Effect of Temperature on Germination in Northernmost Populations of Culcita macrocarpa and Woodwardia radicans

 

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Abstract

Spore germination of Culcita macrocarpa C. Presl and Woodwardia radicans (L.) Sm. from nine populations at the northern limit of their distribution, in the northwest Iberian Peninsula, was investigated. In a first experiment, population type and temperature (10, 15, 20, and 25 °C) were both found to affect germination percentage and germination time significantly in both species. There were also significant interactions between the two factors with respect to the percentage germination of C. macrocarpa and the germination time of W. radicans. In C. macrocarpa there was an outstanding increase in germination time at 15 °C and, above all, at 10 °C, whereas in W. radicans the most remarkable result was the existence of two populations with especially low germination percentages. In a second experiment, germination of 20 individuals from each population of W. radicans was compared with similar inter-population differentiation. Although its variability possibly has a genetic basis, these species are able to germinate successfully, and it seems probable that the season in which it occurs depends more on spore release than on thermal conditions in the populations. The effect of temperature on germination in both species does not explain their coastal distribution. Temperature is probably more important in limiting other stages of the life cycle.

References

• 01 Amigo,  J., and Norman,  G.. (1995);  Identification of site-types important for rare ferns in an area of deciduous woodland in northwest Spain.  Vegetatio. 116 133-146
  Google Scholar
• 02 Anon, . (1995) Resumo de datos climatolóxicos, período 1955 - 94. Xunta de Galicia; Santiago de Compostela
  Google Scholar
• 03 Bennert,  H. W., and Danzebrink,  B.. (1996);  Spore germination of endangered pteridophytes in Germany.  Verhandlungen der Gesellschaft für Ökologie. 26 197-207
  Google Scholar
• 04 Carballeira,  A.,, Devesa,  C.,, Retuerto,  R.,, Santillán,  E., and Ucieda,  F.. (1983) Bioclimatología de Galicia (2 vols.). A Coruña; Fundación P. Barrié de la Maza
  Google Scholar
• 05 Cellinese,  N.,, Jarvis,  C. E.,, Pichi Sermolli,  R. E. G.,, Press,  J. R.,, Short,  M. J.,, and Viciani,  D.. (1996);  Threatened plants of Italy. Pteridophytes. Memorie della Academia Lunigianese di Scienze “Giovanni Capellini”.  La Spezia. 66 117-145
  Google Scholar
• 06 Chabot,  B. F., and Hicks,  D. J.. (1982);  The ecology of leaf life spans.  Annual Review of Ecology and Systematics. 13 229-259
  Google Scholar
• 07 Cousens,  M. I.. (1981);  Blechnum spicant: habitat and vigor of optimal, marginal, and disjunct populations, and field observations of gametophytes.  Botanical Gazette. 142 (2) 251-258
  Google Scholar
• 08 Dyer,  A. F.. (1979) The culture of fern gametophytes for experimental investigation. The experimental biology of ferns. Dyer, A.F., ed. London; Academic Press pp. 254-305
  Google Scholar
• 09 Falk,  D. A., and Holsinger,  K. E.. (1991) Genetics and conservation of rare plants. Oxford; Oxford University Press
  Google Scholar
• 10 Farrar,  D. R.. (1976);  Spore retention and release from overwintering fern fronds.  American Fern Journal. 66 (2) 49-52
  PubMedGoogle Scholar
• 11 Kornás,  J.. (1985) Adaptive strategies of African pteridophytes to extreme environments. Biology of pteridophytes. Dyer, A. F. and Page, C. N., eds. Edinburgh 86 B; Proceedings Royal Society pp. 391-396
  Google Scholar
• 12 Lloyd,  E. M., and Klekowski,  R. J. Jr.. (1970);  Spore germination and viability in pteridophyta: evolutionary significance of chlorophyllous spores.  Biotropica. 2 129-137
  PubMedGoogle Scholar
• 13 Martin,  A.,, Grzeskowiak,  V.,, and Puech,  S.. (1995);  Germination variability in three species in disturbed Mediterranean environments.  Acta Oecologia. 16 (4) 479-490
  PubMedGoogle Scholar
• 14 Maruta,  E.. (1994);  Seedling establishment of Polygonum cuspidatum and Polygonum weyrichii var. alpinum at high altitudes of Mt. Fuji.  Ecological Research. 9 205-213
  PubMedGoogle Scholar
• 15 Miller,  J. H.. (1968);  Fern gametophytes as experimental material.  The Botanical Review. 34 (4) 361-440
  PubMedGoogle Scholar
• 16 Mukherjee,  A. K., and Sen,  T.. (1986);  Gametophytes of some tree-ferns and their impact on phylogenetic relationships.  Indian Fern Journal. 3 70-81
  PubMedGoogle Scholar
• 17 Nayar,  B. K.,, Bajpai,  N.,, and Raza,  F.. (1966);  Morphological studies on some species of Blechnum, Doodia, Woodwardia and Stenochlaena: I. The gametophytes and the juvenile sporophytes.  Journal of the Linnean Society (Botany). 59 405-423
  PubMedGoogle Scholar
• 18 Nishitani,  S., and Masuzawa,  T.. (1996);  Germination characteristics of two species of Polygonum in relation to their altitudinal distribution on Mt. Fuji, Japan.  Arctic and Alpine Research. 28 (1) 104-110
  PubMedGoogle Scholar
• 19 Ormonde,  J.. (1990);  Pteridófitos endémicos, raros ou ameaçados das Ilhas Macaronésicas.  Fontqueria. 28 5-12
  PubMedGoogle Scholar
• 20 Page,  C. N.. (1977);  An ecological survey of the ferns of the Canary Islands.  Fern Gazette.. 11 297-312
  PubMedGoogle Scholar
• 21 Page,  C. N.. (1979) Experimental aspects of fern ecology. The experimental biology of ferns. Dyer, A. F., ed. London; Academic Press pp. 552-589
  Google Scholar
• 22 Pangua,  E.,, Lindsay,  S.,, and Dyer,  A.. (1994);  Spore germination and gametophyte development in three species of Asplenium. .  Annals of Botany. 73 587-593
  CrossrefPubMedGoogle Scholar
• 23 Pangua,  E.,, García-Álvarez,  L.,, and Pajarón,  S.. (1999);  Studies on Cryptogramma crispa spore germination.  American Fern Journal. 89 (2) 159-170
  PubMedGoogle Scholar
• 24 Pichi Sermolli,  R. E. G.,. (1979);  A survey of the pteridological flora of the Mediterranean Region.  Webbia. 34 (1) 175-242
  PubMedGoogle Scholar
• 25 Pichi Sermolli,  R. E. G.,, España,  L.,, and Salvo,  A. E.. (1988);  El valor biogeográfico de la pteridoflora ibérica.  Lazaroa. 10 187-205
  PubMedGoogle Scholar
• 26 Prada,  C.,, Pangua,  E.,, Pajarón,  S.,, Herrero,  A.,, Escudero,  A.,, and Rubio,  A.. (1995);  A comparative study of gametophyte morphology, gametangial ontogeny, and sex expression in the Asplenium adiantum-nigrum complex (Aspleniaceae, Pteridophyta).  Annales Botanici Fennici. 32 107-115
  PubMedGoogle Scholar
• 27 Quintanilla,  L. G., and Amigo,  J.. (1999);  Catálogos de las pteridofloras de los espacios naturales protegidos de Galicia.  Botanica Complutensis. 23 99-110
  PubMedGoogle Scholar
• 28 Raghavan,  V.. (1989) Developmental biology of fern gametophytes. Cambridge, Great Britain; Cambridge University Press
  Google Scholar
• 29 Ranal,  M. A.. (1999);  Effects of temperature on spore germination in some fern species from semideciduous mesophytic forest.  American Fern Journal. 89 (2) 149-158
  PubMedGoogle Scholar
• 30 Rezende Pinto,  M. C. de.. (1943);  Culcita macrocarpa Pr. Contribuïção para o seu estudo monográfico.  Boletim da Sociedade Broteriana. II. 17 94-146
  PubMedGoogle Scholar
• 31 Wagner,  W. H. Jr.,, Wagner,  F. S.,, and Taylor,  W. C.. (1986);  Detecting abortive spores in herbarium specimens of sterile hybrids.  American Fern Journal. 76 (3) 129-140
  PubMedGoogle Scholar
• 32 Wilce,  J. H.. (1965);  Section Complanata of the genus Lycopodium.  Beihefte zur Nova Hedwigia. 19 1-233
  PubMedGoogle Scholar
• 33 Zar,  J. H.. (1996) Biostatistical analysis, 3rd ed. New Jersey; Prentice-Hall
  Google Scholar

L. G. Quintanilla

Departamento de Biología Vegetal I
Facultad de Biología
Universidad Complutense

28040 Madrid
Spain

Email: lugarqui@eucmos.sim.ucm.es

Section Editor: U. Lüttge