From everywhere all at once: Several colonization routes available to Svalbard in the early Holocene

Viktorie Brožová; Johannes S Bolstad; Alexey P Seregin; Pernille B Eidesen

doi:10.1002/ece3.9892

From everywhere all at once: Several colonization routes available to Svalbard in the early Holocene

Ecol Evol. 2023 Mar 19;13(3):e9892. doi: 10.1002/ece3.9892. eCollection 2023 Mar.

Authors

Viktorie Brožová^{1

2}, Johannes S Bolstad², Alexey P Seregin³, Pernille B Eidesen^{2

4}

Affiliations

¹ Department of Botany, Faculty of Science University of South Bohemia in České Budějovice České Budějovice Czech Republic.
² Department of Arctic Biology The University Centre in Svalbard Longyearbyen Norway.
³ Herbarium (MW), Faculty of Biology M. V. Lomonosov Moscow State University Moscow Russia.
⁴ Department of Biosciences University of Oslo Oslo Norway.

Abstract

For many arctic species, the spatial (re-)colonization patterns after the last Pleistocene glaciation have been described. However, the temporal aspects of their colonization are largely missing. Did one route prevail early, while another was more important later? The high Arctic archipelago Svalbard represents a good model system to address timeframe of postglacial plant colonization. Svalbard was almost fully glaciated during last glacial maximum and (re-)colonization of vascular plants began in early Holocene. Early Holocene climatic optimum (HCO) supported an expanded establishment of a partly thermophilic vegetation. Today, we find remnants of this vegetation in sheltered regions referred to as "Arctic biodiversity hotspots". The oldest record of postglacial plant colonization to Svalbard is found in Ringhorndalen-Flatøyrdalen. Even though thermophilic species could establish also later in Holocene, only HCO was favorable for vast colonization, and only hotspots offered stable conditions for thermophilic populations throughout Holocene. Thus, these relic populations may reflect colonization patterns of HCO. We investigate whether the colonization direction of thermophilic plants (Arnica angustifolia, Campanula uniflora, Pinguicula alpina, Tofieldia pusilla, and Vaccinium uliginosum ssp. microphyllum) in Ringhorndalen-Flatøyrdalen was uniform and different from later colonization events in other localities and non-thermophilic plants (Arenaria humifusa, Bistorta vivipara, Juncus biglumis, Oxyria digyna, and Silene acaulis). We analyzed plastid haplotypes of the 10 taxa from Ringhorndalen-Flatøyrdalen, from later-colonized localities in Svalbard, and from putative source regions outside Svalbard. Only rare and thermophilic taxa Campanula uniflora and Vaccinium uliginosum ssp. microphyllum provided results suggesting at least two colonization events from different source regions. Tofieldia pusilla and all the non-thermophilic plants showed no clear phylogeographically differentiation within Svalbard. Two of the thermophilic species showed no sequence variation. Based on the results, a uniform colonization direction to Svalbard in early Holocene is not probable; several source areas and dispersal directions were contemporarily involved.

Keywords: Arctic; Holocene; Svalbard; diversity hotspot; haplotype; phylogeography.