光合作用光响应模型的比较

 用美国Li-Cor公司生产的Li-6400光合作用测定仪控制CO₂浓度和温度, 测量了华北平原冬小麦(Triticum aestivum)的光响应数据。分别用C₃植物光响应新模型、直角双曲线模型、非直角双曲线模型和Prado-Moraes模型拟合这些实测数据, 分析了由直角双曲线模型、非直角双曲线模型和Prado-Moraes模型拟合这些数据得到的最大净光合速率(The maximum net photosynthetic rate)远大于实测值, 而光饱和点(Light saturation point)远小于实测值的原因。结果表明, 由C₃植物光响应新模型拟合的结果与实测数据符合程度最高(R²=0.999 4和R²=0.998 7); 表观量子效率(Apparent quantum yield)不是一个理想的表示植物利用光能的指标, 建议用植物光响应曲线在光补偿点处的量子效率作为表示植物光能利用的指标。     

岩溶植物光合-光响应曲线的两种拟合模型比较

用直角双曲线和非直角双曲线两种模型,对桂林岩溶区石山植物红背山麻杆（Alchornea trewioides）、九龙藤（Bauhinia championii）、青檀（Pteroceltis tatarinowii）和圆叶乌桕（Sapium rotundifolium）光合作用的光响应曲线进行拟合。结果表明,直角双曲线拟合的表观量子效率（α）、最大净光合速率（Pmax）、暗呼吸速率（Rd）、光补偿点（Lcp）和光饱和点（Lφ）数值均高于相应的非直角双曲线拟合结果;直角双曲线模型拟合的参数值大小和曲线变化趋势不符合实际情况;非直角双曲线模型拟合结果更符合生理意义。红背山麻杆和九龙藤具有较高的表观量子效率和较低的光补偿点,对光能的利用效率和耐荫性均强于圆叶乌桕和青檀。     

不同水分条件下胡杨光响应曲线拟合模型比较

本研究通过测量不同水分条件下胡杨（Populus euphratica Oliv.）叶片的光响应曲线,并采用4种光响应模型对其光合特征参数拟合值与实测值进行比较,分析了不同水分条件下光响应曲线模型对胡杨适用性的影响机制。结果表明,当水分供应充足时,胡杨非直角双曲线模型对暗呼吸速率（R_d）的拟合效果最优,直角双曲线修正模型拟合光饱和点（LSP）、最大净光合速率（P_nmax）、光补偿点（LCP）的结果与实测值较接近;但当胡杨受到水分亏缺后,直角双曲线修正模型对P_nmax和光饱和点（LSP）的拟合效果最优,直角双曲线模型对R_d和LCP的拟合效果最佳。因此,水分条件有利时胡杨应用直角双曲线修正模型、非直角双曲线模型较好;水分亏缺条件下采用直角双曲线修正模型、直角双曲线模型更为适合。     

几种光合作用光响应典型模型的比较研究

光响应曲线是判定植物光合效率的重要方法,通过曲线可以获得植物光合特性的相关生理参数,但不同模型提取的光响应参数和指标存在差异。本文选择直角双曲线、非直角双曲线和两种指数曲线模型,分别对3个品系常绿杨光响应数据进行拟合,提取了各光响应曲线模型的主要特征参数,对比分析了各模型参数问的差异,并对光饱和点（LSP）的不同计算方法进行了讨论。最后用巨尾桉光响应数据对分析结果作了进一步验证。结果表明,直角和非直角双曲线模型拟合的最大净光合速率（P＇max）、表观量子效率（a）及暗呼吸速率（Rd）值高于指数模型拟合值,且直角双曲线拟合的各参数均比非直角双曲线拟合的各参数的值大,而两指数模型各参数拟合值基本一致;在LSP计算方法中,用光通量200μmol·m^-2·s^-1以下的点拟合的Pn-I直线与其它模型相结合得到光饱和点的方法不可靠,会使计算结果明显偏小,用接近最大总光合速率Pmax一定比例的方法估计LSP也存在较大偏差,而P＇max由于消除了Rd的影响,计算光饱和点时各模型的估计比例相对固定,是一个比较理想的LSP估计方法,初步得出直角、非直角及指数模型用P＇max来估计光饱和点时应选取的比例分别为（78±1）％、（82±1）％及（96±1）％。     

不同模型对黄山栾树快速光曲线拟合效果的比较

用Li-6400光合仪同时测定了CO2浓度为380和600μmol·mol-1条件下黄山栾树的光响应曲线和快速光曲线,分别采用不同模型进行了拟合.结果表明:直角双曲线模型和双指数方程拟合得到的最大电子传递速率远大于实测值;直角双曲线模型、非直角双曲线模型、单指数方程不能拟合黄山栾树存在PSⅡ动力学下调的快速光曲线,只有双指数方程和直角双曲线修正模型可以拟合黄山栾树存在PSⅡ动力学下调的快速光曲线,且可以计算它的饱和光强.综合拟合结果可知,直角双曲线修正模型不仅可以很好地拟合黄山栾树的快速光曲线,而且得到的最大电子传递速率和饱和光强与实测值相符合.此外,通过拟合植物的快速光曲和光响应曲线,还可以判断在饱和光强时它的电子传递速率与碳同化是否同时达到最大值.     

温州地区主栽蓝莓品种叶片饱和光强的研究

为探讨温州地区蓝莓(Vaccinium darrowi?V.corymbosum)叶片的光饱和点,对2个蓝莓品种(?奥尼尔?和?薄雾?)叶片的光合速率和电子传递速率的光响应曲线进行拟合。结果表明,直角双曲线修正模型能较好地拟合光合速率和电子传递速率对光的响应曲线,给出的光饱和点值与实际观测值接近;而直角双曲线模型、非直角双曲线模型及指数方程模型拟合结果远低于实际观测值。在全光和遮荫下,?奥尼尔?叶片的光饱和点分别为656.32?806.17和605.83?756.22μmol m–2s–1;而?薄雾?叶片的分别为1 034.63?1 641.25和933.09?988.18μmol m–2s–1,说明这2个品种均为半阳生植物。     

光响应曲线的指数改进模型与常用模型比较

光响应曲线的参数是研究植物生理状态的重要指标, 常用的光响应曲线模型无法准确地计算出光饱和点和最大净光合速率。该文利用光响应曲线新模型——指数改进模型、直角双曲线模型、直角双曲线修正模型、非直角双曲线模型和指数模型, 拟合高粱(Sorghum bicolor)、苋(Amaranthus tricolor)、大麦(Hordeum vulgare)和半夏(Pinellia ternata)的光响应曲线, 并随机选取部分数据进行检验, 得到了各模型计算出的主要生理参数, 并对这些数据进行了比较分析, 讨论了各模型之间的优缺点和准确性, 描述了C₃、C₄植物光响应的适宜性。结果表明, 基于C₃植物得到的指数改进模型和直角双曲线修正模型能较准确地计算出C₃、C₄植物饱和光强和最大净光合速率, 并在描述光响应曲线时比另外3个模型具有更高的精确性和适宜性。实验结果可为光响应曲线模型在C₃和C₄光合途径植物中的应用提供参考。     

不同土壤水分下山杏光合作用光响应过程及其模拟

摘 要 利用CIRAS－2型便携式光合作用测定系统,在黄土高原丘陵沟壑区,测定了山杏（Prunus armeniaca L.）在8个土壤水分梯度下光合作用的光响应过程,并采用直角双曲线模型、非直角双曲线模型和直角双曲线修正模型对其进行拟合分析。结果表明：土壤相对含水量（RWC）在56.3%—80.9%范围内,山杏在强光下能维持较高的光合作用水平,受到的光抑制不明显。在此土壤水分范围内,3个模型均能较好地拟合光合作用的光响应过程及其表观量子效率（Φ）、光补偿点（LCP）和暗呼吸速率（Rd）,对Φ、LCP和Rd的拟合精度以非直角双曲线模型＞直角双曲线修正模型＞直角双曲线模型。但超出此范围（即RWC＜56.3%或RWC＞80.9%）时,山杏的光合作用在强光下会发生明显的光抑制,表现为光合速率随光强增加而明显降低,量子效率和光饱和点明显减小,此时只有直角双曲线修正模型能较好地拟合山杏光响应过程及其特征参数。结论：山杏光合作用正常的土壤水分范围在RWC为56.3%—80.9%之间;直角双曲线修正模型能较好地拟合各种土壤水分下山杏的光响应过程及其特征参数;直角和非直角双曲线模型适用于正常水分下山杏光响应过程及其特征参数的模拟,但不能用于拟合胁迫水分（或光抑制）下的光响应过程。     

光强与水分处理下景宁木兰光合光响应模型拟合比较

采用5种数学模型(直角双曲线模型、非直角双曲线模型、二次函数模型、指数模型、直角双曲线修正模型)对不同光照与水分处理下景宁木兰(Magnolia sinostellata)幼苗光响应过程进行拟合分析,以期筛选出光照与水分胁迫下景宁木兰适宜的光响应模型。结果表明:(1)5种拟合模型对景宁木兰光响应过程拟合精度为:指数模型直角双曲线修正模型直角双曲线模型非直角双曲线模型二次函数模型。(2)光合参数的拟合效果表现为:指数模型对景宁木兰最大净光合速率(Pnmax)、光饱和点(LSP)进行求解较准确,直角双曲线修正模型对光补偿点(LCP)求解最佳,而暗呼吸速率(Rd)的结果采用非直角双曲线模型较为合理。(3)景宁木兰幼苗能适应一定的弱光及流动水环境,而深度遮阴及积水环境抑制景宁木兰幼苗的光合速率。     

不同淹水时间下中华蚊母树光响应特征及其模型比较

本文模拟库区秋冬季淹水环境,利用Li-6400 XT便携式光合仪测定了淹水条件下2年生中华蚊母树的光响应曲线,并采用直角双曲线模型、非直角双曲线模型和直角双曲线修正模型3种数学模型进行拟合分析,以探讨不同模型对水淹胁迫下中华蚊母树的适用性以及最佳光合参数对水淹胁迫的适应规律.结果表明:非直角双曲线模型对正常水分生长和短期水淹下(水淹15 d)中华蚊母树光响应过程的拟合优于其他两种模型,而直角双曲线修正模型对长期水淹下(水淹30、45和60 d)中华蚊母树光响应过程的拟合更具优势.直角双曲线修正模型对光补偿点(LCP)、最大净光合速率(Pn max)和光饱和点(LSP)的拟合效果最佳,非直角双曲线模型对暗呼吸速率(Rd)的拟合效果最佳.水淹前期(30 d),中华蚊母树表观量子效率(Φ)、Pn max和LSP逐渐降低,而LCP和Rd逐渐升高,但随着水淹时间的继续增加,中华蚊母树逐渐对水淹产生了适应性,各项光合生理指标逐渐趋于稳定,说明中华蚊母树具有一定适应水淹环境的能力.     

A new model for relationship between irradiance and the rate of photosynthesis in <Emphasis Type="Italic">Oryza sativa</Emphasis>

The calculated maximum net photosynthetic rate (P _N) at saturation irradiance (I _m) of 1 314.13 μmol m⁻² s⁻¹ was 25.49 μmol(CO₂) m⁻² s⁻¹, and intrinsic quantum yield at zero irradiance was 0.103. The results fitted by nonrectangular hyperbolic model, rectangular hyperbolic method, binomial regression method, and the new model were compared. The maximum P _N values calculated by nonrectangular hyperbolic model and rectangular hyperbolic model were higher than the measured values, and the I _m calculated by nonrectangular hyperbolic model and rectangular hyperbolic model were less than measured values. Results fitted by new model showed that the response curve of P _N to I was nonlinear at low I for Oryza sativa, P _N increased nonlinearly with I below saturation value. Above this value, P _N decreased nonlinearly with I.     

亚热带10种蕨类植物光响应模型拟合及光合特性研究

通过合适的光响应模型来准确计算植物光合参数是研究植物光合特性的重要手段。为深入了解亚热带蕨类植物的光合特性,采用直角双曲线模型、非直角双曲线模型、指数模型和直角双曲线修正模型等4种常用光响应模型分别对10种亚热带蕨类植物进行光响应曲线拟合。通过分析决定系数(R~2)、均方根误差(RMSE)、平均绝对误差(MAE)、光饱和点(LSP)、光补偿点(LCP)、最大净光合速率(P_nmax)、暗呼吸速率(R_d)和表观量子效率(AQE)等9种参数,探讨亚热带蕨类植物的光响应模型拟合效果及其光合特性。结果表明：直角双曲线修正模型和非直角双曲线模型对本研究10种亚热带蕨类植物的拟合效果较好,其中直角双曲线修正模型的LSP拟合效果最好,非直角双曲线模型的拟合精度最高。光合参数的聚类分析和TOPSIS(Technique for Order Preference by Similarity to an Ideal Solution)综合评价法表明,10种亚热带蕨类植物的光合特性既具有相似性又存在物种特异性。黑鳞耳蕨(Polystichum makinoi(Tag...     

Acclimation of rice photosynthesis to irradiance under field conditions

Acclimation to irradiance was measured in terms of light-saturated photosynthetic carbon assimilation rates (P(max)), Rubisco, and pigment content in mature field-grown rice (Oryza sativa) plants in tropical conditions. Measurements were made at different positions within the canopy alongside irradiance and daylight spectra. These data were compared with a second experiment in which acclimation to irradiance was assessed in uppermost leaves within whole-plant shading regimes (10% low light [LL], 40% medium light [ML], and 100% high light [HL] of full natural sunlight). Two varieties, japonica (tropical; new plant type [NPT]) and indica (IR72) were compared. Values for Rubisco amount, chlorophyll a/b, and P(max) all declined from the top to the base of the canopy. In the artificial shading experiment, acclimation of P(max) (measured at 350 microL L(-1) CO(2)) occurred between LL and ML for IR72 with no difference observed between ML and HL. The Rubisco amount increased between ML and HL in IR72. A different pattern was seen for NPT with higher P(max) (measured at 350 microL L(-1) CO(2)) at LL than IR72 and some acclimation of this parameter between ML and HL. Rubisco levels were higher in NPT than IR72 contrasting with P(max). Comparison of data from both experiments suggests a leaf aging effect between the uppermost two leaf positions, which was not a result of irradiance acclimation. Results are discussed in terms of: (a) acclimation of photosynthesis and radiation use efficiency at high irradiance in rice, and (b) factors controlling photosynthetic rates of leaves within the canopy.     

丹参miR408基因前体序列的克隆及表达分析

MiR408是植物中一类高度保守的miRNA,其靶基因编码含铜蛋白,miR408的表达受植物生长发育和环境条件的显著影响。拟南芥中miR408在HY5-SPL7基因网络中起着关键作用,而HY5-SPL7基因网络可介导拟南芥对光照和铜离子的协调应答,进一步表明miR408在植物对环境的响应中发挥了核心作用。本研究基于丹参基因组Survey数据库,从中搜索并克隆得到366 bp的含有稳定茎环结构的miR408前体序列及其上游723 bp片段的启动子区,Gen Bank登录号分别为KU360384和KU360385,并将miR408的前体序列命名为SmMIR408。生物信息学分析结果显示:Sm-MIR408上游启动子序列与模式植物拟南芥Ath-MIR408、水稻OsaMIR408启动子区具有许多相同的顺式作用元件,如G-box、CGTCA-motif、TGACG-motif、GTAC-motif等,而HSE、CATT-motif作用元件仅存在于丹参启动子区;miR408成熟序列在不同物种中具有很高的保守性;基于不同物种miR408前体序列构建的系统进化树显示,来源于单子叶植物的miR408前体序列聚为一支,来源于双子叶植物的miR408前体序列聚为另一支。实时定量PCR分析结果显示:Sm-MIR408在丹参的根、茎、叶、花中都有表达,其在花中的表达量最高,根中最低;Sm-MIR408的表达受茉莉酸甲酯和伤害的抑制,黑暗和持续光照也可抑制该基因的表达。Sm-MIR408基因的克隆与表达分析为今后研究丹参miR408的功能奠定了基础。     

不同CO2浓度下番茄幼苗叶片的光能利用效率

光能利用效率(LUE)是评价植物叶片光能利用能力的重要参数,更是影响生态系统生产力大小和质量的主要因素.本文基于植物光合作用对光响应的机理模型推导出植物叶片的光能利用效率模型以及叶片的最大光能利用效率(LUE_max)和对应的饱和光强(I_L-sat)的数学表达式,并用光能利用效率模型研究了番茄幼苗叶片在CO₂浓度分别为350、450、550和650 μmol·mol^-1下的光能利用效率.拟合结果表明: 所推导的叶片光能利用效率模型可以很好地描述4种CO₂浓度条件下番茄幼苗叶片的光能利用效率;在这4种CO₂浓度条件下,番茄的LUE_max在光合有效辐射(I)为70～90 μmol·m^-2·s^-1时就可以达到;番茄在CO₂浓度为550和650 μmol·mol^-1时叶片的LUE_max和I_L-sat没有差异.产生这种现象的原因可能是由于番茄幼苗长时间处于较低光强下,番茄幼苗叶片的光合功能已经适应了低光强环境,以致于高CO₂浓度难以改变它的捕光色素分子的内秉特性,如有效光能吸收截面以及处于激发态和基态色素的比例等.     

Acclimation of photosynthesis to high irradiance in rice: gene expression and interactions with leaf development

Rice (Oryza sativa L.) has been used to study the long-term responses of photosynthesis to high irradiance focusing on the composition of the photosynthetic apparatus and leaf morphology. Typical sun/shade differences in chloroplast composition are seen in the fifth leaf following growth in high irradiance compared with low irradiance (1000 and 200 micromol m(-2) s(-1), respectively): higher light-saturated rates of photosynthesis (P(max)), higher amounts of Rubisco protein, and a lower chlorophyll a:b ratio. In addition, leaves were thicker under high light compared with low light. However, responses appear more complex when leaf developmental stage is considered. Using a system of transferring plants from low to high light in the laboratory responses that occur before and after full leaf extension have been studied. Acclimation of photosynthesis is limited by leaf age: the transfer to high light, post-leaf extension, is characterized by alterations in chlorophyll a:b but not in Rubisco protein, which may be limited by leaf morphology. Microarray analysis of gene expression was carried out on plants that were transferred to high light post-leaf extension. A down-regulation of light-harvesting genes was seen. No change in the expression level of Rubisco genes was observed. Up-regulation of genes involved in photoprotection was observed. It was also shown that high-light leaf morphology is established prior to formation of the zone of cellular elongation and division. The endogenous and environmental factors which establish the characteristics of high light acclimation may be important for attaining high rates of assimilation in leaves and crop canopies, and the fifth leaf in rice provides a convenient model system for the determination of the mechanisms involved.     

Interactions of drought and shade effects on seedlings of four Quercus species: physiological and structural leaf responses

Here, we investigated the physiological and structural leaf responses of seedlings of two evergreen and two deciduous Quercus species, grown in a glasshouse and subjected to contrasted conditions of light (low, medium and high irradiance) and water (continuous watering vs 2-months drought). The impact of drought on photosynthetic rate was strongest in high irradiance, while the impact of shade on photosynthetic rate was strongest with high water supply, contradicting the hypothesis of allocation trade-off. Multivariate causal models were evaluated using d-sep method. The model that best fitted the dataset proposed that the variation in specific leaf area affects photosynthetic rate and leaf nitrogen concentration, and this trait determines stomatal conductance, which also affects photosynthetic rate. Shade conditions seemed to ameliorate, or at least not aggravate, the drought impact on oak seedlings, therefore, the drought response on leaf performance depended on the light environment.     

Induction characteristics and response of photosynthetic quantum conversion to changes in irradiance in mulberry plants

A study was conducted, using rapid time course of chlorophyll (Chl) fluorescence parameters, and light-response curves of Chl fluorescence parameters, to determine the induction requirements and response of photosystem II (PSII) photochemistry and non-photochemical reactions after changes in irradiance in greenhouse mulberry plants. The induction of PSII photochemistry rapidly approached to steady state after leaves were treated from darkness to low irradiance (LI). When irradiance of leaves changed from darkness to high irradiance (HI), a biphasic induction was observed. A slight photoinhibition occurred in the leaves exposed to sunlight coming to the greenhouse, whereas a chronic photoinhibition occurred in the leaves fully exposed to sunlight outside the greenhouse. The chronic photoinhibition was demonstrated by sustained reduction of maximal quantum yield of PSII photochemistry (Fv/Fm). Moreover, the leaves of mulberry plants in greenhouse were sensitive to abrupt changes in irradiance and the sensitivity of leaves suffered in a short-term (1h) high light treatment was reduced, based on the changes in photosynthetic quantum conversion. These results demonstrated an inducible response of photosynthetic quantum conversion to changes in irradiance in mulberry.     

The kinetics of P-700+ reduction in leaves: a novel in situ probe of thylakoid functioning

Abstract. The half time (t_1/2) of the reduction of P-700⁺ in the millisecond time frame is known to be limited by the reaction between plastoquinol and the cytochrome cytb₆f complex. This is considered to be the rate limiting reaction of thylakoid electron transport and measurements of it provide a means of analysing how thylakoid election transport is regulated in vivo. The half time for the reduction of photochemically oxidized P-700 has been measured in vivo using absorbance changes around 820 nm. The results showed that t_1/2 is independent of irradiance and decreases as photosynthetic induction progresses. Even with a constant t_1/2 the quantum efficiency of PSI declined as irradiance increased. The significance of the concept of photosynthetic control of electron transport is discussed in the light of these observations.