Register      Login
Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
RESEARCH ARTICLE

Effects of La Niña on recruitment and abundance of juveniles and adults of benthic community-structuring species in northern Chile

Carlos F. Gaymer A D , Alvaro T. Palma B , J. M. Alonso Vega A , Cristián J. Monaco A C and Luis A. Henríquez B
+ Author Affiliations
- Author Affiliations

A Departamento de Biología Marina & Centro de Estudios Avanzados en Zonas Áridas (CEAZA), Universidad Católica del Norte, Larrondo 1281, Coquimbo, Chile.

B Center for Advanced Studies in Ecology and Biodiversity (CASEB), P. Universidad Católicade Chile, Alameda 340, Santiago, Chile.

C Present address: Department of Biological Sciences, University of South Carolina,Columbia, SC 29208, USA.

D Corresponding author. Email: cgaymer@ucn.cl

Marine and Freshwater Research 61(10) 1185-1196 https://doi.org/10.1071/MF09268
Submitted: 21 October 2009  Accepted: 19 May 2010   Published: 1 October 2010

Abstract

The El Niño Southern Oscillation (ENSO) has been associated with dramatic changes in adult populations of shallow benthic community-structuring species in northern Chile. However, early ontogenetic stages are more likely to be affected by physical processes associated with ENSO (e.g. increased temperature, upwelling), potentially reflected in differences in recruitment intensity. We evaluated recruitment and abundance of juveniles and adults of the major benthic community-structuring groups (kelps, sea urchins, sea stars, crabs and rockfish) during a period affected by La Niña followed by a period of neutral conditions. Recruitment was several times higher during neutral conditions for sea urchins and sea stars. Lower recruitment during La Niña was probably caused by offshore larval transport caused by increased upwelling. Recruitment of crabs tended to be higher during neutral conditions, but this varied among sites. In contrast to invertebrates, kelp abundance seemed to be controlled by post-settlement processes, as reflected by fewer kelp juveniles after La Niña when the abundance of herbivore fishes strongly increased. Our results highlight the importance of evaluating the effects of ENSO at early ontogenetic stages rather than on adult populations, which are less likely to be affected in an upwelling-dominated system.

Additional keywords: crab, ENSO, fish, Humboldt Current System, kelp, recruitment, rocky subtidal, sea urchin, seastar, upwelling.


Acknowledgements

We are grateful to J. Barrios, J. Urriago, F. Schneider, E. Renaud-Roy, I. Borgeaud, A. Ledezma, M. Negrete, C. Narváez, C. Muñoz, M. Díaz, J. Friz, M. Silva, J. Montes and P. Santelices for their help in the sampling in the field and analysing samples in the laboratory, and to three anonymous reviewers who provided insightful comments that helped to improve the manuscript. The study was supported by a FONDECYT (Fondo Nacional de Desarrollo Científico y Tecnológico, Chile) grant (#1070417) to C.F.G. and A.T.P. This study was authorised by the Navy Hydrographic and Oceanographic Service (SHOA) and complied with Chilean regulations for collecting live animals.


References

Alexander, S. A. , and Roughgarden, J. (1996). Larval transport and population dynamics of intertidal barnacles: a coupled benthic/oceanic model. Ecological Monographs 66, 259–275.
Crossref | GoogleScholarGoogle Scholar | Arntz W. E., Tarazona J., Gallardo V. A., Flores L. A., and Salzwedel H. (1991). Benthos communities in oxygen-deficient shelf and upper slope areas of the Peruvian and Chilean Pacific coast, and changes caused by El Niño. In ‘Modern and Ancient Continental Shelf Anoxia’. (Eds R. V. Tyson and T. H. Pearson.) pp. 131–154. (Geological Society: London.)

Arntz, W. E. , Gallardo, V. A. , Gutiérrez, D. , Isla, E. , and Levin, L. A. , et al. (2006). El Niño and similar perturbation effects on the benthos of the Humboldt, California, and Benguela Current upwelling ecosystems. Advances in Geosciences 6, 243–265.
Crossref | GoogleScholarGoogle Scholar | Chia F. S., and Walter C. W. (1991). Echinodermata: Asteroidea. In ‘Reproduction of Marine Invertebrates, Volume VI, Echinoderms and Lophophorates’. (Eds A. C. Giese, J. S. Pearse and V. B. Pearse.) pp. 301–353. (Boxwood Press: Santa Cruz, CA.)

Connolly, R. S. , and Roughgarden, J. (1999). Increased recruitment of northeastern Pacific barnacles during the 1997 El Nino. Limnology and Oceanography 44, 466–469.
Crossref | GoogleScholarGoogle Scholar | Conover W. J. (1980). ‘Practical Nonparametric Statistics.’ 2nd Edn. (John Wiley & Sons: New York.)

Denny M., and Wethey D. (2001). Physical processes that generate patterns in marine communities. In ‘Marine Community Ecology’. (Eds M. D. Bertness, S. D. Gaines and M. E. Hay.) pp. 3–37. (Sinauer Associates: Sunderland, MA.)

Ebert, T. A. , Schroeter, S. C. , Dixon, J. D. , and Kalvass, P. (1994). Settlement patterns of red and purple sea urchins (Strongylocentrotus franciscanus and S. purpuratus) in California, USA. Marine Ecology Progress Series 111, 41–52.
Crossref | GoogleScholarGoogle Scholar | Fariña J. M., Palma A. T., and Ojeda F. P. (2008). Subtidal kelp-communities off the temperate Chilean coast. In ‘Food Webs and the Dynamics of Marine Reefs (Chapter 4)’. (Eds T. R. McClanahan and G. M. Branch.) pp. 79–102. (Oxford University Press: New York.)

Fiedler, P. C. (2002). Environmental change in the eastern tropical Pacific Ocean: review of ENSO and decadal variability. Marine Ecology Progress Series 244, 265–283.
Crossref | GoogleScholarGoogle Scholar | Glantz M. H. (2002). ‘La Niña and its Impacts: Facts and Speculation.’ (United Nations University Press: New York.)

Graham, M. H. , Vásquez, J. A. , and Buschmann, A. H. (2007). Global ecology of the giant kelp Macrocystis: from ecotypes to ecosystems. Oceanography and Marine Biology: An Annual Review 45, 39–88.
Harris L. G., Madigan P. A., and Toppin R. L. (2004). Test of a suspended recruitment and juvenile grow out system for the sea urchin Strongylocentrotus droebachiensis in the Gulf of Maine. In ‘Proceedings of the 11th International Echinoderm Conference, Munich Germany’. (Eds T. Heinzeller and J. H. Nebelsick.) pp. 277–282. (A. A. Balkema: New York.)

Hereu, B. , Zabala, M. , Linares, C. , and Sala, E. (2005). The effects of predator abundance and habitat structural complexity on survival of juvenile sea urchins. Marine Biology 146, 293–299.
Crossref | GoogleScholarGoogle Scholar | Morgan S. G. (1995). Life and death in the plankton: larval mortality and adaptation. In ‘Ecology of Marine Invertebrate Larvae’. (Ed. L. McEdward.) pp. 279–321. (CRC Press: Boca Raton, FL.)

Morgan, L. E. , Wing, S. R. , Botsford, L. W. , Lundquist, C. J. , and Diehl, J. M. (2000). Spatial variability in red sea urchin (Strongylocentrotus franciscanus) recruitment in northern California. Fisheries Oceanography 9, 83–98.
Crossref | GoogleScholarGoogle Scholar | Pearse J. S., and Cameron R. A. (1991). Echinodermata: Echinoidea. In ‘Reproduction of Marine Invertebrates, Volume VI, Echinoderms and Lophophorates’. (Eds A. C. Giese, J. S. Pearse and V. B. Pearse.) pp. 513–662. (Boxwood Press: Santa Cruz, CA.)

Pineda J. (2000). Linking larval settlement to larval transport: assumptions, potentials and pitfalls. In ‘Oceanography of the Eastern Pacific’. (Ed. J. Farber-Llorda.) pp. 84–105. (Centro de Investigacion Cientifica y de Educacion Superior de Ensenada, CICESE: Ensenada, Mexico.)

Poulin, E. , Palma, A. T. , Leiva, G. , Hernández, E. , and Martinez, P. , et al. (2002a). Temporal and spatial variation in the distribution of premetamorphic larvae of Concholepas concholepas (Gastropoda: Muricidae) along the central coast of Chile. Marine Ecology Progress Series 229, 95–104.
Crossref | GoogleScholarGoogle Scholar | Snedecor G. W., and Cochran W. G. (1989). ‘Statistical Methods.’ (Iowa State University Press: Ames, IA.)

Thatje, S. , Heilmayer, O. , and Laudien, J. (2008). Climate variability and El Niño Southern Oscillation: implications for natural coastal resources and management. Helgoland Marine Research 62, 5–14.
Crossref | GoogleScholarGoogle Scholar | Wolter K. (2009). NOAA, Earth System Research Laboratory. Available at http://www.esrl.noaa.gov/psd/people/klaus.wolter/MEI/ [Accessed 20 September 2009].

Young C. M. (1995). Behavior and locomotion during the dispersal phase of larval life. In ‘Ecology of Marine Invertebrate Larvae’. (Ed. L. McEdward.) pp. 249–277. (CRC Press: Boca Raton, FL.)