Macroalgal dynamics on Caribbean coral forereefs

Renken, Hendrik

January 2008

Tropical coral reefs are among the most diverse ecosystems of the world but facing increasing threats to their health. Over the last thirty years, many Caribbean coral reefs have undergone dramatic changes and experienced large losses in coral cover, due to direct and indirect anthropogenic disturbances. The results of which are reefs with low rugosity, changed trophic dynamics and low fish diversity. In recent times reefs have failed to recover from disturbances due to an increase in frequency and severity of disturbances and stresses. In the Caribbean on many coral reefs this has resulted in a shift towards macroalgal dominance by species of the phylum Phaeophyta. The processes and factors affecting the standing crop of macroalgae are many and complex. Two main hypotheses are identified in the literature as being the driving forces of algal dynamics: nutrient dynamics (availability, supply and uptake) and herbivory. However, many studies have been found to be inconclusive because of the complexity of the coral reef ecosystem, which makes it difficult if not impossible to control for all factors and processes influencing the standing crop of macroalgae such as light, water flow and sedimentation. The inherent characteristics of macroalgae, like morphology and life history, make them behave differently. Whilst herbivore characteristics, like size of mouth parts, feeding modes and preferences, will influence the amount of algal biomass removed. The spatial context (i.e. coral fore reef vs. back reef) will influence the effects of both bottom-up and top-down controls. Besides these inter-habitat differences, macroalgae within similar habitats but differing geographical locations may respond differently, for example, a forereef exposed to the open ocean or a forereef located in a sheltered bay. This thesis attempts to provide insight into the dynamics of two dominant brown macroalgae on Caribbean coral reefs, Dictyota spp. and Lobophora variegata. This aim was addressed by developing a model for the macroalga species Dictyota to model the various processes and factors on a coral forereef affecting percentage cover. Further, the patch dynamics of both Lobophora variegata and Dictyota were investigated to gain an insight into their dynamics under varying environmental conditions: the windward and leeward sides of an atoll. Finally, herbivory is identified as one of the key process affecting macroalgal cover. I investigated this process by deploying cages on both the windward and leeward side of the atoll to investigate the effects of grazing pressure under varying environmental conditions. A Bayesian Belief Network model was developed for Dictyota spp. to model the bottom-up and top-down processes on a coral forereef determining the percentage cover. The model was quantified using relationships identified in the scientific literature and from field data collected over a nine moth period in Belize. This is the first BBN model developed for brown macroalgae. The fully parameterized model identified areas of limited knowledge and because of its probabilistic nature it can explicitly communicate the uncertainties associated with the processes and interactions on standing crop. As such the model may be used as a framework for scientific research or monitoring programmes and it is expected that the model performance to predict macroalgal percentage cover will improve once new information becomes available. Size-based transition matrices were developed for both Dictyota spp. and Lobophora variegata to investigate the patch dynamics under varying environmental conditions: the windward and leeward sides of an atoll. The matrices reveal that standard measures of algal percent cover might provide a misleading insight into the underlying dynamics of the species. Modelling the patch dynamics with matrices provided insight into the temporal behaviour of macroalgae. This is an important process to understand because patch dynamics are determining competitive interactions with other coral reef benthic organisms. The outcome of competitive interactions will differ with macroalgal species. This study indicate that Dictyota spp. responded strongly to differing environmental conditions in that it has reduced growth rates and lower percent cover on the leeward side of the atoll, whilst Lobophora variegata showed far less sensitivity to environmental conditions. The patch dynamics of Dictyota spp. also showed a higher temporal variation than Lobophora variegata but only on the exposed forereef. A caging experiment was set up to investigate the response of both macroalgal species to different grazing pressure scenarios, under varying environmental conditions. Dictyota spp. had a significant response to environmental conditions in that a higher percentage cover was found on the exposed side of the atoll, whilst for Lobophora variegata the response was far less obvious. The less clear response of Lobophora variegata was very likely caused by competition of Dictyota with Lobophora due to the very high cover Dictyota obtained in the cages where all herbivores were excluded. The low grazing pressure treatments also showed an increase in cover of Dictyota, whilst for Lobophora, only a reduction in the rate of increase could be observed. The results indicate that on the leeward side of the atoll, fish grazing alone seems sufficient to control the standing crop of Dictyota and Lobophora variegata. Retrospective analysis of the experimental design showed that the limited size of the experimental set up could have confounded the results for Lobophora as well. In future experiments it is recommended to increase number replicates. Management of coral reef habitats is frequently constrained by a lack of funds and resources. The BBN Model once fully parameterized can provide a useful tool for coral reef management, because the model allows exploration of different reef scenario’s, which in turn can aid in prioritizing management strategies. Furthermore, the thesis provided an insight into the complexities of macroalgal dynamics. The responses of macroalgae to physiological factors and ecological processes are species specific and dependent on the location, and caution against generalizing on what controls the standing crop of macroalgae. Therefore it is argued that future investigations into algal ecology should clearly define the species, habitat and location. This can help to make informed management decisions.

577.78927

Lobophora : biotic interactions and diversification / Interactions biologiques et diversification du genre Lobophora

Vieira, Christophe

03 July 2015

L'algue brune Lobophora représente une composante benthique importante au sein des récifs coralliens tropicaux, et a à attirer dès le début des années 80 l'attention des écologistes marins en proliférant de façon remarquable au détriment des coraux. Les écologistes marins ne s’accordent toujours pas pour conclure si le changement de communauté au profit des macroalgues représente une conséquence ou une cause de la dégradation des coraux. Alors que Lobophora a fait l'objet d'observations contradictoires en termes de susceptibilité à l’herbivorie et des effets sur les coraux, les preuves suggèrent que sa prolifération dans les récifs coralliens est opportuniste et symptomatique de la dégradation des récifs. Taxonomiquement, Lobophora ne représentait que 11 espèces décrites au début de cette étude, et pratiquement toutes les espèces de Lobophora rapportées dans le monde avaient été assignées à L. variegata, décrite dans les Caraïbes. Cette étude vise à apporter un nouvel éclairage taxonomique et écologique sur ce taxon algal sujet de controverses écologiques. En utilisant une approche taxonomique basée sur l'ADN nous avons réévalué la diversité des espèces de ce genre en Nouvelle-Calédonie et au niveau mondial. Les résultats dévoilent une remarquable diversité, multipliant par 10 le nombre d’espèces jusque là reconnues. Nous avons testé si les différentes espèces de Lobophora étaient chimiquement différentes et si elles variaient (1) en toxicité envers différents coraux, et (2) en susceptibilité aux herbivores. Nous avons montré que le genre Lobophora était intrinsèquement capable de blanchir certains coraux, et nous avons isolé trois nouveaux alcools polyinsaturés C21 nommés lobophorenols A-C avec des propriétés de blanchissement. Néanmoins, les observations in situ en Nouvelle-Calédonie indiquent que, bien qu’elles soient potentiellement armées au plan chimique, les espèces de Lobophora n’induisent pas ou rarement le blanchissement de leurs hôtes coralliens, soulevant ainsi la question de l'emplacement de ces composants bioactifs dans l’algue et des facteurs environnementaux permettant leur libération supposée. Nous avons également montré que les herbivores consomment indistinctement les espèces de Lobophora. D’après ces résultats nous pouvons conclure que : (1) au sein de récifs en bonne santé, les coraux et les Lobophora maintiennent un statu quo résultant probablement d’une médiation chimique ; (2) la défense chimique ne dissuade apparemment pas le broutage des Lobophora par les principaux herbivores ; (3) il est probable que Lobophora échappe au broutage en se développant par exemple entre les branches des coraux. Le genre Lobophora représente un excellent modèle pour étudier le rôle de la spéciation écologique des algues au sein des récifs coralliens. Aussi, les études futures devront étudier le rôle des métabolites secondaires des Lobophora et enquêter sur les facteurs écologiques responsables de la diversification impressionnante de cette algue. / The brown alga Lobophora represents a notable benthic component in tropical coral reefs, and began drawing the attention of marine ecologists by achieving impressive blooms at the expense of corals since the early 80s. Marine ecologists are still debating whether or not macroalgal dominance represents a consequence or cause of coral degradation. While Lobophora has been the object of contradictory observations in terms of susceptibility to herbivory and effects on corals, evidence tends to suggest that episodes of reef take-over are opportunistic and symptomatic of reef degradation. From a taxonomic point of view, only 11 species of Lobophora were recognized at the beginning of this study, and virtually all species of Lobophora reported around the world had been assigned to L. variegata, originally described from the Caribbean. This study intends to shed new taxonomical and ecological insights on this algal taxon. Using a DNA-based taxonomical approach we reassessed the species diversity of this genus at a local scale in New Caledonia and subsequently on a global level. Results disclosed a remarkable global diversity, increasing our taxonomic knowledge of this genus by no less than 10 folds. From an ecological perspective, we tested if different species of Lobophora were differentially (1) capable of chemically damaging scleractinian corals, and (2) susceptible to herbivory. We showed that the genus Lobophora was inherently capable of bleaching certain coral species, and we isolated three new C21 polyunsaturated alcohols named lobophorenols A-C with bleaching properties. Nevertheless, in situ observations in New Caledonia indicated that although potentially chemically armed, Lobophora species did not or rarely bleached their coral hosts, thereby raising the issue of the location of these bioactive components and the environmental factors enabling their putative release by the alga. We also showed that herbivores indiscriminately consumed Lobophora species. From the results of allelopathic bioassays and grazing experiments we conclude that: (1) corals and Lobophora maintain a chemical-mediated status quo on healthy reefs; (2) chemical defense apparently does not deter grazing of Lobophora by prominent herbivores; (3) it is more likely that Lobophora avoids being grazed by escape strategies such as growing under the coral canopy. The genus Lobophora represents an excellent model to study the role of ecological speciation in macroalgae within coral reefs. Therefore, future studies should be targeted at investigating the role of Lobophora secondary metabolites and exploring the ecological factors responsible for the impressive diversification of this alga.

Biogéographie

Diversification

Herbivorie

Interactions macroalgues-coraux

Lobophora

Taxonomie

Macroalgalcoral interaction

Biogeography

579.88