杂交水稻
雜交水稻
잡교수도
HYBRID RICE
2001年
1期
46-50
,共5页
曹树青%翟虎渠%盛生兰%龚红兵%林添资%杨图南%张荣铣%匡廷云
曹樹青%翟虎渠%盛生蘭%龔紅兵%林添資%楊圖南%張榮鐉%劻廷雲
조수청%적호거%성생란%공홍병%림첨자%양도남%장영선%광정운
杂交水稻%光能利用率%光合碳同化%光合速率高值持续期%光合速率高值指数
雜交水稻%光能利用率%光閤碳同化%光閤速率高值持續期%光閤速率高值指數
잡교수도%광능이용솔%광합탄동화%광합속솔고치지속기%광합속솔고치지수
从光能利用率差异的角度探讨了高产杂交籼稻Ⅱ优129和对照汕优63的光合碳同化特性。结果表明:a)Ⅱ优129的光能利用率和产量显著高于汕优63,但其叶面积指数、消光系数及生育期无显著差异,说明光合效率及光合功能期是导致两组合光能利用率差异的主要原因;b)Ⅱ优129剑叶的CO2日同化量、叶源量及单茎CO2同化量均极显著高于汕优63,说明前者的碳同化能力较后者强;c)提高一个耐光抑制等级即可减少约3%的CO2日同化量的损失,提高品种的耐光抑制等级可进一步提高光能利用率;d)用光合速率高值指数作为衡量叶片一生中光合机构高效运行状态的一个生理指标,有助于揭示光合功能衰退对产量影响的生理机制,提高光合速率高值指数是提高光合效率的一个重要途径。
從光能利用率差異的角度探討瞭高產雜交秈稻Ⅱ優129和對照汕優63的光閤碳同化特性。結果錶明:a)Ⅱ優129的光能利用率和產量顯著高于汕優63,但其葉麵積指數、消光繫數及生育期無顯著差異,說明光閤效率及光閤功能期是導緻兩組閤光能利用率差異的主要原因;b)Ⅱ優129劍葉的CO2日同化量、葉源量及單莖CO2同化量均極顯著高于汕優63,說明前者的碳同化能力較後者彊;c)提高一箇耐光抑製等級即可減少約3%的CO2日同化量的損失,提高品種的耐光抑製等級可進一步提高光能利用率;d)用光閤速率高值指數作為衡量葉片一生中光閤機構高效運行狀態的一箇生理指標,有助于揭示光閤功能衰退對產量影響的生理機製,提高光閤速率高值指數是提高光閤效率的一箇重要途徑。
종광능이용솔차이적각도탐토료고산잡교선도Ⅱ우129화대조산우63적광합탄동화특성。결과표명:a)Ⅱ우129적광능이용솔화산량현저고우산우63,단기협면적지수、소광계수급생육기무현저차이,설명광합효솔급광합공능기시도치량조합광능이용솔차이적주요원인;b)Ⅱ우129검협적CO2일동화량、협원량급단경CO2동화량균겁현저고우산우63,설명전자적탄동화능력교후자강;c)제고일개내광억제등급즉가감소약3%적CO2일동화량적손실,제고품충적내광억제등급가진일보제고광능이용솔;d)용광합속솔고치지수작위형량협편일생중광합궤구고효운행상태적일개생리지표,유조우게시광합공능쇠퇴대산량영향적생리궤제,제고광합속솔고치지수시제고광합효솔적일개중요도경。
Photosynthetic carbon assimilating properties were studied in high-yield hybrid rices Ⅱ You 129 and Shanyou 63 (as the check) from the point of view of the difference of their solar energy use efficiency . The results showed that solar energy use efficiency and yield for Ⅱ You 129 were remarkably higher than those of Shanyou 63,but their leaf area index, foliar absorption coefficient and growth duration had not much difference, which suggests that photosynthetic efficiency and time are the important reasons resulting in the difference of their solar energy use efficiency. Daily CO2 assimilation capacity(DCAC), leaf source capacity(LSC) in flag leaf and CO2 assimilation capacity of a stem(CACS) of Ⅱ You 129 were more than those of Shanyou 63, which indicates that the carbon assimilation capacity of the former is better than that of the latter. The improvement of one grade of photoinhibition might reduce 3% loss of DCAC, and solar energy use efficiency could be improved by increasing photoinhibition grade for rice varieties. Active photosynthesis index(API) was used as a physiological index for weighing the active state of photosynthesis organ in leaf life span, which facilitates elucidating the influence of photosynthesis function degeneration on rice yield. To improve API would be an important approach to increasing photosynthetic efficiency.
