[ANDERSSON, B.: Effect of maternal soil treatment on first year growth and autumn frost hardiness of Pinus sylvestris L. full-sib families. Scand. J. For. Res. 4, 163-173 (1989)10.1080/02827588909382555]Open DOISearch in Google Scholar
[ANDERSSON, B., ELFVING, B., ERICSSON, T., PERSSON, T. and GREGORSSON, B.: Performance of improved Pinus sylvestris in northern Sweden. Scand. J. For. Res. 18, 199-206 (2003)10.1080/02827581.2003.9728290]Open DOISearch in Google Scholar
[ANTOLA, J.: First new seed orchards producing elite seed established. Foundation for forest tree breeding. Annual report. 36 pp. (in Finnish with English summary). ISSN-0355-1024 (1997)]Search in Google Scholar
[BEUKER, E.: Adaptation to climatic changes of the timing of bud burst in populations of Pinus sylvestris L. and Picea abies (L.) Karst. Tree Physiology 14: 961-970 (1994)10.1093/treephys/14.7-8-9.96114967662]Open DOISearch in Google Scholar
[DANELL, O.: Survey of past, current and future Swedish forest tree breeding. Silva Fennica. 25(4): 241-247 (1991)10.14214/sf.a15621]Search in Google Scholar
[EICHE, V.: Cold damage and plant mortality in experimental provenance plantations with Scots pine in northern Sweden. Studia For. Suec. 36, 219 pp. (1966) ]Search in Google Scholar
[ERIKSSON, G.: Evolutionary forces influencing variation among populations of Pinus sylvestris. Silva Fenn. 32: 173-184 (1998)10.14214/sf.694]Search in Google Scholar
[ERIKSSON, G. and EKBERG, I.: An introduction to forest genetics. SLU, Uppsala, 166 pp. ISBN 91-576-6032-8 (2001) ]Search in Google Scholar
[GIANOLA, D. and NORTON, H.W.: Scaling threshold characters. Genetics 99: 357-364 (1981)10.1093/genetics/99.2.357121450617249122]Search in Google Scholar
[GULLBERG, U. and VEGERFORS, B.: Genotype-environment interaction in Swedish material of Pinus sylvestris. Scand. J. For. Res. 2: 417-432 (1987)10.1080/02827588709382479]Open DOISearch in Google Scholar
[HAAPANEN, M.: Impact of family-by-trial interaction on utility of progeny testing methods for Scots pine. Silvae Genet. 45, 130-135 (1996)]Search in Google Scholar
[HAAPANEN, M.: Time trends in genetic parameter estimates and selection efficiency for Scots pine in relation to field testing method. For. Genet. 8, 129-144 (2001)]Search in Google Scholar
[HEIDE, O. M.: Physiological aspects of climatic adaptation in plants with special reference to high-latitude environments. In: KAURIN, Å., JUNTTILA, O. and NILSEN, J., (eds): Plant production in the north, pp. 1-22. Norwegian University Press, Oslo. ISBN 82-00-07385-8 (1985)]Search in Google Scholar
[HÄNNINEN, H., BEUKER, E., JOHNSEN, Ø., LEINONEN, I., MURRAY, M., SHEPPARD, L. and SKRØPPA, T.: Impacts of climate change on cold hardiness of conifers. In: BIGRAS, F. and COLOMBO, S., (eds): Conifer cold hardiness, pp. 305-333. Kluwer Academic Publishers, Dordrecht. ISBN 0-7923-6636-0 (2001)10.1007/978-94-015-9650-3_12]Search in Google Scholar
[JANSSON, G., LI, B. and HANNRUP, B.: Time trends in genetic parameters for height and optimal age forparental selection in Scots pine. For. Sci. 49 (5): 696-705 (2003)]Search in Google Scholar
[JANSSON, G., DANELL, Ö. and STENER, L.-G.: Correspondence between single-tree and multiple-tree plot genetic testsfor production traits in Pinus sylvestris. Can. J. For. Res. 28, 450-458 (1998)]Search in Google Scholar
[JUNTTILA, O.: Plant adaptation to temperature and photoperiod. Agricultural and food science in Finland 5: 251-260 (1996).10.23986/afsci.72744]Search in Google Scholar
[KOSKI, V.: Breeding plans in case of global warming. Euphytica 92 (1-2): 235-239 (1996)10.1007/BF00022850]Search in Google Scholar
[LINDGREN, D.: Prediction and optimization of genetic gain with regard to genotype x environment interactions. Studia Forestalia Suecia. (166) pp 15-24 (1982)]Search in Google Scholar
[LOCKWOOD, J. G.: World Climatic Systems, 292 pp. Edward Arnold Ltd, London. ISBN 0-7131-6404-2 (1985)]Search in Google Scholar
[MATYAS, C.: Modeling climate change effects with provenance test data. Tree Physiology 14: 797-804 (1994)10.1093/treephys/14.7-8-9.79714967649]Open DOISearch in Google Scholar
[MORÉN, A. S. and PERTTU, K. L.: Regional temperature and radiation indices and their adjustment to horizontal and inclined forest land. Stud. For. Suec. 194, 19 pp. (1994)]Search in Google Scholar
[NEKRASOV, V. I.: The concept of forest genetic improvement in Russia. Lesovedenie. 5:3-7. (in Russian) (1995)]Search in Google Scholar
[NEW, M., LISTER, D., HULME, M. and MAKIN, I.: A high-resolution data set of surface climate over global land areas. Clim. Res. 21: 1-25 (2002) 10.3354/cr021001]Search in Google Scholar
[NILSSON J. E.: Variation in early winter hardening within families of Pinus sylvestris (L.) from northern Sweden. Scand. J. For. Res. 5: 17-27 (1990).10.1080/02827589009382589]Search in Google Scholar
[NILSSON J. E.: Seasonal changes in phenological traits and cold hardinessof F1-populations from plus-trees of Pinus sylvestris and Pinus contorta of various geographical origins. Scand. J. For. Res. 16: 7-20 (2001).10.1080/028275801300004361]Search in Google Scholar
[NILSSON, J.-E. and ANDERSSON, B.: Performance in freezing tests and field experiments of full-sib families of Pinus sylvestris (L.). Can. J. For. Res. 17, 1340-1347 (1987)]Search in Google Scholar
[ODIN, H., ERIKSSON, B. and PERTTU, K.: Temperaturklimatkartor för svenskt skogsbruk. Rapporter i skogsekologi och skoglig marklära 45, Inst. för skoglig marklära, SLU, 57 pp. Uppsala. ISBN 91-576-1644-2. In Swedish. (1983)]Search in Google Scholar
[PERSSON, B.: Effects of provenance transfer on survival in nine experimental series with Scots pine (Pinus sylvestris L.) Scand. J. For. Res. 9: 275-287 (1994)10.1080/02827589409382841]Search in Google Scholar
[PERSSON, T. and ANDERSSON, B.: Genetic variance and covariance patterns of growth and survival in northern Pinus sylvestris. Scand. J. For. Res. 18: 332-343 (2003)10.1080/02827580310003993]Open DOISearch in Google Scholar
[PERSSON, B. and STAHL, E.: Survival and yield of Pinus sylvestris L. as related to provenance transfer and spacing at high altitudes in northern Sweden. Scand. J. For. Res. 5: 381-395 (1990).10.1080/02827589009382621]Open DOISearch in Google Scholar
[RÄISÄNEN, J., HANSSON, U., ULLERSTIG, A., DÖSHER, R., GRAHAM, L. P., JONES, C., MEIER, M., SAMUELSSON, P. and WILLÉN, U.: GCM driven simulations of recent and future climate with the Rossby centre coupled atmosphere - Baltic Sea regional climate model RCAO. SMHI, Reports Meteorology and Climatology. No 101. 61 p (2003)]Search in Google Scholar
[ROSVALL, O., JANSSON, G., ANDERSSON, B., ERICSSON, T., KARLSSON, B., SONESSON, J. and STENER, L.-G.: Predicted genetic gain from existing and future seed orchards and clone mixes in Sweden. In: HAAPANEN, M. and MIKOLA, J. (eds.): Integrating tree breeding and forestry, pp. 71-85. Finnish Forest Research Institute, Vantaa. ISBN 951-40-1822-2 (2002)]Search in Google Scholar
[SAVOLAINEN, O. A. and HURME, P. K.: Conifers from the cold. In: BIJLSMA, R. and LOESCHCKE, V. (eds): Environmental stress, adaptation and evolution, pp 43-62. Birkhäuser verlag, Basel, Swizerland. ISBN 3-7643-5695-2 (1997)10.1007/978-3-0348-8882-0_3]Search in Google Scholar
[SAS INSTITUTE INC.: SAS/STAT User’s Guide, Version 8, Cary, NC. 3884 pp. ISBN 1-58025-494-2 (1999)]Search in Google Scholar
[SHUTYAEV, A. M. and GIERTYCH, M.: Height growth variation in a comprehensive Eurasian provenance experiment of (Pinus sylvestris L.). Silvae Genet. 46: 332-349 (1997)]Search in Google Scholar
[SHUTYAEV, A. M. and GIERTYCH, M.: Genetic subdivisions of the range of Scots pine (Pinus sylvestris L.) based on a transcontinental provenance experiment. Silvae Genet. 49: 137-151 (2000)]Search in Google Scholar
[SUNDBLAD, L-G. and ANDERSSON, B.: No difference in frost hardiness between high and low altitude Pinus sylvestris (L.) offspring. Scand. J. For. Res. 10: 22-26 (1995)10.1080/02827589509382862]Search in Google Scholar
[TIGERSTEDT, P. M. A.: Adaptation, variation and selection in marginal areas. Euphytica 77: 171-174 (1994)10.1007/BF02262628]Search in Google Scholar
[ZHELEV, P., EKBERG, I., ERIKSSON, G. and NORELL, L.: Genotype environment interactions in four full-sib progeny trials of Pinus Sylvestris (L.) with varying site indices. For. Genet. 10, 93-102 (2003).]Search in Google Scholar
