Integration of chlorophyll a fluorescence and photorespirometry techniques to understand production dynamics in macroaglal communities |
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| Authors: | Leigh W Tait Ian Hawes David R Schiel |
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| Affiliation: | 1. National Institute of Water & Atmosphere, Christchurch, New Zealand;2. Marine Ecology Research Group, School of Biological Sciences, University of Canterbury, Christchurch, New Zealand;3. Coastal Marine Field Station, University of Waikato, Tauranga, New Zealand |
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| Abstract: | Global declines of macroalgal beds in coastal waters have prompted a plethora of studies attempting to understand the drivers of change within dynamic nearshore ecosystems. Photosynthetic measurements are good tools for assessing the consequences of numerous stressors of macroalgae, but there is somewhat of a disconnection between studies that focus on organism‐specific ecophysiological responses and those that address causes and consequences of shifts in macroalgal productivity. Our goal is to highlight the applications of two complementary tools for measuring photosynthesis—variable chlorophyll a fluorescence and photorespirometry—and provide guidance for the integration of physiology and ecology to understand the drivers of change in macroalgal communities. Photorespirometry can provide an integrated measure of whole‐community metabolism, including an estimate of the physiological costs associated with stressors, while fluorescence‐based techniques provide point measures of the efficiency of the photosynthetic apparatus within communities. Variable chlorophyll a fluorescence does not provide an estimate of carbon balance or integrated photosynthesis across either whole plants or whole communities but can be used to estimate the contribution of individual community components in the dynamic subcanopy environment to help us understand the mechanisms underlying observed responses. We highlight the importance of the highly dynamic light environment within macroalgal communities and call for better integration of physiological techniques in an ecological context to enhance our understanding of the responses of whole communities to local and global stressors. |
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| Keywords: | macroalgae PAM fluorometry photophysiology photosynthesis stressors |
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