叶绿素荧光主动与被动联合观测应用前景

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叶绿素荧光主动与被动联合观测应用前景

丁键浠¹, 周蕾¹^,², 王永琳¹, 庄杰¹, 陈集景¹, 周稳¹, 赵宁¹, 宋珺¹, 迟永刚¹^,^*(

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Application prospects for combining active and passive observations of chlorophyll fluorescence

DING Jian-Xi¹, ZHOU Lei¹^,², WANG Yong-Lin¹, ZHUANG Jie¹, CHEN Ji-Jing¹, ZHOU Wen¹, ZHAO Ning¹, SONG Jun¹, CHI Yong-Gang¹^,^*(

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图4. 水稻Ф_F和Ф_PSII在Ф_NPQ影响下的关系变化(A), P_n与SIF₇₆₀在NPQ影响下的关系变化(B)。该图为野外实际观测数据。NPQ, 非光化学淬灭; P_n, 净光合速率; SIF₇₆₀, 760 nm的日光诱导叶绿素荧光值; Ф_F, 荧光效率; Ф_NPQ, NPQ效率; Ф_PSII, 光化学效率。

Fig. 4. Relationship between Ф_F and Ф_PSII under the influence of Ф_NPQ(A), relationship change between P_n and SIF₇₆₀ under the influence of NPQ (B) in rice. The figure showed actual observation data in the field. NPQ, non-photochemical quenching; P_n, net photosynthetic rate; SIF₇₆₀, value of sun-induced chlorophyll fluorescence at 760 nm; Ф_F, fluorescence efficiency; Ф_NPQ, NPQ efficiency; Ф_PSII, photochemical efficiency.