2026-06-02T21:39:27Zhttps://riuma.uma.es/rest/oai/requestoai:riuma.uma.es:10630/386912026-02-03T11:36:31Zcom_10630_2254col_10630_37953
Short-term effects of CO2, nutrients and temperature on three marine macroalgae under solar radiation.
Stengel, Dagmar B.
Conde Álvarez, Rafael Miguel
Connan, Solène
Nitschke, Udo
Arenas, Francisco
Abreu, Helena
Bonomi-Barufi, José
Chow, Fungyi
Robledo, Daniel
Malta, Erik-Jan
Mata, Mayte
Konotchick, Talina
Nassar, Cristina
Pérez-Ruzafa, Ángel
López, David
Marquardt, Ronny
Vaz-Pinto, Fátima
Celis Plá, Paula
Hermoso, Maibe
Ruiz, Esther
Ordoñez, Gema
Flores, Pauli
Zanolla-Balbuena, Maríanela Fernanda
Bañares-España, Elena
Altamirano-Jeschke, María
Korbee-Peinado, Nathalie
Bischof, Kai
López-Figueroa, Félix
Fluorescencia
Clorofila
Cambios climáticos
Mares y océanos - Temperatura
Algas marinas - Efectos de la temperatura
Acidificación
Three macroalgal species belonging to Chlorophyta (Ulva rigida), Rhodophyta
(Ellisolandia elongata) and Phaeophyceae (Heterokontophyta; Cystoseira tamariscifolia), naturally growing at the same shore level and representing 3 morpho-functional groups, were exposed
to short-term changes in temperature under different carbon and nitrogen regimes. Experiments
were conducted in outdoor tanks at 4 combinations of carbon and nitrogen levels under reduced
solar radiation. In vivo chl a fluorescence parameters and pigment contents were monitored to
assess diurnal physiological responses and potential for recovery. Strong fluctuations in chl a fluorescence parameters, but not in chl a content, were observed in response to diurnal variation in
solar radiation and light climate within the tanks; sensitivity varied between algal species and, in
some cases, depended on the carbon and nitrogen regime. Nitrogen uptake was similarly high in
U. rigida and E. elongata and lowest in C. tamariscifolia. In U. rigida and E. elongata, chl a concentrations decreased after high-carbon treatments. Effective photosystem II quantum efficiency
was reduced in all species at noon, and lowest in C. tamariscifolia. The results highlight the complexity of physiological short-term acclimations which were most likely linked to biochemical
changes at the cellular level. Long-term experiments are required in future for more comprehensive investigation of the observed interactive effects of the different environmental parameters.
2025-05-21T07:18:54Z
2025-05-21T07:18:54Z
2014-10-20
journal article
Stengel et al. 2014
https://hdl.handle.net/10630/38691
10.3354/ab00576
eng
http://creativecommons.org/licenses/by/4.0/
open access
Attribution 4.0 Internacional
Inter-Research