The impact of different preservation methods on macroalgal tissue light absorptance values: a case study with Ulva australis
Date
2015
Authors
Martins, N.
Runcie, J.
Gurgel, C.
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Journal article
Citation
Aquatic Botany, 2015; 120(Part B):236-239
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Nuno T. Martins, John W. Runcie, C. Frederico D. Gurgel
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Abstract
Calculations of absolute ETR require accurate measurements of plant tissue Photosynthetic Active Radiation light absorption (A<inf>L</inf>(PAR)). The default leaf-specific A<inf>L</inf>(PAR) value of 0.84 estimated from and applicable to nearly all higher plants does not apply for marine macroalgae which are phylogenetically, structurally and chemically very different from higher plants and quite variable among themselves. Consequently, to date there is no default A<inf>L</inf>(PAR) value for all macroalgae, and hence A<inf>L</inf>(PAR) values always need to be recalculated from live specimens on every new study. This study compared A<inf>L</inf>(PAR) values from thalli of Ulva australis (Chlorophyta) preserved under different methods to test whether usable A<inf>L</inf>(PAR) data can be obtained from samples other than live ones. Light absorption measurements were made using an Integrating Sphere attached to a spectrophotometer. No statistically significant differences in A<inf>L</inf>(PAR) values were observed among live and pressed material whether recently collected (=4 days old) or stored more than seventy years but there were significant differences among live, frozen, formalin-preserved and bleached material. No significant differences in absorptance at wavelength of 675nm were observed between fresh, frozen and formalin preserved material. A<inf>L</inf>(PAR)=0.74 appeared to be an appropriate A<inf>L</inf>(PAR) default value for this species. This study demonstrated that accurate A<inf>L</inf>(PAR) can be obtained from some pressed herbarium preserved species while some commonly used methods of field tissue preservation in macroalgal photochemical studies fails to do so.
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Dissertation Note
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Available online 3 September 2014
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© 2014 Elsevier B.V. All rights reserved.