Changes in Internal Water Relations and Osmotic Properties of Leaves in Maturing Soybean Plants

The changes in the internal water relations of soybean (Glycinemax L. Merr.) leaves during vegetative and reproductive growthwere studied by following the changes in the pressure-volumecurves of soybean leaves. The results demonstrate that soybeanleaves undergo a change in their osmotic properties which coincideswith the onset of active reproductive growth and is not inducedby water stress. The observed osmotic changes resulted in anincrease in the leaf relative water content at any given bulkleaf water potential. The volume of leaf water loss needed toreduce turgor potential to zero did not change following thischange in osmotic properties. The degree of turgor maintenanceafter the change in osmotic properties depended on the abilityto maintain adequate leaf relative water content. The observedchanges in bulk osmotic potential of the soybean leaves wouldcontribute to increased leaf-soil water potential gradientsand therefore to improved ability to extract the remaining soilwater as the season progressed.     

Gravitropic response of primary maize rootlets as influenced by light and temperature

Abstract. The gravitropic curvature of primary maize rootlets was measured as a function of temperature, both in the presence and absence of light. In two different cultivars, light strongly increased the downward curvature of roots developing from horizontally-oriented embryos. At 15–20°C, the bending angle was in the range of 70–80° in the light, and 25–50° in the dark, depending on the cultivar. When the temperature was increased above the 15–20°C range, marked differences were found between the two cultivars in their response to light. In one variety tested, JX180, the effect of light was relatively small at 30–35°C. Gravitropic curvature in another variety, Halamish, depended strongly on light throughout the temperature range tested. In both cultivars, gravitropic curvature was only slightly temperature dependent when germination and growth were in total darkness. In the dark, the extent of gravitropic curvature also depended on whether the kernels were oriented with their embryos facing upwards or downwards. Under continuous light, the gravitropic bending of roots of cultivar Halamish did not show a marked temperature dependence. When the seedlings were subjected to only a 15 min illumination, their gravitropic response was partial, and the dependence on temperature somewhat increased. In cultivar JX180, a combination of temperature and light modulates gravitropism. The gravitropic response of different maize cultivars thus differs considerably in its combined dependence on light and temperature.     

Tests for adaptive RAPD variation in population genetic structure of wild barley, Hordeum spontaneum Koch.

We examined the adaptive importance of RAPD variation in the population genetic structure of wild barley, Hordeu m spontaneum. The test involved (1) a nested sampling design with four population groups representing four distinct environments; and (2) a comparison of observed variation with that expected as a result of natural selection. Analyses of selection on fitness-related traits by reciprocal introductions served as guidelines for the expected pattern of RAPD variation. We found no concordance between the observed pattern of population genetic structure and that expected under the null hypothesis of environment-specific natural selection. There was no relationship between genetic distance and environmental similarity; none of 54 putative loci exhibited an allele distribution in accordance with that expected and no favoured epistatic allele combinations were detected across the four environments. The fact that environmentally induced adaptation, detected by fitness-related traits, was not reflected in inter-population RAPD structure (1) strongly enhances the neutralist viewpoint and (2) casts doubt on the notion that significant correlations between some environmental parameters and allele frequencies in one or more loci are evidence of selection on the latter.