Free access
Issue
Ann. For. Sci.
Volume 57, Number 3, March-April 2000
Page(s) 277 - 286
DOI http://dx.doi.org/10.1051/forest:2000118

References

1
Allard R.W., Genetic changes associated with the evolution of adaptedness in cultivated plants and their progenies, J. Hered. 79 (1988) 225-238.
2
Alpert P., Fixity versus plasticity in clonal plant characteristics: when is it good to adjust? Proceedings of the international workshop Phenotypic Plasticity in Plants: Consequences of non-Cognitive Behavior, - March 15-19, 1998, Ben-Gurion University of the Negev, Blaustein Institute for Desert Research, Sede-Boker campus 84990, Israel, Research workshop of the Israel Science Foundation.
3
Bradshaw A.W., Evolutionary significance of phenotypic plasticity in plants, Adv. Gen. 13 (1965) 115-153.
4
Cheplick G.P., Effects of endophytic fungi on the phenoypic plasticity of Lolium perenne (Poaceae), Ame. J. Botany 84, 1 (1997) 34-40.
5
de la Vega M.P., Plant genetic adaptedness to climatic and edaphic environment, Euphytica 92 (1996) 27-38.
6
Falconer D.S., The problem of environment and selection, Amer. Natur. 86 (1952) 293-298.
7
Falconer D.S., Introduction to quantitative genetics, 2nd ed. Longman Inc. NY, 1981.
8
Gause G.F., Problems of evolution, Trans. Conn. Acad. Sci. 37 (1947) 17-68.
9
Neuffer B., Meyer Walf M., Ecotypic variation in relation to man made habitats in Capsella: field and trampling area, Flora Jena 191, 1 (1996) 49-57.
10
Panconesi A., Raddi P., Una realtà presente per il futuro del cipresso. Selezionati cloni resistenti al cancro del cipresso, Cellul. Carta (1990) 1.
11
Panconesi A., Raddi P., Agrimed n. 1 e Bolgheri: due nuove selezioni resistenti al cancro del cipresso, Cellul. Carta (1991) 1.
12
Pechackova S., Multidimensional plastic responses of a clonal grass to light quality, Proceedings of the international workshop Phenotypic Plasticity in Plants: Consequences of non-Cognitive Behavior - March 15-19, 1998, Ben-Gurion University of the Negev, Blaustein Institute for Desert Research, Sede-Boker campus 84990, Israel, Research workshop of the Israel Science Foundation.
13
Pigliucci M., Callahan H., Plasticity to light variation: a gateway to almost everything you were afraid to ask in evolutionary biology, Proceedings of the international workshop Phenotypic Plasticity in Plants: Consequences of non-Cognitive Behavior, March 15-19, 1998, Ben-Gurion University of the Negev, Blaustein Institute for Desert Research, Sede-Boker campus 84990, Israel, Research workshop of the Israel Science Foundation.
14
Santini A., Casini N., Panconesi A., Di Lonardo V., Effetto dell'ambiente sulla morfologia e sulla crescita di alcuni cloni di Cupressus sempervirens e possibili relazioni con Seiridium cardinale, Monti e Boschi 3 (1994a) 42-48.
15
Santini A., Casini N., Panconesi A., Di Lonardo V., Nembi V., Risposta comparativa all'infezione con Seiridium cardinale di alcuni cloni di cipresso in due località italiane, It. For. Mont. 4 (1994b) 389-400.
16
Schlichting C.D., Phenotypic plasticity in Phlox. II. Plasticity of character correlations, Oecologia 78 (1989a) 496-501.
17
Schlichting C.D., Phenotypic integration and environmental change, BioScience 39, 7 (1989b) 460-464.
18
Schlichting C.D., Levin D.A., Phenotypic plasticity: an evolving plant character, Biol. J. Linn. Soc. 29 (1986) 37-47.
19
Schmalhausen I.I., Factors in evolution, University of Chicago Press, 1949.
20
Snedecor G.W., Cochran W.G., Statistical method, 7th ed. Iowa State Univ. Press, Ames, Iowa, 1980.
21
Spitze K., Sadler T.D., Evolution of a generalist genotype: multivariate analysis of the adaptiveness of phenotypic plasticity, American Naturalist. 148 (1996) Supplement, 108-123.
22
Via S., Lande R., Genotype-environment interactions and the evolution of phenotypic plasticity, Evolution 39 (1985) 505-522.
23
Wool D., Hales D.F., Phenotypic plasticity in Australian cotton aphid (Homoptera: Aphididae): host plant effects on morphological variation, Ann. Entomolog. Soc. Am. 90 (1997) 3, 316-328.


Abstract

Copyright INRA, EDP Sciences