LieÄÂivé rastliny v meniacich sa environmentálnych podmienkach
LieÄÂivé rastliny v meniacich sa environmentálnych podmienkach
LieÄÂivé rastliny v meniacich sa environmentálnych podmienkach
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Vliv abiotických a biotických stresorů na vlastnosti rostlin 11.5.2005<br />
MARTÍNEZ-VILALTA J, POCKMAN W.T. (2002): The vulnerability to freezing-induced xylem cavitation of<br />
Larrea tridentata (Zygophyllaceae) in the Chihuahuan desert. American Journal of Botany 89: 1916–1924.<br />
MISRA R.K., DEXTER A.R, ALSTON A.M. (1986): Maximum axial and radial growth pressures of plant<br />
roots. Plant Soil 95:315-326.<br />
NĚMEC B. BARTOŠ J. HRŠEL I. ChALOUPKA J. LHOTSKÝ O. LUXOVÁ M. MILOVIDOV P. NEČÁSEK<br />
J. PAZOURKOVÁ Z. PAZOUREK J. SOSNOVÁ V. (1962): Botanická mikrotechnika. Nakladatelství<br />
Československé Akademie Věd. Praha.<br />
PATE J, JESCHKE W, DAWSON T, RAPHAEL C, HARTUNG W, BOWEN B. (1998): Growth and seasonal<br />
utili<strong>sa</strong>tion of water and nutrients by Banksia prionotes. Australian Journal of Botany 46: 511–532.<br />
RUSSELL R.S., GOSS M.J. (1974): Physical aspects of soil fertility-the response of roots to mechanical<br />
impedance. Neth J Agric Sci 22:305-318.<br />
SANDS, R., BOWEN G.D. (1978): Compaction of <strong>sa</strong>ndy soils in Radiata pine forests. II. Effects of compaction<br />
on root configuration and growth of radiata pine seedlings. Aust. J. of For. Res. 8:163-170.<br />
SARQUIS J.I., JORDAN W.R., MORGAN P.W. (1991): Ethylene evolution from maize (Zea mays L.) seedling<br />
roots sholte in response to mechanical impedance. Plant Physiol 96:1171-1177.<br />
SCHENK H.J., JACKSON R.B. (2002): Rooting depths, lateral root spreads, and belowground/aboveground<br />
allometries of plants in water limited ecosystems. Journal of Ecology 90: 480 –494.<br />
SPERRY J, IKEDA T. (1997): Xylem cavitation in roots and stems of Douglas fir and white fir. Tree Physiology<br />
17: 275.<br />
SPERRY J.S., NICHOLS K.L., SOLLIVAN J.E.M., EASTLACK S.E. (1994): Xylem emboliím in ring-porous,<br />
diffuse-porous and coniferous trees of northern Utah and interior Alaska. Ecology 75: 1736–1752.<br />
SPERRY J.S., SALIENDRA N.Z. (1994): Intra- and inter-plant variation in xylem cavitation in Betula<br />
occidentalis. Plant, Cell & Environment 17: 1233–1241.<br />
STOLZY L.H., BARELY K.P. (1968): Mechanical resistence encountered by roots entering compact soils. Soil<br />
Sci 105:297-301.<br />
TUTTLE C.L.,. GOLDEN M.S., MELDAHL R.S. (1988): Soil compaction effects on Pinus taeda establishment<br />
from seed and early growth. Can. J. For. Res. 18(5):628-632. Tyree MT, EWERS F.W. (1991): The hydraulic<br />
architecture of trees and other woody plants. New Phytologist 119: 345–360.<br />
WAISEL Y., ESHEL A., KAFKAFI U. (2002): Plant roots the hidden half. Third edition. Printed in the USA.<br />
pp 295-323. p 1120. ISBN: 0-8247-0631-5.<br />
ZIMMERMANN M.H. (1983): Xylem structure and the ascent of <strong>sa</strong>p. New York, USA: Springer-Verlag.<br />
ZWIENIECKI M.A., MELCHER P.J., HOLBROOK M.N. (2001): Hydraulic properties of individual xylem<br />
vessels of Fraxinus american. Journal of Experimental Botany, Vol. 52, No. 355, pp. 257-264,<br />
Impact of soil pressure on root systems in Norway spruce (Picea abies /L./<br />
Karsten) seedlings II. - Anatomy study<br />
Keywords: xylem anatomy, tracheids, cell walls, lumen, fine roots<br />
Summary<br />
This work futher develops a study that was published (Gebauer a Martinková 2003, 2004). Samples of<br />
fine roots were taken from control and experimental plants that were under the permanent load of 5.1 kPa during<br />
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