Abstract

Visible light and UV epifluorescence microscopy were used to assess self-incompatibility (SI) in Zinnia angustifolia clones. Pistils were fixed 24 h after pollination and stained either with aniline blue in lactophenol (visible light microscopy) or decolorized aniline blue (fluorescence microscopy). Percentage of florets with embryos 21 days following pollination (% embryo set) was used as a control. Embryo set following self- or incompatible cross-pollinations ranged from 0% to 9.9%, whereas compatible crosses yielded 55.5%–87.1% embryo set. Observations using visible light microscopy indicated pollen load and number of germinated grains were significantly higher for compatible compared to incompatible crosses, and both variables were positively correlated (r = 0.89–0.96) to % embryo set. Examinations with UV epifluorescence microscopy revealed pollen load was higher and little or no callose accumulated in stigmatic papillae following compatible crosses, whereas for incompatible crosses, pollen load was low and callose lenticules were deposited in stigmatic papillae; the correlation between pollen load and % embryo set was 0.89. The intensity of callose fluorescence of the pollen tube-papillae attachment sites was quantitatively measured via micro spectrofluorometry. Callose fluorescence intensity ranged from 47.9% to 62.6% for incompatible and from 6.4% to 9.9% for compatible crosses, and was negatively correlated (r= — 0.95) with % embryo set. Microscopal techniques permit rapid assessment of SI and may be used routinely when each observed or measured parameter is highly correlated to the incompatibility response.

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