Effects of grazing on species composition of the epilithic algal community on coral reefs of the central Great Barrier Reef

Abstract

Coral blocks were used as settlement surfaces to study the epilithc algal community (EAC) in the presence and short-term absence of large, herb~vorous grazers on the central Great Bamer Reef (GBR). Grazers were excluded by cages at study sites on 2 lnshore, 2 midshelf and 2 outershelf reef. Of 82 algal taxa recorded, 81 were small filamentous or fleshy 'algal turfs' Compos~t~on and abundance of algae differences more pronounced on mid- and differed greatly between caged and uncaged substrata, w~th outershelf reefs than on lnshore reefs. Caged surfaces on lnshore reefs were dominated by Sphacelaria novae-hollandiae (Phaecophyta), an assemblage of Oscillatoriaceae (Cyanophyta), Acetabularia caly- culus (Chlorophyta), Cerarniurn flaccidurn, Taeniorna nanum and Polysiphonia infestans (all and outershelf reefs Rhodophyta) and Cladophora fasiculans (Chlorophyta) Caged surfaces on m~d- were dominated by Enterornorpha clathrata (Chlorophyta), P. ~nfestans, PolySiphonla sphaerocarpa, C. flaccidurn, Herposlphonla secunda f tenella and Lobophora variegata (all Rhodophyta), S. novae- hollandae, assemblages of Osc~llatonaceae and Nostocaceae (Cyanophyta), Glfforda mitchellae and l Pseudopringsheimla (both Chlorophyta) These species are likely to account for a large proportion of algal product~on and food of large, herb~vorous grazers on these reefs. Uncaged surfaces on inshore reefs were dominated by S. novae-hollandiae, an assemblage of Oscillatonaceae, G. rnitchellae and P. sphaerocarpa; those on md- and outershelf reefs by the crustose coralhne alga Porolithon onkodes, assemblages of Nostocaceae and Oscillatoriaceae, ? Pseudopringsheirnia, Polysiphonia scopulorurn and on the continental shelf accounted for the major proportion of variability from the analysis, Ceramluni punctiforrne. Locat~on In the data due malnly to the dstribution of P onkodes. When thls species was om~tted the effect of excludng grazers In combination ulth differences between lnshore and mid-/outershelf reefs accounted for the major proportion of vanability. In the latter analysis, locatlon was a far less important component of var~ability In EAC omposit~on than was presence or absence of grazers, because of large between-reef (I.e. within-locahon) variance in the abundance of many species. Grazers have a greater and abundance of the EAC on mid- and outershelf reefs than on inshore reefs, in lmpact on compos~tion agreement with previous findings that herbivorous, grazing fishes are significantly less abundant on ~nshore than on mid- and outershelf reefs. tose