′47.69″N, 14°18′56.33″E to 54°00′22.04″N, 14°40′50.13″E: A – ranked by the number of individuals, B – ranked by the share of individuals.
Fig. 4.
Adaptive strategy and habitats of S. acutifolia: A – size and habitat of the most common individuals, B – clippings as a source of vegetative propagules colonising the beach, C – shrub hidden in accumulations of drift material brought by storms, D – willow at the foot of the cliff, on the colluvium covered by windblown deposits, E – adventitious roots on stems buried by sand, F – rhizosphere of planted Salix stabilising the soil, G – growth keeping abreast of the sand sedimentation, H – orthotropic shoots growing out of branches contacting with sand, I – accumulation of sand in the shade of a willow and F. villosa, J – leafy shoot from the long-sleeping bud, K – willow locations (1D) covered with colluvial deposits from mass movements on the cliff in 2018, L – degradation of anti-erosion plantings in Międzyzdroje resort. Photo by J. Borysiak.
Vorschau