Nekton communities as indicators of habitat functionality in Philippine mangrove plantationsSeverino G. Salmo
A Department of Environmental Science, Ateneo de Manila University, 1108 Quezon City, Philippines.
B School of Biological Sciences, The University of Queensland, St Lucia, Qld 4072, Australia.
C Centre for Tropical Water and Aquatic Ecosystem Research, James Cook University, Townsville, Qld 4811, Australia.
D Corresponding author. Email: email@example.com
Marine and Freshwater Research 69(3) 477-485 https://doi.org/10.1071/MF17116
Submitted: 29 April 2017 Accepted: 14 August 2017 Published: 10 October 2017
In the present study, we investigated the changes to nekton communities with increasing mangrove forest age and relationships between nekton and the mangrove vegetation, mangrove sediments and environmental variables. The nekton community was assessed as a potential indicator for evaluating habitat functionality of mangrove planting programs. In all, 99 species from 52 families were captured, including crabs, shrimp, squid and fish. The crustacean assemblage was dominated by Portunidae and Penaeidae, whereas the fish assemblage was dominated by Atherinidae, Apogonidae, Hemirhamphidae, Tetraodontidae, Congridae, Sphyraenidae, Murraenidae, Ambassidae, Gerreidae, Clupeidae, Platycephalidae, Gobiidae, Mullidae and Plotosidae, with these families accounting for 90% of all individuals collected. The species composition, abundance and biomass of the nekton community were not significantly correlated with mangrove vegetation and sediment variables, but were significantly associated with environmental variables, particularly proximity to reef and tidal inundation. The lack of correlations suggests that the whole nekton assemblage was not a useful indicator in evaluating the progress of restoring habitat functionality in these planted mangroves. However, a significant interaction with mangrove vegetation was found for non-fish components of the nekton. As such, crustaceans, particularly of the Portunidae and Penaeidae families, were useful indicators for determining the habitat functionality of planted mangroves.
Additional keywords: crustaceans, fish, Philippines, restoration indicator.
ReferencesAbrahams, M., and Kattenfeld, M. (1997). The role of turbidity as a constraint on predator–prey interactions in aquatic environments. Behavioral Ecology and Sociobiology 40, 169–174.
| The role of turbidity as a constraint on predator–prey interactions in aquatic environments.CrossRef |
Allen, G. R., Steene, R., Humann, P., and DeLoach, N. (2003). ‘Reef Fish Identification: Tropical Pacific.’ (New World Publications: Jacksonville, FL, USA.)
Anderson, M. J. (2001). A new method for non-parametric multivariate analysis of variance. Austral Ecology 26, 32–46.
Barimo, J. F., and Serafy, J. E. (2003). Fishes of a restored mangrove habitat on Key Biscayne, Florida. Florida Scientist 66, 12–22.
Barletta, M., Barletta-Bergan, A., Saint-Paul, U., and Hubold, G. (2005). The role of salinity in structuring the fish assemblages in a tropical estuary. Journal of Fish Biology 66, 45–72.
| The role of salinity in structuring the fish assemblages in a tropical estuary.CrossRef |
Blaber, S. J. M. (2007). Mangroves and fishes: issues of diversity, dependence and dogma. Bulletin of Marine Science 80, 457–472.
Bosire, J. O., Dahdouh-Guebas, F., Walton, M., Crona, B. I., Lewis, R. R., Field, C., Kairo, J. G., and Koedam, N. (2008). Functionality of restored mangroves: a review. Aquatic Botany 89, 251–259.
| Functionality of restored mangroves: a review.CrossRef |
Bouillon, S., Koedam, N., Raman, A. V., and Dehairs, F. (2002). Primary producers sustaining macro-invertebrate communities in intertidal mangrove forests. Oecologia 130, 441–448.
| Primary producers sustaining macro-invertebrate communities in intertidal mangrove forests.CrossRef | 1:STN:280:DC%2BC1cnhsFClug%3D%3D&md5=3bc665b2bd25aa80e34294cbc873fde0CAS |
Cairns, J., and Heckman, J. R. (1996). Restoration ecology: the state of an emerging field. Annual Review of Energy and the Environment 21, 167–189.
| Restoration ecology: the state of an emerging field.CrossRef |
Clarke, K. R., and Gorley, R. N. (2006). ‘PRIMER v6: User Manual/Tutorial.’ (PRIMER-E: Plymouth, UK.)
Clarke, K. R., and Warwick, R. (2001). ‘Change in Marine Communities: An Approach to Statistical Analysis and Interpretation’, 2nd edn. (Primer-E: Plymouth, UK.)
Ellis, W. S., and Bell, S. (2008). Tidal influence on a fringing mangrove intertidal fish community as observed by in situ video recording: implications for studies of tidally migrating nekton. Marine Ecology Progress Series 370, 207–219.
| Tidal influence on a fringing mangrove intertidal fish community as observed by in situ video recording: implications for studies of tidally migrating nekton.CrossRef |
Guest, M. A., and Connolly, R. M. (2004). Fine-scale movement and assimilation of carbon in saltmarsh and mangrove habitat by resident animals. Aquatic Ecology 38, 599–609.
| Fine-scale movement and assimilation of carbon in saltmarsh and mangrove habitat by resident animals.CrossRef | 1:CAS:528:DC%2BD2MXotFyitA%3D%3D&md5=f4c9dd764e4a1281b7040a7933645493CAS |
Halliday, I. A., and Young, W. R. (1996). Density, biomass and species composition of fish in a subtropical Rhizophora stylosa mangrove forest. Marine and Freshwater Research 47, 609–615.
| Density, biomass and species composition of fish in a subtropical Rhizophora stylosa mangrove forest.CrossRef |
Hamilton, L., Dixon, J., and Miller, G. (1989). Mangroves: an undervalued resource of the land and sea. Ocean Yearbook 8, 254–288.
| Mangroves: an undervalued resource of the land and sea.CrossRef |
Huxham, M., Kimani, E., and Augley, J. (2004). Mangrove fish: a comparison of community structure between forested and cleared habitats. Estuarine, Coastal and Shelf Science 60, 637–647.
| Mangrove fish: a comparison of community structure between forested and cleared habitats.CrossRef |
Kathiresan, K., and Bingham, B. L. (2001). Biology of mangroves and mangrove ecosystems. Advances in Marine Biology 40, 81–251.
| Biology of mangroves and mangrove ecosystems.CrossRef |
Kuiter, R. H., and Debelius, H. (2006). ‘World Atlas of Marine Fishes.’ (Ikan-Unterwasserarchiv, Frankfurt, Germany.)
Laegdsgaard, P., and Johnson, C. (2001). Why do juvenile fish utilise mangrove habitats? Journal of Experimental Marine Biology and Ecology 257, 229–253.
| Why do juvenile fish utilise mangrove habitats?CrossRef | 1:STN:280:DC%2BC2sbkt12iug%3D%3D&md5=b0daa0e981241158086bb4b69094a82bCAS |
Lantican, R. M. (2001). ‘The Science and Practice of Crop Production.’ (Southeast Asian Ministers of Education Organization (SEAMEO), SEAMEO Regional Center for Graduate Study and Research in Agriculture (SEARCA), and University of the Philippines Los Baños (UPLB): Laguna, Philippines.)
Lawton, J. H., and Gaston, K. J. (2001). Indicator species. In ‘Encyclopedia of Biodiversity’. (Ed. S. Levin.) pp. 437–450. (Academic Press: Amsterdam, Netherlands.)
Lewis, R. R., and Gillmore, R. G. (2007). Important considerations to achieve successful mangrove forest restoration with optimum fish habitat. Bulletin of Marine Science 80, 823–837.
Lugendo, B. R., Nagelkerken, I., Kruitwagen, G., van der Velde, G., and Mgaya, Y. D. (2007). Relative importance of mangroves as feeding habitats for fishes: a comparison between mangrove habitats with different settings. Bulletin of Marine Science 80, 497–512.
Macintosh, D. J., Ashton, E. C., and Havanon, S. (2002). Mangrove rehabilitation and intertidal biodiversity: a study in the Ranong Mangrove Ecosystem, Thailand. Estuarine, Coastal and Shelf Science 55, 331–345.
| Mangrove rehabilitation and intertidal biodiversity: a study in the Ranong Mangrove Ecosystem, Thailand.CrossRef |
Matthes, H., and Kapetsky, J. M. (1988). Worldwide compendium of mangrove-associated aquatic species of economic importance. FAO Fishery Circular number 814, FAO, Rome, Italy.
Meynecke, J.-O., Lee, S. Y., Duke, N. C., and Warnken, J. (2007). Relationships between estuarine habitats and coastal fisheries in Queensland, Australia. Bulletin of Marine Science 80, 773–793.
Mumby, P. J., Edwards, A. J., Arias-Gonzalez, J. E., Lindeman, K. C., Blackwell, P. G., Gall, A., Gorczynska, M. I., Harborne, A. R., Pescod, C. L., Renken, H., Wabnitz, C. C. C., and Llewelyn, G. (2004). Mangroves enhance the biomass of coral reef fish communities in the Caribbean. Nature 427, 533–536.
| Mangroves enhance the biomass of coral reef fish communities in the Caribbean.CrossRef | 1:CAS:528:DC%2BD2cXpsFWgtw%3D%3D&md5=1e4fce4ad0c180a0f2c3b2f96e9ccc77CAS |
Nagelkerken, I., and van der Velde, G. (2004). Are Caribbean mangroves important feeding grounds for juvenile reef fish from adjacent seagrass beds? Marine Ecology Progress Series 274, 143–151.
| Are Caribbean mangroves important feeding grounds for juvenile reef fish from adjacent seagrass beds?CrossRef |
Nagelkerken, I., Blaber, S. J. M., Bouillon, S., Green, P., Haywood, M., Kirton, L. G., Meynecke, J.-O., Pawlik, J., Penrose, H. M., Sasekumar, A., and Somerfield, P. J. (2008). The habitat function of mangroves for terrestrial and marine fauna: a review. Aquatic Botany 89, 155–185.
| The habitat function of mangroves for terrestrial and marine fauna: a review.CrossRef |
Noon, B. R., Spies, T. A., and Raphael, M. G. (1999). Conceptual basis for designing an effectiveness monitoring program. In ‘The Strategy and Design of the Effectiveness Monitoring Program for the Northwest Forest Plan’. (Eds B. S. Mulder, B. R. Noon, T. A. Spies, M. G. Raphael, C. J. Palmer, A. R. Olsen, G. H. Reeves, and H. W. Welsh.) General Technical Report PNW-GTR-437, pp. 21–48. (USDA Forest Service: Portland, OR, USA.)
Peralta-Milan, S. A., and Salmo, S. G. (2013). Evaluating patterns of fish assemblage changes from different-aged reforested mangroves in Lingayen Gulf. Journal of Environmental Science and Management 16, 11–19.
Primavera, J. H. (1996). Stable carbon and nitrogen isotope ratios of Penaeid juveniles and primary producers in a riverine mangrove in Guimaras, Philippines. Bulletin of Marine Science 58, 675–683.
Robertson, A. I., and Duke, N. C. (1987). Mangroves as nursery sites: comparisons of the abundance and species composition of fish and crustaceans in mangroves and other nearshore habitats in tropical Australia. Marine Biology 96, 193–205.
| Mangroves as nursery sites: comparisons of the abundance and species composition of fish and crustaceans in mangroves and other nearshore habitats in tropical Australia.CrossRef |
Rönnbäck, P., Troell, M., Kautsky, N., and Primavera, J. H. (1999). Distribution pattern of shrimps and fish among Avicennia and Rhizophora microhabitats in the Pagbilao mangroves, Philippines. Estuarine, Coastal and Shelf Science 48, 223–234.
| Distribution pattern of shrimps and fish among Avicennia and Rhizophora microhabitats in the Pagbilao mangroves, Philippines.CrossRef |
Ruiz-Jaen, M. C., and Aide, T. M. (2005). Restoration success: how is it being measured? Restoration Ecology 13, 569–577.
| Restoration success: how is it being measured?CrossRef |
Salmo, S. G., Torio, D. D., and Esteban, J. M. A. (2007). Evaluation of rehabilitation strategies and management schemes for the improvement of mangrove management programs in Lingayen Gulf. Science Diliman 19, 24–34.
Salmo, S. G., Lovelock, C. E., and Duke, N. C. (2013). Vegetation and soil characteristics as indicators of restoration trajectories in restored mangroves. Hydrobiologia 720, 1–18.
| Vegetation and soil characteristics as indicators of restoration trajectories in restored mangroves.CrossRef | 1:CAS:528:DC%2BC3sXht1GjsL7P&md5=d0d1a0170de596c336e57860d313f451CAS |
Salmo, S. G. III, Tibbetts, I., and Duke, N. C. (2014a). Are nekton communities useful indicators in restored mangroves? In ‘Proceedings of the 1st ASEAN Congress on Mangrove Research and Development’, 3–7 December 2012, Manila, Philippines. (Eds H. G. Palis, S. A. Pasicolan, and C. I. Villamor.) pp. 158–168. (Department of Environment and Natural Resources – Ecosystems Research and Development Bureau (DENR-ERDB): Philippines.)
Salmo, S. G., Lovelock, C. E., and Duke, N. C. (2014b). Assessment of vegetation and soil conditions in restored mangroves interrupted by severe tropical typhoon ‘Chan-hom’ in the Philippines. Hydrobiologia 733, 85–102.
| Assessment of vegetation and soil conditions in restored mangroves interrupted by severe tropical typhoon ‘Chan-hom’ in the Philippines.CrossRef |
Salmo, S. G., Tibbetts, I. R., and Duke, N. C. (2017). Colonization and shift of mollusc assemblages as a restoration indicator in planted mangroves in the Philippines. Biodiversity and Conservation 26, 865–881.
| Colonization and shift of mollusc assemblages as a restoration indicator in planted mangroves in the Philippines.CrossRef |
Sasekumar, A., Chong, V. C., Leh, M. U., and D’Cruz, R. (1992). Mangroves as a habitat for fish and prawns. Hydrobiologia 247, 195–207.
| Mangroves as a habitat for fish and prawns.CrossRef |
Sheaves, M., and Molony, B. (2000). Short-circuit in the mangrove food chain. Marine Ecology Progress Series 199, 97–109.
| Short-circuit in the mangrove food chain.CrossRef |
Sheridan, P., and Hays, C. (2003). Are mangroves nursery habitat for transient fishes and decapods? Wetlands 23, 449–458.
| Are mangroves nursery habitat for transient fishes and decapods?CrossRef |
Sokal, R. R., and Rohlf, F. J. (1997). ‘Biometry, the Principles and Practice of Statistics in Biological Research’, 3rd edn. (W. H. Freeman and Company: New York, NY, USA.)
Tabuchi, R. (2004). The rehabilitation of mangroves in Southeast Asia. In ‘Small-Scale Livelihoods and Natural Resources Management in Marginal Areas: Case Studies in Monsoon Asia. Proceedings of an International Symposium’, 29–30 October 2003, Tokyo, Japan. (Eds K. G. Saxena, L. Liang, Y. Kono, and S. Miyata.) pp 121–128. (United Nations University: Tokyo, Japan.)
Unsworth, R. K. F., Garrard, S. L., De Leon, P. S., Cullen, L. C., Smith, D. J., Sloman, K. A., and Bell, J. J. (2009). Structuring of Indo-Pacific fish assemblages along the mangrove-seagrass continuum. Aquatic Biology 5, 85–95.
| Structuring of Indo-Pacific fish assemblages along the mangrove-seagrass continuum.CrossRef |
Vaslet, A., Bouchon-Navaro, Y., Charrier, G., Louis, M., and Bouchon, C. (2010). Spatial patterns of mangrove shoreline fish communities in relation with environmental variables in Caribbean lagoons. Estuaries and Coasts 33, 195–210.
| Spatial patterns of mangrove shoreline fish communities in relation with environmental variables in Caribbean lagoons.CrossRef | 1:CAS:528:DC%2BC3cXotVKqsQ%3D%3D&md5=2685f8dac6ecede69bf1ca94447f437cCAS |
Walton, L. E., Le Vay, L., Lebata, J. H., Binas, J., and Primavera, J. H. (2007). Assessment of the effectiveness of mangrove rehabilitation using exploited and non-exploited indicator species. Biological Conservation 138, 180–188.
| Assessment of the effectiveness of mangrove rehabilitation using exploited and non-exploited indicator species.CrossRef |
Weilhoefer, C. L. (2011). A review of indicators of estuarine tidal wetland condition. Ecological Indicators 11, 514–525.
| A review of indicators of estuarine tidal wetland condition.CrossRef |