Register      Login
Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
Shopping Cart: ( empty )
You are here: Home > Journals > MF > MF06238
RESEARCH ARTICLE
Contents Vol 59(4)

The role of herbivory and fouling on the invasive green alga Caulerpa filiformis in temperate Australian waters

D. O. Cummings A B C and J. E. Williamson A
+ Author Affiliations
- Author Affiliations

A Marine Ecology Group, Department of Biological Sciences, Macquarie University, Sydney, NSW 2109, Australia.

B Present address: School of Biological Sciences, University of Sydney, Sydney, NSW 2006, Australia.

C Corresponding author. Email: david.cummings@bio.usyd.edu.au

Marine and Freshwater Research 59(4) 279-290 https://doi.org/10.1071/MF06238
Submitted: 11 December 2006  Accepted: 26 February 2008   Published: 15 May 2008

Abstract

The green macroalga Caulerpa filiformis is rapidly dominating algal assemblages in shallow subtidal regions along the New South Wales (NSW) coast. Given that invasive species are known for their competitive superiority, the interactions between C. filiformis and herbivores and fouling species was investigated and were compared with those co-occurring native species. Extensive field surveys were carried out to assess purported damage from herbivores, and co-occurrence of C. filiformis with herbivorous fish and invertebrate species. Signs of herbivory on C. filiformis were visible, and several common herbivorous invertebrates and fish co-occurred with the alga. Laboratory and field feeding assays with fresh algae indicated that generalist invertebrate herbivores such as Turbo torquatus did not consume C. filiformis, whereas herbivorous fish did consume C. filiformis but not in preference to other palatable algae. C. filiformis was fouled at similar concentrations and with similar epiphytic species to other co-occurring algae. Thus the ability of C. filiformis to deter herbivory and fouling by using biotic deterrents (both chemical and structural) is limited and unlikely to be the major factor driving its successful invasion into NSW habitats.

Additional keywords: biological invasions, Caulerpa taxifolia, Caulerpenyne, chemical deterrents, feeding assay, introduced marine species, secondary metabolites.


Acknowledgements

We wish to thank Ulysse Bové, Nick Paul, Peter Tung and Mathew Vella for their help in the field and in the laboratory. Special thanks to Symon Dworjanyn for valuable advice, support and many discussions throughout this research. We are grateful for the assistance provided by Ray Cameron, Elsa Mardones and Peter Tung for technical support. Discussions with Rob Harcourt, Muoi Khou and Dave Raftos greatly improved this research. We thank two anonymous referees for commenting on this manuscript. This research complies with current laws in Australia. This is the Sydney Institute of Marine Science (SIMS) contribution number 0013.


References

Amade, P. , and Lemee, R. (1998). Chemical defence of the Mediterranean alga Caulerpa taxifolia: variations in caulerpenyne production. Aquatic Toxicology 43, 287–300.
Crossref | GoogleScholarGoogle Scholar | Carlton J. T. (2000). Quo vadimus exotica oceanica? Marine bioinvasion ecology in the twenty-first century. In ‘Marine Bioinvasions: Proceedings of the First National Conference’. (Ed. J. Ederson.) pp. 6–23. (MIT Sea Grant College Program: Cambridge, MA.)

Ceccherelli, G. , Piazzi, L. , and Cinelli, F. (2000). Response of the non-indigenous Caulerpa racemosa (Forsskal) J-Agardh to the native seagrass Posidonia oceanica (L.) Delile: effect of density of shoots and orientation of edges of meadows. Journal of Experimental Marine Biology and Ecology 243, 227–240.
Crossref | GoogleScholarGoogle Scholar | Cronk Q. C. B., and Fuller J. L. (1995). ‘Plant Invaders: The Threat to Natural Ecosystems.’ (Chapman & Hall: London.)

Cruz-Rivera, E. , and Hay, M. E. (2000). Can quantity replace quality? Food choice, compensatory feeding, and fitness of marine mesograzers. Ecology 81, 201–219.
Davies H. (2001). Multiple Ecological Functions of Algal Secondary Metabolites: Herbivore Deterrence Versus Antifouling. Honours thesis, University of New South Wales, Australia.

Davis, A. R. , Roberts, D. E. , and Cummins, S. P. (1997). Rapid invasion of a sponge-dominated deep-reef by Caulerpa scalpelliformis (Chlorophyta) in Botany Bay, New South Wales. Australian Journal of Ecology 22, 146–150.
Crossref | GoogleScholarGoogle Scholar | Johnson C., Ling S., Ross J., Shepherd S., and Miller K. (2005). ‘Establishment of the long-spined sea urchin (Centrostephanus rodgersii) in Tasmania: First assessment of potential threats to fisheries.’ (Fisheries Research and Development Corporation: Canberra.)

Jung, V. , and Pohnert, G. (2001). Rapid wound-activated transformation of the green algal defensive metabolite caulerpenyne. Tetrahedron 57, 7169–7172.
Crossref | GoogleScholarGoogle Scholar | Khou M. (2004). Fragmentation and Recolonisation in Caulerpa filiformis. Honours thesis, University of New South Wales, Australia.

Kingsford M. J., and Battershill C. N. (1998). Subtidal habitats and benthic organisms of rocky reefs. In ‘Studying Temperate Marine Environments: A Handbook for Ecologists’. (Eds M. J. Kingsford and C. N. Battershill.) pp. 84–114. (Canterbury University Press: Christchurch.)

Kuiter R. H. (2000). ‘Coastal Fishes of South Eastern Australia.’ (Gary Allen: Sydney.)

Lake, J. C. , and Leishman, M. R. (2004). Invasion success of exotic plants in natural ecosystems: the role of disturbance, plant attributes and freedom from herbivores. Biological Conservation 117, 215–226.
Crossref | GoogleScholarGoogle Scholar | Laxton J. H. (1999). ‘Terrigal Haven Project: Marine Biological Considerations.’ (Gosford City Council: Gosford.)

Lemee, R. , Pesando, D. , Issanchou, C. , and Amade, P. (1997). Microalgae: A model to investigate the ecotoxicity of the green alga Caulerpa taxifolia from the Mediterranean Sea. Marine Environmental Research 44, 13–25.
Crossref | GoogleScholarGoogle Scholar | Maganov P., Judith C., Grimes S., Lewis A., Ryan J., and Whiteside R. (2003). ‘NSW State of the Environment 2003.’ (Department of Environment and Conservation: Sydney.)

May, V. (1976). Changing dominance of an algal species (Caulerpa filiformis). Telopea 1, 136–138.
Meinesz A. (1999). ‘ Killer Algae: The True Tale of a Biological Invasion.’ (The University of Chicago Press: Chicago.)

Meinesz, A. , and Hesse, B. (1991). Introduction of the tropical alga Caulerpa taxifolia and its invasion of the northwestern Mediterranean. Oceanologica Acta 14, 415–426.
Pollard D. A., and Pethebridge R. L. (2002). ‘Report on Port Botany Bay Introduced Marine Pest Species Survey. Report No. 40.’ NSW Fisheries, Cronulla.

Prince, J. S. , LeBlanc, W. G. , and Macia, S. (2004). Design and analysis of multiple choice feeding preference data. Oecologia 138, 1–4.
Crossref | GoogleScholarGoogle Scholar | PubMed | Whittaker R. H. (1975). ‘Communities and Ecosystems.’ (Macmillan Publishing: New York.)

Wikstrom, S. A. , and Pavia, H. (2004). Chemical settlement inhibition versus post-settlement mortality as an explanation for differential fouling of two congeneric seaweeds. Oecologia 138, 223–230.
Crossref | GoogleScholarGoogle Scholar | PubMed | Williams G. A., and Seed R. (1992). Interactions between macrofaunal epiphytes and their host algae. In ‘Plant-Animal Interactions in the Marine Benthos’. (Eds D. M. John, S. J. Hawkins and J. H. Price.) pp. 189–211. (Claredon Press: Oxford.)

Williamson, J. E. , and Rees, T. A. V. (1994). Nutritional interaction in an alga-barnacle association. Oecologia 99, 16–20.
Crossref | GoogleScholarGoogle Scholar |