Carbon isotope discrimination (Δ 13 C) is considered as an index of leaf-level water use efficiency, an important objective for plant breeders seeking to conserve water resources. We report in rice a genetic analysis for Δ 13 C, leaf structural parameters, gas exchange, stomatal conductance, and leaf abscisic acid (ABA) concentrations. Doubled haploid and recombinant inbred populations, both derived from the cross IR64 × Azucena, were used for quantitative trait locus (QTL) analysis following greenhouse experiments. Δ 13 C QTLs on the long arms of chromosomes 4 and 5 were colocalized with QTLs associated with leaf blade width, length, and flatness, while a QTL cluster for Δ 13 C, photosynthesis parameters, and ABA was observed in the near-centromeric region of chromosome 4. These results are consistent with phenotypic correlations and suggest that genetic variation in carbon assimilation and stomatal conductance contribute to the genetic variation for Δ 13 C in this population.
Colloidal‐size synthetic‐polymer microspheres of three sizes (0.15, 0.31 and 0.70‐µm diameter) were each suspended in liquids of three different colors (clear, tan and dark brown) at a range of concentrations. The samples were presented to panelists in a viewing box. Visual‐threshold determinations were made for each of the nine sample sets using the ascending method of limits (AMLs) and bright illumination (1,192 lux) with each of the three viewing backgrounds: black velvet, white cotton and white taffeta. The thresholds were much more similarly expressed as turbidimeter observations than as either weight or number concentration. With the black‐velvet background, the thresholds ranged from 0.206 to 2.190 nephelometric turbidity units (NTU). With white cotton and white taffeta, they were considerably higher (P < 0.001), ranging from 1.97 to 41.00 and 2.97 to 34.40 NTU, respectively. This large difference appears to be a matter of contrast – scattered white light is much easier to perceive against a dark background.
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