Cristina Blandino1,2, Eduardo Fernández-Pascual1,3, Rosemary J Newton1, Hugh W Pritchard1. 1. Science Directorate, Royal Botanic Gardens, Kew, Wakehurst, Ardlingly, West Sussex, UK. 2. Council for Agricultural Research and Economics (CREA), Research Centre for Plant Protection and Certification, Florence, Italy. 3. IMIB - Biodiversity Research Institute, University of Oviedo, Mieres, Spain.
Abstract
BACKGROUND AND AIMS: European ancient woodlands are subject to land use change, and the distribution of herbaceous understorey species may be threatened because of their poor ability to colonize isolated forest patches. The regeneration niche can determine the species assembly of a community, and seed germination traits may be important descriptors of this niche. METHODS: We analysed ecological records for 208 herbaceous species regarded as indicators of ancient woodlands in Europe and, where possible, collated data on seed germination traits, reviewed plant regeneration strategies and measured seed internal morphology traits. The relationship between plant regeneration strategies and ecological requirements was explored for 57 species using ordination and classification analysis. KEY RESULTS: Three regeneration strategies were identified. Species growing in closed-canopy areas tend to have morphological seed dormancy, often requiring darkness and low temperatures for germination, and their shoots emerge in early spring, thus avoiding the competition for light from canopy species. These species are separated into two groups: autumn and late winter germinators. The third strategy is defined by open-forest plants with a preference for gaps, forest edges and riparian forests. They tend to have physiological seed dormancy and germinate in light and at higher temperatures, so their seedlings emerge in spring or summer. CONCLUSION: Seed germination traits are fundamental to which species are good or poor colonizers of the temperate forest understorey and could provide a finer explanation than adult plant traits of species distribution patterns. Seed dormancy type, temperature stratification and light requirements for seed germination are important drivers of forest floor colonization patterns and should be taken in account when planning successful ecological recovery of temperate woodland understories.
BACKGROUND AND AIMS: European ancient woodlands are subject to land use change, and the distribution of herbaceous understorey species may be threatened because of their poor ability to colonize isolated forest patches. The regeneration niche can determine the species assembly of a community, and seed germination traits may be important descriptors of this niche. METHODS: We analysed ecological records for 208 herbaceous species regarded as indicators of ancient woodlands in Europe and, where possible, collated data on seed germination traits, reviewed plant regeneration strategies and measured seed internal morphology traits. The relationship between plant regeneration strategies and ecological requirements was explored for 57 species using ordination and classification analysis. KEY RESULTS: Three regeneration strategies were identified. Species growing in closed-canopy areas tend to have morphological seed dormancy, often requiring darkness and low temperatures for germination, and their shoots emerge in early spring, thus avoiding the competition for light from canopy species. These species are separated into two groups: autumn and late winter germinators. The third strategy is defined by open-forest plants with a preference for gaps, forest edges and riparian forests. They tend to have physiological seed dormancy and germinate in light and at higher temperatures, so their seedlings emerge in spring or summer. CONCLUSION: Seed germination traits are fundamental to which species are good or poor colonizers of the temperate forest understorey and could provide a finer explanation than adult plant traits of species distribution patterns. Seed dormancy type, temperature stratification and light requirements for seed germination are important drivers of forest floor colonization patterns and should be taken in account when planning successful ecological recovery of temperate woodland understories.
Authors: Jenny C Ordoñez; Peter M van Bodegom; Jan-Philip M Witte; Ruud P Bartholomeus; Jurgen R van Hal; Rien Aerts Journal: Am Nat Date: 2010-02 Impact factor: 3.926
Authors: Charles G Willis; Carol C Baskin; Jerry M Baskin; Josh R Auld; D Lawrence Venable; Jeannine Cavender-Bares; Kathleen Donohue; Rafael Rubio de Casas Journal: New Phytol Date: 2014-03-28 Impact factor: 10.151