Abstract
Aim of the study: To study the germination ecology of two species of the genus Ribes to reveal their levels of morphophysiological dormancy (MPD) and to facilitate the production of plants from seeds, a key tool for population reinforcement.Area of study: Experiments were carried out both outdoors and in the laboratory in Albacete (Spain) with seeds from the Meridional Iberian System mountain range.Material and methods: Seeds from one population of Ribes alpinum and from other of Ribes uva-crispa were collected during several years. Embryo length, radicle and seedling emergence, and effects on germination of stratification and GA3 were analysed to determine the level of MPD.Main results: In R. alpinum, embryo length in fresh seeds was 0.49 mm, needing to grow to 1.30 mm to germinate. Warm stratification (25/10ºC) promoted embryo length enlargement to 0.97 mm. Afterwards, seeds germinated within a wide temperature range. Embryo growth and seedling emergence occur late summer-early autumn. In R. uva-crispa, embryo length in fresh seeds was 0.52 mm, being 2.10 mm the minimal size to germinate. Embryos exposed to a moderately warm stratification (20/7ºC + 15/4ºC) followed by cold (5ºC) grew to 2.30 mm. Then, seeds germinated ≥ 80% when incubated at temperatures ≥ 15/4ºC. Embryos grew in autumn/early winter, and seedlings emerged late winter-early spring.Research highlights: These results showed that R. alpinum seeds have a nondeep simple MPD while R. uva-crispa seeds have a nondeep complex MPD. Moreover, the different germinative models found for each species help explain their installation in distinct habitats.Keywords: Ribes; seed dormancy break; radicle emergence; seedling emergence; nondeep simple and nondeep complex MPD.Abbreviations used: Morphophysiological dormancy (MPD), morphological dormancy (MD), Gibberellic acid (GA3), months (m).
Highlights
Seed dormancy plays an important ecological role by allowing the fine-tuning of germination timing to favour seedling establishment (Forbis et al, 2002)
Research highlights: These results showed that R. alpinum seeds have a nondeep simple morphophysiological dormancy (MPD) while R. uva-crispa seeds have a nondeep complex MPD
Seedling emergence in the Ribes alpinum (B) and R. uva-crispa (C) seeds sown in September 2015
Summary
Seed dormancy plays an important ecological role by allowing the fine-tuning of germination timing to favour seedling establishment (Forbis et al, 2002). Requirements for seed dormancy loss and germination are specific for each species and depend on phylogeny, life cycle, geographic distribution and habitat This study analyses the correspondence between germinative ecology and the habitat in two Ribes genus species. Ribes seeds are characterised by a linear underdeveloped embryo (Ruiz de la Torre, 2006). If embryos grow and germinate in ≤ 30 days, they are reported to have MD, but have MPD if they require dormancy-breaking treatment to overcome their physiological component of seed dormancy (Baskin & Baskin, 2004). If embryos grow and germinate in ≤ 30 days, they are reported to have MD, but have MPD if they require dormancy-breaking treatment to overcome their physiological component of seed dormancy (Baskin & Baskin, 2004). Mattana et al (2012) have reported the presence of a nondeep simple (root)-nondeep simple (epicotyl)
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