淹水番茄植株的根系信号与气孔关闭与光合作用、叶绿素a荧光及不定根形成的关系
Root signals and stomatal closure in relation to photosynthesis, chlorophyll a fluorescence and adventitious rooting of flooded tomato plants.
作者信息
Else Mark A, Janowiak Franciszek, Atkinson Christopher J, Jackson Michael B
机构信息
East Malling Research, East Malling, Kent ME19 6BJ, UK.
出版信息
Ann Bot. 2009 Jan;103(2):313-23. doi: 10.1093/aob/mcn208. Epub 2008 Nov 10.
BACKGROUND AND AIMS
An investigation was carried out to determine whether stomatal closure in flooded tomato plants (Solanum lycopersicum) results from decreased leaf water potentials (psi(L)), decreased photosynthetic capacity and attendant increases in internal CO(2) (C(i)) or from losses of root function such as cytokinin and gibberellin export.
METHODS
Pot-grown plants were flooded when 1 month old. Leaf conductance was measured by diffusion porometry, the efficiency of photosystem II (PSII) was estimated by fluorimetry, and infrared gas analysis was used to determine C(i) and related parameters.
KEY RESULTS
Flooding starting in the morning closed the stomata and increased psi(L) after a short-lived depression of psi(L). The pattern of closure remained unchanged when psi(;L) depression was avoided by starting flooding at the end rather than at the start of the photoperiod. Raising external CO(2) concentrations by 100 micromol mol(-1) also closed stomata rapidly. Five chlorophyll fluorescence parameters [F(q)'/F(m)', F(q)'/F(v)', F(v)'/F(m)', non-photochemical quenching (NPQ) and F(v)/F(m)] were affected by flooding within 12-36 h and changes were linked to decreased C(i). Closing stomata by applying abscisic acid or increasing external CO(2) substantially reproduced the effects of flooding on chlorophyll fluorescence. The presence of well-aerated adventitious roots partially inhibited stomatal closure of flooded plants. Allowing adventitious roots to form on plants flooded for >3 d promoted some stomatal re-opening. This effect of adventitious roots was not reproduced by foliar applications of benzyl adenine and gibberellic acid.
CONCLUSIONS
Stomata of flooded plants did not close in response to short-lived decreases in psi(L) or to increased C(i) resulting from impaired PSII photochemistry. Instead, stomatal closure depressed C(i) and this in turn largely explained subsequent changes in chlorophyll fluorescence parameters. Stomatal opening was promoted by the presence of well-aerated adventitious roots, implying that loss of function of root signalling contributes to closing of stomata during flooding. The possibility that this involves inhibition of cytokinin or gibberellin export was not well supported.
背景与目的
开展了一项调查,以确定水淹番茄植株(番茄)气孔关闭是由于叶片水势(ψ(L))降低、光合能力下降以及随之而来的胞内二氧化碳(C(i))增加,还是由于根系功能丧失,如细胞分裂素和赤霉素输出减少。
方法
盆栽植株在1月龄时进行水淹处理。通过扩散气孔计测量叶片导度,用荧光法估算光系统II(PSII)的效率,并使用红外气体分析法测定C(i)及相关参数。
关键结果
早晨开始水淹会使气孔关闭,并在ψ(L)短暂降低后使其升高。若在光周期结束而非开始时进行水淹以避免ψ(L)降低,气孔关闭模式保持不变。将外部二氧化碳浓度提高100 μmol mol⁻¹也会迅速使气孔关闭。五个叶绿素荧光参数[F(q)'/F(m)'、F(q)'/F(v)'、F(v)'/F(m)'、非光化学猝灭(NPQ)和F(v)/F(m)]在12 - 36小时内受水淹影响,且变化与C(i)降低有关。通过施用脱落酸或提高外部二氧化碳浓度来关闭气孔,在很大程度上重现了水淹对叶绿素荧光的影响。通气良好的不定根的存在部分抑制了水淹植株的气孔关闭。让水淹超过3天的植株形成不定根可促使部分气孔重新开放。叶面喷施苄基腺嘌呤和赤霉酸并不能重现不定根的这种作用。
结论
水淹植株的气孔并非因ψ(L)短暂降低或PSII光化学受损导致的C(i)增加而关闭。相反,气孔关闭使C(i)降低,这反过来在很大程度上解释了随后叶绿素荧光参数的变化。通气良好的不定根的存在促进了气孔开放,这意味着根系信号功能丧失有助于水淹期间气孔关闭。但这一过程涉及抑制细胞分裂素或赤霉素输出的可能性未得到有力支持。
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