Tae-soo Jang, Hyeonjin Kim, Yueun An, Daeun Jung, Bokyung Choi, Hong-chul Park, Hyeongjin Yoon, Daehoon Choi, Jin-won Kim, Dae-hyun Kang, Soonku So, Hyeon-ho Myeong
언어
영어(ENG)
URL
https://www.earticle.net/Article/A453459
원문정보
초록
영어
Species diversity and habitat transformation are affected by climate change, both directly and indirectly, with correlations observed in terms of species specificity. Alpine and subalpine climate-sensitive plants frequently exhibit morphological plasticity by adjusting their physiological and reproductive processes to adapt to significant environmental changes. Bupleurum euphorbioides is a cold-adapted herb found on the rocky slopes of South Korea. Owing to climate shifts and human activities, its population has decreased. We conducted studies on pollen morphology, pollen viability, and sexual systems to better understand environmental adaptations. In this study, we observed extensive synchrony in the sexual maturity phases of B. euphorbioides flowers both within and across individual inflorescences. The population exhibited highly synchronized mass flowering, which may represent an adaptation to challenging environments where a brief breeding season necessitates the simultaneous blossoming of a large number of flowers. We documented the sexual expression of B. euphorbioides and distinctly observed protandry, wherein pollen presentation preceded stigma receptivity. All examined individuals of B. euphorbioides exhibited significant variation in pollen viability ranging from 0.04% to 95.54%, even within a single population. Meiotic failure or apomictic reproduction is possible in individuals with low pollen fertility. While fertile pollen grains displayed a prolate shape with a well-stained cytoplasm, sterile pollen grains were characterized by their smaller size and lack of stained cytoplasm. Therefore, more thorough observations of the meiotic behavior using an expanded range of plant materials are necessary to investigate the function of the distinct reproductive system of B. euphorbioides.
목차
Abstract Introduction Materials and Methods Results and Discussion Acknowledgments References
키워드
Alpine plantsbreeding systempollen viability
저자
Tae-soo Jang [ Department of Biological Science, College of Bioscience and Biotechnology, Chungnam National University, Daejeon 34134, Republic of Korea, ]
Corresponding Author
Hyeonjin Kim [ Department of Biological Science, College of Bioscience and Biotechnology, Chungnam National University, Daejeon 34134, Republic of Korea, ]
Yueun An [ Department of Biological Science, College of Bioscience and Biotechnology, Chungnam National University, Daejeon 34134, Republic of Korea, ]
Daeun Jung [ Department of Biological Science, College of Bioscience and Biotechnology, Chungnam National University, Daejeon 34134, Republic of Korea, ]
Bokyung Choi [ Department of Biological Science, College of Bioscience and Biotechnology, Chungnam National University, Daejeon 34134, Republic of Korea, ]
Hong-chul Park [ Korea National Park Research Institute, 171, Dangu‑ro, Wonju‑si, Gangwon‑do 26441, Republic of Korea ]
Hyeongjin Yoon [ Korea National Park Research Institute, 171, Dangu‑ro, Wonju‑si, Gangwon‑do 26441, Republic of Korea ]
Daehoon Choi [ Korea National Park Research Institute, 171, Dangu‑ro, Wonju‑si, Gangwon‑do 26441, Republic of Korea ]
Jin-won Kim [ Korea National Park Research Institute, 171, Dangu‑ro, Wonju‑si, Gangwon‑do 26441, Republic of Korea ]
Dae-hyun Kang [ Korea National Park Research Institute, 171, Dangu‑ro, Wonju‑si, Gangwon‑do 26441, Republic of Korea ]
Soonku So [ Korea National Park Research Institute, 171, Dangu‑ro, Wonju‑si, Gangwon‑do 26441, Republic of Korea ]
Hyeon-ho Myeong [ Korea National Park Research Institute, 171, Dangu‑ro, Wonju‑si, Gangwon‑do 26441, Republic of Korea ]
Corresponding Author