Impacts of growth form and phylogenetic relatedness on seed germination: A large‐scale analysis of a subtropical regional flora
Citations Over TimeTop 21% of 2021 papers
Abstract
Plant regeneration strategy plays a critical role in species survival and can be used as a proxy for the evolutionary response of species to climate change. However, information on the effects of key plant traits and phylogenetic relatedness on seed germination is limited at large regional scales that vary in climate. To test the hypotheses that phylogenetic niche conservatism plays a critical force in shaping seed ecophysiological traits across species, and also drives their response to climatic fluctuation, we conducted a controlled experiment on seed germination and determined the percentage and rate of germination for 249 species in subtropical China under two temperature regimes (i.e., daily 25°C; daily alternating 25/15°C for each 12 hr). Germination was low with a skewed distribution (mean = 38.9% at 25°C, and 43.3% at 25/15°C). One fifth of the species had low (80%) and rapid (1.2-6.6 days) germination. All studied plant traits (including germination responses) showed a significant phylogenetic signal, with an exception of seed germination percentage under the alternating temperature scenario. Generalized linear models (GLMs) and phylogenetic generalized estimation equations (GEEs) demonstrated that growth form and seed dispersal mode were strong drivers of germination. Our experimental study highlights that integrating plant key traits and phylogeny is critical to predicting seed germination response to future climate change.
Related Papers
- → Diplochory: are two seed dispersers better than one?(2003)328 cited
- → Seed-dispersal distributions by trumpeter hornbills in fragmented landscapes(2010)126 cited
- → Habitat‐specific dispersal: environmental effects on the mechanisms and patterns of seed movement in a grassland herb Rhinanthus minor(2003)81 cited
- → Temporal variations in seed dispersal patterns of a bird‐dispersed tree, Swida controversa (Cornaceae), in a temperate forest(2015)14 cited
- The Dispersal Ways of Plant Seeds and Their Adaptability(2013)