Résultat de la recherche
15 recherche sur le mot-clé 'Vitesse de depot'
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H. Shnyder ; C. Nelson | 1988article/chapitre/communication
H. Schnyder ; C. Nelson ; W. Spollen | 1988article/chapitre/communication
I. Maurice ; F. Gastal ; J. Durand | 1997Growing leaves of tall fescue (Festuca arundinacea Schreb.) were studied from emergence to a short time before the leaf ceases growth. Leaf form (width, average thickness, number of vascular bundles and height of associated ridges) and growth pa[...]article/chapitre/communication
article/chapitre/communication
H. Schnyder ; C. Nelson | 1989article/chapitre/communication
H. Schnyder ; C. Nelson | 1987article/chapitre/communication
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H. Zhong ; A. Lauchli | 1994Cotton (Gossypium hirsutum L. cv. Acala SJ-2) seedlings were grown in modified Hoagland nutrient solution with or without 150 m M Na Cl and supplemental 10 m M Ca Cl2. The spatial distribution of bulk-tissue osmotic potential (Psi(s)) and total [...]article/chapitre/communication
Y. Hu ; S. Von Tucher ; U. Schmidhalter | 2000article/chapitre/communication
Y. Hu ; U. Schmidhalter | 1998Wheat leaf growth is known to be spatially affected by salinity. The altered spatial distribution of leaf growth under saline conditions may be associated with spatial changes in tissue mineral elements. The objective of this study was to evalua[...]article/chapitre/communication
W. Silk ; T. Hsiao ; U. Diedenhofen ; C. Matson | 1986article/chapitre/communication