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Researchers at the University of Granada determine different types of seeds allow plants to adapt to environmental cycles as they evolve
Through mathematical models and an exhaustive data analysis of over 500 plant species, their work has shown that the global distribution of dormancy and seed size follows a predictable pattern depending on climate oscillations
Researchers at the University of Granada (UGR) have discovered that different types of seeds allow plants to adapt to environmental cycles as they evolve.
These scientists thus proposed, for the first time, “universal laws” on seed size and biology, showing, through mathematical models and an exhaustive data analysis of 500 plant species, that the global distribution of dormancy and seed size follow a predictable pattern that depends on climate oscillations.
Rafael Rubio de Casas, researcher from the Department of Ecology at the University of Granada, is the main author of this work which was published in the journal, New Phytologist.
Many plant seeds have a property called dormancy which allows them to stay in the soil for long periods of time without germinating. The UGR researcher pointed out that these types of seeds are more abundant in temperate zones than tropical ones. Likewise, seeds in high latitude zones tend to be smaller. According to Rubio de Casas, the reasons for these patterns are not clear.
Seeds encapsulate mechanisms which allow plants to synchronize their growth with more favorable periods. The results of this study showed that smaller dormant seeds, which are able to remain in the soil longer without being detected and wait to germinate at the beginning of the favorable season, better adapt to environments with short growing seasons.
On the other hand, Rubio noted, larger seeds better adapt to areas where germination and growing conditions are favorable year-round, as they are able to germinate immediately and produce more robust seedlings.
The UGR researcher concluded that, thanks to the data obtained from this study, they will be able to make predictions on plants that will occupy different habitats and even determine which plants will better adapt to a particular environment.
Global biogeography of seed dormancy is determined by seasonality and seed size: a case study in the legumes
Rafael Rubio de Casas, Charles G. Willis, William D. Pearse, Carol C. Baskin, Jerry M. Baskin and Jeannine Cavender-Bare
New Phytologist (2017)
Attached are pictures of researcher Rafael Rubio de Casas, from the Department of Ecology at the UGR School of Science, with some seeds.
Rafael Rubio de Casas
Department of Ecology at the University of Granada
Telephones: (+34) 958 241 000 ext. 20069
(+34) 958 249 861