Document Type

Article

Publication Date

6-10-2002

Publication Title

Journal of Experimental Marine Biology and Ecology

Abstract

Intertidal macroalgae often experience greater risk of dislodgment with increasing size because of underscaling of breaking force of their stipes relative to drag on their thalli. This ratio (breaking force/drag) indicates safety from breakage at a given flow speed, with values greater than one indicating safety from breakage and values lower than one indicating danger of breakage. We examined this force ratio for the largest thalli of two species of co-dominant, red algae, Chondrus crispus Stackhouse and Mastocarpus stellatus Stack. In With. (Guiry), in four seasons at two wave exposures. During fall and winter, the largest thalli in both populations were dislodged resulting in a decrease in mass of the largest thalli found. This decrease was greater for Chondrus than for Mastocarpus, but their mass-specific force ratios (at 0.55 m s-1) were equal indicating similar size-specific risk of dislodgment. The equality of force ratios was underlain by two similarities: (1) breaking force was independent of mass and not different between species; (2) mass-specific drag was not different between species. These similarities were underlain by dissimilar causes: (i) similarity in breaking force (the product of cross-sectional area and material strength) occurred because greater material strength of Mastocarpus compensated for greater mass-specific cross-sectional area of Chondrus; (ii) similarity in mass-specific drag (a function of planform area and the coefficient of drag) occurred because greater drag coefficients for Mastocarpus compensated for greater mass-specific planform areas of Chondrus. The similarity in force ratio, if it held at season-and site-relevant flow speeds, would suggest that during seasons of minimal growth and high wave exposure, the mass of the largest thalli of both species should be the same. Chondrus, however, had a greater mass at both sites in all seasons. Chondrus experienced greater decreases in mass probably because it grew larger and larger thalli are less safe. Extrapolation of a site-relevant force ratio for Chondrus in the fall revealed (I) that the site-relevant force ratio did not differ between exposures even though the mass-specific force ratio was greater at the protected site, and (2) a paradoxical result that all Chondrus thalli studied ought to have dislodged, but had not. This paradox may be resolved by consideration of the protection conferred by canopies of Chondrus: a canopy may effectively raise its site-relevant force ratio. Perhaps differences in protection conferred by different canopies explain why larger Chondrus persist with Mastocarpus even given a similarity in mass-specific force ratio.

Keywords

Dislodgment, Drag, Intertidal macroalgae, Safety factor, Seasons

Volume

272

Issue

1

First Page

71

Last Page

101

DOI

10.1016/S0022-0981(02)00046-1

ISSN

00220981

Comments

Archived as published.

Included in

Biology Commons

Share

COinS
 
 

To view the content in your browser, please download Adobe Reader or, alternately,
you may Download the file to your hard drive.

NOTE: The latest versions of Adobe Reader do not support viewing PDF files within Firefox on Mac OS and if you are using a modern (Intel) Mac, there is no official plugin for viewing PDF files within the browser window.