02178nas a2200133 4500008004100000245011800041210006900159300001300228490000700241520162800248653002001876100001701896856013101913 1988 eng d00aGenetic variation in leaf morphology and plant and tissue water relations during drought in Cercis canadensis . L0 aGenetic variation in leaf morphology and plant and tissue water a200 -2070 v343 a
Genetic variation in plant and tissue water relations in response to drought, and in leaf morphology, were examined in greenhouse-grown Cercis canadensis L. (eastern redbud) seedlings originating from seed obtained in three contrasting habitats: a relatively xeric Kansas prairie, a Kansas gallery forest understory, and a relatively mesic Indiana understory. Kansas prairie redbud maintained significantly greater leaf conductance (gwv) during a 13-day drought than did Kansas and Indiana understory redbud, despite similar decreases in leaf water potential in all three sources. Moreover, Kansas paririe redbud had significantly lower osmotic potentials at full and zero turgor compared to Indiana redbud at both the early and later stages of drought. Kansas understory redbud was the only source to undergo a signigicant decrease in relative water content at zero turgor and the bulk modulus of elasticity during drought. Kansas prairie redbud leaver were smaller and thicker and had higher specific leaf mass (i.e., more xerophytic) than understory redbud leaves. Kansas understory redbud had intermediate characteristics in terms of gwv at the early to middle stages of drought, osmotic potentials at high and low leaf water potential, and leaf area and thickness compared to Kansas prairie and Indiana understory redbud. These results suggest that genetically controlled physiological and morphological adaptation has occurred in redbud that should facilitate its survival in greatly contrasting habitats. ADDITIONAL KEY WORDS: Ecophysiology, Kansas prairie, gallery forest, Indiana understory, leaf morphology
10aWater relations1 aAbrams, M.D. uhttp://lter.konza.ksu.edu/content/genetic-variation-leaf-morphology-and-plant-and-tissue-water-relations-during-drought-cercis