STOMATAL CHARACTERISTICS, CONDUCTANCE RATIOS, AND DROUGHT-INDUCED LEAF MODIFICATIONS OF SEMIARID GRASSLAND SPECIES

Seventeen greenhouse-grown grasses from the Nebraska Sandhills region were surveyed for foliar stomatal density and distribution, closed guard cell lengths, open stomatal apertures, and surface characteristics (using scanning electron microscopy), surface conductance (using a steady-state porometer), and drought-induced leaf modifications. Leaves of C-3 species exhibited a proclivity toward being amphistomatic or hyperstomatic, while C-4 species tended to be more hypostomatic. Leaf modification, when it occurred, resulted in the enshrouding of the adaxial surface. Conductance data showed functional amphistomaty in most species, revealing differential functioning of adaxial and abaxial stomata. Conductance patterns were not closely related to stomatal aperture per unit area leaf surface or to stomatal distribution patterns. Lowered adaxial: abaxial conductance ratios, increased stomatal density, reduced stomatal size, and less drought-induced leaf modification were seen in C-4 grasses as compared with C-3 grasses. C-3 range and C-3 meadow species did not differ in conductance ratios, density ratios, or stomatal size, although meadow species exhibited much greater drought-induced leaf modification. Postulations involving correlation of adaxial: abaxial conductance ratios to stomatal distribution patterns, and assumptions of stomatal distribution based upon habitat and/or photosynthetic pathway may be erroneous. These characteristics may be of limited usefulness as morphological indicators in the search for drought-tolerant ecotypes of prairie grasses.