Abstract
The effects of UVB radiation on the growth of macroalgal thalli were evaluated using tetrasporophytic fronds of the Rhodophytes Gigartina skottsbergii, Sarcothalia crispata and Mazzaella laminarioides. The tetrasporophytic fronds were collected from nature and the tetrasporophyte sporelings grown in a temperature regulated chamber at 8±2 °C with a 12L:12D (Light: Dark) photoperiod, Photosynthetically Active Radiation (PAR) of 55 µmol photons m−2 s−1 and seawater enriched with 20 mL L−1 of Provasoli medium. We exposed the thalli of these macroalgae to PAR (55µmol photons m−2 s−1) and three treatments using a combination of PAR with three different levels of UVB radiation (0.10, 0.15 and 0.23 W m−2 for G. skottsbergii and S. crispata and 0.02, 0.05 and 0.10 W m−2 for M. laminarioides) during a period of 71 days. Growth of thalli was quantified by measuring their length using digitized photographs of samples.
Important differences were detected in the growth of individuals cultured under the effects of UVB radiation, when compared to the control (i.e. plants exposed to PAR only). In the case of G. skottsbergii and S. crispata higher levels of UVB radiation resulted in slower growth of thalli. In nearly all measurements for the first two species, UVB radiation levels of 0.1 W m−2 induced differences in thallus growth, while for M. laminarioides levels of UVB radiation of 0.1 W m−2 were effective only after a prolonged period of exposure.
Differential effects of UVB radiation on G. skottsbergii, S. crispata and M. laminarioides could interfere with the natural populations of these economically important macroalgal species in southern Chile, where they occur under the annual influence of the Antarctic Ozone Hole and the general thinning of the ozone layer.
Key words
- growth
- macroalgae
- Magellanic Region
- UV
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References
Anderson TW (1958) An Introduction to Multivariate Statistical Analysis. John Wiley & Sons, Inc, New York.
Barnes P, Flint S, Cadwell M (1990) Morphological responses of crop and weed species of different growth forms to ultraviolet-B radiation. Am. J. Bot. 77: 1354–1360.
Bischof K, Hanelt D, Wiencke C (1998) UV-radiation can affect depth-zonation of Antarctic macroalgae. Mar. Biol. 131: 597–605.
Bischof K, Hanelt D, Wiencke C (2000) Effects of ultraviolet radiation on photosynthesis and related enzyme reactions of marine macroalgae. Planta 211: 555–562.
Buma AGJ, van Oijen T, van de Poll W, Veldhuis MJW, Gieskes WWC (2000) The sensivity of Emiliana huxleyi (Prymnesiophyceae) to ultraviolet-B radiation. J. Phycol. 36: 296–303.
Buma AGJ, Van Hannen EJ, Roza L, Veldhuis MJW, Gieskes WWC (1995) Monitoring ultraviolet-B-induced DNA damage in individual diatom cells by immunofluorescent thymine dimer detection. J. Phycol. 31: 314–321.
Casiccia C, Kirchhoff VWJH, Torres A (2003) Simultaneous measurements of ozone and ultraviolet radiation: Spring 2000, Punta Arenas, Chile. Atmospheric Environment.
Cuadra P, Harborne J, Waterman P (1997) Increases in flavonoid and photosynthetic pigments in Gnaphalium luteo-album in response to UV-B radiation. Phytochemistry 45: 1377–1383.
Diffey B (1991) Solar ultraviolet radiation effects on biological system. Physics in Medicine and Biology 36: 299–328.
Döler G (1996) Effect of UV irradiance on utilization of inorganic nitrogen by the Antarctic diatom Odontella weissflogii (Janisch) Grunow. Botanica Acta 109: 35–42.
Döler G, Hagmeier E, David C (1995) Effects of solar and artificial UV irradiation on pigments and assimilation of 15N ammonium and 15N nitrate by macroalgae. J. Photochem. Photobiol. 32: 107–113.
Dring M, Makarov V, Schoschina E, Lorenz M, Lüning K (1996) Influence of ultraviolet-radiation on chlorophyll fluorescence and growth in different life-history stages of three species of Laminaria (Phaeophyta). Mar. Biol. 126: 183–191.
Figueroa FL (2002) Bio-optical characteristics of Gerlache and Bransfield Straitwaters during an Antarctic summer cruise. Deep Sea Res. II 49: 675–691.
Figueroa FL, Escassi E, Pérez-Rodruíguez, Korbee N, Giles AD, Johnsen G (2003) Effects of short-term irradiation on photoinhibition and accumulation of mycosporine-like amino acids in sun and shade species of the red algae genus Porphyra. J. Photochem. Photobiol. B: Biol. 69: 21–30.
Franklin LA, Forster RM (1997) The changing irradiance environment: Consequences from marine macrophyte physiology, productivity and ecology. Eur. J. Phycol. 32: 207–232.
Franklin LA, Yakovleva I, Karsten U, Lüning K (1999) Synthesis of mycosporine-like-amino acids in Chondrus crispus (Florideophyceae) and the consequences for sensitivity to ultraviolet B radiation. J. Phycol. 35: 682–693.
Franklin LA, Kräbs G, Kuhlenkamp R (2001) Blue light and UV-A radiation control the synthesis of mycosporine-like amino acids in Chondrus crispus (Florideophyceae). J. Phycol. 37: 257–270.
Grobe C, Murphy T (1994) Inhibition of growth of Ulva expansa (Cholorophyta) by ultraviolet-B radiation. J. Phycol. 30: 783–790.
Grobe C, Murphy T, (1997) Artificial ultraviolet-B radiation and cell expansion in the intertidal alga Ulva expansa (Setch.) S. & G. (Chlorophyta). J. Exp. Mar. Biol. Ecol. 217: 209–223.
Grobe C, Murphy T (1998) Solar ultraviolet-B radiation effects on growth and pigment composition of the intertidal alga Ulva expansa (Setch.) S. & G. (Chlorophyta). J. Exp. Mar. Biol. Ecol. 225: 39–51.
Hansen JE (1980) Physiological considerations in the mariculture of red algae. In Abbott IA, Foster MS, Ekund LF (eds), Pacific Seaweed Aquaculture. Publications of the California Sea Grant Program, La Jolla, pp. 80–91.
Huovinen P, Gómez I, Figueroa FL, Ulloa N, Morales V, Lovengreen C (2004) Ultraviolet-absorbing micosporine-like amino acids in red macroalage from Chile. Botanica Marina 47: 21–29.
Karsten U, Sawall T, Wiencke C (1998). A survey of the distribution of UV-absorbing substances in tropical macroalgae. Physiol. Res. 46(4): 271–279.
Karsten U, Bischof K, Hanelt D, Tüg H, Wiencke C (1999) The effects of ultraviolet radiation on photosynthesis and ultraviolet-absorbing substances in the endemic Arctic macroalga Devaleraea ramentacea (Rhodophyta). Physiol. Plant 105: 58–66.
Kirchhoff VWJH, Zamorano F, Casiccia C (1997) UVB enhancements at Punta Arenas, Chile. J. Photochem. Photobiol. B: Biol. 38: 174–177.
Kolli B, Tiwari S, Mohanty P (1998) Ultraviolet-B induced damage to photosystem II in intact filaments of Spirulina platensis. Z. Naturf. Sect. C 53(5–6): 369–377.
Komhyr W, Grass R, Leonard R (1989) Total ozone, ozone vertical distributions, and stratospheric temperatures at South Pole, Antarctica, in 1996 and 1997. J. Geophys. Res. 94: 11429–11436.
Kuhlenkamp R, Franklin LA, Lüning K (2001) Effect of solar UV radiation on growth in the marine macroalgae Dicyota dichotoma (Phaeophyceae) at Helgoland and its ecological consequences. Helgoland Mar. Res. 55: 77–86.
Larkum A, Wood W (1993). The effect of UVB radiation on photosynthesis and respiration of phytoplankton benthic macroalgae and seagrasses. Photosynth. Res. 36: 17–23.
Maegawa M, Kunieda M, Kida W (1993) The influence of ultraviolet radiation on the photosynthetic activity of several red algae from different depths. Jpn. J. Phycol. 41: 207–214.
Makarov M (1999) Influence of ultraviolet radiation on the growth of the dominant macroalgae of the Barents Sea. Chemosphere: Global Change Science 1: 461–467.
Meindl U, Lütz C (1996) Effects of UV irradiation on cell development and ultrastructure of the green alga Micrasterias. J. Photochem. Photobiol. 36: 285–292.
Molina X, Montecino V (1996) Acclimation to UV irradiance in Gracilaria chilensis Bird, Mc Lachlan & Oliveira (Gracilariles, Rhodophyta). Hydrobiologia 326/327: 415–420.
Montecino V, Pizarro G (1995) Phytoplankton acclimation and spectral penetration of UV irradiance of the central Chilean coast. Mar. Ecol. Prog. Ser. 121: 1–3.
Navarro NP (2004) Efeitos da radiação UVB em Iridaea cordata (Gigartinales, Rhodophyta). Dissertação apresentada ao Instituto de Biociências da Universidade de São Paulo, para a obtenção do título de Mestre em Ciências, na Área da Botânica. 87 pp.
Nedunchezhian N, Kulandaivelu G (1991) Evidence for the ultraviolet-B (280–320) radiation induced structural reorganization and damage photosystem II polypeptides in isolated chloroplasts. Physiol. Plantarum. 81: 558–562.
Poppe F, Schmidt RA, Hanelt D, Wiencke C (2003) Effects of UV radiation on the ultrastructure of several red algae. Phycol. Res. 51:11–19.
Renger G, Völker M, Eckert H, Fromme R, Hohm-Veit S, Gräber P (1989) On the mechanism of photosysthem II deterioration by UVB irradiation. Photochem. Photobiol. 49: 97–105.
Romo H, Paula EJ (1995) Métodos Experimentales para el cultivo de Porphyra. Alveal En K, Ferrario M, Oliveiray E, Sar E (eds.), Manual de Métodos Ficológicos, Universidad de Concepción, Editorial Anibal Pinto S.A., Chile, pp. 55–562.
Seckmeyer G, McKenzie R.L (1992) Elevated ultraviolet radiation in New Zealand (45°S) contrasted with Germany (45°S). Nature 359: 135–137.
Spjotvoll E, Stoline MR (1973) An extension of the T-method of multiple comparison to include the cases with unequal sample sizes. J. Am. Stat. Assoc. 68: 976–978.
Teramura A, Sullivan J (1991). Potential impacts of increased solar UVB on global plant productivity. In Riklis E (ed), Photobiology, Plenum Press New York: 625–634.
van de Poll WH, Eggert A, Buma GJ, Breeman AM (2001) Effects of UVB induced DNA damage and photoinhibition on growth of temperate marine red macrophytes: habitat-related differences in UVB tolerance. J. Phycol. 37: 30–37.
Vincent W, Roy S (1993) Solar ultraviolet-B radiation and aquatic primary production: Damage, protection, and recovery. Env. Rev. 1: 1–12.
Worrest RC (1983) Impact of solar ultraviolet-B radiation (290–320 nm) upon marine microalgae. Physiol. Plantarum 58: 428–434.
Yakovleva IM, Titlyanov EA (2001) Effects of high visible and UV irradiance on subtidal Chondrus crispus: Stress, photoinhibition and protective mechanisms. Aquatic Bot. 71: 47–61.
Zar JH (1999). Biostatistical Analysis, 4th Edition, Prentice Hall, Upper Saddle River, NJ, 941 p.
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Andrés, M., Werlinger, C., Palacios, M., Navarro, N.P., Cuadra, P. (2006). Effects of UVB radiation on the initial stages of growth of Gigartina skottsbergii, Sarcothalia crispata and Mazzaella laminarioides (Gigartinales, Rhodophyta). In: Anderson, R., Brodie, J., Onsøyen, E., Critchley, A.T. (eds) Eighteenth International Seaweed Symposium. Developments in Applied Phycology, vol 1. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-5670-3_28
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DOI: https://doi.org/10.1007/978-1-4020-5670-3_28
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