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Pablo Delgado-Sánchez María Azucena Ortega-Amaro Aída Araceli Rodríguez-Hernández Juan Francisco Jiménez-Bremont Joel Flores 《Plant signaling & behavior》2010,5(10):1229-1230
Recently, we found that fungi are involved in breaking seed dormancy of Opuntia streptacantha, and that the effect of fungi on seeds is species-specific. However, the effect of fungi on seed germination from other Opuntia spp. has not been evaluated. Thus, we evaluated the effect of four fungal species (Penicillium chrysogenum, Phoma sp., Trichoderma harzianum, Trichoderma koningii) on the germination of Opuntia leucotricha, an abundant species in the Chihuahuan Desert, Mexico. We found that seeds inoculated with the four fungal species had higher germination than control seeds. Trichoderma spp. were the most effective. Our results strongly indicate that fungi are involved in breaking seed dormancy of O. leucotricha. Thus, we suggest that these fungi could promote seed germination from other Opuntia species.Key words: cactaceae, Opuntia leucotricha, Penicillium chrysogenum, Phoma sp., physiological dormancy, prickly pear, seed germination, Trichoderma spp.Seeds in the soil interact with microorganisms that could help them break seed dormancy. Fungi attack the testa, eroding or cracking the hard/stony endocarp, and could reduce the mechanical resistance to germination in seeds with physiological dormancy.1 In arid environments, the effects of fungi on breaking seed dormancy in cacti have received very little attention. Recently, our work group found that Phoma sp. and Trichoderma koningii, and in less proportion Penicillium chrysogenum, help break seed dormancy of Opuntia streptacantha, maybe by the action of enzymes that degrade the testa.2 However, the effect of fungi on seed germination from other Opuntia species has not been evaluated.In this study, we test the effects of four fungal species (two isolated from O. streptacantha testa) in breaking seed dormancy of Opuntia leucotricha; a perennial arborescent cactus of economic interest distributed on the semiarid lands of central Mexico.Since seeds of Opuntia spp. have physiological dormancy, they need a period of after-ripening to break dormancy, and the embryos have low growth potential; we used two-year-old seeds, assuming that old seeds have broken physiological seed dormancy and that fungi can reduce mechanical resistance to germination.2
O. leucotricha seeds were collected from mature fruits in 2008 and stored in paper bags at room temperature during two years.Penicillium chrysogenum, Phoma sp., Trichoderma harzianum and T. koningii were grown on PDA plates at 28°C for three days. The spores (P. chrysogenum, T. harzianum and T. koningii) and mycelia (Phoma sp.) were collected in sterile distilled water and counted in a Neubauer chamber for later inoculation of O. leucotricha seeds. Sterilized seeds were grown on water-agar plates and inoculated with 2 µl of spore solution or mycelium (6 × 107 ml−1) from each fungus. Seeds were incubated in water-agar plates for 35 days in an automatic germination chamber with a 16 h light and 8 h dark photoperiod at 25°C ± 2°C. There were five replicates per treatment and 20 seeds per replicate.After one-way ANOVA, we found a significant effect of fungal species (F = 52.198, p < 0.0001) on O. leucotricha seed germination. Seeds inoculated with the four fungal species had higher germination than control, although Trichoderma spp. promoted higher seed germination than the other fungi examined (Treatment Germination percentage (± S.E.) Control 0%c Penicillium chrysogenum 15% (± 3.35)b Phoma sp. 10% (± 2.23)b Trichoderma harzianum 40% (± 8.94)a Trichoderma koningii 37% (± 8.27)a