Home > International Partnerships > Collaborative Research > Coexistence mechanism of four bamboo species in tropical seasonal forests focusing on resistance to forest fire
Update:June 6, 2024
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Kasetsart University, Thailand
FY 2022-2026 Grant-in-Aid for Scientific Research (KAKENHI)
HIRAI, Keizo(Principal Research Director(Climate Change))
Our research group has clarified through long-term observations for about 30 years that the dynamics of tropical seasonal forests are driven by the interaction between "forest fires in the dry season" and "control of tree regeneration by bamboos". Biodiversity of bamboos is generally high in tropical seasonal forests, but there has been no hypothesis about its coexistence mechanism in the past. Bamboo has a trade-off between resistance to forest fires and regeneration and growth after gregarious flowering. In this study, we test the hypothesis that bamboos coexist in different forest fire regimes depending on the topography.
The purpose of this study is to elucidate the coexistence mechanism of four species of bamboo and its determinants in the slope of forest fire frequency according to the topography in the tropical seasonal forest of Thailand. To this end, we will clarify two points: 1) the trade-off relationship between the growth in the early regeneration stage of bamboos and the forest fire resistance trait, and 2) the interspecific differences and characteristic traits related to it, and their acquisition mechanism of forest fire resistance.
First, we will clarify the interspecific difference in propagation timing and the regeneration mechanism for each of the four bamboo species. Next, we will elucidate the traits related to the fire resistance function of bamboo and clarify the acquisition process of those traits. In addition, we will clarify the distribution of soil moisture and inorganic components along the topography of the experimental plot as soil environmental factors that can control these. Finally, based on these factors, we will elucidate why four types of bamboo can be distributed and coexist in tropical seasonal forests under frequent forest fires.
Dokrak Marod, Tohru Nakashizuka, Tomoyuki Saitoh, Keizo Hirai, Sathid Thinkampheang, Lamthai Asanok, Wongsatorn Phumphuang, Noppakun Danrad and Sura Pattanakiat(2023)Long Term Seasonal Variability on Litterfall in Tropical Dry Forests, Western Thailand. Forests 2023, 14(10), 2107; https://doi.org/10.3390/f14102107
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