Ecophysiological plasticity of annual populations of giant kelp (Macrocystis pyrifera) in a seasonally variable coastal environment in the Northern Patagonian Inner Seas of Southern Chile

Ecophysiological plasticity of annual populations of giant kelp (Macrocystis pyrifera) in a seasonally variable coastal environment in the Northern Patagonian Inner Seas of Southern Chile

Annual populations of Macrocystis pyrifera in Southern Chile have been the main focus of studies intending to understand how these populations can couple consecutive sporophytic generations. Research has included studying the population dynamics and gametophytic responses to environmental conditions...

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Bibliographic Details
Published in:Journal of applied phycology Vol. 26; no. 2; pp. 837 - 847
Main Authors: Buschmann, Alejandro H, Pereda, Sandra V, Varela, Daniel A, Rodríguez-Maulén, Juan, López, Alejandra, González-Carvajal, Luis, Schilling, Marcela, Henríquez-Tejo, Eduardo A, Hernández-González, María C
Format: Journal Article
Language:English
Published: Dordrecht Springer-Verlag 01-04-2014
Springer Netherlands
Springer Nature B.V
Subjects:
Abiotic factors
adults
Algae
autumn
Biomedical and Life Sciences
bioreactors
chlorophyll
Coastal environments
Ecology
Environmental conditions
Environmental factors
Freshwater & Marine Ecology
gametophytes
grazing
habitats
High temperature
Life Sciences
light intensity
macroalgae
Macrocystis pyrifera
mature plants
Mortality
Natural populations
nitrogen
Plant Physiology
Plant Sciences
Population levels
recruitment
senescence
sporophytes
Spring
Summer
temperature
Winter
Chile
ISE, Chile
Chlorophyll
Growth
Nitrate reductase
Phaeophyta
Annual populations
Ecophysiology
Photosynthesis
Giant kelp
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Summary:Annual populations of Macrocystis pyrifera in Southern Chile have been the main focus of studies intending to understand how these populations can couple consecutive sporophytic generations. Research has included studying the population dynamics and gametophytic responses to environmental conditions and the role of recruitment, grazing, and the use of benthic filter feeders as secondary substrate. Adult sporophytes undergo senescence due to changes in abiotic factors during summer and autumn producing 100 % mortality. This study provides evidence about the environmental factors driving the decline in sporophyte populations occurring in summer and fall by monitoring two independent kelp populations and also by running experiments using 400 L tubular photobioreactors with semicontrolled environmental factors for testing the capacity for new recruits to recover population levels under winter conditions. The study of natural populations of giant kelp indicates that high temperatures (>15–17 °C) explain the high mortality of adult plants in summer. On the other hand, the sporophytes established in late winter/early spring are able, under high nitrogen availability, to increase their chlorophyll content significantly, allowing the individuals to reduce their light saturation point and thus allow a higher productivity under the low light conditions that exist in late winter and early spring. These results, in addition to the recruitment facilitation produced by filter feeders, help to explain how giant kelp can deal with, and couple sporophytic generations, in variable environments. These results also emphasize the highly plastic physiology of giant kelp that enables this species to colonize diverse habitats across its large distributional range.
Bibliography:http://dx.doi.org/10.1007/s10811-013-0070-z
ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:0921-8971
1573-5176
DOI:10.1007/s10811-013-0070-z