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Density-dependence and seasonal variation in reproductive output and sporophyte production in the kelp, Ecklonia radiata


Tatsumi, M and Mabin, CJT and Layton, C and Shelamoff, V and Cameron, MJ and Johnson, CR and Wright, JT, Density-dependence and seasonal variation in reproductive output and sporophyte production in the kelp, Ecklonia radiata, Journal of Phycology, 58, (1) pp. 92-104. ISSN 0022-3646 (2022) [Refereed Article]

Copyright Statement

© 2021 Phycological Society of America

DOI: doi:10.1111/jpy.13214


The kelp, Ecklonia radiata, is an abundant subtidal ecosystem engineer in southern Australia. Density-dependent changes in the abiotic environment engineered by Ecklonia may feedback to affect reproduction and subsequent recruitment. Here, we examined: 1) how the reproductive capacity of Ecklonia individuals in the field (zoospores released · mm−2 reproductive tissue) varied with adult density and time, and 2) how the recruitment of microscopic gametophytes and sporophytes was influenced by zoospore density at two times. Zoospore production did not vary with adult density, with only one month out of ten sampled over a 2-y period showing a significant effect of density. However, zoospore production varied hugely over time, being generally highest in mid-autumn and lowest in mid-late summer. There were strong effects of initial zoospore density on gametophyte and sporophyte recruitment with both a minimum and an optimum zoospore density for sporophyte recruitment, but these varied in time. Almost no sporophytes developed when initial zoospore density was <6.5 · mm−2 in spring or <0.5 · mm−2 in winter with optimum densities of 90-355 · mm−2 in spring and 21-261 · mm−2 in winter, which resulted in relatively high recruitment of 4-7 sporophytes · mm−2. Sporophyte recruitment declined at initial zoospore densities >335 · mm−2 in spring and >261 · mm−2 in winter and was zero at very high zoospore densities. These findings suggest that although adult Ecklonia density does not affect per-capita zoospore production, because there is a minimum zoospore density for sporophyte production, a decline in population-level output could feedback to impact recruitment.

Item Details

Item Type:Refereed Article
Keywords:population dynamics, density-dependent, Ecklonia radiata, ecosystem engineer, kelp, recruitment, reproduction, zoospores
Research Division:Biological Sciences
Research Group:Ecology
Research Field:Marine and estuarine ecology (incl. marine ichthyology)
Objective Division:Environmental Management
Objective Group:Coastal and estuarine systems and management
Objective Field:Coastal and estuarine systems and management not elsewhere classified
UTAS Author:Tatsumi, M (Mr Masayuki Tatsumi)
UTAS Author:Mabin, CJT (Dr Christopher Mabin)
UTAS Author:Layton, C (Dr Cayne Layton)
UTAS Author:Shelamoff, V (Dr Victor Shelamoff)
UTAS Author:Cameron, MJ (Mr Matthew Cameron)
UTAS Author:Johnson, CR (Professor Craig Johnson)
UTAS Author:Wright, JT (Associate Professor Jeffrey Wright)
ID Code:149171
Year Published:2022
Web of Science® Times Cited:5
Deposited By:Ecology and Biodiversity
Deposited On:2022-03-15
Last Modified:2022-10-19

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