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Title: | Ultraviolet radiation modulates the physiological responses of the calcified rhodophyte Corallina officinalis to elevated CO2 |
Authors: | Hofmann, Laurie C. Bischof, Kai Uludağ Üniversitesi/Fen-Edebiyat Fakültesi/Biyoloji Anabilim Dalı. Yıldız, Gamze Dere, Şükran A-9944-2010 35606877400 6701743065 |
Keywords: | Plant sciences Marine & freshwater biology Calcification Chlorophyll fluorescence Ocean acidification Photosynthesis Ultraviolet radiation Solar uv-radiation Ocean acidification Inorganic carbon Action spectra Chlorophyll-a B radiation Nitrogen-metabolism Photosynthesis Growth Red Acidification Bicarbonate Calcification Carbon dioxide Carbonate Chlorophyll Oncentration (composition) Fluorescence Growth rate Inorganic carbon Irradiance Light quality Macroalga pH Photosynthesis Physiological response Radiation exposure Red alga Seawater Ultraviolet radiation |
Issue Date: | 22-Feb-2013 |
Publisher: | Walter de Gruyter |
Citation: | Yıldız, G. vd. (2013). "Ultraviolet radiation modulates the physiological responses of the calcified rhodophyte Corallina officinalis to elevated CO2". Botanica Marina, 56(2), 161-168. |
Abstract: | Ocean acidification reduces the concentration of carbonate ions and increases those of bicarbonate ions in seawater compared with the present oceanic conditions. This altered composition of inorganic carbon species may, by interacting with ultraviolet radiation (UVR), affect the physiology of macroalgal species. However, very little is known about how calcareous algae respond to UVR and ocean acidification. Therefore, we conducted an experiment to determine the effects of UVR and ocean acidification on the calcified rhodophyte Corallina officinalis using CO2-enriched cultures with and without UVR exposure. Low pH increased the relative electron transport rates (rETR) but decreased the CaCO3 content and had a miniscule effect on growth. However, UVA (4.25 W m(-2)) and a moderate level of UVB (0.5 W m(-2)) increased the rETR and growth rates in C. officinalis, and there was a significant interactive effect of pH and UVR on UVR-absorbing compound concentrations. Thus, at low irradiance, pH and UVR interact in a way that affects the multiple physiological responses of C. officinalis differently. In particular, changes in the skeletal content induced by low pH may affect how C. officinalis absorbs and uses light. Therefore, the light quality used in ocean acidification experiments will affect the predictions of how calcified macroalgae will respond to elevated CO2 |
URI: | https://doi.org/10.1515/bot-2012-0216 https://www.degruyter.com/document/doi/10.1515/bot-2012-0216/html http://hdl.handle.net/11452/29501 |
ISSN: | 0006-8055 1437-4323 |
Appears in Collections: | Scopus Web of Science |
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