Free access
Issue
Ann. For. Sci.
Volume 60, Number 1, January-February 2003
Page(s) 69 - 73
DOI http://dx.doi.org/10.1051/forest:2002075

References

  1. Andersson C., Frost I., Growth of Quercus robur seedlings after experimental grazing and cotyledon removal, Acta Bot. Neerl. 45 (1996) 85-94.
  2. Allsopp N., Stock W.D., Relationships between seed reserves, seedling growth and mycorrhizal responses in 14 related shrubs (Rosidae) from a low-nutrient environment, Funct. Ecol. 9 (1995) 248-254.
  3. Bacilieri R., Bouchet M.A., Bran D., Grandjanny M., Maistre M., Perret P., Romane F., Germination and regeneration mechanisms in Mediterranean degenerate forests, J. Veget. Sci. 4 (1993) 241-246.
  4. Baker H.G., Seed weight in relation to environmental conditions in California, Ecology 53 (1972) 997-1010.
  5. Bonfil C., The effects of seed size, cotyledon reserves and herbivory on seedling survival and growth in Quercus rugosa and Q. laurina (Fagaceae), Am. J. Bot. 85 (1998) 79-87.
  6. Bossema I., Jays and oaks: an eco-ethological study of a symbiosis, Behaviour 70 (1979) 1-117.
  7. Brookes P.C., Wigston D.L., Bourne W.F., The dependence of Quercus robur and Quercus petraea seedlings on cotyledon potassium, magnesium, calcium and phosphorus during the first year of growth, Forestry 53 (1980) 168-177.
  8. Catalán-Bachiller G., Semillas de árboles y arbustos forestales, Colección Técnica ICONA-MAPA, 1991.
  9. Farmer R.E. Jr., Seed ecophysiology of temperate and boreal zone forest trees, St. Lucie Press, Delray Beach, Florida, 1997.
  10. Foster S.A., On the adaptive value of large seeds for tropical moist forest trees: a review and synthesis, Bot. Rev. 52 (1986) 260-299.
  11. Frost I., Rydin H., Effects of competition, grazing and cotyledon nutrient supply on growth of Quercus robur seedlings, Oikos 79 (1997) 53-58.
  12. Gribko L.S., Jones W.E., Test of the float method of assessing northern Red Oak acorn condition, Tree Plant. Notes 46 (1995) 143-147.
  13. Grime J.P., Jeffrey D.W., Seedling establishment in vertical gradients of sunlight, J. Ecology 53 (1965) 621-642.
  14. Harper J.L., Lovell P.H., Moore K.G., The shapes and sizes of seeds, An. Rev. Ecol. System. 1 (1970) 327-356.
  15. Jarvis P.G., The effects of acorn size and provenance on the growth of seedlings of sessile oak, Q. J. For. 57 (1963) 11-19.
  16. Jurado E., Westoby M., Seedling growth in relation to seed size among species of arid Australia, J. Ecol. 80 (1992) 407-416.
  17. Leishman M.R., Westoby M., The role of large seed size in shaded conditions: experimental evidence, Funct. Ecol. 8 (1994) 205-214.
  18. Lord J., Egan J., Clifford T., Jurado E., Leishman M., Williams D., Westoby M., Larger seeds in tropical floras: consistent patterns independent of growth form and dispersal mode, J. Biogeogr. 24 (1997) 205-211.
  19. Merouani H., Branco C., Almeida M.H., Pereira J.S., Compor-tement physiologique des glands de chêne liège (Quercus suber L.) durant leur conservation et variabilité inter-individus producteurs, Ann. For. Sci. 58 (2001) 143-153.
  20. Merouani H., Branco C., Almeida M.H., Pereira J.S., Effects of acorn storage duration and parental tree on emergence and physiological status of Cork oak (Quercus suber L.) seedlings, Ann. For. Sci. 58 (2001) 543-554.
  21. Milberg P., Lamont B.B., Seed/cotyledon size and nutrient content play a major role in early performance of species on nutrient-poor soils, New Phytol. 137 (1997) 665-672.
  22. Mosandl R., Kleinert A., Development of oaks (Quercus petraea (Matt.) Liebl.) emerged from bird-dispersed seeds under old-growth pine (Pinus silvestris L.) stands, For. Ecol. Manage. 106 (1998) 35-44.
  23. Naidu S.L., DeLucia E.H., Growth, allocation and water relations of shade-grown Quercus rubra L. samplings exposed to a late-season canopy gap, Ann. Bot. 80 (1997) 335-344.
  24. Oakwood M., Jurado E., Leishman M., Westoby M., Geographic ranges of plant species in relation to dispersal morphology, growth form and diaspore weight, J. Biogeogr. 20 (1993) 563-572.
  25. Ovington J.D., MacRae C., The growth of seedlings of Quercus petraea, J. Ecol. 48 (1960) 549-555.
  26. SAS / STAT TM, Guide for personal computers, Version 6 ed., Carg. NC, SAS Institute Inc., 1998.
  27. Saverimuttu T., Westoby M., Seedling longevity under deep shade in relation to seed size, J. Ecol. 84 (1996) 681-689.
  28. Sonesson L.K., Growth and survival after cotyledon removal in Quercus robur seedlings, grown in different natural soil types, Oikos 69 (1994) 65-70.
  29. Tripathi R.S., Khan M.L., Effects of seed weight and microsite characteristics on germination and seedling fitness in two species of Quercus in a subtropical wet hill forest, Oikos 57 (1990) 289-296.
  30. Venable D.L., Size-number trade-offs and the variation of seed size with plant resource status, Am. Nat. 140 (1992) 287-304.
  31. Westoby M., Jurado E., Leishman M., Comparative evolutionary ecology of seed size, Tree 7 (1992) 368-372.

Abstract

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