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수온 상승에 따른 게바다말의 광합성 및 호흡률 변화 KCI 등재

Photosynthetic and respiratory responses of the surfgrass, Phyllospadix japonicus, to the rising water temperature

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  • URLhttps://db.koreascholar.com/Article/Detail/416916
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한국환경생물학회 (Korean Society Of Environmental Biology)
초록

Photosynthesis and respiration of seagrasses are mainly controlled by water temperature. In this study, the photosynthetic physiology and respiratory changes of the Asian surfgrass Phyllospadix japonicus, which is mainly distributed on the eastern and southern coasts of Korea, were investigated in response to changing water temperature (5, 10, 15, 20, 25, and 30°C) by conducting mesocosm experiments. Photosynthetic parameters (maximum photosynthetic rate, Pmax; compensation irradiance, Ic; and saturation irradiance, Ik) and respiration rate of surfgrass increased with rising water temperature, whereas photosynthetic efficiency (α) was fairly constant among the water temperature conditions. The Pmax and Ik dramatically decreased under the highest water temperature condition (30°C), whereas the Ic and respiration rate increased continuously with the increasing water temperature. Ratios of maximum photosynthetic rates to respiration rates (Pmax : R ) were highest at 5°C and declined markedly at higher temperatures with the lowest ratio at 30°C. The minimum requirement of Hsat (the daily period of irradiancesaturated photosynthesis) of P. japonicus was 2.5 hours at 5°C and 10.6 hours at 30°C for the positive carbon balance. Because longer Hsat was required for the positive carbon balance of P. japonicus under the increased water temperature, the rising water temperature should have negatively affected the growth, distribution, and survival of P. japonicus on the coast of Korea. Since the temperature in the temperate coastal waters is rising gradually due to global warming, the results of this study could provide insights into surfgrass responses to future severe sea warming and light attenuation.

목차
Abstract
서 론
재료 및 방법
    1. 게바다말 시료 채취 및 보관
    2. 광합성 특성 및 호흡률 측정
    3. 통계분석
결 과
    1. 수온에 따른 광합성 특성 및 호흡률 변화
    2. 광량과 탄소수지 (carbon balance)
고 찰
적 요
사 사
REFERENCES
저자
  • 김혜광((주)비티알에스) | Hyegwang Kim (Institute of Biodiversity-assessment Technology and Restoration Systems)
  • 김종협((주)비티알에스) | Jong-Hyeob Kim (Institute of Biodiversity-assessment Technology and Restoration Systems)
  • 김승현(부산대학교 생명과학과) | Seung Hyeon Kim (Department of Biological Sciences, Pusan National University, Busan 46241, Republic of Korea)
  • Suonan Zhaxi(부산대학교 생명과학과)
  • 이근섭(부산대학교 생명과학과) | Kun-Seop Lee (Department of Biological Sciences, Pusan National University, Busan 46241, Republic of Korea) Corresponding Author