冬季小麦叶片光合作用对温度响应方式的变化

冬季田间生长的小麦离体叶片净光合速率（Ｐｎ）对温度的响应有两种方式。在１２月上旬可以观测到第一种方式。在离体叶片周围空气温度从１０℃逐步升到３０℃后的１ｈ内Ｐｂ逐渐升高,在随后气温逐步降低到１０℃的过程中,Ｐｎ都比先前升温过程中同样温度下的数值高。３０℃下叶片胞间ＣＯ２浓度（Ｃｉ）降低和叶片无机磷含量增高表明,这种响就态度苛能起因于一些光合碳同化酶活性的增高。在１２月中旬以后可以观测到第二种方式。     

米槁幼苗光合作用及光响应曲线模拟对干旱胁迫的响应

为阐明米槁光合作用对干旱胁迫的响应规律与适应机制,以一年生米槁幼苗为研究对象,进行盆栽试验研究设置3种不同土壤含水量梯度,利用Li-6400便携式光合作用系统测定干旱胁迫下的光合生理指标及光响应过程,光响应曲线模拟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进行拟合并对比,以期选出适用于干旱环境下的光响应模型。结果表明(1)光响应曲线模型对干旱胁迫下米槁幼苗的光合作用拟合中直角双曲线、非直角双曲线和指数模型适用于低光合有效辐射(PAR),但拟合光响应参数与实测值相差大,只有直角双曲线修正模型能够很好的拟合各个处理且拟合参数比较精确米槁幼苗。(2)光合作用的表观量子效率(Φ)小于一般植物的光合量子效率,则其对弱光的光能利用效率相对较低。(3)在较强的光合有效辐射条件下,严重干旱胁迫下的米槁净光合速率P_n显著下降,出现了明显的光抑制现象;中度胁迫下净光合速率(P_n)、最大净光合速率(P_(nmax))、光补偿点(LSP)最大,米槁具有较宽的抗旱适应范围,有一定的抗旱性;严重胁迫下P_n、P_(nmax)、LSP降低,蒸腾速率(T_r)与气孔导度(G_s)下降幅度更大,但仍具有较高的水分利用效率(WUE),米槁在严重的干旱胁迫下光合机构受到一定的损伤,但自身可以通过生理调节来积极适应不良环境,减少光合机构伤害。(4)综合来看,在人工管理或种植米槁时,为了适应米槁生长发育,建议土壤含水量保持在23.05%到14.92%之间。     

不同温度对烟草生长发育及光合作用的影响

该试验通过人工气候室模拟相对低温(日均温16.5℃)、常温(日均温23.5℃)和相对高温(日均温30.5℃)3种日动态温度,研究了不同温度对烟草生长发育及光合作用的影响。结果表明:(1)与常温下生长的烟草相比,相对低温和高温处理均降低了烟株的株高、叶长和叶宽,在一定程度上抑制了烟草的生长。(2)相对低温和高温处理比常温处理下有较低的烟叶净光合速率(Pn)、胞间CO_2浓度(Ci)、气孔导度(Gs)、蒸腾速率(Tr)、PSⅡ最大光化学量子效率(F_v/F_m)、PSⅡ实际光化学量子效率(ΦPSⅡ)、光化学猝灭系数(qp)、Rubisco羧化酶活性和相对较高的初始荧光强度(F0)。长期较高或较低的温度均会对烟草的生长发育产生抑制,这可能因其在一定程度上抑制了烟叶的光合机构活性并对反应中心造成了损伤,从而降低了烟草的光合作用,抑制了烟株的生长,长期日均温23.5℃有利于烟草的生长和光合作用。     

胡杨不同发育阶段叶片光合作用及其光响应特征

胡杨(Populus euphratica)为第三纪孑遗植物, 在个体的不同发育阶段形成了独特的异形叶, 具有较强的抗旱性和耐盐性, 是额济纳绿洲生态系统的主要建群种, 具有重要的研究价值。以内蒙古额济纳旗胡杨林自然保护区胡杨为研究对象, 通过实地调查观测, 分析了胡杨幼苗期、幼树期和成熟期叶片的形态变化规律及其性状特征, 利用Li-6400XT便携式光合作用系统测定了胡杨幼苗期、幼树期和成熟期不同形态叶片的光合作用光响应过程, 并采用直角双曲线修正模型对其进行了拟合分析。结果表明: (1)在胡杨生长发育过程中, 其叶片形态性状表现出明显的变化规律。随着胡杨树龄的增长, 其叶片的长/宽比值、比叶面积和叶片厚度逐渐减小, 而叶干物质含量、叶面积和叶干重数据增大。(2)胡杨成熟期阔卵圆形叶具有较高光合活性, 通过提高P_nmax以增强光能利用率, 使其在干旱荒漠区高温、强光环境下仍能保持较高的光能转化效率与光合速率; 幼树期条形叶具有较宽的光能利用区间, 能够在弱光环境下保持较高的光合速率; 幼苗期条形叶具有较低的α与相对较高的LCP、LSP及P_nmax, 主要归因于其较高的比叶面积, 高效光捕获面积使其具有较高的光合速率; 上述结果是胡杨在不同光环境下形成的适应性反应和生理生态机制。(3)直角双曲线修正模型适于胡杨不同形态叶片光合生理参数的定量研究。     

干旱对烟草旺长期光合作用的影响

以盆栽的两个推广品种K326和红花大金元(Hongda)为材料,探讨干旱胁迫对烟草光合作用的影响。结果显示,干旱胁迫导致烟草净光合速率、气孔导度、蒸腾速率降低,胞间CO₂浓度在轻度和中度胁迫时降低而在重度胁迫时升高;K326(较抗旱)的光合作用出现降低的时间较红花大金元(不抗旱)晚,变化的幅度也相对较小。实验表明,烟草光合作用对干旱胁迫非常敏感,而抗旱品种受到的伤害相对较轻。     

不同光质对烟草叶片生长及光合作用的影响

通过对烟草植株覆盖白、红、黄、蓝、紫色滤膜获得不同光质,研究了光质对烟叶生长及光合作用的影响。结果表明,与白膜处理相比,红膜与蓝膜处理下的烟草叶片较厚,比叶面积较小,叶绿素a/b比值、净光合速率、可变荧光强度（Fv）和最大荧光强度（Fm）的比值Fv/Fm（PSⅡ最大光化学量子效率）、PSⅡ实际光化学量子效率（ΦPSⅡ）、光饱和点和CO2饱和点均较高。黄膜处理下的叶片较白膜处理的更薄,净光合速率、Fv/Fm、ΦPSⅡ、光饱和点、CO2饱和点均较低。紫膜处理的叶片比叶面积比白膜处理的小,净光合速率和Fv/Fm比白膜的大。实验结果表明红光、蓝光和紫光促进了烟叶的生长,这种促进作用是与其高光合效率紧密相连的;而黄光对烟叶的生长有一定程度的抑制作用。     

高海拔地区烟草光合作用的日变化

在高海拔地区(昆明)对5个品种(系)烟草光合作用日变化的研究结果表明,所有供试材料的净光合速率表现为不显著的"双峰型"曲线。其主要原因可能是较高的空气湿度、相对适宜的温度和强光的综合影响;一定范围内的温度和CO₂浓度变化对光合作用的日变化未能产生明显的影响。     

Effects of day and night temperature and temperature variation on photosynthetic characteristics

Net photosynthetic rates and mesophyll conductances were measured under standardized conditions for leaves of two C₃ and one C₄ annual species grown at temperatures of 20 to 32°C. Plants were grown with varying day and night temperatures, and also at constant temperatures equal to all the day and night temperatures used. Plants were grown with 8, 12, and 16 hours of light per day. This design allowed determination of whether photosynthetic characteristics were best correlated with day, night, mean, or time-weighted mean temperatures, The results showed that for Glycine max (L.) Merr. (C₃) night temperature was most important in determining photosynthetic characteristics, while in Helianthus annuus L. (C₃) and Amaranthus hypochondriacus L. (C₄) the time-weighted mean temperature was most important. The results for all species were consistent with the hypothesis that development of photosynthetic characteristics is related to a balance between the rate of leaf expansion and the rate of photosynthesis under the growth conditions.     

Rubisco activase is a key regulator of non-steady-state photosynthesis at any leaf temperature and, to a lesser extent, of steady-state photosynthesis at high temperature

The role of Rubisco activase in steady-state and non-steady-state photosynthesis was analyzed in wild-type (Oryza sativa) and transgenic rice that expressed different amounts of Rubisco activase. Below 25°C, the Rubisco activation state and steady-state photosynthesis were only affected when Rubisco activase was reduced by more than 70%. However, at 40°C, smaller reductions in Rubisco activase content were linked to a reduced Rubisco activation state and steady-state photosynthesis. As a result, overexpression of maize Rubisco activase in rice did not lead to an increase of the Rubisco activation state, nor to an increase in photosynthetic rate below 25°C, but had a small stimulatory effect at 40°C. On the other hand, the rate at which photosynthesis approached the steady state following an increase in light intensity was rapid in Rubisco activase-overexpressing plants, intermediate in the wild-type, and slowest in antisense plants at any leaf temperature. In Rubisco activase-overexpressing plants, Rubisco activation state at low light was maintained at higher levels than in the wild-type. Thus, rapid regulation by Rubisco activase following an increase in light intensity and/or maintenance of a high Rubisco activation state at low light would result in a rapid increase in Rubisco activation state and photosynthetic rate following an increase in light intensity. It is concluded that Rubisco activase plays an important role in the regulation of non-steady-state photosynthesis at any leaf temperature and, to a lesser extent, of steady-state photosynthesis at high temperature.     

基质温度对三角梅插穗生根及其叶片光合作用的影响

探讨了智能调控下18、20、25、30、33℃的5个基质温度处理对三角梅叶片光合作用及插穗生根的影响.结果表明:随着基质温度上升,三角梅插穗叶片净光合速率增加,18、20℃处理的净光合速率较低,两处理间未见显著性差异,但均显著地低于处理间未见明显差异的25、30、33℃处理.随着基质温度上升,叶片蒸腾速率、气孔导度及胞...     

Effects of weather during leaf development on photosynthetic characteristics of soybean leaves

Net photosynthetic rates and mesophyll conductances at 25 °C at light saturation and air levels of carbon dioxide and oxygen were measured on recently fully expanded leaflets of second trifoliolate leaves of soybeans (Glycine max cv. Kent). Plants were grown outdoors in pots at Beltsville, Maryland with 14 planting times from May through August, 1983. Air temperature and humidity, and photosynthetically active radiation (PAR) were measured for the expansion periods of the second trifoliolate leaves. Rates of net photosynthesis ranged from 24 to 33 mol m^–2 s^–1, and mesophyll conductances from 0.24 to 0.35 cm s^–1 for the different planting dates. Mean 24-h air temperatures ranged from 20.6 to 29.0 °C, and mean daily PAR ranged from 29.4 to 58.4 mol m^–2 d^–1 for the leaf expansion periods. There was a positive relationship between photosynthetic characteristics and PAR during leaf expansion, and a negative relationship between photosynthetic characteristics and leaf expansion rates, with 96% of the variation in photosynthetic characteristics accounted for by these two variables. Leaf expansion rates were highly correlated with air temperature.     

Effects of riparian leaf dynamics on periphyton photosynthesis and light utilisation efficiency

1. Streambed light regimes change dramatically when riparian trees gain leaves in spring and lose them in autumn. This study examined the effect of these changes on periphyton photosynthetic characteristics, primary production, and light utilisation efficiency in two eastern Tennessee streams. 2. Photosynthesis–irradiance responses were measured at intervals covering leaf emergence and abscission in spring and autumn. Photosynthetic efficiency (α^chl) increased with declining streambed irradiances during spring leaf emergence, but returned to pre‐emergence values after autumn leaf fall. The onset of photosaturation (I_k) displayed the opposite pattern, decreasing during leaf emergence and increasing after leaf fall. Both α^chl and I_k were closely associated (P < 0.01) with daily integrated streambed irradiance, as were periphyton carotenoids. Internal shading by photoprotective carotenoids is hypothesised to account for lower α^chl when streambed irradiances are high. 3. An in situ shading experiment confirmed that the temporal changes observed in periphyton photosynthetic characteristics and carotenoids were primarily the result of changing light levels and not other environmental factors (e.g. nutrients, temperature). 4. Daily chlorophyll‐specific primary production (PP^chl) was calculated with P–I models and recorded streambed irradiances. In both streams, PP^chl was the highest in early spring when trees were leafless, and then declined markedly as leaves emerged, reaching a minimum in summer. PP^chl increased after leaf abscission, but was still lower than it was in early spring, when the sun was higher and daylength was longer. A hyperbolic tangent equation fit to PP^chl and daily integrated irradiance (r²=0. 85) suggested that primary production was light saturated at 4–8 mol m^–2 d^–1. 5. Light utilisation efficiency (Ψ) increased 10‐fold during leaf emergence. Photosaturation at high irradiances and photoacclimation at lower irradiances were responsible for a negative hyperbolic relationship between Ψ and daily integrated irradiance.     

低温胁迫对转新疆雪莲sikRbcs2基因烟草光合作用的影响

研究分布于新疆的雪莲(Saussurea involucrata)中的sikRbcs2基因在低温条件下对植物光合作用的影响,以16、10、6、4℃温度梯度处理非转基因型和转sikRbcs2基因型烟草,每个温度处理72 h,比较研究其叶绿素荧光特性和光合特性。实验分析结果:低温胁迫下,转基因型烟草叶片叶绿素a(Chla)、叶绿素b(Chlb)、叶绿素a+b(Chla+Chlb)、类胡萝卜素(Car)含量都显著高于非转基因型烟草。叶绿素荧光参数分析:低温胁迫下,转基因烟草PSⅡ最大光化学效率(Fv/Fm)、q P(光化学猝灭系数)、ETR(电子传递效率)都显著或极显著高于非转基因型,光合参数测定:随着低温胁迫程度的加剧,转基因烟草和非转基因型烟草净光合速率(Pn)、气孔导度(Gs)、蒸腾速率(Tr)、胞间CO_2浓度(Ci)总体都呈下降趋势,但转基因烟草的净光合速率有一个明显的动态变化,先急剧下降后有一个稳定上升的趋势。通过对生长指标的测定发现:在低温处理后和恢复后转基因烟草生物量的积累都显著高于非转基因型烟草。研究结果表明:转新疆雪莲sikRbcs2基因的烟草在低温条件下具有较高的Fv/Fm、q P、ETR,对光合机构的损伤小,降低了低温胁迫效应,提高了烟草在低温胁迫条件下的耐受性。     

Effects of growth and measurement light intensities on temperature dependence of CO2 assimilation rate in tobacco leaves

Effects of growth light intensity on the temperature dependence of CO₂ assimilation rate were studied in tobacco (Nicotiana tabacum) because growth light intensity alters nitrogen allocation between photosynthetic components. Leaf nitrogen, ribulose 1·5‐bisphosphate carboxylase/oxygenase (Rubisco) and cytochrome f (cyt f) contents increased with increasing growth light intensity, but the cyt f/Rubisco ratio was unaltered. Mesophyll conductance to CO₂ diffusion (g_m) measured with carbon isotope discrimination increased with growth light intensity but not with measuring light intensity. The responses of CO₂ assimilation rate to chloroplast CO₂ concentration (C_c) at different light intensities and temperatures were used to estimate the maximum carboxylation rate of Rubisco (V_cmax) and the chloroplast electron transport rate (J). Maximum electron transport rates were linearly related to cyt f content at any given temperature (e.g. 115 and 179 µmol electrons mol^?1 cyt f s^?1 at 25 and 40 °C, respectively). The chloroplast CO₂ concentration (C_trans) at which the transition from RuBP carboxylation to RuBP regeneration limitation occurred increased with leaf temperature and was independent of growth light intensity, consistent with the constant ratio of cyt f/Rubisco. In tobacco, CO₂ assimilation rate at 380 µmol mol^?1 CO₂ concentration and high light was limited by RuBP carboxylation above 32 °C and by RuBP regeneration below 32 °C.