Dear Colleagues,

Climate change has an important influence on the distribution of plants, and strongly affects the reproductive phases of several species. Accordingly, over the last several decades a number of studies have been carried out in order to study the direct effects of rising temperatures, changing precipitation, melting snow, aridity, soil moisture, salinity, etc. on the reproductive and physiological processes in plants. However, many authors have concluded their works by highlighting the need for further studies to understand how climate change will affect plant regeneration.

In the literature, it is common to find controversial results related to the germination behavior of plant species under climate change. On the one hand, the seed germination and seedling establishment of some species appears to be seriously compromised by future climate conditions, while other species seem to be indirectly favored by these rapid climatic changes.

The situation becomes more complicated when the researchers need to find scientific responses in species with dormant seeds. By definition, seed dormancy prevents germination in a specified period of time, under any combination of environmental factors that otherwise favor germination. Thus, dormancy may be considered as an adaptive trait that optimizes the distribution of germination over time in a population of seeds. Therefore, including “environmental stress” due to climate change in the study of seed germination behavior in dormant species by may increase the difficulties in finding the correct interpretation of the results.

This Special Issue of Plants will thus collect and present research on the germination behavior of species with dormant and non-dormant seed, trying to implement research on this important topic and increasing the knowledge on the response of the species to climate change. We welcome original research papers, methods, reviews, and perspectives, from the study of germination response under climate change in sensu stricto, as well as the study of germination response under different environmental stresses which will be discussed, in some parts, in terms of key aspects of adaptation to climate change conditions.

Dr. Marco Porceddu
Guest Editor

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• climate change
• conservation biology
• environmental stress
• global warming
• seed germination
• seed dormancy
• seedling emergence
• plant ecology
• plant regeneration