Journal article

Publication year: 2020

Pages: 47-63

Journal: Phytocoenologia

Volume number: 50

Issue number: 1

ISSN: 0340-269X

DOI Link: https://doi.org/10.1127/phyto/2019/0321

Publisher: Borntraeger Science Publishers

Abstract: 
Aims: Under global climate and land use change, the vegetation layer of steep high mountain slopes is prone to increasing disturbance via erosion and mass-wasting events. The ecological restoration and stabilization of an intact vegetation layer on steep slopes with the soil seed bank is therefore an important factor for functional high mountain ecosystems. We analyze the relationships between the soil seed bank composition, topography, and land use and compare the plant species composition of the aboveground vegetation to the soil seed bank. Study area: Stepantsminda, Georgia, Greater Caucasus (1,800-2,500 m a.s.l.). Methods: 74 grassland vegetation releves (5 x 5 m) on steep high mountain slopes were compared to the respective persistent soil seed bank (05 cm depth), assessed via the seedling emergence method. Non-metric multidimensional scaling and vector fitting uncovered the relationships between topography, land use, and soil on the seed bank and aboveground vegetation composition. The similarity between both datasets was assessed with a Mantel test. Vegetation types were described with indicator species analysis for both aboveground and belowground plant species composition. Results: Exposure to the north and incoming solar radiation relate to seed bank composition, as well as the belowground species diversity, whereas the effect of land use on the soil seed bank remains unclear. The similarity between the aboveground vegetation and the soil seed bank is generally low (18% shared species, Mantel test r = 0.21, no common indicator species). Conclusions: The higher seed density and belowground species richness on intensively illuminated and pastured south-exposed slopes imply a higher restoration potential in the case of disturbance events such as mass-wasting. However, the overall moderate diversity within the soil seed bank challenges the restoration of the aboveground grassland, especially on north-exposed slopes.

Harvard Citation style: Tedoradze, G., Nakhutsrishvili, G., Seip, M., Theissen, T., Waldhardt, R., Otte, A., et al. (2020) Terrain impacts the composition of the persistent soil seed bank: A case study of steep high mountain grasslands in the Greater Caucasus, Georgia, Phytocoenologia, 50(1), pp. 47-63. https://doi.org/10.1127/phyto/2019/0321

APA Citation style: Tedoradze, G., Nakhutsrishvili, G., Seip, M., Theissen, T., Waldhardt, R., Otte, A., & Magiera, A. (2020). Terrain impacts the composition of the persistent soil seed bank: A case study of steep high mountain grasslands in the Greater Caucasus, Georgia. Phytocoenologia. 50(1), 47-63. https://doi.org/10.1127/phyto/2019/0321