E. Day scite author profile

Much current research on community ecology concerns indirect effects, cascading trophic interactions, and the role of top‐down vs. bottom‐up processes, as well as subsidization of matter and energy between different systems. We addressed all these topics by exploring interactions between the urchin Parechinus angulosus and both recruits and juveniles of the abalone Haliotis midae, in the light of the fact that juvenile abalone shelter beneath the urchins. In field experiments at six sites, urchins were eliminated from removal plots to determine the degree to which juvenile abalone (individuals 3–35 mm in length) depend upon urchins. Comparisons were made with undisturbed and disturbance‐control plots. We hypothesized that after removal of urchins: (1) there would be an immediate decline of juvenile abalone, since they are intimately associated with the urchins; (2) abalone recruits (recent settlers <3 mm in length) would be unlikely to suffer immediately or directly because, unlike juveniles, they are only weakly associated with the urchins; (3) foliar algae would proliferate due to decreased grazing by urchins; (4) there would be a consequent reduction in crustose coralline algae due to overgrowth by foliar algae; and (5) the decline of crustose corallines would reduce recruitment of abalone due to a loss of settlement and nursery habitat. In urchin‐removal plots, juvenile abalone declined dramatically, becoming virtually extinct locally. Their disappearance was slowest in crevices compared with exposed habitats, but even there they failed to survive longer than five months. Contrary to expectations, abalone recruits also disappeared from urchin‐removal plots, possibly because the cover of sediment almost doubled there. Also contrary to our hypotheses, neither foliar macroalgae nor encrusting corallines responded to urchin removal. The explanation of these results is that P. angulosus was able to gather drift kelp when this food source was available, rather than acting as an active grazer. This feeding pattern has profound consequences and explains why urchins failed to influence algal community composition. By sheltering beneath urchins, juvenile abalone gain protection from predators and may also benefit from an enhanced food supply. Bottom‐up subsidization of urchins by drift kelp is thus responsible for the feeding behavior of the urchins, and indirectly facilitates their role in harboring juvenile abalone. This role is of immense importance for the lucrative abalone fishery, and depletion of urchins could lead to a collapse of abalone populations. Human exploitation of top predators that consume urchins, such as rock lobsters and some fishes, has conceivably exaggerated the role of urchins in sustaining juvenile abalone.

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A synthesis of three decades of socio-ecological change in False Bay, South Africa: setting the scene for multidisciplinary research and management

Pfaff

Logston

Raemaekers

et al. 2019

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How costly is molluscan shell erosion? A comparison of two patellid limpets with contrasting shell structures

Day

Branch

Viljoen

2000

Journal of Experimental Marine Biology and Ecology

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Influences of the sea urchin Parechinus angulosus (Leske) on the feeding behaviour and activity rhythms of juveniles of the South African abalone Haliotis midae Linn

Day

Branch

2002

Journal of Experimental Marine Biology and Ecology

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Relationships between recruits of abalone Haliotis midae , encrusting corallines and the sea urchin Parechinus angulosus

Day¹,

Branch²

2000

South African Journal of Marine Science

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E. Day

EFFECTS OF SEA URCHINS (PARECHINUS ANGULOSUS) ON RECRUITS AND JUVENILES OF ABALONE (HALIOTIS MIDAE)

A synthesis of three decades of socio-ecological change in False Bay, South Africa: setting the scene for multidisciplinary research and management

How costly is molluscan shell erosion? A comparison of two patellid limpets with contrasting shell structures

Influences of the sea urchin Parechinus angulosus (Leske) on the feeding behaviour and activity rhythms of juveniles of the South African abalone Haliotis midae Linn

Relationships between recruits of abalone Haliotis midae , encrusting corallines and the sea urchin Parechinus angulosus

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