Open AccessEffects of Low Water Potential on Cortical Cell Length in Growing Regions of Maize Roots
Author(s) -
T.J. Fraser,
Wendy Kuhn Silk,
Thomas L. Rost
Publication year - 1990
Publication title -
plant physiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.554
H-Index - 312
eISSN - 1532-2548
pISSN - 0032-0889
DOI - 10.1104/pp.93.2.648
Subject(s) - elongation , seedling , zea mays , biology , apex (geometry) , growth rate , poaceae , water stress , border cells , cortical neurons , botany , horticulture , agronomy , cell , microbiology and biotechnology , mathematics , materials science , geometry , ultimate tensile strength , metallurgy , genetics
Roots growing under low water potential commonly exhibit a marked decrease in growth rate and in diameter. Using median longitudinal sections of fixed maize (Zea mays L. cv WF9 x Mo 17) seedling roots, we investigated the cellular basis for these effects. Cortical cells in the shortened elongation zone of water stressed roots were longer than cortical cells in the comparable location of well-watered roots. Nearly twofold differences in cell length were seen in the region 2 to 4 millimeters behind the root apex. The shortened growth zone, however, leads to a final mean cortical cell length approximately 30% shorter in the stressed roots. These differences were present regardless of the age of the control roots. These data, and the slower growth rate seen in water-stressed roots, suggest that the water deficit causes a significant reduction in the rate of cell supply to the cortical cell files.
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