光强对四种亚热带树苗生长特征影响的比较

鼎湖山亚热带森林优势树种藜蒴、荷木、黄果厚壳桂和马尾松2－3年生树苗,盆栽于16％、40％和100％的自然光下生长16个月．3种阔叶树无论在全自然光还是在弱光下均能较好地存活,遮光下的马尾松则出现不同程度的死亡．全光下的马尾松、黄果厚壳桂树苗的基径和树高生长大于遮光下的树苗．4个树种的侧枝数均随光照的减弱而下降．在不考虑新老叶更新的情况下,全光下的藜蒴、黄果厚壳桂单株叶片数大于弱光下的树苗,而荷木则相反．如果以全光下单株树苗干物质量为100％,那么在相对光照为40％和16％下生长的马尾松、黄果厚壳桂、荷木和藜蒴单株树苗的干物质量分别为57．4％和32．7％、73．8％和62．1％、78．0％和78．6％、93．9％和76．2％．不同光强下的藜蒴、荷木地上部分干物质量的变化不大,地下部分则随光照的减弱而下降,马尾松、黄果厚壳桂无论地上还是地下部分干物质量均随光强的减弱而明显减少．遮光下生长的3个阔叶树种树苗的冠根比（CRR）、叶重比（LWR）、叶面积比（LAR）和比叶面积（SLA）均高于全光下的树苗．马尾松为喜光树种,对阴生环境的适应能力极为有限;黄果厚壳桂为耐阴树种,在全光下仍然比遮光条件下生长较快．     

不同光环境下胡桃楸幼苗的形态可塑性及其响应研究

为了探求不同光环境对胡桃楸幼苗生长的影响,对全光照（100%光照）、中光照（60%光照）、低光照（30%光照）3种光环境下胡桃楸幼苗的生长、形态特征、生物量分配和水分特征开展研究。结果表明：胡桃楸幼苗的形态在不同光环境下存在明显的可塑性变化,生物量分配和水分特征均表现出不同程度的差异。低光照条件下,胡桃楸幼苗生长快,株高、地径分别为全光照的1.14、1.18倍;冠幅大,是全光照的1.40倍;叶片宽大,叶长和叶宽分别是全光照的1.25和1.36倍;分枝数明显少于全光照。3种光环境下胡桃楸幼苗地上部分生物量存在显著差异,地下部分差异不显著。叶片相对含水量随着光照的降低呈现逐渐增加的趋势;全光照条件下叶片饱和持水量与叶片干鲜比明显大于遮阴条件;3种光照条件下叶绿素含量差异显著。胡桃楸幼苗为适应不同光环境,在形态和生理方面都做出适应性调整,适当的遮阴处理有利于胡桃楸幼苗生长。     

明党参幼苗存活与生长对光照强度的响应

以濒危植物明党参低温催芽形成的幼苗和常温正常萌发的幼苗为对象,对其存活及形态、结构、生物量及其分配、生长速率等指标进行测定和分析.结果表明,明党参幼苗在较高光强（65％全光照）存活率最高,有利于幼苗建成,低光强存活率最低.低温催芽形成的幼苗和常温正常萌发的幼苗对光照强度的响应规律类似,明党参幼苗的生长参数（株高除外）叶生物量、根生物量、总生物量、生长速率和总叶面积均在65％全光照条件下达到最大值,表现出最佳生长状况,表明适宜明党参幼苗生长的光照条件是65％全光照;利用低温催芽形成的幼苗生物量约是常温正常萌发幼苗的5倍,能提高其经受不利环境的能力,为明党参的栽培和保护提供一种新的途径.     

钙对土壤镉有效性的影响及其机理

采用盆栽试验,研究了赤红壤上两种镉污染水平下,施用4种钙量（0、40、100、200 mg·kg^-1）对小油菜生物量、镉吸收量及土壤溶液中钙、镉浓度的影响.结果表明：在低镉或者高镉污染水平下,与对照相比,小油菜干质量均以高钙用量处理的增幅最大,两季平均增加了5.5%（低镉）和17.3%（高镉）;增加钙的施用量,使土壤溶液中钙浓度明显增加,小油菜体内钙浓度也明显增加;当钙施用量为100 mg·kg^-1时,土壤溶液中镉浓度较对照分别增加74.5%（低镉）和31.0%（高镉）,而小油菜体内镉浓度较对照分别降低4.5％（低镉）和13.1％（高镉）.两种镉污染水平下,土壤溶液中钙/镉（质量比）值与小油菜体内镉浓度均呈显著正相关.土壤溶液中钙/镉比值影响土壤镉的有效性,进而影响小油菜对镉的吸收.     

光照对两种热带雨林树种幼苗光合能力、热耗散和抗氧化系统的影响

 研究了生长于不同光照条件下（100%、25%和8%光强）热带雨林冠层树种绒毛番龙眼（Pometia tomentosa）和中层树种滇南风吹楠（Horsfieldia tetratepala）幼苗的光合能力、热耗散、活性氧和保护性酶的活性。结果表明,绒毛番龙眼的最大光合速率随着生长光强的增加而提高,而滇南风吹楠在全光条件下的最大光合速率反比25%光照条件下的低。全光条件下两个树种光系统II的最大光化学效率（Fv/Fm）都显著降低,表明发生了长期光抑制。当把生长于遮荫条件下的幼苗移到全光下,从凌晨到中午随着光强的增加光抑制加剧,日落时生长于8%光照条件下的绒毛番龙眼及生长于8%和25%光照条件下的滇南风吹楠的光抑制不能完全恢复。非光化学猝灭对光强的响应曲线表明,随着生长光强的增加滇南风吹楠的热耗散能力增强,而生长在全光和25%光照条件下的绒毛番龙眼的热耗散能力都比滇南风吹楠的弱。两个树种叶片中O-[]·2、H2O2含量、SOD和CAT活性均随着生长光强的增加而提高;在同一光照条件下,绒毛番龙眼叶片中O-[]·2、H2O2含量、SOD和CAT活性显著高于滇南风吹楠。上述结果表明,在光抑制条件下,冠层树种绒毛番龙眼较大程度通过提高保护性酶的活性来保护光合机构免受损伤,而中层树种滇南风吹楠却较大程度通过增强非光化学猝灭来耗散过量光能;滇南风吹楠对强光的适应性差。     

壳聚糖对镉胁迫下玉米幼苗叶片AsA-GSH循环的调控效应

以玉米（Zea mays L.）品种‘郑单958’为实验材料,分析外施壳聚糖对镉胁迫下玉米幼苗生物量、叶片镉含量、叶片超氧阴离子（O₂^·-）产生速率和过氧化氢（H₂O₂）的含量,以及抗坏血酸-谷胱甘肽（AsA-GSH）循环中抗氧化酶的活性及抗氧化物含量的影响。结果显示,随着镉胁迫时间的延长,玉米幼苗发生氧化胁迫,叶片抗氧化酶（APX、GR、DHAR、MDHAR）活性和抗氧化物（AsA、GSH）的含量降低,镉积累过量会抑制玉米幼苗的生长。施加壳聚糖可以降低镉胁迫下玉米幼苗叶片O₂^·-的产生速率和H₂O₂含量,提高上述抗氧化酶活性和抗氧化物的含量,促进AsA和GSH的再生,维持细胞的氧化还原状态,促进玉米幼苗的生长。研究结果表明壳聚糖处理后玉米幼苗保持了较高的AsA-GSH循环运作效率,提高了抗氧化能力,可有效缓解镉胁迫对玉米幼苗生长的抑制。     

温度对大豆(Glycine max)种子发育过程中蛋白质、脂肪和淀粉积累过程的影响

目前人们仍不清楚温度是如何影响发育中的大豆（Glycine max L．）种子蛋白质和脂肪积累过程以及基因型不同的大豆是否对温度具有相同的反应。研究拟通过对3个基因型大豆在不同温度处理下,种子发育过程中的蛋白质和脂肪的积累模式研究,以了解温度对种子组分的调节机理。3个基因型大豆品种（Evans,PI132．217,和Proto）种子盆栽在温度为27／20％（中温）的生长箱中生长到开花。在开花后第10天,将其中的一个生长箱的温度调节到35／27℃（高温）;另一个调到20／12℃（低温）。生长在高温和中温条件下的大豆,在开花的第21天开始收集豆荚,每3d取1次样。生长在低温条件下的大豆,在开花的第25天开始收集豆荚,每5d取1次样。结果表明,3个基因型大豆种子均在高温下生长快,成熟早,在中温下生长速率最大,低温下生长速率低但种子生长期延长。当种子获得60％-70％总干重时种子脂肪含量达到最大（中温）,高温使其提前出现,低温则被推后。在低温下,种子中蛋白质和脂肪两者积累模式相同,但蛋白质积累速率低。在高温和中温条件下,种子蛋白质和脂肪的积累模式不同。在种子获得60％～70％的总干重之前,蛋白质和脂肪积累模式相同,但在种子获得60％～70％的总干重之后,蛋白质积累呈上升趋势,而脂肪积累停止或下降。同时在种子发育的晚期伴随着蛋白质含量增加,淀粉和蔗糖含量快速下降。虽然3个基因型大豆种子的蛋白质和脂肪积累模式均明显受温度影响,但在不同温度条件下和不同生长阶段中高蛋白质品种Proto和PI132．217（蛋白质稳定型）蛋白质含量总是高于低蛋白质品种Evans,而且两者差异显著。这一研究表明温度不能改变品种在蛋白质和脂肪合成上的遗传特性。遗传育种在提高大豆种子蛋白质含量上仍起决定作用,但是合理的播种时期在提高大豆种子蛋白质和脂肪含量上也是不可忽视的问题。     

镉污染水稻种子内生细菌的分离及其耐镉性和植物促生性研究

【目的】植物内生细菌在促进植物生长和重金属污染土壤修复中发挥着重要作用。本研究对镉污染水稻种子内生细菌进行分离和功能鉴定,从而确定其镉耐受性、植物促生性以及对镉胁迫下水稻种子萌发和幼苗生长的影响。【方法】采用乙醇-次氯酸钠联合灭菌法对水稻种子进行表面灭菌,采用标准平板培养法对内生细菌进行分离、纯化;对菌株16SrRNA基因进行扩增和测序,鉴定菌株的分类学地位;运用微量稀释法、电感耦合等离子体质谱法、比色法测定内生细菌的镉耐受性、镉去除率和植物促生性;采用浸种法进行菌剂侵染,观察施加菌剂对水稻种子萌发、幼苗生长和镉积累的影响。【结果】从两个水稻品种的种子中共分离得到133株内生细菌,分属于12个属的24个种。在低镉品种728B中分离得到83个菌株,主要包括假单胞菌属（34.94%）、芽孢杆菌属（28.92%）和类芽孢杆菌属（10.84%）菌株。在高镉品种博B中分离得到50个菌株,主要包括泛菌属（40%）、短小杆菌属（22%）和微杆菌属（12%）菌株。对24个代表性菌株的镉耐受性进行测定,发现镉离子对菌株的最小抑制浓度介于80–2 560μmol/L,其中芽孢杆菌HNR-4具有最高的镉耐受...     

东北次生林主要树种比叶面积对光照强度的响应

通过测定不同光照条件下（15％透光、30％透光、60％透光、全光）东北次生林主要树种（红松、红皮云杉、胡桃楸、水曲柳和黄波罗）的比叶面积,探讨了不同树种对光照变化的响应与适应。结果表明:不同树种比叶面积存在明显的差异,尤其是常绿针叶树种与落叶树种之间差异显著（P<0.001）,指示不同功能型树种存在不同的生存策略;随着光照强度降低,所有树种比叶面积呈现增加的趋势,尤其是弱光照（15％）和低光照（30％）相对于全光和中光照（60％）差异显著（P<0.05）;不同树种比叶面积随光照强度的变化幅度明显不同,且变化最显著的光照区域也有所不同;不同年龄红松比叶面积的变化趋势一致,但变幅不同,4年生幼苗对光照响应则更为明显。本研究结果表明,所有树种均能通过改变叶形态来适应光照条件的变化,在低光条件下通过增加单位质量叶面积,提高叶片光捕获能力;但各树种对光照强度变化的不同响应则表明树种之间不同的光适应机制,这对森林生态系统内部树种的共生具有重要意义;年龄较小的幼苗对光照的强响应指示其在植物更新过程中叶片水平上生理生态学机理研究中的重要性。     

镉胁迫对丹参生长及有效成分积累的影响研究

采用盆栽试验方法,研究了镉（Cd2＋）对丹参（Salvia miltiorrhiza Bunge）的生长及其有效成分积累的影响。结果表明,镉胁迫下丹参的生长受到了显著抑制,体内Cd2＋残留量、可溶性蛋白含量和膜脂过氧化程度显著增加,叶绿素含量降低。与对照相比,镉胁迫下丹参叶片水溶性酚酸类化合物咖啡酸和迷迭香酸的含量显著降低（P〈0．05）,原儿茶酸含量增加,丹参素、原儿茶醛和丹酚酸B的含量也降低,但变化均不显著（P〉0．05）。而根系中这6种酚酸类化合物含量均降低,其中迷迭香酸的含量变化极显著（P〈0．01）。镉胁迫下丹参根系脂溶性丹参酮类化合物二氢丹参酮、丹参酮I和隐丹参酮含量均显著降低,而丹参酮lIA含量变化不显著。丹参叶片中水溶性酚酸类化合物合成关键酶苯丙氨酸解氨酶（PAL）和酪氨酸氨基转移酶（TAT）的活性显著降低,而肉桂酸4一羟化酶（C4H）和4一香豆酸CoA连接酶（4CL）的活性显著升高。这些结果均说明镉胁迫可以降低丹参的产量和质量。     

Compared the physiological response of two petroleum tolerant-contrasting plants to petroleum stress

Petroleum not only benefits the world economy but also contaminates the soil. In order to select the plants tolerant to petroleum, the physiological response of two petroleum tolerant-contrasting plants, Mirabilis jalapa and Orychophragmus violace, were investigated in variation of petroleum-contaminated soils (0, 5, 10, 20, and 40 g petroleum per kg soil) for 120 d. Petroleum degradation rate, seeds germination rate, free proline, and superoxide dismutase and peroxidase activities of M. jalapa were higher than that of O. violace under petroleum stress. However, the decrease rate of soluble protein, plant height, chlorophyll, and root fresh weight was greater in O. violace as compared to M. jalapa. Pearson correlation coefficient analysis was conducted, which indicated that the higher tolerance of M. jalapa was correlated with the higher level of free proline and antioxidative enzyme activities. Besides, the 10 g petroleum per kg soil may be appropriate for petroleum-tolerant plants selection, in which petroleum significantly restrain growth in O. violace but not in M. jalapa.     

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.     

紫茉莉入侵特性及其入侵风险评估

在实验室条件下测定了紫茉莉(Mirabilis jalapa)的有性繁殖能力、营养繁殖能力、化感作用和耐盐特性,对其入侵特性进行了初步研究,并对其入侵风险进行了评估,结果表明:(1)紫茉莉种子繁殖能力强,根和茎亦具有营养繁殖能力;(2)紫茉莉种子萌发期间耐盐性强于耐盐植物蜀葵;(3)紫茉莉对其它植物具有较强的化感作用潜能,对小麦和白菜的种子萌发及幼苗生长产生明显的抑制作用.因此,紫茉莉具有较高入侵风险,是一种能对入侵地生态系统安全和生物多样性构成威胁的外来物种,必须对其严格加以控制.     

Plant Growth Under High Radiant Energy Fluxes

Radiant energy flux density equivalent to peak midday mid-summersunlight was simulated in an artificially lit controlled environmentchamber. High pressure multivapour discharge lamps togetherwith tungsten iodide lamps, installed to give 5·1 kWm^–2 of plant growing space, produced a mean photosyntheticallyactiveradiant energy flux density of 385 W m^–2, 2 m below thethermal barrier, during the course of the experiments. Maize, sorghum, paspalum, ryegrass and soya bean were grownfor 28 days from early seedling development at two temperatures(27·5/22·5 °C, 17·5/12·5 °C,day/night) and three irradiance levels simulating one quarter(LL), one-half (ML) and full (HL) peak mid-summer sunlight over12 h days. Shoot d. wt increased markedly between the LL and ML treatmentsbut only slightly, if at all, between the ML and HL treatments.In comparison with ML treatment plants, those from the HL treatmenthad shorter main stems, more tillers and fewer, thicker mainshoot leaves. Net assimilation rate increased and leaf arearatio decreased with increasing irradiance. As a consequence,relative growth rate did not increase when irradiance exceededthe ML treatment levels. These results suggest that irradiance levels of approximatelyhalf-full daylight values are adequate for most routine controlledenvironment studies where there is little mutual shading betweenor within plants. Major laboratories must, however, providehigh irradiance lighting systems to meet the needs of specialiststudies. Controlled environment, high radiant energy, plant growth, net assimilation rate     

紫茉莉对铅胁迫生理响应的FTIR研究

铅是一种毒性强的重金属元素,一旦进入环境将很难修复,进而通过食物链危及人类健康。傅里叶变换红外光谱法(FTIR)具有准确度好、简便快捷、分辨率高的特点,是一种探讨植物重金属耐性机理的可行方法。紫茉莉是一种生长快的多年生草本植物,有应用于铅污染土壤植物稳定的前景。通过温室培养,研究不同铅处理条件下(0,50,100,200,500,1000μmol/L),紫茉莉不同组织器官(根、茎、叶)的傅立叶红外光谱(FTIR)图谱变化,结果发现,生长介质铅处理浓度低于500μmol/L时对紫茉莉的生长基本没有影响,当Pb处理浓度达到1000μmol/L时,生物量略显降低,但是各处理浓度间生物量差异性不显著。紫茉莉根组织在3420,2920,1610,1060 cm^-1 等处峰高先上升后下降,反映蛋白质、氨基酸、糖类、羧酸等物质在低铅处理条件下往往作为渗透性调节物质出现, 有机物含量升高,但随着铅含量的升高, 其合成和运输受限, 有机物含量逐渐下降;茎组织在2920,1630,1380,1060 cm^-1 等处峰高无明显变化;叶组织在1650 cm^-1 处峰高随铅处理浓度升高而升高,这可能与紫茉莉叶中蛋白质和氨基酸等物质含量升高有关。这表明,紫茉莉通过根系有机物含量的变化,将植物吸收的Pb大部分积累在根部,阻止Pb向地上部分运输,有效的保护了植物地上部分。     

Growth, soluble carbohydrates, and aloin concentration of Aloe vera plants exposed to three irradiance levels

Research was conducted on Aloe vera, a traditional medicinal plant, to investigate the effects of light on growth, carbon allocation, and the concentrations of organic solutes, including soluble carbohydrates and aloin. The plants were vegetatively propagated and grown under three irradiances: full sunlight, partial (30% full sunlight), and deep shade (10% full sunlight) for 12-18 months. After 1 year of growth, five plants from each treatment were harvested to determine total above- and below ground dry mass. Four plants from the full sunlight and the partial shade treatments were harvested after 18 months to assess the soluble carbohydrate, organic acid and aloin concentrations of the clear parenchyma gel and the yellow leaf exudate, separately. Plants grown under full sunlight produced more numerous and larger axillary shoots, resulting in twice the total dry mass than those grown under partial shade. The dry mass of the plants grown under deep shade was 8.6% that of plants grown under full sunlight. Partial shade increased the number and length of leaves produced on the primary shoot, but leaf dry mass was still reduced to 66% of that in full sunlight. In contrast, partial and deep shade reduced root dry mass to 28 and 13%, respectively, of that under full sunlight, indicating that carbon allocation to roots was restricted under low light conditions. When plants were sampled 6 months later, there were only minor treatment effects on the concentration of soluble carbohydrates and aloin in the leaf exudate and gel. Soluble carbohydrate concentrations were greater in the gel than in the exudate, with glucose the most abundant soluble carbohydrate. Aloin was present only in the leaf exudate and higher irradiance did not induce a higher concentration. Limitation in light availability primarily affected total dry mass production and allocation, without substantial effects on either primary or secondary carbon metabolites.     

Cytosolic APX knockdown rice plants sustain photosynthesis by regulation of protein expression related to photochemistry,Calvin cycle and photorespiration

The biochemical mechanisms underlying the involvement of cytosolic ascorbate peroxidases (cAPXs) in photosynthesis are still unknown. In this study, rice plants doubly silenced in these genes (APX1/2) were exposed to moderate light (ML) and high light (HL) to assess the role of cAPXs in photosynthetic efficiency. APX1/2 mutants that were exposed to ML overexpressed seven and five proteins involved in photochemical activity and photorespiration, respectively. These plants also increased the pheophytin and chlorophyll levels, but the amount of five proteins that are important for Calvin cycle did not change. These responses in mutants were associated with Rubisco carboxylation rate, photosystem II (PSII) activity and potential photosynthesis, which were similar to non‐transformed plants. The upregulation of photochemical proteins may be part of a compensatory mechanism for APX1/2 deficiency but apparently the finer‐control for photosynthesis efficiency is dependent on Calvin cycle proteins. Conversely, under HL the mutants employed a different strategy, triggering downregulation of proteins related to photochemical activity, Calvin cycle and decreasing the levels of photosynthetic pigments. These changes were associated to strong impairment in PSII activity and Rubisco carboxylation. The upregulation of some photorespiratory proteins was maintained under that stressful condition and this response may have contributed to photoprotection in rice plants deficient in cAPXs. The data reveal that the two cAPXs are not essential for photosynthesis in rice or, alternatively, the deficient plants are able to trigger compensatory mechanisms to photosynthetic acclimation under ML and HL conditions. These mechanisms involve differential regulation in protein expression related to photochemistry, Calvin cycle and photorespiration.     

Photosynthetic responses of <Emphasis Type="Italic">Chrysanthemum morifolium</Emphasis> to growth irradiance: morphology,anatomy and chloroplast ultrastructure

Seedlings of Chrysanthemum, cultivar ‘Puma Sunny’, were grown under a range of shading regimes (natural full sunlight, 55, 25, and 15% of full sunlight) for 18 days. Here, we characterized effects of varying light regimes on plant morphology, photosynthesis, chlorophyll fluorescence, anatomical traits, and chloroplast ultrastructure. We showed that leaf color was yellowish-green under full sunlight. Leaf area, internode length, and petiole length of plants were the largest under 15% irradiance. Net photosynthetic rate, water-use efficiency, PSII quantum efficiency, and starch grain were reduced with decreasing irradiance from 100 to 15%. Heavy shading resulted in the partial closure of PSII reaction centers and the CO₂ assimilation was restricted. The results showed the leaves of plants were thinner under 25 and 15% irradiance with loose palisade tissue and irregularly arranged spongy mesophyll cells, while the plants grown under full sunlight showed the most compact leaf palisade parenchyma. Irradiance lesser than 25% of full sunlight reduced carbon assimilation and led to limited plant growth. Approximately 55% irradiance was suggested to be the optimal for Chrysanthemum morifolium.     

全日光强下5种植物叶片的UV-B防护

通过测定马尾松(Pinus massoniana)和荷木(Schima superba),及黄果厚壳桂(Cryptocarw concinna)、藜蒴(Castanopsis fissa)和锥树(Castartopsis chinensis)叶片中甲醇提取物和细胞壁碱性酚类提取物中UV-B吸收物质的含量,以及叶片叶绿素含量和比叶面积,研究全日光强下植物对UV-B的防护策略。结果表明,在全日光强下植物叶片甲醇提取物的UV-B吸收能力较遮阴下的高,如藜蒴和锥树分别高出42．6％和32．6％,而马尾松仅高出4．2％。全日光强下的黄果厚壳桂和荷木叶片细胞壁碱性酚类提取物的UV-B吸收能力亦分别比遮阴下的高3596和11．7％,而马尾松、锥树和藜蒴则较遮阴下的低,可能这些树种在全日光下细胞壁UV-B吸收物质有部分转移到细胞质,以增强栅栏组织细胞的保护。全目光强下这几种植物叶片的叶绿素含量较遮阴下的低,但有较高的比叶面积,这可能有利于减少对光的吸收和对深层组织细胞器的保护。可见不同植物是采取不同的策略来适应增高的UV-B辐射。     

紫茉莉4,5-多巴双加氧酶基因的克隆和表达

通过同源克隆的方法分离了紫茉莉的4,5-多巴双加氧酶(4,5-Dopa-dioxygenase)基因的cDNA片段,并对该基因能在紫茉莉花发育的5个时期的表达作分析。结果表明,该基因的cDNA片段长度801bp,与甜菜和太阳花的同源性分别为67%和63%。该基因均可在转录水平表达,但在紫茉莉不同发育时期的表达量有一定差异,随着发育时期的推进其表达量逐渐增强。