@article{3009425, title = "Interannual variability of germination and cone/seed morphometric characteristics in the endemic Grecian fir (Abies cephalonica) over an 8-year-long study", author = "Daskalakou, E.N. and Koutsovoulou, K. and Mavroeidi, L. and Tsiamitas, C. and Kafali, E. and Radaiou, P.-E. and Ganatsas, P. and Thanos, C.A.", journal = "Seed Science Research", year = "2018", volume = "28", number = "1", pages = "24-33", publisher = "Cambridge University Press", issn = "0960-2585, 1475-2735", doi = "10.1017/S0960258517000290", abstract = "Abies cephalonica cone and seed morphometric characteristics as well as seed germination behaviour were investigated during an 8-year-long diachronic study (2007-2015). The research was carried out in Parnitha National Park, in the part of this Greek endemic, silver fir population that was spared from an unprecedented wildfire (2007). A statistically significant interannual and among-tree variation of cone traits has been identified, except for cone diameter. Cone length is correlated to the number of seeds per cone, while the percentage of empty seeds has been consistently high, with extreme values of 29.3 and 81.8% in a masting (2015) and lean crop (2009) year, respectively. There is also a considerable proportion of dead (including infected) and non-germinated seeds, and the eventual germinable fraction is well below 25% with spikes in masting years (39.4 and 60.9% in 2010 and 2015, respectively). Untreated seeds have been tested at a wide range of constant and alternating temperatures and germination is completed within 4-5 weeks at T ≥ 15°C and ca 15 weeks at 5-10°C. A chilling pretreatment of 4-8 weeks (at 2-4°C) concludes germination at 15-20°C within 2 weeks. A significant white light requirement has been observed for untreated seeds at 15-20°C, while germination was light indifferent at lower or higher temperatures. Data obtained in this study confirm the present, field seed germination during springtime; we may also predict an earlier germination (late autumn to mid-winter) in forest gaps, under the predicted, warmer conditions in the future. © Copyright Cambridge University Press 2017." }