Biotic and abiotic drivers of barnacle recruitment along a sub-Arctic intertidal rocky shore
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https://hdl.handle.net/10037/29462Date
2023-05-15Type
Master thesisMastergradsoppgave
Author
Prieto Del Campo, MartaAbstract
Most marine ecological research in the Arctic has focused on open water ecosystems, while
coastal ecosystems are systematically under-studied. However, Arctic near-shore ecosystems
are highly stressed environments and play a major role in biogeochemical cycling (e.g., nutrient
input from thawing permafrost). Furthermore, the Arctic region has extreme environmental
conditions which are expected to be stronger modified by climate change than most other
regions on earth. Ecological models state connections between environmental stress and the
relative importance of species interaction regulating ecological communities. Many studies
testing environmental stress models have been conducted on rocky intertidal shores of the
temperate zones, which are commonly inhabited by sessile invertebrates, such as mussels and
barnacles, slow moving predators, such as dogwhelks and limpets, and canopy-forming
macroalgae. These studies showed, for instance, that barnacle (Semibalanus balanoides)
settlement and recruitment are negatively affected by seaweed canopy whiplash and limpet
bulldozing and also vary over small spatial scale with shore height due to strong desiccation
gradients. However, canopies can also benefit both limpets and barnacles, providing a
microclimate with reduced desiccation effects. The empirical evidence of those studies from
temperate regions, may, however, not be applicable to the Arctic intertidal. This study focusses
on the limpet-seaweed-barnacle interactions in the Arctic intertidal zone, as a highly stressful
environment for which information on species interactions is extremely limited.
Here, I report on: (1) the effect of shore height on barnacle (S. balanoides) settlement success
and recruit density in relation to the effect of seaweed (Ascophyllum nodosum) canopy presence
and (2) the separate and combined effects of the presence of seaweed (A. nodosum) canopy and,
limpets (Patella vulgata), on the density of barnacle cyprids, recruits and adults.
This experimental study was performed along the intertidal coast of Kvaløya island, Tromsø,
northern Norway. The samples were collected from the intertidal zone that range about 1.84 m
in coastal height. The study is composed of two experiments that were conducted both using a
randomized-block design. Both experiments study the effects of biotic and abiotic drivers on
barnacle adult, recruit, and settlement density.
The results showed that barnacle cyprids and recruits were highly negatively affected by
desiccation, being merely present at high-shore zones. Moreover, seaweed-canopy had a large
negative effect on barnacle density while the limpet effect was relatively small. The combined
effects of canopy whiplash and limpet bulldozing suggest an additive effect on barnacle density.
These results indicate that the presence of an algal canopy does not enhance limpet performance
(e.g., grazing activity) to add extra pressure on barnacle survival. This study shows that the
functional role of intertidal organisms such as canopy-forming macroalgae may be expressed
differently in high latitudinal intertidal communities than what could be inferred from studies
done on temperate zone.
Publisher
UiT Norges arktiske universitetUiT The Arctic University of Norway
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