Changes in dissolved organic material determine exposure of stream benthic communities to UV-B radiation and heavy metals: implications for climate change

Changes in regional climate in the Rocky Mountains over the next 100 years are expected to have significant effects on biogeochemical cycles and hydrological processes. In particular, decreased discharge and lower stream depth during summer when ultraviolet radiation (UVR) is the highest combined with greater photo-oxidation of dissolved organic materials (DOM) will significantly increase exposure of benthic communities to UVR. Communities in many Rocky Mountain streams are simultaneously exposed to elevated metals from abandoned mines, the toxicity and bioavailability of which are also determined by DOM. We integrated field surveys of 19 streams (21 sites) along a gradient of metal contamination with microcosm and field experiments conducted in Colorado, USA, and New Zealand to investigate the influence of DOM on bioavailability of heavy metals and exposure of benthic communities to UVR. Spatial and seasonal variation in DOM were closely related to stream discharge and significantly influenced heavy metal uptake in benthic organisms. Qualitative and quantitative changes in DOM resulting from exposure to sunlight increased UV-B (290–320 nm) penetration and toxicity of heavy metals. Results of microcosm experiments showed that benthic communities from a metal-polluted stream were tolerant of metals, but were more sensitive to UV-B than communities from a reference stream. We speculate that the greater sensitivity of these communities to UV-B resulted from costs associated with metal tolerance. Exclusion of UVR from 12 separate Colorado streams and from outdoor stream microcosms in New Zealand increased the abundance of benthic organisms (mayflies, stoneflies, and caddisflies) by 18% and 54%, respectively. Our findings demonstrate the importance of considering changes in regional climate and UV-B exposure when assessing the effects of local anthropogenic stressors.     

Acclimation to UV irradiance in Gracilaria chilensis Bird,McLachlan & Oliveira (Gigartinales,Rhodophyta)

Photoautotrophs can cope with an increase in ultraviolet (UV) irradiance in the aquatic environment, through protection and acclimation mechanisms (i.e. synthesis of UV-absorbing compounds). This capacity has been proven to vary according to the organism's sensitivity. To quantify variations of this capacity between the different parts of macroalgae, an in vitro study was performed with the tips, cystocarps and thalli segments of Gracilaria chilensis. Whole algae incubated during 3 days at high and low PAR, supplying UV B (4.6 µW cm^–2) during 2 hours showed, as predicted, an increase in absorption (OD) at 320 nm of the different parts, after the first day of exposure to UV B. The tips presented the highest increase in the standardized OD at 320 nm relative to cystocarps and thalli segments; their mean percentage of increase was 38% and 29% at low and high PAR, respectively. The lowest sensitivity was consistently found in the thalli segments, while the highest was in the tips. The tips are important for growth and therefore they play a major role in the maintenance of the Gracilaria populations. Acclimation mechanisms that occurred in a short time scale, and mainly in the tips, may allow Gracilaria to have an almost immediate protection to increases in UV B fluxes.     

Ultraviolet radiation, toxic chemicals and amphibian population declines

Abstract. As part of an overall ‘biodiversity crisis’, many amphibian populations are in decline throughout the world. Numerous factors have contributed to these declines, including habitat destruction, pathogens, increasing ultraviolet (UV) radiation, introduced non‐native species and contaminants. In this paper we review the contribution of increasing UV radiation and environmental contamination to the global decline of amphibian populations. Both UV radiation and environmental contaminants can affect amphibians at all life stages. Exposure to UV radiation and to certain contaminants can kill amphibians and induce sublethal affects in embryos, larvae and adults. Moreover, UV radiation and contaminants may interact with one another synergistically. Synergistic interactions of UV radiation with contaminants can enhance the detrimental effects of the contaminant and UV radiation.     

Suppressive properties of ginsenoside Rb2, a protopanaxadiol-type ginseng saponin,on reactive oxygen species and matrix metalloproteinase-2 in UV-B-irradiated human dermal keratinocytes

Ginsenosides, also known as ginseng saponins, are the principal bioactive ingredients of ginseng, which are responsible for its diverse pharmacological activities. The present work aimed to assess skin anti-photoaging properties of ginsenoside Rb2 (Rb2), one of the predominant protopanaxadiol-type ginsenosides, in human epidermal keratinocyte HaCaT cells under UV-B irradiation. When the cultured keratinocytes were subjected to Rb2 prior to UV-B irradiation, Rb2 displayed suppressive activities on UV-B-induced reactive oxygen species elevation and matrix metalloproteinase-2 expression and secretion. However, Rb2 at the used concentrations was unable to modulate cellular survivals in the UV-B-irradiated keratinocytes. In brief, Rb2 possesses a protective role against the photoaging of human keratinocyte cells under UV-B irradiation.     

Causes of root growth retardation induced by ultraviolet-B irradiation of shoots in Barley seedlings

In barley seedlings (Hordeum vulgare L.) during two days after irradiation of shoots with UV-B (0.5 W/m², 6 h), the rate of elongation of primary roots decreased 2–3 times compared to that in control plants. The modulus of elasticity of roots (ε) increased at most twofold in 12 h after the onset of irradiation; the hydraulic conductivity (L _p) diminished by a factor of two in 12 h, and the root osmotic pressure gradually decreased by 0.08 MPa in 24 h. Changes in ε and L _p were shown to be related to oxidative stress in growing roots, which was evidenced from the increase in H₂O₂ level up to 15-fold increase in 6 h and in activity of guaiacol peroxidase (3.5-fold in 12 h). After 48 h, the characteristics of oxidative metabolism and root characteristics ε and L _p became identical in untreated and treated plants. On the third day, the rate of root growth in treated plants reached its initial value. It is concluded that the main causes of retardation of root growth under these conditions were as follows: the increase in cell wall rigidity related to formation of oxidative cross-links in the apoplast and the decrease in root osmotic pressure due to limited transport of assimilates from irradiated leaves. After the intensity of UV-B irradiation applied to shoots was enhanced (1.6 W/m², 4 h), another physiological status of roots was observed on the 2nd day characterized by twofold increase in L _p, tenfold decreased root elongation rate, and by a progressing increase of root diameter in growing roots. The comparison of root responses induced by irradiation of shoots with the root responses to sodium salicylate and ABA suggests that both agents might participate in the transmission of signals from irradiated leaves to roots.     

一氧化氮对UV-B辐射增强条件下燕麦幼苗氧化损伤的缓解作用

以燕麦品种“定燕2号”和“晋燕14号”为研究材料,研究紫外线B（ultraviolet rays-B, UV-B）辐射增强条件下,一氧化氮（nitric oxide, NO）供体硝普钠（sodium nitroprusside, SNP）对燕麦幼苗活性氧含量、膜脂过氧化和抗氧化物质含量的影响。结果表明：NO能够降低UV-B辐射增强条件下“定燕2号”和“晋燕14号”的超氧阴离子（superoxide radical, O₂^·-）产生速率、羟自由基（hydroxyl free radical, OH^·）、过氧化氢（hydrogen peroxide, H₂O₂）和丙二醛（malondialdehyde, MDA）含量。UV-B辐射时间为6 h,施加SNP时,“定燕2号”的超氧化物歧化酶（superoxide dismutase, SOD）活性和过氧化物酶（peroxidase, POD）活性、“晋燕14号”的SOD活性高于其他处理组;UV-B辐射时间为3 h,施加SNP时,“定燕2号”、“晋燕14号”的抗坏血酸过氧化物酶（ascorbate peroxidase, APX）活性显著高于0 h、12 h处理组。UV-B辐射时间为6 h,“定燕2号”的脱氢抗坏血酸（dehydroascorbic acid, DHA）含量显著高于其他处理组;而UV-B辐射时间为0 h,“晋燕14号”的DHA 含量显著高于其他处理组。NO对UV-B辐射增强下“定燕2号”和“晋燕14号”抗氧化性影响的综合测评均为：3 h>6 h>12 h>0 h。本研究结果为NO在燕麦育种、抗氧化机制等提供理论依据。     

2种杨树光合色素和抗氧化系统对UV-B与NaCl胁迫的响应

以胡杨和俄罗斯杨(黑杨杂交种)为材料,通过设置增强UV-B辐射、NaCl胁迫(100mmol/L NaCl)、复合胁迫(增强UV-B辐射+100mmol/L NaCl)及对照(不额外施加NaCl和UV-B)4组处理,研究2种杨树对UV-B辐射、NaCl胁迫及其复合胁迫的生理响应及其种间差异。结果显示:(1)增强UV-B辐射、NaCl胁迫及其复合胁迫下,2种杨树的叶绿素含量降低,叶绿素a/b比值减小,类胡萝卜素含量升高;叶片中的膜脂过氧化产物(MDA)和H2O2含量均显著升高;但在复合胁迫下,俄罗斯杨MDA含量要明显低于各单一胁迫处理,而胡杨MDA含量和2种杨树H2O2含量均介于2种单一胁迫处理之间。(2)在3种不同胁迫条件下,俄罗斯杨和胡杨叶片中过氧化物酶(POD)和过氧化氢酶(CAT)活性比对照显著升高,且POD活性在复合胁迫下最高。(3)2种杨树叶片中渗透调节物质(脯氨酸、甜菜碱、可溶性蛋白)含量在各胁迫条件下均比对照明显升高,且脯氨酸和可溶性蛋白含量在复合胁迫下最高;胡杨甜菜碱含量在3种胁迫条件下的升高幅度均远大于俄罗斯杨,而俄罗斯杨可溶性蛋白含量升高的幅度在增强UV-B辐射和复合胁迫下却明显高于胡杨。研究表明,增强UV-B辐射、NaCl胁迫及其复合处理对2种杨树生长均造成不同程度的胁迫伤害,但2种杨树在复合胁迫下表现出的抗氧化保护能力比在2种单一胁迫下更强,因而复合胁迫对2种杨树的伤害更小,UV-B辐射可能与NaCl胁迫相互拮抗最终减缓了对植物的伤害。     

Ambient UV-B radiation reduces PSII performance and net photosynthesis in high Arctic Salix arctica

Ambient ultraviolet-B (UV-B) radiation potentially impacts the photosynthetic performance of high Arctic plants. We conducted an UV-B exclusion experiment in a dwarf shrub heath in NE Greenland (74°N), with open control, filter control, UV-B filtering and UV-AB filtering, all in combination with leaf angle control. Two sites with natural leaf positions had ground angles of 0° (‘level site’) and 45° (‘sloping site’), while at a third site the leaves were fixed in an angle of 45° to homogenize the irradiance dose (‘fixed leaf angle site’). The photosynthetic performance of the leaves was characterized by simultaneous gas exchange and chlorophyll fluorescence measurements and the PSII performance through the growing season was investigated with fluorescence measurements. Leaf harvest towards the end of the growing season was done to determine the specific leaf area and the content of carbon, nitrogen and UV-B absorbing compounds. Compared to a 60% reduced UV-B irradiance, the ambient solar UV-B reduced net photosynthesis in Salix arctica leaves fixed in the 45° position which exposed leaves to maximum natural irradiance. Also a reduced Calvin Cycle capacity was found, i.e. the maximum rate of electron transport (J_max) and the maximum carboxylation rate of Rubisco (V_cmax), and the PSII performance showed a decreased quantum yield and increased energy dissipation. A parallel response pattern and reduced PSII performance at all three sites indicate that these responses take place in all leaves across position in the vegetation. These findings add to the evidence that the ambient solar UV-B currently is a significant stress factor for plants in high Arctic Greenland.     

植物UV-B生理效应的分子机制研究进展

中波紫外线UV-B（280～320nm）是植物必需的太阳光线的组成部分,具有明显的双重效应：一方面UV-B在强度较高时,就触发产生大量活性氧对DNA、蛋白质以及生物膜等造成伤害,同时植物通过抗氧化系统对其作出防御反应以减轻伤害;另一方面,低强度的UV-B是植物生长发育的光信号因子之一,经由UVR8等光受体介导中、低、极低强度的UV-B信号,可能通过几个分子途径控制相关基因的表达,分别对植物的UV-B保护基因表达、形态建成、昼夜节律、生长发育等进行调控。目前对UVR8介导的低强度UV-B信号转导的分子机制研究相对深入。在本文中,将对UV-B生理效应分子机制的最新研究进展作一个比较全面的介绍。     

UV-B辐射胁迫对杨桐幼苗生长及光合生理的影响

通过对UV-B辐射胁迫下亚热带典型木本杨桐幼苗的生长及光合生理的研究,探讨植物对于UV-B辐射胁迫的生理响应及适应性机理,进而揭示UV-B辐射变化对亚热带森林树种的影响.实验设置UV-B辐射滤光组、自然光对照组以及辐射增强组,选择亚热带典型树种杨桐(Cleyera japonica Thunb.)幼苗为实验材料.研究结果表明:(1)增强UV-B辐射会降低杨桐幼苗的叶绿素含量,而降低辐射则会显著促进叶绿素的增加,且这种胁迫在时间上具有积累性.(2)增强或降低辐射强度都会抑制杨桐地径的生长,增强辐射会产生更显著的抑制;降低辐射强度会对杨桐幼苗的株高生长产生促进作用,反之,则会抑制其生长.3个测定期数据综合分析显示随着处理时间的加长,这种胁迫作用有减小的趋势.(3)对光响应曲线的分析表明相对于自然光条件下的UV-B辐射,降低其强度对杨桐幼苗光合作用有显著的促进作用,反之则会抑制,不过抑制作用并不显著;对于光合特征参数的分析表明增强或降低UV-B辐射会显著降低杨桐幼苗的光饱和点(LSP)和光补偿点(LcP),而对最大净光合速率(Amax)、表观光合量子效率(AQY)、暗呼吸速率(Rd)影响均不显著,表明辐射胁迫对杨桐幼苗利用光能的效率影响不大,从而也并未对杨桐的光合作用产生显著性的伤害,但是由于森林树种的多年生特性,这种影响将是积累性的或延迟的,UV-B所造成的光合作用或光能利用率的微小变化都可能会积累成长期影响.因此,对森林树种进行长期研究是必要的.