Currents of connection: Habitat connectivity of common reef fishes (Siganids and Lutjanids) in the coastal waters of Misamis Occidental

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Research Paper 11/11/2024
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Currents of connection: Habitat connectivity of common reef fishes (Siganids and Lutjanids) in the coastal waters of Misamis Occidental

Ruel S. Lasagas, Rosanilio M. Yagos
Int. J. Biosci.25( 5), 271-283, November 2024.
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Abstract

The study was conducted to establish habitat connectivity of Siganids and Lutjanids along mangrove, seagrass and coral reef ecosystems in the coastal waters of Misamis Occidental. A total of 449 individuals belonging to six species of Siganids and five of Lutjanids were identified from the three different study sites. Three species of Siganids and one species of Lutjanids were found common in all ecosystems. Coral reef ecosystem had higher abundance of siganids and lutjanids compared to mangrove and seagrass ecosystems. Siganus spinus and Siganus guttatus exhibited behavior of being ontogenetic shifters. The juvenile individuals prefer to inhabit mangrove and seagrass ecosystem and migrate to coral reef ecosystem as they become adult. Siganus fuscescens are a generalist species, moving across three ecosystems from early life stage to adult. Lutjanus ehrenbergii is an ontogenetic shifter species: the juveniles prefer to stay in mangrove and seagrass ecosystems and adults migrate to coral reef ecosystem. The distribution of common Siganids and Lutjanids among the three major coastal ecosystems based on their different life stages suggests that these ecosystems are interconnected. Results on gut-content analysis reveal that the major food items of Siganids were seagrasses and seaweeds indicating a general trend of being herbivores while the major food items of Lutjanids were crustaceans, small fishes and cephalopods indicating that they are mainly carnivores.  The study provides evidence of connectivity of major coastal ecosystems. Thus, removing one ecosystem will affect the other important ecosystems.

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Aguilar-Perera JA. 2004. Coastal habitat connectivity of reef fishes from southwestern Puerto Rico. Ph.D. Dissertation, University of Puerto Rico. Retrieved from  https://hdl.handle.net/20.500.11801/1813.

Allen GR, Allen G, Steene R, Humann P, Deloach N. 2015. Reef Fish Identification: Tropical Pacific. New World Publications.

Beck MW, Heck KL, Able KW, Childers DL, Eggleston DB, Gillanders BM, Halpern B, Hays CG, Hoshino K, Minello TJ, Orth RJ. 2001. The identification, conservation, and management of estuarine and marine nurseries for fish and invertebrates: a better understanding of the habitats that serve as nurseries for marine species and the factors that create site-specific variability in nursery quality will improve conservation and management of these areas. Bioscience 51(8), 633–641.

Bellwood DR, Hughes TP, Folke C, Nyström M. 2004. Confronting the coral reef crisis. Nature 429, 827–833.

De Guzman AB, Quiñones MB, Eballe RC, Israel MB. 2007. Coastal environment profile of Lopez Jaena, Misamis Occidental. Journal of Environment and Aquatic Resources 1(1), 43–61.

English S, Wilkinson C, Baker V. 1997. Survey manual for tropical marine resources. Australian Institute of Marine Science, Townsville.

Fortier L, Harris RP. 1989. Optimal foraging and density-dependent competition in marine fish larvae. Marine Ecology Progress Series 51, 19–33.

Gorospe JG, Demayo CG. 2008. Gut morphology and trophic ecology of the golden rabbitfish, Siganus guttatus Blotch (Pisces: Siganidae) in Northern Mindanao, Philippines. Asia Life Sciences 17(2), 271–294.

Jackson JB, Kirby MX, Berger WH, Bjorndal KA, Botsford LW, Bourque BJ, Bradbury RH, Cooke R, Erlandson J, Estes JA, Hughes TP. 2001. Historical overfishing and the recent collapse of coastal ecosystems. Science 293, 629–638.

Leis JM. 1991. The pelagic stage of reef fishes: the larval biology of coral reef fishes. The Ecology of Fishes on Coral Reefs, pp. 183–230.

McCoy ED, Heck Jr KL. 1976. Biogeography of corals, seagrasses, and mangroves: an alternative to the center of origin concept. Systematic Zoology 25(3), 201–210.

Mora C, Sale PF. 2002. Are populations of coral reef fish open or closed? Trends in Ecology and Evolution 17(9), 422–428.

Mumby PJ, Edwards AJ, Ernesto Arias-González J, Lindeman KC, Blackwell PG, Gall A, Gorczynska MI, Harborne AR, Pescod CL, Renken H, Wabnitz CC. 2004. Mangroves enhance the biomass of coral reef fish communities in the Caribbean. Nature 427(6974), 533–536.

Mumby PJ. 2005. Connectivity of reef fish between mangroves and coral reefs: algorithms for the design of marine reserves at seascape scales. Biological Conservation 128(2), 215–222.

Nakamura Y, Horinouchi M, Shibuno T, Tanaka Y, Miyajima T, Koike I, Kurokura H, Sano M. 2008. Evidence of ontogenetic migration from mangroves to coral reefs by black-tail snapper Lutjanus fulvus: stable isotope approach. Marine Ecology Progress Series 355, 257–266.

Nakamura Y, Shibuno T, Lecchini D, Kawamura T, Watanabe Y. 2009. Spatial variability in habitat associations of pre- and post-settlement stages of coral reef fishes at Ishigaki Island, Japan. Marine Biology 156, 2413–2419.

Ogden NB, Zieman JC. 1977. Ecological aspects of coral reef-seagrass bed contacts in the Caribbean. Proc. 3rd Int. Coral Reef Symposium 1, 377–382.

Ohman MC, Munday PL, Jones GP, Caley MJ. 1998. Settlement strategies and distribution patterns of coral-reef fishes. Journal of Experimental Marine Biology and Ecology 225(2), 219–238.

Paris CB, Cowen RK. 2004. Direct evidence of a biophysical retention mechanism for coral reef fish larvae. Limnology and Oceanography 49(6), 1964–1979.

Randall CJ, Giuliano C, Stephenson B, Whitman TN, Page CA, Treml EA, Negri AP. 2024. Larval precompetency and settlement behavior in 25 Indo-Pacific coral species. Communications Biology 7(1), 142. https://doi.org/10.1038/s42003-024-05824-3.

Sale PF, Ludsin SA. 2003. The extent and spatial scale of connectivity among reef fish populations: implications for marine protected areas designated for fisheries enhancement. Gulf and Caribbean Research 14(2), 119–128.

Sale PF. 1991. Reef fish communities: Open non-equilibrial systems. The Ecology of Fishes on Coral Reefs. Academic Press, San Diego, p. 564–598.

Shibuno T, Nakamura Y, Horinouchi M, Sano M. 2008. Habitat use patterns of fishes across the mangrove-seagrass-coral reef seascape at Ishigaki Island, southern Japan. Ichthyological Research 55, 218–237.

Smith ML. 1998. Effects of observer swimming speed on sample counts of temperate rocky reef fish assemblages. Marine Ecology Progress Series 43(3), 223–231.

Sponaugle S, Cowen RK. 1997. Early life history traits and recruitment patterns of Caribbean wrasses (Labridae). Ecological Monographs 67(2), 177–202.

Williams DM. 1991. Patterns and processes in the distribution of coral reef fishes. The Ecology of Fishes on Coral Reefs, 437–474.