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NTIS 바로가기한국농림기상학회지 = Korean Journal of Agricultural and Forest Meteorology, v.15 no.4, 2013년, pp.245 - 263
권헌중 (농촌진흥청 국립원예특작과학원 사과시험장) , 사공동훈 (농촌진흥청 국립원예특작과학원 사과시험장) , 박무용 (농촌진흥청 국립원예특작과학원 사과시험장) , 송양익 (농촌진흥청 국립원예특작과학원 사과시험장) , 정경호 (농촌진흥청 국립원예특작과학원 사과시험장) , 남종철 (농촌진흥청 국립원예특작과학원 과수과) , 한점화 (농촌진흥청 국립원예특작과학원 과수과) , 도경란 (농촌진흥청 국립원예특작과학원 과수과)
This study was conducted to find out the influence of elevated atmospheric
핵심어 | 질문 | 논문에서 추출한 답변 |
---|---|---|
식물체의 광포화점의 특징은 무엇인가? | 식물체의 광포화점은 기온과 CO2 농도에 따라 크게 변하는데, 생육 적온까지 기온이 높아질수록 광합성속 도는 높아지나 광포화점은 낮아지고, 또 CO2 포화점까지 공기 중의 CO2 농도가 높아질수록 광합성속도와 광포화점은 높아진다(Chae et al., 2006). | |
대기 중 CO2 농도가 높아지면 나타나는 결과는 무엇인가? | 대기 중 CO2 농도가 높아지면 식물들의 광합성과 건물생산성이 증대하는데(Byun et al., 2006; Chae et al. | |
본 논문에서 수행한, 기온 및 CO2 농도 상승이 ‘후지’/M.9 사과나무의 광합성 및과실품질에 미치는 영향에 관한 시험을 통해 얻은 결론은 무엇인가? | 과실품질에 있어, CO2 상승은 착색, 가용성 고형물 함량, 및 에틸렌 발생량을 증진시켰다. 결론적으로, CO2 농도가 상승되면 생육초기에 사과나무의 광합성속도가 증가되었으나 생육후기에는 CO2 상승에 따른 광합성속도 증진 효과가 감소되었다. 반면에 기온 상승은 생육초기 광합성속도를 감소시켰으나 생육후기에 광합성속도를 증진시키는 경향이 있었다. CO2 와 기온의 동시 상승은 각 요인에 의한 광합성 감소 정도가 줄어드는 경향이 있었다. |
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