Dormancy and endosperm presence influence the conservation potential in central European calcareous grassland plants.

The preservation of plant species under conditions in seed banks strongly depends on seed longevity. However, detailed knowledge on this seed ecological aspect is limited and comparative studies from central European habitats are scarce. Therefore, we investigated the seed longevity of 39 calcareous grassland species in order to assess the prospects of storage of seeds originating from a single, strongly threatened habitat. Seed longevity ( ) was determined by artificially ageing the seeds under rapid ageing conditions (45 °C and 60 % eRH (equilibrium relative humidity)), testing for germination and calculating survival curves. We consulted seed and germination traits that are expected to be related to seed longevity. values strongly varied within calcareous grassland species. The values ranged between 3.4 and 282.2 days. We discovered significantly positive effects of physical dormancy and endosperm absence on . Physiological dormancy was associated to comparatively short longevity. These relationships remained significant when accounting for phylogenetic effects. Seed mass, seed shape, and seed coat thickness were not associated with longevity. We therefore recommend more frequent viability assessments of stored endospermic, non-physically and physiologically dormant seeds.