旱柳光合作用动态及其与环境因子的关系

运用Li-6400便携式光合作用系统,于2007年5—11月对杭州湾滨海湿地自然生长的唯一乔木树种——旱柳(Salix matsudana)的叶片光合作用和环境因子动态变化进行了测定,并通过多元逐步回归和通径分析方法分析了光合作用与环境因子间的相互关系。结果发现,生长季节各月所选典型天气下的P_n大小顺序表现为8月>9月>7月>6月>5月>10月>11月;其中5、6、10和11月,旱柳净光合速率(P_n)日变化呈现“单峰”曲线,经分析发现叶片温度(T_l)、大气水汽压亏缺(VPD)和光合有效辐射(PAR)是影响P_n变化的主导因子;7—9月P_n日变化出现“午休”现象,环境因子VPDT、和相对湿度(RH)成为主导影响因子;就整个生长季节来看,各因子对P_n变化的影响均显著,T_l和VPD是最主要的2个影响因子。由此可见,旱柳生长季节光合作用存在较大的差异,同时各环境因子对光合作用的影响及影响程度也各不相同。     

基于光合参数探讨四种藓类作水族箱植物的应用潜力

水生藓类植物适宜作为水簇箱植物,许多半水生藓类植物同样能够生长于水体环境中。中国东部地区的水生藓类植物种类不多,陆生藓类植物能否应用于水族箱中?为了回答这一问题,需要阐明陆生藓类植物对水体环境的适应能力。该研究测定了匐枝青藓(Brachythecium procumbens),弯叶灰藓(Hypnum hamulosum)、 白发藓(Leucobryum glaucum)和虎尾藓(Hedwigia ciliata)在与它们的自然生境相似条件下以及沉水环境下的光合参数,并应用直角双曲线模型拟合了它们的光-光合响应曲线。结果表明:这四种藓类植物在最大净光合速率(Pn)、光饱和点(LSP)和光补偿点(LCP)上存在很大差异。它们的最大净光合速率、光饱和点和光补偿点的变异范围分别为122.575～19.099 μmol CO₂·kg^-1 DW·s^-1、1 166.00～670.030 μmol·m^-2·s^-1和85.000～5.3 μmol·m^-2·s^-1。在沉水环境中生长30 d后,匐枝青藓、弯叶灰藓和白发藓的最大净光合速率分别是对照的110.78%、80.84%和109.63%,说明在实验周期里这三种藓类植物能够在水体环境中生存,而虎尾藓在水体中浸泡20 d后,其最大净光合速率仅为对照的5.25%,反映出该种植物并不适应水体环境。综上可知,四种藓类植物的光合速率与其形态结构和原生境条件有很大的关系,虽然匐枝青藓、弯叶灰藓和白发藓主要分布于陆生环境,但作为水族箱植物也具有一定的应用潜力。     

甜瓜幼苗叶片光合变化特性

为探讨甜瓜光响应变化特性与环境因子的关系,选择光响应曲线适宜测定的时段,以甜瓜幼苗为试材,将1 d分为3个时段:10:00-12:00、12:00-15:00和15:00-17:00,每个叶位叶片测定1 d,并采用直角双曲线修正模型拟合光响应曲线,研究不同时段下甜瓜叶片光响应曲线、光响应参数的变化趋势和不同叶位叶片光响应参数特性。结果表明:当环境中光合有效辐射增强,叶面温度(Tl)升高,空气相对湿度(RH)降低;当环境中光合有效辐射减弱,Tl降低,RH升高。10:00-12:00光响应曲线和12:00-15:00的第1-4叶光响应曲线呈双曲线,在强光下趋向饱和状况,12:00-15:00的第5叶光合速率和15:00-17:00光合速率在强光下出现明显的光抑制现象。1 d的不同时段均表现为10:00-12:00最大净光合速率(P_max)和光饱和点(LSP)最高,12:00-17:00降低;12:00-15:00光补偿点(LCP)和暗呼吸速率(R_d)较高,其它两个时段较低,10:00-17:00光补偿点量子效率(φ_c)、气孔导度(G_s)和胞间CO₂浓度(C_i)总体呈降低趋势,气孔限制值(L_s)升高。10:00-15:00相同时段测得的不同叶位叶片光响应参数,以第4-5叶光合性能较好,15:00-17:00以第3叶P_max最高,第5叶次之;10:00-17:00 G_s和C_i以第5叶较低,第1叶较高,L_s以第5叶较高,第1叶较低。RH为影响P_max的主要决策因子,测定时段、叶面饱和蒸汽压亏缺(Vpdl)和Tl为主要限制因子。10:00-12:00适宜进行光响应曲线测定,气孔限制为不同时段光合作用不同的主要因素,非气孔限制为影响不同叶位叶片光合作用的主要因素。     

秸秆覆盖与施磷对西南冬小麦叶肉导度和CO2同化效率的影响

为探究西南麦区冬小麦旗叶叶肉导度(g_m)与CO₂同化对土壤速效磷缺乏的响应。试验于2020-2022年在四川仁寿试验站进行秸秆覆盖和磷素水平的二因素裂区试验,以秸秆覆盖(SM)和不覆盖(NSM)为主区;三个磷水平0(P0)kg/hm²、75(P75)kg/hm²和120(P120)kg/hm²为裂区,分析小麦旗叶光响应曲线、叶肉导度和CO₂同化对旗叶磷素水平的响应。结果表明:与NSM相比,SM下旗叶比叶重(LMA)、单位面积磷含量(PA)、单位质量磷含量(PM)和净光合速率(P_n)分别提高4.1%、16.9%、12.2%和6.9%,且随着施磷量的增加,旗叶的LMA、PA、PM和P_n呈增加趋势。秸秆覆盖与施磷显著提高旗叶最大净光合速率(P_nmax)和表观量子效率(AQY),增加旗叶的光合潜能。施磷显著提高旗叶光系统II实际光化学效率(ΦPSII),最大羧化效率(V_cmax)、核酮糖-1,5-二磷酸羧化酶(Rubisco)活力、胞间CO₂浓度(C_c)、叶绿体CO₂浓度(C_c)、气孔导度(g_s)和g_m,P75和P120较P0分别提高16.8%-23.8%、27.9%-35.3%、30.9%-61.7%、1.4%-3.6%、4.8%-13.1%、9.0%-10.2%和16.0%-16.9%,P75和P120无显著差异。秸秆覆盖与施磷降低旗叶的气孔限制(L_s)和叶肉限制(L_m),生化限制(L_b)是光合速率的主要限制因子。综上所述,秸秆覆盖配施75kg/hm²磷肥可提高西南冬小麦旗叶磷素含量、光系统II实际光化学效率、叶肉导度和CO₂同化效率,降低气孔限制和叶肉限制,从而提高旗叶净光合速率。     

香梨两种树形净光合速率特征及影响因素

以自然开心形和疏散分层形香梨树为试材,应用美国Li-cor公司生产的Li-6400光合作用测定系统测定其光合参数,分析了香梨两种不同树形叶片的光合特性以及叶片叶绿素含量、比叶重(SLW)与净光合速率(Pn)的关系,同时研究了气孔导度(Gs)、胞间CO₂浓度(Ci)、蒸腾速率(Tr)及其它因子对不同树形Pn的影响。结果表明:自然开心形和疏散分层形香梨树叶片Pn日变化呈不对称双峰曲线,14:00左右出现光午休现象,且整个生长期疏散分层形香梨树叶片Pn峰值大于自然开心形,6月份Pn最小,这与气孔的调节作用密切相关。疏散分层形Pn日变化在11:00 和15:30出现高峰,自然开心形Pn日变化高峰出现在11:00和17:00;同一品种同一时期的自然开心形树和疏散分层形树的叶绿素含量与其Pn值呈正相关,R²分别为0.9438和0.8952;自然开心形的Pn与SLW的相关性高于疏散分层形;Gs、Tr、RH与Pn呈正相关,与Ci、Cs和Pn呈负相关,且疏散分层形香梨树叶片的Pn与Gs、Tr和Cs的相关性均达到了极显著水平,与Ci、Ta、PAR和Hs均达到了显著水平,而在自然开心形中Pn与光合参数相关性不明显,这说明疏散分层形香梨树对影响光合作用的外界因素和内部因素的变化反应比自然开心形敏感。     

城市遮阴环境变化对大叶黄杨光合过程的影响

城市遮阴与自然生态系统遮阴环境不同,它由城市中的建筑、基础设施等人工构筑物所产生,并对植物光合过程产生影响。采用Li-6400便携式光合作用测定系统对北京市不同建筑遮阴环境下的生态因子特征及大叶黄杨光合参数特性进行了现场实验对比观测与分析。研究显示:(1)城市建筑或基础设施布局或格局变化导致建筑遮阴环境光、温等生态因子的差异性变化,主要体现在光合有效辐射(PAR)在时间分布及强度上的显著差异。(2)遮阴改变大叶黄杨的光合参数,日净光合速率曲线为不规则单峰型,由遮阴进入太阳直射时,净光合速率(Pn)明显升高,随遮阴程度加重峰值时间有后延现象,完全遮阴时净光合速率最低。(3)大叶黄杨叶片在有一定时间太阳直射的中度遮阴(2.3h和5.5h)下适应性良好,日均净光合速率、光补偿点(LCP)、光合能力(P_nmax)、叶面积(LA)、比叶重(LMA)没有显著差异,植物主要通过光合色素含量及组成的改变来适应太阳直射时间变短(2.3h)的遮阴环境。(4)遮阴改变植物的光暗适应策略,没有阳光直射的重度遮阴下,大叶黄杨通过其光合、形态、光合色素等多方面的改变来适应遮阴环境,建筑重度遮阴严重影响植物光合过程。探讨了不同程度建筑遮阴对植物光合作用的影响及植物的适应机制,为基于提高其生态服务功能的树种配置和城市规划提供科学依据。     

香樟凋落叶分解过程对两种间作作物生长和光合特性的影响

采用盆栽试验方法,探讨了香樟(Cinnamomum camphora)凋落叶不同土壤添加水平(0 g/盆为CK、25 g/盆、50 g/盆,100 g/盆)对受体作物小白菜(Brassica chinensis)、莴笋(Lactuca sativa)幼苗生长和光合特性的影响。结果显示:(1)香樟凋落叶分解对两种作物的地径、株高、生物量、叶片数和叶面积均有明显的抑制作用,且抑制效应随凋落叶添加量的增加而增强,但随着分解时间的延长其抑制作用逐渐减弱甚至表现为促进作用。(2)香樟凋落叶分解对两种作物的光合色素含量均有明显的抑制效应,并随凋落叶添加量的增加抑制作用增强,且持续时间延长。(3)经凋落叶处理的两种作物叶片净光合速率(P_n)、气孔导度(G_s)、蒸腾速率(T_r)、水分利用率(WUE)总体上均低于CK,而胞间CO₂浓度(C_i)在各凋落叶处理下均高于CK。(4)随着土壤中凋落叶量的增加,两种作物在光饱和以及CO₂饱和状态下的最大净光合速率(P_{n max})、表观量子效率(AQY)、羧化速率(CE)、光呼吸速率(R_p)和暗呼吸速率(R_d)均不断下降,而光补偿点(LCP)、光饱和点(LSP)、CO₂饱和点(CSP)、CO₂补偿点(CCP)因受体作物的不同,表现出不同的变化趋势。研究表明,土壤中香樟凋落叶分解释放的化感物质,能通过降低受体作物的光合色素合成和光合能力,限制其营养生长,最终影响生物量积累;相对于莴笋,小白菜对香樟凋落叶分解产生的化感胁迫效应具有更强的耐受性,可能更适宜在香樟林间种植。     

濒危植物夏蜡梅及其伴生植物的光合日进程

用LCA4型便携式全自动光合测定仪,在自然条件下,于7月下旬的晴朗天气测定了群落冠层和林下两种不同光环境下夏蜡梅(Sinocalycanthus chinensis)的净光合速率（Pn）、胞间CO₂浓度(Ci)、呼吸速率（Rd）、气孔阻力（rs）的日进程,并与其伴生植物悬铃叶苎麻(Boehmeria platanifolia)、盐肤木(Rhus chinensis)、水马桑(Weigela japonica var. sinica)的光合日进程相比较。结果表明：夏蜡梅冠层的光合速率日进程呈“双峰”曲线,有明显的“午休”现象,经分析其“午休”的原因主要是由非气孔因素引起的;林下夏蜡梅则表现为“单峰”曲线,净光合速率较低,最大净光合速率不及冠层的1/2,相关分析结果表明其最重要的影响因子是光合有效辐射（p=0.001）;与其它伴生植物相比,夏蜡梅的日均光合速率、最大光合速率、水分利用效率和光合速率/呼吸速率都明显偏低,在群落竞争中处于不利地位。     

蚕豆幼苗光合特性对土荆芥挥发性物质胁迫的响应

以蚕豆(Vicia faba)为受体,采用盆栽试验评价了入侵植物土荆芥(Chenopodium ambrosioides)挥发油及其两个主要成分α-萜品烯和对伞花素对受体光合特性的影响。结果表明:土荆芥挥发油及其两个主要成分不同程度地影响了蚕豆叶片的特性。挥发油处理显著降低了净光合速率(P_n)、气孔导度(G_s)、蒸腾速率(T_r)、最大光化学效率(F_v/F_m)、实际光化学效率(ΦPSⅡ)和叶绿素含量,但增加了胞间CO₂浓度(C_i),这种效应表现为剂量和时间双重效应,高剂量挥发油处理的这种效应是不可逆的; 与对照相比,α-萜品烯处理组的P_n、F_v/F_m和ΦPSⅡ降低,C_i、G_s和T_r上升,停止处理后,各参数均趋于对照水平; 整体来看,对伞花素对蚕豆幼苗的光合特性影响不大。上述研究结果说明,土荆芥化感胁迫对受体光合特性的影响是诸多化感物质协同作用的结果,并非由单一组分决定。     

兰科菌根真菌对铁皮石斛光合性能及pepc基因表达的影响

为了阐明兰科菌根真菌对铁皮石斛光合作用的影响及机制,采用盆栽方式研究了兰科菌根真菌对铁皮石斛幼苗生长的影响,并分析了叶片中叶绿素含量、光合参数、叶绿素荧光参数以及pepc基因表达的变化。结果表明：（1）兰科菌根真菌促进了铁皮石斛幼苗生长,接种兰科菌根真菌的铁皮石斛的株高、根重、茎叶重和总生物量分别是未接种对照组的1.21、1.54、1.71和1.68倍;而且可显著提高叶片中叶绿素含量、叶片净光合速率（P_n）、蒸腾速率（G_s）和气孔导度（T_r）。（2）接种兰科菌根真菌的铁皮石斛叶片潜在光化学效率（F_v/F₀）、最大光化学效率（F_v/F_m）、光化学猝灭系数（q_P）、非光化学猝灭系数（q_N）、实际光化学反应量子效率（Yield）和表观光合电子传递速率（ETR）均高于未接种对照组。（3）菌根真菌能促进pepc基因的表达,增强PEPC活性,提高铁皮石斛叶片的光合碳同化能力。研究表明,菌根的形成可以提高铁皮石斛叶片光合性能和pepc基因的表达水平,促进铁皮石斛幼苗的生长。     

Photosynthesis and respiration ofPinus pumila needles in relation to needle age and season

Rates of net photosynthesis and dark respiration were measured for detached needles ofPinus pumila trees growing on the Kiso mountain range in central Japan in 1987. Dependency of photosynthesis on light and temperature was examined in relation to needle age and season. The light saturation point of net photosynthesis was lower in 3- and 4-yr-old needles than that in current (flushed in 1987), 1- and 2-yr-old needles.P _nmax, net photosynthetic rates at 1000 μmol m⁻² s⁻¹ and 15°C, of needles from 1- to 4-yr-old generally decreased with needle age.P _nmax of 1- to 4-yr-old needles became higher in August than in other months, andP _nmax of current needles did so in September. Current needles showed high respiration rates (at 15°C) only in August. Optimum air temperatures for net photosynthesis at 1000 μmol m⁻² s⁻¹ were between 10 and 15°C for current and 1-yr-old needles. The temperature coefficient of dark respiration rates was 2.3–3.3 for current needles from August to October, and 2.2 for 1-yr-old needles in mid-July.     

Can light-saturated photosynthesis in lowland tropical forests be estimated by one light level?

Leaf-level net photosynthesis (A_n) estimates and associated photosynthetic parameters are crucial for accurately parameterizing photosynthesis models. For tropical forests, such data are poorly available and collected at variable light conditions. To avoid over- or underestimation of modeled photosynthesis, it is critical to know at which photosynthetic photon flux density (PPFD) photosynthesis becomes light-saturated. We studied the dependence of A_n on PPFD in two tropical forests in French Guiana. We estimated the light saturation range, including the lowest PPFD level at which A_sat (A_n at light saturation) is reached, as well as the PPFD range at which A_sat remained unaltered. The light saturation range was derived from photosynthetic light-response curves, and within-canopy and interspecific differences were studied. We observed wide light saturation ranges of A_n. Light saturation ranges differed among canopy heights, but a PPFD level of 1,000 µmol m⁻² s⁻¹ was common across all heights, except for pioneer trees species that did not reach light saturation below 2,000 µmol m⁻² s⁻¹. A light intensity of 1,000 µmol m⁻² s⁻¹ sufficed for measuring A_sat of climax species at our study sites, independent of the species or the canopy height. Because of the wide light saturation ranges, results from studies measuring A_sat at higher PPFD levels (for upper canopy leaves up to 1,600 µmol m⁻² s⁻¹) are comparable with studies measuring at 1,000 µmol m⁻² s⁻¹.     

Interactive effect of CO2 enrichment and temperature on the photosynthesis of field-grown hinoki cypress (Chamaecyparis obtusa) branches

Two branches of a field-grown Chamaecy-paris obtusa tree were enclosed in chambers of an open gas exchange system for continuous CO₂ exchange measurements. One branch was subjected to ambient air (CO₂, 370 μmol mol^–1) and the other was subjected to CO₂-enriched air (800 μmol mol^–1). The CO₂ exchange rate of the branches, air temperature and photosynthetic photon flux density were recorded every 4 min by a computer during the two experimental periods of July 1994 to June 1995 (experiment 1) and April 1996 to August 1997 (experiment 2). The response of CO₂ gas exchange rate to light changed with the seasonal temperature. The highest saturated rate of net photosynthesis on a leaf area basis was observed in May and October in both CO₂ treatments when the mean daytime temperature was about 18–19°C. This temperature was almost equal to the yearly mean daytime temperature. Above and below this temperature, the saturated net photosynthesis rate decreased. The net photosynthesis rate was usually higher in the elevated CO₂ treatment. The ratio of monthly net photosynthesis rate in elevated CO₂ to that in ambient CO₂ was linearly related to the monthly mean daytime temperature. This ratio increased by 3.3% for each 1°C increase in the monthly mean daytime temperature; the highest ratio of 1.8 occurred in August. When the ratio was 1.0, the temperature was about 5–6°C, which was close to the mean daytime temperature of the coldest month. Elevated CO₂ increased per unit area net photosynthesis by 38.5% and 43.7% in experiments 1 and 2, respectively. Received: 29 March 1999 / Accepted: 22 October 1999     

SEASONAL VARIATIONS OF PHOTOSYNTHETIC PIGMENTS, TOTAL C, N, AND P CONTENT, AND PHOTOSYNTHESIS IN PHYLLARIOPSIS PURPURASCENS: (PHAEOPHYTA) FROM THE STRAIT OF GIBRALTAR

Photosynthetic pigments, C, N, and P tissue composition, and photosynthetic rate were measured from April to October in the brown alga Phyllariopsis purpurascens (C. Agardh) Henry et South (Laminariales, Phaeophyta) growing at a 30-m depth in the Strait of Gibraltar. Ir-radiance reaching the population ranged from 13.5 to 27.5 mol.m^-2.mo^-1. The available light for this species, expressed as a percentage of the irradiance above the water, was 1.8%. Dissolved inorganic nitrogen forms, NO3-and NH₄+, were constant from April to October, whereas phosphate was depleted in August. Chlorophyll a decreased from 520.0 ± 165.0 to 199.6 ± 159.9 μg.g^-1 dry weight; in contrast, chlorophyll c and carotenoids did not change until September but increased threefold in October. C:N and N:P ratios changed in the same way and in the same range. They were constant until July but increased from 15–17 up to 42 (C:N) and from 14 to 40 (N:P) in October, suggesting a severe P limitation of growth of this species. The dark respiration rate and the light compensation point were constant from April to October (0.5 ± 0.1 μmol O₂. m^-2.s^-1 and 6.5 ± 0.2 μmol.m^-2. s^-1, respectively), whereas the maximum rate of apparent photosynthesis, light onset saturation parameter, and half saturation constant for light were maximum in April to May (3.7 μmol O₂. m^-2.s^-1and 40 and 41.5 μmol.m^-2. s^-1, respectively) and October (3.6 μmol O₂. m^-2.s^-1 and 50 and 53.7 μmol.m^-2. s^-1, respectively). They were minimum in August (1.2 μmol O₂.m^-2.s^-1 and 11.3 and 12 μmol.m^-2.s^-1, respectively). These minimum figures yielded a negative carbon budget in August and 0 in September, whereas it was positive the rest of the year. Photosynthetic efficiency, estimated by the ratio between maximum apparent photosynthesis and light half saturation constant, showed a strong agreement with productivity measured by means of an independent method. These results indicate that lamina expansion in this species is controlled by photosynthetic efficiency.     

Field measurement of net photosynthesis of mosses at Langhovde,East Antarctica

Net photosynthesis and dark respiration (CO₂ flux) of Antarctic mosses were measured at Langhovde, East Antarctica, from 9 to 17 January 1988. Moss blocks were taken from communities in the Yukidori Valley (69°14′30″S, 39°46′00″E) at Langhovde. Each block was composed ofCeratodon purpureus andBryum pseudotriquetrum, orB. pseudotriquetrum. The upper part of the block was used to measure net photosynthesis and dark respiration. The net photosynthesis of each sample was measured in the field for one or three days with two infrared CO₂ gas analyzers and an assimilation chamber. The relationships of net photosynthetic rate and dark respiration rate, to the water content of the sample, the intensity of solar radiation and the moss temperature were estimated from the field data. The maximum rate of net photosynthesis was about 4 μmol CO₂ m⁻²s⁻¹ at saturating radiation intensity and at optimum temperature, about 10°C. Environmental features of moss habitats in the Yukidori Valley are discussed in relation to these results.     

Photosynthetic characteristics and water use efficiency of three coastal dune plants

To clarify the ecophysiological characteristics of plants growing on a coastal dune, net photosynthetic rate (Pn) and leaf conductance (g1) of three perennial species in Japanese coastal regions,Ischaemum anthephoroides (C₄),Carex kobomugi (C₃) andCalystegia soldanella (C₃), were compared under controlled environmental conditions and field conditions at the kado-ori coast at Ohno Village, Ibaraki.I. anthephoroides achieved photosynthetic CO₂ saturation at ca. 100 μll⁻¹ intercellular CO₂ concentration (C ₁), and itsPn was not light-saturated at a high photosynthetically active photon flux density (PPFD) of 1000 μmol m⁻²s⁻¹. This C₄ species showed a high optimal leaf temperature forPn (35°C) and a lowg1 (0.1 mol H₂O m⁻²s⁻¹), permitting maintenance of the highest water use efficiency (WUE, the ratio ofPn to transpiration rate (Tr)) in the field among the three species. At light saturation,C. soldanella had the lowestPn andg1 and a similar carboxylation efficiency related toC ₁ (Pn/C₁ ratio) asCarex kobomugi. Calystegia soldanella also had a high optimal temperature forPn (30°C), and achieved higherWUE thanCarex kobomugi, as a result of efficient stomatal regulation. In contrast, at the optimum temperatureC. kobomugi had a highPn comparable toI. anthephoroides due to a highg1 of 0.3 mol H₂O m⁻²s⁻¹, but with high temperature treatmentsPn andg1 were significantly decreased.C. kobomugi always had the lowestWUE among the three species in the field. It is therefore clear thatI. anthephoroides is a heat-resistant species,Calystegia soldanella is a heat-enduring species andCarex kobomugi is a heat-evading species due to its eraly phenology.     

钙素对彩叶玉簪光合作用和保护酶活性的影响

该文以彩叶玉簪为材料,研究了不同钙素水平对玉簪叶片光合作用和保护酶活性的影响。结果表明:随着钙素水平的提高,彩叶玉簪叶片的净光合速率(Pn)、气孔导度(Gs)、胞间CO_2浓度(Ci)、蒸腾速率(Tr)和最大光化学效率(F_v/F_m)均呈单峰曲线,最高峰值出现在Ca~(2+)90 mg·L~(-1)时;电子传递速率(ETR)的变化也呈单峰曲线,峰值出现在Ca~(2+)50 mg·L~(-1)时;初始荧光(F_0)和最大荧光(F_m)值在0~360 mg·L~(-1)钙素水平下呈先升高后下降再升高的趋势,最大值均出现在90 mg·L~(-1)时;Pn和Gs值的变化与Ci值成正相关。同时叶片中过氧化物酶(POD)、过氧化氢酶(CAT)的活性及丙二醛(MDA)、可溶性蛋白质(SP)含量均表现为单谷曲线,在Ca~(2+)90 mg·L~(-1)时达最小值。超氧化物歧化酶(SOD)活性呈现持续下降趋势。综上所述,彩叶玉簪Pn下降主要由气孔引起,叶面喷施90 mg·L~(-1)的Ca~(2+)可增强彩叶玉簪光合作用,降低保护酶活性。     

Modulation of Rubisco activity in leaves of <Emphasis Type="Italic">Prosopis juliflora</Emphasis> in response to tropical conditions in north India

The success of P. juliflora, an evergreen woody species has been largely attributed to temperature acclimation and stomatal control of photosynthesis under wide range of environmental conditions prevalent in India. We studied the contribution of the enzyme ribulose-1,5 bisphosphate carboxylase/oxygenase (Rubisco) in diurnal and seasonal photosynthesis changes in P. juliflora. The changes observed in photosynthesis under natural conditions could be effected by the growth temperatures, which ranged from 10–30 °C in winter to 30–47 °C in summer. However, the Total Rubisco activity displayed a constant diurnal pattern and showed a maximum at 1200 in all seasons namely spring, summer, monsoon and winter irrespective of the changes in temperature. The Total Rubisco activity from two cohorts of leaves produced in spring and monsoon appeared to be down-regulated differentially at low PPFD during the evening. The in vivo and in vitro measurements of carboxylation efficiency of Rubisco showed wide variation during the day and were correlated with the photosynthesis rate. The light activation of Rubisco showed the acclimation to moderately high temperatures in different seasons except in summer. The exceptionally high temperatures (>45 °C) in summer, though not affecting Total activity, severely inhibited the light activation of Rubisco and also modulated the recovery process for the activation of Rubisco. Our studies suggest that the modulation of Rubisco driven by Rubisco activase and not Rubisco per se was crucial for the diurnal regulation of photosynthesis. NBRI Publication No.: 528     

The photosynthetic characteristics of papyrus in a tropical swamp

Summary Photosynthesis and transpiration was measured in the large emergent C₄ sedge Cyperus papyrus (papyrus) which occupies wide areas of wetland on the African continent. The maximum observed value of net assimilation was 35 mol CO₂ m^-2 s^-1 at full sunlight but light saturation of photosynthesis did not occur. The quantum yield of photosynthesis obtained from the initial slope of the light response curves (0.06 mol mol^-1 incident light) was relatively high and close to previously recorded values for some C₄ grasses. Measurements made over two days showed that stomatal conductance was sensitive to the ambient air vapour pressure deficit (VPD) and was consistently lower on the day when VPD's were higher. There was, however, no marked midday closure of the stomata. Photosynthesis was also reduced on the day when VPD's were higher. The relationship between net photosynthesis and stomatal conductance was close to linear over the range of measurement conditions, with the result that intercellular CO₂ concentrations (C _i ) did not vary markedly. There was some evidence that C _i decreased at high VPD's. The regulation of stomatal movement in papyrus appears to minimise excessive water loss while not severely limiting photosynthesis. The significance of this strategy for a wetland species with plentiful supplies of water is discussed.     

江苏滨海湿地芦苇和互花米草光合特性对模拟增温的响应

滨海湿地生态系统具有较高的初级生产力,是地球生态系统主要的碳库之一。然而,气候变暖和外来物种入侵通过改变植物光合特征性能使这一碳库的稳定性存在诸多的不确定性。利用在江苏盐城芦苇湿地和互花米草湿地建设的两个增温观测站,采用便携式光合荧光测量系统研究了本土植物芦苇（Phragmites australis）和入侵物种互花米草（Spartina alterniflora）光合特性对模拟增温的响应特征和机制。光合作用日调查变化曲线显示,增温使芦苇的净光合速率（P_n）、气孔导度（G_s）、蒸腾速率（T_r）和水分利用效率（WUE）都发生了显著的下降,但互花米草的各同名参数却表现出相反的变化特征,表明增温使互花米草的生理机能增强,促进了光合作用;根据P_n和胞间CO₂浓度（C_i）的变化趋势推断互花米草和芦苇光合速率变化均为非气孔限制因素驱动。利用直角双曲线修正模型拟合的光响应曲线结果显示,芦苇增温组的光响应曲线位于对照组下方,互花米草增温组的光响应曲线位于对照组上方;增温降低了所研究植物的光补偿点（LCP）,表明增温可提高两种植物利用弱光的能力;增温增加了互花米草光补偿点（LCP）和光饱和点（LSP）间值域范围,从而揭示了增温可有效提高互花米草利用光合有效辐射的能力;增温降低了芦苇的暗呼吸速率（R_d）,芦苇受到增温的胁迫,在减缓新陈代谢的同时也减弱了光合作用,而互花米草表现出相反特征。由此推测增温条件下入侵植物互花米草同化大气CO₂的能力（即碳汇能力）优于本土植物芦苇,这也是互花米草成为入侵物种的主要原因之一。