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Reproductive Biology |
2Unidad de Fruticultura, Servicio de Investigación Agroalimentaria, DGA, Apartado 727, 50080, Zaragoza, Spain; 3Estación Experimental La Mayora, CSIC, 29750 Algarrobo-Costa, Málaga, Spain; 4Estación Experimental de Aula Dei, CSIC, Apartado 202, 50080, Zaragoza, Spain
Prevailing ambient temperature during the reproductive phase is one of several important factors for seed and fruit set in different plant species, and its consequences on reproductive success may increase with global warming. The effect of temperature on pollen performance was evaluated in sweet cherry (Prunus avium L.), comparing as pollen donors two cultivars that differ in their adaptation to temperature. ‘Sunburst’ is a cultivar that originated in Canada with a pedigree of cultivars from Northern Europe, while ‘Cristobalina’ is a cultivar native to southeast Spain, adapted to warmer conditions. Temperature effects were tested either in controlled-temperature chambers or in the field in a plastic cage. In both genotypes, an increase in temperature reduced pollen germination, but accelerated pollen tube growth. However, a different genotypic response, which reflected the overall adaptation of the pollen donor, was obtained for pollen tube dynamics, expressed as the census of the microgametophyte population that successfully reached the base of the style. While both cultivars performed similarly at 20°C, the microgametophyte population was reduced at 30°C for Sunburst and at 10°C for Cristobalina. These results indicate a differential genotypic response to temperature during the reproductive phase, which could be important in terms of the time needed for a plant species to adapt to rapid temperature changes.
Key Words: pollen tube dynamics • pollen tube kinetics • Prunus avium • Rosaceae • temperature stress
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