Dynamic summer solar radiation in Antarctic coastal ecosystems and its effects on photosyn thesis of the endemic Antarctic brown macroalga Desmarestia menziesii (Phaeophyceae)

Algological studies (Stuttgart, Germany : 2007) Pub Date : 2016-09-01 DOI:10.1127/ALGOL_STUD/2016/0259

R. Rautenberger, K. Bischof

{"title":"Dynamic summer solar radiation in Antarctic coastal ecosystems and its effects on photosyn thesis of the endemic Antarctic brown macroalga Desmarestia menziesii (Phaeophyceae)","authors":"R. Rautenberger, K. Bischof","doi":"10.1127/ALGOL_STUD/2016/0259","DOIUrl":null,"url":null,"abstract":"Ultraviolet (UV) radiation is a significant stress factor that harms life in both terrestrial and aquatic ecosystems in Antarctica. In summer (January–February), ground-level solar radiation regimes at the Antarctic Carlini Station (62°14'S, 58°40'W) on King George Island (South Shetland Islands) can be highly variable, depending on the presence of clouds. Spectrally-resolved underwater radiation regimes were measured at three study sites in the inner and outer Potter Cove nearby Carlini Station. The clear waters at Penon de Pesca allowed PAR, UV-A and UV-B radiation to penetrate deeply into the water column, expressed by z1% (i. e. 1%-depths) at 23–25 m, 20–22 m and 13–16 m, respectively, as well as by low attenuation coefficients of downward radiation (Kd). In contrast, turbid waters in the inner Potter Cove and at Penon Uno reduced the penetration of these three wavebands significantly. The photo-physiological mechanisms allowing macroalgae to acclimate to the incident gradients of PAR and UV radiation at Penon de Pesca were further elaborated by assessing photo-physiological data on the brown macroalga Desmarestia menziesii (Phaeophyceae), exposed to a PAR range between 15 and 130 μ mol photons m-2 s-1, either in the presence or absence of UV radiation (10.3 W m -2 UV-A and 0.73 W m -2 UV-B). PAM-fluorometry-based measurements revealed a similar decrease of the optimum quantum yield of photosystem II (PSII) under both PAR and UV radiation and a stronger effect of PAR over UV radiation in the regulation of maximum photosynthetic electron transport rate (ETRmax) as well as the photosynthetic light saturation (Ek). The down-regulation of the photochemistry of PSII by PAR as well as the reduction in the photosynthetic electron transport capacity (i.e.ETRmax) indicate important photoprotective mechanisms allowing D. menziesii to response effectively to a combination of PAR and UV stress in their upper subtidal habitat.","PeriodicalId":90782,"journal":{"name":"Algological studies (Stuttgart, Germany : 2007)","volume":"151 1","pages":"123-150"},"PeriodicalIF":0.0000,"publicationDate":"2016-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1127/ALGOL_STUD/2016/0259","citationCount":"2","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Algological studies (Stuttgart, Germany : 2007)","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1127/ALGOL_STUD/2016/0259","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 2

Abstract

Ultraviolet (UV) radiation is a significant stress factor that harms life in both terrestrial and aquatic ecosystems in Antarctica. In summer (January–February), ground-level solar radiation regimes at the Antarctic Carlini Station (62°14'S, 58°40'W) on King George Island (South Shetland Islands) can be highly variable, depending on the presence of clouds. Spectrally-resolved underwater radiation regimes were measured at three study sites in the inner and outer Potter Cove nearby Carlini Station. The clear waters at Penon de Pesca allowed PAR, UV-A and UV-B radiation to penetrate deeply into the water column, expressed by z1% (i. e. 1%-depths) at 23–25 m, 20–22 m and 13–16 m, respectively, as well as by low attenuation coefficients of downward radiation (Kd). In contrast, turbid waters in the inner Potter Cove and at Penon Uno reduced the penetration of these three wavebands significantly. The photo-physiological mechanisms allowing macroalgae to acclimate to the incident gradients of PAR and UV radiation at Penon de Pesca were further elaborated by assessing photo-physiological data on the brown macroalga Desmarestia menziesii (Phaeophyceae), exposed to a PAR range between 15 and 130 μ mol photons m-2 s-1, either in the presence or absence of UV radiation (10.3 W m -2 UV-A and 0.73 W m -2 UV-B). PAM-fluorometry-based measurements revealed a similar decrease of the optimum quantum yield of photosystem II (PSII) under both PAR and UV radiation and a stronger effect of PAR over UV radiation in the regulation of maximum photosynthetic electron transport rate (ETRmax) as well as the photosynthetic light saturation (Ek). The down-regulation of the photochemistry of PSII by PAR as well as the reduction in the photosynthetic electron transport capacity (i.e.ETRmax) indicate important photoprotective mechanisms allowing D. menziesii to response effectively to a combination of PAR and UV stress in their upper subtidal habitat.

查看原文

微信好友朋友圈 QQ好友复制链接

本刊更多论文

南极沿海生态系统夏季动态太阳辐射及其对南极特有褐藻menziesii光合作用的影响

紫外线辐射是危害南极洲陆地和水生生态系统生命的一个重要应激因素。在夏季(1月至2月)，位于乔治国王岛(南设得兰群岛)的南极Carlini站(62°14'S, 58°40'W)的地面太阳辐射状况可能会高度变化，这取决于云层的存在。在靠近Carlini站的波特湾内外三个研究地点测量了光谱分辨的水下辐射状态。Penon de Pesca的清澈水域允许PAR、UV-A和UV-B辐射深入水柱，分别以23-25 m、20-22 m和13-16 m处的z1%(即1%深度)表示，并以较低的向下辐射衰减系数Kd表示。相比之下，波特湾内部和佩农乌诺的浑浊水域显著减少了这三个波段的穿透。通过评估褐藻Desmarestia menziesii (Phaeophyceae)的光生理数据，进一步阐述了Penon de Pesca大型藻类适应PAR和UV辐射入射梯度的光生理机制。在存在或不存在紫外线辐射(10.3 W m-2 UV- a和0.73 W m-2 UV- b)的情况下，暴露在15 ~ 130 μ mol光子m-2 s-1的PAR范围内。基于pam -荧光测量的结果显示，在PAR和UV辐射下，光系统II (PSII)的最佳量子产率都有类似的下降，并且PAR对最大光合电子传递速率(ETRmax)和光合光饱和度(Ek)的调节作用强于UV辐射。PAR对PSII光化学反应的下调以及光合电子传递能力(etrmax)的降低表明了门齐氏d.m enziesii在其潮下上层生境中有效响应PAR和UV联合胁迫的重要光保护机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文去求助

来源期刊

Algological studies (Stuttgart, Germany : 2007)

自引率

0.00%

发文量