Density-dependent effects control the reproductive strategy and population growth of Aureliaaurita s.l. scyphistomae

Aurelia aurita s.l. scyphistomae are capable of developing different asexual modes for propagation and thus present a multi-mode reproductive strategy. The reproduction rates and the reproductive strategy they adopt depend on a combination of various environmental parameters. We investigated the A....

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Bibliographic Details
Published in:Marine biology 2015-08, Vol.162 (8), p.1665-1672
Main Authors: Schiariti, Agustin, Melica, Valentina, Kogovšek, Tjaša, Malej, Alenka
Format: Article
Language:English
Subjects:
Biomedical and Life Sciences
Freshwater & Marine Ecology
Life Sciences
Marine & Freshwater Sciences
Microbiology
Oceanography
Original Paper
Polyps (Pathology)
Reproduction, Asexual
Zoological research
Zoology
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Summary:Aurelia aurita s.l. scyphistomae are capable of developing different asexual modes for propagation and thus present a multi-mode reproductive strategy. The reproduction rates and the reproductive strategy they adopt depend on a combination of various environmental parameters. We investigated the A. aurita s.l. polyp-to-polyp reproduction strategy and population growth in relation to polyp density. Our results confirmed that density-dependent factors control population growth of A. aurita s.l. scyphistomae in three different ways: (1) decreasing the polyp reproduction rate, (2) triggering the production of motile bud-like tissue particles and (3) inducing the detachment of developed scyphistomae. Whereas the decrease in the reproduction rate reduces the number of recruits, the motile particles and the detachment of scyphistomae contribute to minimizing density-dependent effects by allowing reproductive products and scyphistomae to drift away. Thus, not only are the negative effects of intraspecific competition for space and food diminished but also the potential colonization of new substrates, and further increase in scyphistoma density is favoured on larger spatial scales. The potential capability to switch its polyp-to-polyp reproduction strategy in response to environmental clues and population density may give Aurelia high adaptability in the temperate coastal waters where they commonly live and where they may be exposed to wide-ranging and fluctuating environmental variables that affect their survival and longevity. Considering these features, as well as the wide tolerance of Aurelia scyphistomae (and medusae) to environmental parameters, it is not surprising that the species/lineages of Aurelia are cosmopolitan and exhibit the most frequent bloom events worldwide.
ISSN:0025-3162
1432-1793
DOI:10.1007/s00227-015-2704-y