Abstract
The study of plant phenology is important nowadays since global climate-changing phenomena are impacting the growing patterns and growing periods of plants. Bamboo is of great importance to the agriculture and forestry of temperate, subtropical to tropical regions, especially of Asia. Although some temperate genera can thrive under different climatic conditions, from the Korean Peninsula to South China, it is not known how bamboo will be affected by climate change, so the collection of data related to bamboo phenology could be of interest to research related to climate change. In this review, we describe available data on the phenology of 8 temperate genera, including 79 species, varieties and forms and 4 subtropical–tropical bamboo genera, including 19 species. Primarily, culm shoot physiology is discussed with some reference to leaf phenology data, where available, as well as their interaction. Since the data available in Western literature is often limited to the definition of season rather than exact dates and periods of given months, there is still a great need to explore more about the exact phenology of individual bamboo species to be able to determine the impact of periodic changes in weather patterns or climate change on bamboo phenology in the future.
Reference85 articles.
1. (2017, August 10). Phenological Sensitivity to Temperature Changes Oak (Quercus sp.) Leafing Date in Surrey (United Kingdom) 1950–2008. Available online: https://www.eea.europa.eu/data-and-maps/indicators/plant-phenology#:~:text=Phenology%20is%20the%20study%20of,et%20al.%2C%202006.
2. Environmental influence on canopy phenology in the dry tropics;Frederic;For. Ecol. Manag.,2005
3. Doussoulin-Guzmán, M.A., Pérez-Porras, F.J., Triviño Tarradas, P., Ríos Mesa, A.F., García Ferrer Porras, A., and Mesas Carrascosa, F.J. (2022). Grassland phenology response to climate conditions in Biobio, Chile from 2001 to 2020. Remote Sens., 14.
4. Plant phenological modeling and its application in global climate change research: Overview and future challenges;Zhao;Environ. Rev.,2013
5. Shifting plant phenology in response to global change;Cleland;Trends Ecol. Evol.,2007
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