滤除自然光中UV-B辐射成分对高山植物美丽风毛菊光合生理的影响

采用滤除自然光谱中UV-B辐射成分的方法, 探讨了高山植物美丽风毛菊(Saussurea superba)光合机构对青藏高原强UV-B辐射的响应和适应特性。结果表明, 强太阳光中的UV-B成分能引起净光合速率的降低。连续16天不同天气下的观测表明, 滤除UV-B处理时3 min暗适应的光化学量子效率有升高的趋势; 晴天下稳态光化学效率的分析也显示滤除UV-B处理的实际光化学量子效率和光化学猝灭系数有升高趋势, 意味着自然光中的UV-B成分可限制美丽风毛菊叶片PSII反应中心的激发能捕获效率。PSII有效光化学量子效率的增加和非光化学猝灭系数的降低进一步表明, UV-B辐射能导致有效光化学效率的降低和非光化学能量耗散的增加。由上可知, 自然强UV-B辐射是限制美丽风毛菊叶片光合作用的一个因素。滤除UV-B辐射处理对光合色素含量的影响较小, 无论以叶面积还是叶鲜重为基础的滤除UV-B处理仅有微弱的增加趋势, 说明强UV-B辐射具有加速光合色素的光氧化进程, 促进细胞成熟和叶片衰亡的潜在作用。同样UV-B吸收物质的含量也几乎没有变化, 表明强太阳辐射环境下生活的高山植物美丽风毛菊叶表皮层中已具有较多的紫外线屏蔽物质, 足以抵御目前环境中强太阳UV-B辐射可能引起的伤害, 较少受UV-B辐射波动的影响。     

高山植物美丽风毛菊PSII光化学效率和光合色素对短期增补UV-B辐射的响应

在中国科学院海北高寒草甸生态系统实验站的综合观测场, 于植物生长季的不同月份进行短期增补UV-B辐射的模拟试验, 研究了高山植物美丽风毛菊(Saussurea superba)的PSII光化学效率、光合色素和UV-B吸收物质对增强UV-B辐射的响应。结果表明, 尽管差异不显著, 暗适应3 min的PSII最大光化学量子效率在不同月份均有降低的趋势, 说明增强UV-B辐射能加剧光合机构的光抑制。不同月份短期增补UV-B辐射均引起光下PSII实际光化学量子效率和光化学猝灭系数的降低, 以及非光化学猝灭系数的增高, 表明增强UV-B辐射能降低叶片的光能捕获效率, 促进非光化学能量耗散过程。增补UV-B辐射后, 叶片光合色素的含量略有降低趋势, 可能与短时间内光合色素形成过程受抑制和光氧化程度的加剧, 以及叶片厚度的略微降低有关。UV-B吸收物质的含量在不同月份没有一致和较为显著的变化, 说明高原强UV-B环境下生存的美丽风毛菊叶表皮层中由类黄酮和衍生多酚类组成的内部紫外屏蔽物质相对稳定, 倾向于较少受增补UV-B辐射的影响。     

短期UV-B辐射对青藏高原美丽风毛菊PS Ⅱ光化学效率的影响

通过短期增补UV-B辐射模拟试验,研究了青藏高原典型天气(晴天、多云、阴天)下高山植物美丽风毛菊叶片的叶绿素荧光参数变化.结果表明:随天气由晴变阴,美丽风毛菊叶片暗适应3 min的PSⅡ最大光化学量子效率(Fv/Fm)显著升高,实际PSⅡ光化学效率(ФPSⅡ)和光化学猝灭系数(qp)也升高,而非光化学猝灭系数(NPQ)则降低,可见光辐射(PAR)是影响PSⅡ光能转化效率的主要因素.增补UV-B辐射后,3种典型天气下,美丽风毛菊叶片的Fv/Fm和NPQ略有降低,ФPSⅡ和qp略微增加,但对光合气体交换过程没有产生负影响.叶片净光合速率Pn和ФPSⅡ的增高趋势与增补UV-B辐射下相对较多的UV-A成分有关,同时也得益于叶片厚度的增加.UV-B辐射对叶片光合机构具有潜在负影响.     

短期UV-B辐射对青藏高原美丽风毛菊PSⅡ光化学效率的影响

通过短期增补UV-B辐射模拟试验,研究了青藏高原典型天气(晴天、多云、阴天)下高山植物美丽风毛菊叶片的叶绿素荧光参数变化.结果表明: 随天气由晴变阴,美丽风毛菊叶片暗适应3 min的PSⅡ最大光化学量子效率(F_v/F_m)显著升高,实际PSⅡ光化学效率(Φ_PSⅡ)和光化学猝灭系数(q_P)也升高,而非光化学猝灭系数(NPQ)则降低,可见光辐射（PAR）是影响PSⅡ光能转化效率的主要因素.增补UV-B辐射后,3种典型天气下,美丽风毛菊叶片的F_v/F_m和NPQ略有降低,Φ_PSⅡ和q_P略微增加,但对光合气体交换过程没有产生负影响.叶片净光合速率P_n和Φ_PSⅡ的增高趋势与增补UV-B辐射下相对较多的UV-A成分有关,同时也得益于叶片厚度的增加. UV-B辐射对叶片光合机构具有潜在负影响.     

增强UV-B辐射和干旱对春小麦光合作用及其生长的影响

在室外盆栽条件下研究了UV-B辐射和土壤干旱对春小麦 '和尚头'生长和光合作用的影响.结果显示:(1)干旱、UV-B辐射、干旱+UV-B(复合)处理均可使叶片类黄酮含量增加,且干旱+UV-B处理增加显著高于其他处理(P<0.05).UV-B辐射和干旱单独处理均能显著降低叶片光合色素含量,但UV-B辐射的副作用大于干旱,复合处理对光合色素的影响介于UV-B和干旱之间.(2)各处理间的光合速率日均值大小次序为:对照>UV-B+干旱>UV-B>干旱;增强UV-B对净光合速率的抑制作用大于干旱,而UV-B+干旱处理的抑制作用较二者单独处理有所减轻.(3)UV-B辐射和干旱单独处理后总生物量比对照减少15%,且抑制作用为:干旱>UV-B>复合处理; UV-B辐射和干旱胁迫不但影响春小麦的生物量,而且影响小穗特征和产量.研究表明,UV-B辐射和干旱之间存在交互作用,说明一种胁迫可以减缓(轻)另外一种胁迫对春小麦的抑制作用.     

不同天气类型下UV-B辐射对高山植物美丽风毛菊叶片PSII光化学效率的影响分析

以中国科学院海北高寒草甸试验站地区的美丽风毛菊(Saussurea superba)为材料, 通过短期滤除自然光谱中紫外线B (UV-B)辐射成分的途径, 研究了UV-B辐射对叶片光系统II (PSII)光化学效率的影响。不同天气的归纳分析表明, 随可见光辐射的降低, 暗适应3 min的PSII最大光化学量子效率(F_(v)/F_(m))显著升高; 与此同时PSII实际光化学量子效率(Φ_PSII)和光化学猝灭系数(q_P)也显著升高, 非光化学猝灭系数(NPQ)则显著降低。滤除UV-B辐射后, 3种典型天气类型下的F_(v)/F_(m)均略有升高趋势; 且Φ_PSII和q_P增加, 而NPQ略有降低趋势。量子效率的相对限制(L_(PFD))和PSII反应中心开放程度(q_L)的进一步分析表明, UV-B辐射能显著影响辅酶A还原状态, 对高山植物美丽风毛菊的光合机构具有负影响。综上可知, 自然光中的可见光辐射是影响PSII激发能捕获效率的重要因素, PSII反应中心的光化学效率和非光化学能量耗散主要受光和有效辐射的影响; 滤除UV-B成分能减缓PSII反应中心的光抑制程度。     

3种高山植物紫外吸收物质含量随海拔与季节的变化特征

在植物生长季,对生长于不同海拔高度的3种高山植物矮嵩草(Kobresia humilis)、珠芽蓼(Polygonum viviparum)和平车前(Plantago depressa)的紫外吸收物质含量的季节和海拔变化特征进行了比较研究,以揭示高山植物对极端环境适应的生理生态学机制.结果显示:(1)在整个生长季,3种高山植物叶片紫外吸收物质含量在同时期同海拔条件下表现为平车前最低,珠芽蓼最高.随着海拔升高,紫外吸收物质含量在3种植物中均呈现增加趋势,并与海拔高度存在正相关关系.(2)3种高山植物紫外吸收物质含量随季节均呈现单峰变化趋势;矮嵩草和珠芽蓼的紫外吸收物质含量在草盛初期的6月份达到最大值,而后逐渐降低,并且与紫外辐射强度的季节动态存在一定正相关性;平车前紫外吸收物质含量在草盛期的7月份达到最大值,而后含量逐渐降低,其紫外吸收物质含量的季节变化与紫外辐射强度的季节变化呈较低的负相关,而与植物发育时期可能有关.可见,3种高山植物叶片紫外吸收物质含量随海拔与季节变化特征存在差异,这可能与它们的遗传特性和适应高原强紫外辐射环境胁迫策略有关.     

滤减UV B辐射对烟叶可溶性蛋白、〖HJ*3〗〖HJ*2〗光合色素和类黄酮的影响

在云南玉溪烟区种植烤烟海拔最高(1806.0m)的通海县,通过盆栽烤烟K326试验,研究了在滤减自然的太阳UV-B辐射强度25%、50%和65%条件下,UV-B辐射对烟叶发育过程中可溶性蛋白、光合色素和类黄酮的影响。结果表明:随叶龄增加,可溶性蛋白含量下降,光合色素降解,类黄酮在老叶中积累,蛋白质在生理成熟期对UV-B辐射最敏感。与对照相比,减弱UV-B辐射处理降低了烟叶类黄酮和可溶性蛋白含量,但光合色素含量上升;较低的UV-B辐射降低了叶绿素的降解速度。结果从一侧面说明UV-B辐射对烟叶蛋白质的合成是有益的,类黄酮和叶绿素的变化是对UV-B辐射变化的适应性反应,类黄酮与蛋白质之间可能存在一定的偶联关系。     

滤减UV-B辐射对烟叶可溶性蛋白、光合色素和类黄酮的影响

在云南玉溪烟区种植烤烟海拔最高(1806.0m)的通海县,通过盆栽烤烟K326试验,研究了在滤减自然的太阳UV-B辐射强度25%、50%和65%条件下,UV-B辐射对烟叶发育过程中可溶性蛋白、光合色素和类黄酮的影响。结果表明:随叶龄增加,可溶性蛋白含量下降,光合色素降解,类黄酮在老叶中积累,蛋白质在生理成熟期对UV-B辐射最敏感。与对照相比,减弱UV-B辐射处理降低了烟叶类黄酮和可溶性蛋白含量,但光合色素含量上升;较低的UV-B辐射降低了叶绿素的降解速度。结果从一侧面说明UV-B辐射对烟叶蛋白质的合成是有益的,类黄酮和叶绿素的变化是对UV-B辐射变化的适应性反应,类黄酮与蛋白质之间可能存在一定的偶联关系。     

铬酸钾溶液紫外吸收特征及在研究UV-B生物学效应中的应用

为了更好地利用铬酸钾溶液去除UV-B光源中的UV-A和UV-C,对不同浓度和pH值的铬酸钾溶液的紫外吸收特征及其稳定性进行了相关研究.并在相同剂量UV-B作用下,对地木耳(Nostoc commune UETX-584)光合生理活性和生化组分在UV-B光源直接照射和经过铬酸钾过滤后照射的变化进行了对比研究.结果表明,铬酸钾溶液在pH值为8、0.4 mmol/L时可以有效滤除UV-B光源中的UV-C和大于340 nm的UV-A.相对于经过铬酸钾溶液过滤的UV-B光源,未过滤的UV-B光源显著抑制了地木耳的生长、叶绿素合成、Fv/Fm、最大光合作用速率和集光效率,显著促进了MAAs(三苯基咪唑类氨基酸)等吸收紫外辐射色素的合成.相对于无紫外辐射的地木耳来说,经过铬酸钾溶液过滤的UV-B对地木耳的生长影响不明显,但是其促进了紫外吸收色素的合成,抑制了Fv/Fm、最大光合作用速率和集光效率.     

Leaf expansion and development of PHOTOSYNTHETIC CAPACITY AND PIGMENTS IN Liquidambar styraciflua (Hamamelidaceae)—EFFECTS OF UV-B RADIATION

In order to perform their functions as photosynthetic organs, leaves must cope with excess heat and potentially damaging ultraviolet radiation. Possible increases in the UV-B portion of the solar spectrum may place an additional burden on leaves, and this could be particularly important for young expanding leaves with poorly developed UV-B defense mechanisms. We evaluated the effects of supplemental UV-B radiation on leaf expansion and the development of photosynthetic capacity and pigments in sweetgum (Liquidambar styraciflua L.) seedlings. Seedlings were grown in the field under either ambient or ambient plus 3 or 5.0 kJ of biologically effective supplemental UV-B radiation. Although final leaf size was unaffected, the rate of leaf elongation and accumulation of leaf area was slower in leaves exposed to the lower supplemental UV-B irradiance. In contrast, chlorophyll accumulation and the development of photosynthetic capacity was more rapid in plants exposed to the higher, compared to the lower supplemental UV-B irradiance. The accumulation of anthocyanins and other putative flavonoids or UV-absorbing compounds was scarcely affected by exposure to supplemental UV-B radiation. These results suggest that the UV-B portion of the solar spectrum may, in the absence of gross affects on biomass, exert subtle influences on leaf ontogeny and the development of photosynthetic pigments and capacity in sweetgum.     

Plant reaction to elevated ultraviolet irradiation: potential impacts of stratospheric ozone depletion

The ozone layer depletion evokes the increase of solar UV-B radiation intensity and corresponding reductions of growth (height, leaf area, fresh and dry weight), photosynthetic activity and flowering in higher plants. Competitive interactions also may be altered indirectly by differential growth responses. The UV-B-sensitivity of plants varies both among species and among cultivars of a given species. Photosynthetic activity may be reduced by direct effects on the photosynthetic process or metabolic pathways, or indirectly through effects on photosynthetic pigments or stomatal function. Plants may also respond by accumulating UV-absorbing compounds in their outer tissue layers, which presumably protect sensitive target from UV-damage. The key enzymes in the biosynthetic pathways of these compounds are specifically induced by UV-B irradiation via gene activation. The effects of UV-B radiation on plants can be modified by prevailing microclimatic conditions. Plants tend to be less sensitive to UV-B under drought or mineral deficiency, while sensitivity increases under low levels of visible light. Prognoses of agricultural yield reduction and economic loss for different scenarious of stratospheric ozone depletion are presented.     

Effect of solar ultraviolet-B radiation during springtime ozone depletion on photosynthesis and biomass production of Antarctic vascular plants

We assessed the influence of springtime solar UV-B radiation that was naturally enhanced during several days due to ozone depletion on biomass production and photosynthesis of vascular plants along the Antarctic Peninsula. Naturally growing plants of Colobanthus quitensis (Kunth) Bartl. and Deschampsia antarctica Desv. were potted and grown under filters that absorbed or transmitted most solar UV-B. Plants exposed to solar UV-B from mid-October to early January produced 11% to 22% less total, as well as above ground biomass, and 24% to 31% less total leaf area. These growth reductions did not appear to be associated with reductions in photosynthesis per se: Although rates of photosynthetic O(2) evolution were reduced on a chlorophyll and a dry-mass basis, on a leaf area basis they were not affected by UV-B exposure. Leaves on plants exposed to UV-B were denser, probably thicker, and had higher concentrations of photosynthetic and UV-B absorbing pigments. We suspect that the development of thicker leaves containing more photosynthetic and screening pigments allowed these plants to maintain their photosynthetic rates per unit leaf area. Exposure to UV-B led to reductions in quantum yield of photosystem II, based on fluorescence measurements of adaxial leaf surfaces, and we suspect that UV-B impaired photosynthesis in the upper mesophyll of leaves. Because the ratio of variable to maximal fluorescence, as well as the initial slope of the photosynthetic light response, were unaffected by UV-B exposure, we suggest that impairments in photosynthesis in the upper mesophyll were associated with light-independent enzymatic, rather than photosystem II, limitations.     

The effect of solar UV-B radiation on terpenes and biomass production in Grindelia chiloensis (Asteraceae), a woody perennial of Patagonia,Argentina

UV-B radiation is absorbed effectively by nucleic acids and other sensitive targets, potentially causing harmful photochemical effects. Protection against UV-B radiation may be afforded by flavonoids and other phenolics, which absorb strongly in the UV region, but little is known about the role played by other compounds, such as terpenes. Grindelia chiloensis, native of Patagonia (Argentina), can accumulate as much as 25% resin (terpenes) in its leaves. The present investigation was carried out to test the effect of solar UV-B radiation on the allocation of photoassimilates to biomass and terpenes. Exposure to UV-B radiation reduced whole plant biomass, plant height and leaf area, and increased leaf thickness and resin accumulation in Grindelia chiloensis. Higher absorbance was found for refined resin in the UV-B waveband from plants grown under solar UV-B radiation than plants without UV-B radiation. These chemical and structural changes could protect the plant from UV radiation, and may help elucidate the importance of epicuticular resins for a species as G. chiloensis native to an environment with maximum daily integrated values of solar UV-B irradiance.     

长期增强UV-B辐射对高寒草甸植物光合速率和抗氧化系统的影响

研究了在野外自然条件下,长期增强UV-B辐射对高寒草甸3种典型植物矮嵩草（Kobresia humilis）、垂穗披碱草（Elymus nutans）和钉柱委陵菜（Potentilla saundersiana）光合放氧速率、光合色素和抗氧化系统的影响。结果表明：长期增强UV-B辐射对3种植物的净光合速率没有明显影响。增强UV-B辐射下,3种植物的叶绿素含量变化不同,Chla／b值,类胡萝卜素（Car）含量,Car／Chl值与对照相比都有升高,说明植物叶片的光合能力、吸收紫外线的能力增强以及忍受逆境能力均有增强,从而产生光保护,有利于光合作用正常进行。由于3种植物膜脂过氧化程度的不同及SOD活性的普遍抑制,植物经受了氧化胁迫。垂穗披碱草叶片GSH含量显著七升,矮嵩草的形态矮小及钉柱委陵菜GSH含量与POD活性显著上升,都能减轻它们所经受的氧化胁迫,使光合器官免受损伤。所以,这些保护性色素的积累和抗氧化系统内部的协同作用可能是高寒草甸植物光合作用正常进行的重要原因。