Influence of temperature and light on growth and photosynthetic physiology of Fucus evanescens (Phaeophyta) embryos

KELLY M. (MACHALEK) MAJOR; IAN R. DAVISON

doi:10.1017/S0967026298001620

Abstract

The influence of temperature and light on growth and photosynthetic physiology were investigated in embryos of Fucus evanescens grown at 5 or 20°C under irradiances of 15 or 150 μmol photons m−2 s−1 for 7–10 days. Growth was light-independent, but high-temperature embryos were always significantly larger than those grown at low temperature. Photosynthesis-irradiance responses were measured at growth temperature and a standard temperature (20°C) to isolate instantaneous effects of temperature from acclimation responses. Our data indicate that growth and photosynthesis are uncoupled during the early development of Fucus, and that acclimation of the photosynthetic light-harvesting apparatus occurred. Light-limited net photosynthesis (Psub-sat) responded similarly to high temperature and low light. Rates of Psub-sat were similar in embryos grown at 20°C (regardless of light) and at 5°C in low (c. 1.2 nmol O2 mm−3 min−1), whereas those of 5°C high-light embryos were lower (c. −0.04 nmol O2 mm−3 min−1). Changes in Psub-sat were associated with changes in initial slope of the photosynthesis-irradiance curve (α) and dark respiration. Differences in α were attributed to increased absorption due to increased chlorophyll a content and PSII reaction centre densities. Changes in α were also correlated with changes in fluorescence induction kinetics, with high-temperature and/or low-light embryos exhibiting higher ratios of variable: maximum fluorescence (Fv/Fm) than 5°C high-light embryos (c. 0.5 vs. 0.19). In contrast to Psub-sat, changes in light-saturated photosynthesis (Pmax) in response to growth under different temperature/light regimes did not confer metabolic compensation. Rates of Pmax were highest in 20°C high-light embryos (7.3 nmol O2 mm−3 min−1), lower in 20°C low-light and 5°C low-light embryos (c. 2.6 nmol O2 mm−3 min−1) and lowest in 5°C high-light embryos (2.3 nmol O2 mm−3 min−1). We suggest that the ability to achieve temperature-independent rates of Psub-sat may be important for fucoid embryos that recruit in intertidal microhabitats where photosynthesis is often light-limited.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Coelho, S. Rijstenbil, J. W. Sousa‐Pinto, I. and Brown, M. T. 2001. Cellular responses to elevated light levels in Fucus spiralis embryos during the first days after fertilization. Plant, Cell & Environment, Vol. 24, Issue. 8, p. 801.

Chapman, Annelise S. Albrecht), A. S. and Fletcher, Robert L. 2002. DIFFERENTIAL EFFECTS OF SEDIMENTS ON SURVIVAL AND GROWTH OF FUCUS SERRATUS EMBRYOS (FUCALES, PHAEOPHYCEAE)1. Journal of Phycology, Vol. 38, Issue. 5, p. 894.

Eggert, Anja van Hasselt, Philip R. and Breeman, Anneke M. 2003. Differences in thermal acclimation of chloroplast functioning in two ecotypes ofValonia utricularis(Chlorophyta). European Journal of Phycology, Vol. 38, Issue. 2, p. 123.

Henry, Brianne E. and Van Alstyne, Kathryn L. 2004. EFFECTS OF UV RADIATION ON GROWTH AND PHLOROTANNINS IN FUCUS GARDNERI (PHAEOPHYCEAE) JUVENILES AND EMBRYOS1. Journal of Phycology, Vol. 40, Issue. 3, p. 527.

Kim, Kwang Young Jeong, Hae Jin Main, Heather P. and Garbary, David J. 2006. Fluorescence and photosynthetic competency in single eggs and embryos of Ascophyllum nodosum (Phaeophyceae). Phycologia, Vol. 45, Issue. 3, p. 331.

Lamote, Morgane Johnson, Ladd E. and Lemoine, Yves 2007. Interspecific differences in the response of juvenile stages to physical stress: fluorometric responses of fucoid embryos to variation in meteorological conditions1. Journal of Phycology, Vol. 43, Issue. 6, p. 1164.

Jiang, Hongxia Gao, Kunshan and Helbling, E. Walter 2007. Effects of solar UV radiation on germination of conchospores and morphogenesis of sporelings in Porphyra haitanensis (Rhodophyta). Marine Biology, Vol. 151, Issue. 5, p. 1751.

Sampath-Wiley, Priya Neefus, Christopher D. and Jahnke, Leland S. 2008. Seasonal effects of sun exposure and emersion on intertidal seaweed physiology: Fluctuations in antioxidant contents, photosynthetic pigments and photosynthetic efficiency in the red alga Porphyra umbilicalis Kützing (Rhodophyta, Bangiales). Journal of Experimental Marine Biology and Ecology, Vol. 361, Issue. 2, p. 83.

Henkel, Sarah K. and Hofmann, Gretchen E. 2008. Thermal ecophysiology of gametophytes cultured from invasive Undaria pinnatifida (Harvey) Suringar in coastal California harbors. Journal of Experimental Marine Biology and Ecology, Vol. 367, Issue. 2, p. 164.

Gao, Kunshan and Xu, Juntian 2010. Seaweeds and their Role in Globally Changing Environments. Vol. 15, Issue. , p. 183.

Muhlin, JF Coleman, MA Rees, TAV and Brawley, SH 2011. Modeling of reproduction in the intertidal macrophyte Fucus vesiculosus and implications for spatial subsidies in the nearshore environment. Marine Ecology Progress Series, Vol. 440, Issue. , p. 79.

Schuler, Matthew S. and Orrock, John L. 2012. The maladaptive significance of maternal effects for plants in anthropogenically modified environments. Evolutionary Ecology, Vol. 26, Issue. 3, p. 475.

Lamote, Morgane Johnson, Ladd E. and Lemoine, Yves 2012. Photosynthetic responses of an intertidal alga to emersion: The interplay of intertidal height and meteorological conditions. Journal of Experimental Marine Biology and Ecology, Vol. 428, Issue. , p. 16.

Zou, Dinghui Liu, Shuxia Du, Hong and Xu, Juntian 2012. Growth and photosynthesis in seedlings of Hizikia fusiformis (Harvey) Okamura (Sargassaceae, Phaeophyta) cultured at two different temperatures. Journal of Applied Phycology, Vol. 24, Issue. 5, p. 1321.

Tarakhovskaya, E. R. Kang, E. J. Kim, K. Y. and Garbary, D. J. 2013. Influence of phytohormones on morphology and chlorophyll a fluorescence parameters in embryos of Fucus vesiculosus L. (Phaeophyceae). Russian Journal of Plant Physiology, Vol. 60, Issue. 2, p. 176.

Clark, Jennifer S. Poore, Alistair G. B. Ralph, Peter J. Doblin, Martina A. and Harley, C. 2013. Potential for adaptation in response to thermal stress in an intertidal macroalga. Journal of Phycology, Vol. 49, Issue. 4, p. 630.

Li, Xuemeng Zhang, Quansheng He, Jun Yu, Yongqiang and Liu, Hongliang 2014. Photoacclimation characteristics of Sargassum thunbergii germlings under different light intensities. Journal of Applied Phycology, Vol. 26, Issue. 5, p. 2151.

Zou, Dinghui Gao, Kunshan and Harley, C. 2014. Temperature response of photosynthetic light‐ and carbon‐use characteristics in the red seaweed Gracilariopsis lemaneiformis (Gracilariales, Rhodophyta). Journal of Phycology, Vol. 50, Issue. 2, p. 366.

Liu, Chunxiang and Zou, Dinghui 2015. Do increased temperature and CO2 levels affect the growth, photosynthesis, and respiration of the marine macroalga Pyropia haitanensis (Rhodophyta)? An experimental study. Hydrobiologia, Vol. 745, Issue. 1, p. 285.

Tarakhovskaya, Elena Lemesheva, Valeriya Bilova, Tatiana and Birkemeyer, Claudia 2017. Early Embryogenesis of Brown Alga Fucus vesiculosus L. is Characterized by Significant Changes in Carbon and Energy Metabolism. Molecules, Vol. 22, Issue. 9, p. 1509.

Download full list

Article contents

Influence of temperature and light on growth and photosynthetic physiology of Fucus evanescens (Phaeophyta) embryos

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Influence of temperature and light on growth and photosynthetic physiology of Fucus evanescens (Phaeophyta) embryos

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests