Abstract
Arctic plant species are expected to lose range due to climate change. One approach to preserve the genetic and species diversity for the future is to store propagules in seed vaults. However, germinability of seeds is assumed to be low for Arctic species. We evaluated ex situ storage potential of 113 of the 161 native angiosperms of Svalbard by studying seed ripening and germination. Seeds or bulbils were collected, and germinability was tested after one winter of storage in the Svalbard Global Seed Vault. Twenty-six of the species did not produce ripe propagules, 8 produced bulbils, and 79 produced seeds. Bulbils sprouted to high percentages. Seeds of 10 species did not germinate, 22 had low germination (<20 %), 34 had germination of 21–70 %, and 13 had high germination percentages (>70 %). More than 70 % of the species belonging to Asteraceae, Brassicaceae, Caryophyllaceae, Juncaceae, Rosaceae, and Saxifragaceae germinated. Cold tolerant, common species had higher germination percentages than relatively thermophilous, rare species. Germination percentages were six times higher than observed in 1969 (n = 51) and 0.7 times that observed in 2008 (n = 22), indicating that recent climate warming improves germination in the Arctic. While in situ conservation is of vital importance, ex situ conservation in seed banks is a potential complementary conservation strategy for the majority of Arctic vascular plant species. For species that did not germinate, other methods for ex situ conservation should be sought, for example, growing in botanical gardens.
Highlights
Climate change, invasive species, land use, and other human impact may threaten a large part of the words flora (Sala et al 2000; Pimentel 2011; Thuiller et al 2011)
A relatively low proportion of the Arctic flora is rare and considered endangered (Talbot et al 1999; Elven et al 2011); even common species may be threatened as the expected profound changes in Arctic climate (ACIA 2006) may reduce species ranges by 40 % followed by considerable loss of genetic diversity (Alsos et al 2012a)
The aims of this study were to (1) collect seeds or bulbils from as many species as possible of Svalbard’s native vascular flora, (2) test whether germinability of species is appropriate for ex situ conservation in seed banks, (3) test whether germinability is related to thermal requirements, rarity, or ability to reproduce clonally, and (4) compare with earlier studies to see if germination has recently increased
Summary
Invasive species, land use, and other human impact may threaten a large part of the words flora (Sala et al 2000; Pimentel 2011; Thuiller et al 2011). To meet these challenges, many nations collect and bank seeds for restoration purposes, ex situ conservation, and relocation (Vitt et al 2010). Increased human activities combined with climate change increase the risk of establishment of alien species (Ware et al 2012), which may have negative effect on the native flora.
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