HomeDAVAO RESEARCH JOURNALvol. 16 no. 1 (2025)

Diversity and Community Structure of Seagrass at Arrecife Island, Honda Bay, Palawan, Philippines

Cristobal B. Cayetano | Ma. Lotus E. Patiluna | Jean Beth S. Jontila

Discipline: environmental sciences

 

Abstract:

This study assessed the seagrass communities of Arrecife Island, Honda Bay, Palawan, Philippines, focusing on species composition, percent cover, and the diversity and density of associated macroinvertebrates, particularly sea cucumbers. Sampling was done on April 14-15, 2018, at daytime and low tide, using a transect-quadrat method in the established sampling sites. Percent cover was categorized using the dominance classification scheme, and diversity indices were computed to assess community structure. A total of five seagrass species were recorded, namely, Cymodocea rotundata, Enhalus acoroides, Halodule uninervis, Syringodium isoetifolium, and Thalassia hemprichii, as well as notable macroinvertebrates such as Holothuria atra. The results indicated that T. hemprichii was the most dominant species, significantly contributing to overall percent cover (59.73 ± 9.30). However, the overall seagrass bed in the area is classified as “fair” (25.5–50.4%). Seven macroinvertebrate species were recorded, with Holothuria atra exhibiting the highest population density (167 ind./250 m²); diversity indices reflected moderate species diversity and evenness, with H. atra showing a dominant presence among sea cucumbers. These findings highlight the ecological significance of seagrass ecosystems in providing habitat and supporting biodiversity. However, ongoing threats like siltation, pollution, and tourism-related disturbances call for immediate conservation actions. Resort owners and employees are encouraged to participate in habitat protection actively. At the same time, periodic reassessments every five years are recommended to monitor ecological changes and guide conservation strategies. Such initiatives are critical for sustaining biodiversity, protecting ecosystem services, and promoting the well-being of local populations that rely on marine resources.



References:

  1. Alcala, A. C., Ingles, J. A., & Bucol, A. A. (2008). Review of the biodiversity of Southern Philippine seas. Philippine Science, 45, 1–61. https://doi.org/10.3860/psci.v45i0.991
  2. Alima, J., Arellano, B. J., Menguita, K., Omar, M., Panolino, C., Par, L., Pilar, T. J., Pundug, N. A., Suarez, G. J., & Jumawan, J. (2014). Comparative diversity analysis and species composition of seagrass and macroalgae along the intertidal zone of Sarangani Province, Philippines. Journal of Biodiversity and Environmental Sciences (JBES), 5(4), 356–364.
  3. Al-Mansoori, N., & Das, H. S. (2024). Seagrasses of the United Arab Emirates. In J. A. Burt (Ed.), A natural history of the Emirates (pp. xx–xx). Springer, Cham. https://doi.org/10.1007/978-3-031-37397-8_9
  4. Amran, M. A. (2010). Estimation of seagrass coverage by depth invariant indices on quickboard imagery. Biotropia, 17(1), 42–50.
  5. Ardines, R. B., Mecha, N. F., & Dolorosa, R. G. (2020). Commonly gleaned macro-benthic invertebrates in a small offshore island of Cawili, Cagayancillo, Palawan, Philippines. The Palawan Scientist, 12(1).
  6. Arriesgado, D. M., Kurokochi, H., Arriesgado, E. M., Roa, E. C., Gonzales, R. C., Perpetua, A. D., Bucay, D. M., Iwakiri, A., & Lian, C. (2023). Genetic diversity and structure of dominant seagrass species in the southern Philippines for conservation and adaptive management. Philippine Journal of Science, 152(2), 277–289. ISSN 0031-7683.
  7. Asante, F., Bento, M., Broszeit, S., Bandeira, S., Chitará-Nhandimo, S., Amoné-Mabuto, M., & Correia, A. M. (2023). Marine macroinvertebrate ecosystem services under changing conditions of seagrasses and mangroves. Marine Environmental Research, 189, 106026. https://doi.org/10.1016/j.marenvres.2023.106026
  8. Becira, J. G. (2009). Sedimentation rate in fringing reefs of Honda Bay, Puerto Princesa City, Palawan, Philippines, with reference to coral reef condition. Science Diliman, 21(1), 7–13.
  9. Björk, M., Short, F., McLeod, E., & Beer, S. (2008). Managing seagrasses for resilience to climate change. IUCN.
  10. Blaen, P. J., Hildrew, A. G., & Houghton, R. A. (2013). Environmental drivers of macroinvertebrate communities in high Arctic rivers (Svalbard). Freshwater Biology, 58(8), 1–12. https://doi.org/10.1111/fwb.12100
  11. Boström, C., Jackson, E. L., & Simenstad, C. A. (2006). Seagrass landscapes and their effects on associated fauna: A review. Estuarine, Coastal and Shelf Science, 68(3–4), 383–403.
  12. Calumpong, H. P., & Meñez, E. G. (1997). Seagrasses of the Philippines: Diversity, distribution, and conservation. In R. C. E. J. & P. S. (Eds.), The Southeast Asian Seas and their Environmental Challenges (pp. 1–22). University of the Philippines Press.
  13. Capin, N. C., Pototan, B. L., Delima, A. G. D., & Novero, A. U. (2020). Distribution and abundance of seagrasses in the southwest coast of Davao Oriental, Philippines. Philippine Journal of Science, 150(S1), 383–394.
  14. Christianen, M. J., van Belzen, J., Herman, P. M., van Katwijk, M. M., Lamers, L. P., van Leent, P. J., & Bouma, T. J. (2013). Low-canopy seagrass beds still provide important coastal protection services. PLOS One, 8(5), e62413. https://doi.org/10.1371/journal.pone.0062413
  15.  Congdon, V. M., Hall, M. O., Furman, B. T., Campbell, J. E., Durako, M. J., Goodin, K. L., and Dunton, K. H. (2023). Common ecological indicators identify changes in seagrass condition following disturbances in the Gulf of Mexico. Ecological Indicators, 156, 111090. https:// doi.org/10.1016/j.ecolind.2023.111090
  16. Convention on International Trade in Endangered Species of Wild Fauna and Flora. (2024). Checklist of CITES species. CITES. https://checklist.cites.org/#/en
  17. Das, H. S., Al-Hameli, M., Bugla, I., Al-Mansoori, A., Al Jailani, H., & Al Ahbabi, W. (2021). Aerial survey of marine wildlife, 2021. EAD, Abu Dhabi.
  18. Dela Peña, H. P., Sespeñe, J. S., & Pido, M. D. (2017). Integration of ecotourism in small-scale coastal fisheries: Lessons learned in Honda Bay, Puerto Princesa City, Palawan, Philippines. BIMP-EAGA Journal for Sustainable Tourism Development, 6(1), 31. ISSN 2232-10603.
  19. Dolorosa, R. G. (2015). The sea cucumbers (Echinodermata: Holothuroidea) of Tubbataha Reefs Natural Park, Philippines. SPC Beche-de-mer Information Bulletin, 35, 10–18.
  20. Dolorosa, R. G., & Dangan-Galon, F. (2014). Species richness of bivalves and gastropods in Iwahig River-Estuary, Palawan, the Philippines. International Journal of Fisheries and Aquatic Studies, 2, 207–215.
  21. Dolorosa, R. G., Conales, S. F., & Picardal, R. M. (2015). Bivalves and gastropods of Tubbataha Reefs Natural Park, Philippines. Check List, 11(1), 1506. https://doi.org/10.15560/11.1.1506
  22. Dolorosa, R. G., Salazar, C. B., Delfin, M. T. V., Paduga, J. R., & Balisco, R. A. T. (2017). Sea cucumber fisheries in Rasa Island Wildlife Sanctuary, Narra, Palawan, Philippines. SPC Beche-de-mer Information Bulletin, 37, 9–20.
  23. Doney, S. C., Busch, D. S., Cooley, S. R., & Kroeker, K. J. (2020). The impacts of ocean acidification on marine ecosystems and reliant human communities. Annual Review of Environment and Resources, 45(1), 83–112. https://doi.org/10.1146/annurev-environ-012320-083019
  24. English, S. C., Wilkinson, C., & Baker, V. (Eds.). (1994). Survey for tropical marine resources (2nd ed.). Australian Institute of Marine Science.
  25. Exton, D. A., Ahmadia, G. N., Cullen-Unsworth, L. C., Jompa, J., May, D., Rice, J., Simonin, P. W., Unsworth, R. K. F., Smith, D. J., & Unsworth, R. K. (2019). Artisanal fish fences pose broad and unexpected threats to the tropical coastal seascape. Nature Communications, 10, 2100. https://doi.org/10.1038/s41467-019-10158-w
  26. Farooq, U., Zhang, Y., & Wang, Y. (2021). The joint contributions of environmental filtering and spatial processes to macroinvertebrate metacommunity dynamics in the alpine stream environment of Baima Snow Mountain, Southwest China. Freshwater Biology, 66(7), 1–12. https://doi.org/10.1111/fwb.13862
  27. Floren, A. S., Hayashizaki, K., Putchakarn, S., Tuntiprapas, P., & Prathep, A. (2021). A review of factors influencing the seagrass–sea cucumber association in tropical seagrass meadows. Frontiers in Marine Science, 8, 696134. https://doi.org/10.3389/fmars.2021.696134
  28. Fortes, M. (2022). Seagrass factor in climate change mitigation in the Philippines. Philippine Journal of Science, 151(S1), 13. https://doi.org/10.56899/151.S1.13
  29. Fortes, M. D. (1990). Seagrasses: A resource unknown in the ASEAN region. ASEAN/US Coastal Resources Management Project, Education Series 6, 46 pp.
  30. Fortes, M. D. (2013). A review: Biodiversity, distribution and conservation of Philippine seagrasses. Philippine Journal of Science, 142(3), 95–111.
  31. Fortes, M. D., Fortes, E. G., Sarceda, M. B., Jimenez, L. A., & Lucero, R. S. (2016). Seagrasses: See how they protect us: A guide for community appreciation of seagrasses in the Philippines. Department of Science and Technology, Asia-Pacific Network for Global Change Research, National Council of the Philippines, U.P. Marine Science Institute.
  32. Fortes, M. D., Ooi, J. L. S., Tan, Y. M., Prathep, A., Bujang, J. S., & Yaakub, S. M. (2018). Seagrass in Southeast Asia: A review of status and knowledge gaps, and a road map for conservation. Botanica Marina, 61(3), 269–288. https://doi.org/10.1515/bot-2018-0009
  33. Ghazi-Yaker, A. (2023). Diversity of epiphytic and endophytic fungal communities associated with leaves of Ziziphus lotus (L.) Lam. from Algeria. Polish Journal of Ecology, 70(4). https://doi.org/10.3161/15052249JE2022.70.4.003
  34. Gleason, R. A., Hossler, K. M., & Houghton, R. A. (2022). Metabarcoding metacommunities: Time, space, and land use interact to structure aquatic macroinvertebrate communities in streams. Ecology and Evolution, 12(6), e8926. https://doi.org/10.1002/ece3.8926
  35. Gonzales, B. J. (2004a). Puerto Princesa Bay and Honda Bay, Palawan: An ecological profile. Fisheries Resource Management Project Technical Monograph Series, No. 8 (E. C. Ablaza, Ed.), 28 pp.
  36. Gonzales, B. J. (2004b). Fisheries management in Honda Bay. In In turbulent seas: The status of Philippine marine fisheries (pp. 305–311). Department of Agriculture–Bureau of Fisheries and Aquatic Resources, Coastal Resource Management Project.
  37. Grech, A., & Coles, R. G. (2010). An ecosystem-scale predictive model of coastal seagrass distribution. Aquatic Conservation: Marine and Freshwater Ecosystems, 20(3), 1–.
  38. Heck, K. L., Hays, G., & Orth, R. J. (2000). Critical evaluation of the nursery role hypothesis for seagrass meadows. Marine Ecology Progress Series, 253, 123–136. https://doi.org/10.3354/meps253123
  39. Heckwolf, M. J., Peterson, A., Jänes, H., Horne, P., Künne, J., Liversage, K., Sajeva, M., Reusch, T. B. H., & Kotta, J. (2021). From ecosystems to socio-economic benefits: A systematic review of coastal ecosystem services in the Baltic Sea. Science of The Total Environment, 755(Part 2), 142565. https://doi.org/10.1016/j.scitotenv.2020.142565
  40. Hooper, D. U., Chapin, F. S., III, Ewel, J. J., Hector, A., Inchausti, P., Lavorel, S., Lawton, J. H., Lodge, D. M., Loreau, M., Naeem, S., Schmid, B., Setälä, H., Symstad, A. J., Vandermeer, J., & Wardle, D. A. (2005). Effects of biodiversity on ecosystem functioning: A consensus of current knowledge. Ecological Monographs, 75(1), 3–35. https://doi.org/10.1890/04-0922
  41. Howes, E. L., Birchenough, S., & Lincoln, S. (2018). Effects of climate change relevant to the Pacific Islands. In B. Townhill, P. Buckley, J. Hills, T. Moore, S. Goyet, A. Singh, G. Brodie, P. Pringle, S. Seuseu, & T. Straza (Eds.), Pacific Marine Climate Change Report Card 2018: Scientific Review (pp. 1–19). Commonwealth Marine Economies Programme (CMEP).
  42. Hughes, A. R., Williams, S. L., Duarte, C. M., Heck, K. L., & Waycott, M. (2009). Associations of concern: Declining seagrasses and threatened dependent species. Frontiers in Ecology and the Environment, 6(5), 242–246. https://doi.org/10.1890/070050
  43. International Union for Conservation of Nature. (2024). The IUCN Red List of Threatened Species. IUCN. https://www.iucnredlist.org
  44. Jessen, C., Villa Lizcano, J. F., Bayer, T., Roder, C., Aranda, M., Wild, C., & Voolstra, C. R. (2013). In-situ effects of eutrophication and overfishing on physiology and bacterial diversity of the Red Sea coral Acropora hemprichii. PLoS One, 8(4), e62091. https://doi.org/10.1371/journal.pone.0062091
  45. Jiang, Z., Huang, D., Fang, Y., Cui, L., Zhao, C., Liu, S., & Huang, X. (2020). Home for marine species: Seagrass leaves as vital spawning grounds and food sources. Frontiers in Marine Science, 7, 194. https://doi.org/10.3389/fmars.2020.00194
  46. Johnston, E. L., & Roberts, D. A. (2009). Contaminants reduce the richness and evenness of marine communities: A review and meta-analysis. Environmental Pollution, 157(6), 1745–1752. https://doi.org/10.1016/j.envpol.2009.02.017
  47. Jontila, J. B. S. (2023). Status of commonly harvested sea cucumbers in Palawan, Philippines: A prelude to managing its fishery. Our Palawan: Special Issue – 2023 International Conference on Biosphere and Sustainability.
  48. Jontila, J. B. S., Balisco, R. A. T., & Matillano, J. A. (2014). The sea cucumbers (Holothuroidea) of Palawan, Philippines. AACL Bioflux, 7(3), 194–206.
  49. Jontila, J. B. S., Monteclaro, H. M., Quinitio, G. F., Santander-de Leon, S. M., & Altamirano, J. P. (2018). Status of sea cucumber fishery and populations across sites with different levels of management in Palawan, Philippines. Ocean & Coastal Management, 165, 225–234. https://doi.org/10.1016/j.ocecoaman.2018.08.025
  50. Jumawan, J., Bitalas, M. B., Ramos, J. J. C., Garcia, A. R. P., Landero, R. S., Cordero, J. A., Matela, M. N. V., Apostol, M. A. D., & Cataluña, R. B. (2015). Seagrass diversity and structure along the coastal area in Paligue, Hagonoy, Davao del Sur, Philippines. AES Bioflux, 7(3), 351–356.
  51. Karrouch, L., Chahlaoui, A., and Essahale, A. (2017). Anthropogenic impacts on the distribution and biodiversity of benthic macroinvertebrates and water quality of the Boufekrane River, Meknes, Morocco. Journal of Geoscience and Environment Protection, 5, 173–195. https://doi.org/10.4236/gep.2017.57014
  52. Kim, D. H., Mahomoodally, M. F., Sadeer, N. B., Seok, P. G., Zengin, G., Palaniveloo, K., Khalil, A. A., Rauf, A., and Rengasamy, K. R. R. (2021). Nutritional and bioactive potential of seagrasses: A review. South African Journal of Botany, 137, 216–227. https://doi.org/10.1016/j.sajb.2020.10.018
  53. Lalonde, B., and Ernst, W. (2012). Analysis of benthic invertebrate communities as a function of distance from two fish-processing plant effluent discharges in New Brunswick, Canada. Archives of Environmental Contamination and Toxicology, 63(1), 45–53. https://doi.org/10.1007/s00244-012-9749-4
  54. Lamit, N., and Tanaka, Y. (2019). Species-specific distribution of intertidal seagrasses along environmental gradients in a tropical estuary: Brunei Bay, Borneo. Regional Studies in Marine Science.
  55. Lan, J., Liu, P., Hu, X., and Zhu, S. (2024). Harmful algal blooms in eutrophic marine environments: Causes, monitoring, and treatment. Water, 16(17), 2525. https://doi.org/10.3390/w16172525
  56. Liu, K., Guo, Y., Zou, M., Chen, W., Hu, W., and Du, J. (2025). Community structure and diversity of meiofauna in seagrass beds on the eastern coast of Hainan Island, China. Global Ecology and Conservation, 57, e03374.
  57. Losciale, R., Day, J. C., Rasheed, M. A., and Heron, S. F. (2024). The vulnerability of World Heritage seagrass habitats to climate change. Global Change Biology, 30(1), e17113. https://doi.org/10.1111/gcb.17113
  58. Ma, Z. (S.) and Ellison, A. M. (2018). A unified concept of dominance applicable at both community and species scales. Ecosphere, 9(11), e02477. https://doi.org/10.1002/ecs2.2477
  59. McGoff, N., Davy-Bowker, J., and Hildrew, A. G. (2013). Does lake habitat alteration and land-use pressure homogenize European littoral macroinvertebrate communities? Journal of Applied Ecology, 50(4), 1–12. https://doi.org/10.1111/1365-2664.12106
  60. McKenzie, L. J., Yoshida, R. L., Aini, J. W., Andréfouet, S., Colin, P. L., Cullen-Unsworth, L. C., Hughes, A. T., Payri, C. E., Rota, M., Shaw, C., Skelton, P. A., Tsuda, R. T., Vuki, V. C., and Unsworth, R. K. F. (2021). Seagrass ecosystems of the Pacific Island Countries and Territories: A global bright spot. Marine Pollution Bulletin, 167, 112308. https://doi.org/10.1016/j.marpolbul.2021.112308
  61. McKenzie, L. J., Nordlund, L. M., Jones, B. L., Cullen-Unsworth, L. C., Roelfsema, C., and Unsworth, R. K. (2020). The global distribution of seagrass meadows. Environmental Research Letters, 15, 074041.
  62. McKenzie, L. J., Campbell, S. J., and Lasi, F. (2006). Seagrasses and mangroves. In A. Green, P. Lokani, W. Atu, P. Ramohia, P. Thomas, and J. Almany (Eds.), Solomon Island Marine Assessment: Technical Report of Survey Conducted May 13 to June 17, 2004 (pp. 401–443). The Nature Conservancy.
  63. McMahon, K., and O’Leary, J. (2022). The risk of multiple anthropogenic and climate change threats must be considered for continental-scale conservation and management of seagrass habitat. Frontiers in Marine Science, 9, 837259. https://doi.org/10.3389/fmars.2022.837259
  64. Meode, M. L., Montes, E. B., Paloma, A. Q., Panalmen, N., and Pesquera, N. M. (2014). Distribution and abundance of seagrasses of Bontoc, Southern Leyte. Journal of Science, Engineering and Technology, 2, 93–103.
  65. Meñez, E. G., Philips, R. C., and Calumpong, H. P. (1983). Seagrasses from the Philippines. Smithsonian Contributions to the Marine Sciences, No. 21.
  66. Mondy, C. P., and Schuwirth, N. (2017). Integrating ecological theories and traits in process-based modeling of macroinvertebrate community dynamics in streams. Ecological Applications, 27(2), 1–12. https://doi.org/10.1002/eap.1530
  67. Morris, E., Caruso, T., Buscot, F., Fischer, M., Hancock, C., Maier, T., and Rillig, M. (2014). Choosing and using diversity indices: Insights for ecological applications from the German biodiversity exploratories. Ecology and Evolution, 4(18), 3514–3525. https://doi.org/10.1002/ece3.1155
  68. Nordlund, L. M., Koch, E. W., Barbier, E. B., and Creed, J. C. (2017). Seagrass ecosystem services and their variability across genera and geographical regions. PLOS ONE, 12(1), e0169942. https://doi.org/10.1371/journal.pone.0169942
  69. O’Leary, J. K., Micheli, F., Airoldi, L., Boch, C., De Leo, G., Elahi, R., Ferretti, F., Graham, N. A. J., Litvin, S. Y., Low, N. H., Lummis, S., Nickols, K. J., and Wong, J. (2017). The resilience of marine ecosystems to climatic disturbances. BioScience, 67(3), 208–220.
  70. Payo, D. A., Casas, E. Jr., Badocdoc, K., Flores, J., and Juntila, J. (2018). Species composition, abundance, and distribution of seagrasses along the coast of Tacloban, Philippines. Philippine Journal of Natural Science, 23, 1–8.
  71. Paz-Alberto, A. M., Pakaigue-Hechanova, M., and Sigua, G. C. (2015). Assessing diversity and phytoremediation potential of seagrass in tropical regions. International Journal of Plant, Animal and Environmental Science, 5(4), 24–33.
  72. Phang, S. M. (2000). Seagrass of Malaysia. Botanical Monograph, University of Malaya.
  73. Pielou, E. C. (1966). The measurement of diversity in different types of biological collections. Journal of Theoretical Biology, 13, 131–144. https://doi.org/10.1016/0022-5193(66)90013-0
  74. Polidoro, B. A., Carpenter, K. E., Collins, L., and Duke, N. C. (2017). The status of marine biodiversity in the Eastern Central Atlantic (West and Central Africa). Aquatic Conservation: Marine and Freshwater Ecosystems, 27(3), 1–15. https://doi.org/10.1002/aqc.2744
  75. Polidoro, B. A., and Carpenter, K. E. (2012). Patterns of extinction risk and threat for marine vertebrates and habitat-forming species in the tropical Eastern Pacific. Marine Ecology Progress Series, 455, 1–12. https://doi.org/10.3354meps09545
  76. Priya, A. K., M, M., Rajamanickam, S., Sivarethinamohan, S., Gaddam, M. K. R., Velusamy, P., R, G., Ravindiran, G., Gurugubelli, T. R., and Muniasamy, S. K. (2023). Impact of climate change and anthropogenic activities on aquatic ecosystem - A review. Environmental Research, 238(Pt 2), 117233. https://doi.org/10.1016/j.envres.2023.117233
  77. Quevedo, M. T., Rojas, C. M., and Carlos, A. (2013). Population density and distribution of sea cucumbers in the coastal waters of the Philippines. Marine Ecology, 34(2), 153-159.
  78. Quevedo, B., Ronquillo, P., and Ruaza Jr., F. (2013). Distribution of intertidal holothurian fauna in Lianga Bay, Surigao del Sur. SDSSU Multidisciplinary Research Journal, 1(2), 1-10. Retrieved from https://www.smrj.sdssu.edu.ph/index.php/SMRJ/article/view/68/66
  79. R Core Team. (2024). R: A language and environment for statistical computing. R Foundation for Statistical Computing. Vienna, Austria.
  80. Rifai, H., Lukman, K. M., Quevedo, J. M. D., Francis, P., Sjafrie, N. D. M., Triyono, M., McKenzie, L., Hidayat, R., Nugraha, A. H., Kuriandewa, T. E., Suryawati, S. H., Prayudha, B., Suraji, S., Risandi, J., and Hernawan, U. E. (2024). Understanding stakeholders’ perception on developing seagrass-associated tourism: Evidence from marine protected areas of Bintan Island, Indonesia. Marine Pollution Bulletin, 209(Part A), 117063. https://doi.org/10.1016/j.marpolbul.2024.117063
  81. Rodil, I. F., De la Hoz, J., and Rojas, J. (2012). Exploring macroinvertebrate species distributions at regional and local scales across a sandy beach geographic continuum. PLOS ONE, 7(3), e33226. https://doi.org/10.1371/journal.pone.0033226
  82. Roleda, M., Alcantara, L., Ticson, V. S., and Montaño, B. (2001). Spatial and temporal variation in the macrophyte community structure of Honda Bay, Puerto Princesa City, Palawan. In Resource and Ecological Assessment of Honda Bay, Palawan (Vol. II, Chapter 6, Terminal Report). Fisheries Resources Management Project.
  83. Saito, Y., and Atobe, S. (1970). Phytosociological study of intertidal marine algae. In S. English, C. Wilkinson, and V. Baker (Eds.), Survey manual for tropical marine resources (pp. 235–252).
  84. Schoppe, S. (2000). Sea cucumbers of Palawan and their role in the marine ecosystem. Palawan Naturalist, 2, 56–72.
  85. Samaniego, J. O., Gibaga, C. R. L., Tanciongco, A. M., Quierrez, R. N. M., Reyes, R. C. G., and Gervasio, J. H. C. (2024). Distribution of total mercury in coastal sediments of Honda Bay, Palawan Island, the Philippines. Marine Pollution Bulletin, 207, 116912. https://doi.org/10.1016/j.marpolbul.2024.116912
  86. Shannon, C. E. (1948). A mathematical theory of communication. The Bell System Technical Journal, 27, 379–423.
  87. Shen, J., Yin, L., Zhang, J., Jia, S., Wang, Y., Wang, D., Cai, Z., and Chen, S. (2023). Restoration performance of Thalassia hemprichii and Enhalus acoroides at Gaolong Bay and Xincun Lagoon, Hainan Island, China. Frontiers in Marine Science, 10. https://doi.org/10.3389/ org/10.3389/fmars.2023.1294779
  88. Sheaves, M., Nagelkerken, I., & Connell, S. D. (2014). The impact of mangrove ecosystems on biodiversity in the Philippines. Journal of Marine Ecology, 85(5), 191–203.
  89. Simpson, E. H. (1949). Measurement of diversity. Nature, 163, 688. https://doi.org/10.1038/163688a0
  90. Stachowicz, J. J., Bruno, J. F., & Duffy, E. E. (2007). Understanding the effects of marine biodiversity on communities and ecosystems. Annual Review of Ecology, Evolution, and Systematics, 38(1), 739–766. https://doi.org/10.1146/annurev.ecolsys.38.091206.095659
  91. Tanduyan, S. N., Andriano, B. T., & Gonzaga, R. B. (2011). Species diversity of seagrasses in Camotes Islands, central Philippines. Cebu Technological University, San Francisco, Cebu, Philippines, 203–217.
  92. Tew, K. S., Kuo, J., Cheng, J.-O., Ko, F.-C., Meng, P.-J., Mayfield, A. B., & Liu, P.-J. (2021). Impacts of seagrass on benthic microalgae and phytoplankton communities in an experimentally warmed coral reef mesocosm. Frontiers in Marine Science, 8, Article 679683. https://doi.org/10.3389/fmars.2021.679683
  93. Unsworth, R. K. F., Cullen-Unsworth, L. C., Jones, B. L. H., & Lilley, R. J. (2022). The planetary role of seagrass conservation. Science, 377(6606), 609–613. https://doi.org/10.1126/science.abq6923
  94. Unsworth, R. K. F., Cullen-Unsworth, L. C., & Smith, N. (2018). Global challenges for seagrass conservation. Ambio, 47(3), 1–12. https://doi.org/10.1007/s13280-018-1115-y
  95. Valdez, S. R., Zhang, Y. S., van der Heide, T., Vanderklift, M. A., Tarquinio, F., Orth, R. J., & Silliman, B. R. (2020). Positive ecological interactions and the success of seagrass restoration. Frontiers in Marine Science, 7, 91. https://doi.org/10.3389/fmars.2020.00091
  96. Vijayakumari, V., Prasad, G., & Moses, S. (2018). Selecting a suitable diversity index for a tropical Ramsar wetland site. Lakes & Reservoirs: Research & Management, 23(2), 139–151. https://doi.org/10.1111/lre.12219
  97. Vinson, N. S., Ante, S. C., Roxas, R. J. F. S., Salvio, S. M. C., Rabe, S. L. C., Torres, M. A. J., Cabrera, M. L. N., & Requierion, E. A. (2016). Correlation between water quality and seagrass distribution along intertidal zone in Sarangani Province, Philippines. Journal of Biodiversity and Environmental Sciences, 8(5), 2220–6663.
  98. Wahab, I., Maddupa, H., & Kawaroe, M. (2017). Seagrass species distribution, density, and coverage at Panggang Island, Jakarta. IOP Conference Series: Earth and Environmental Science, 54, 012084. https://doi.org/10.1088/1755-1315/54/1/012084
  99. Walker, D. I., Pergent, G., & Fazi, S. (2010). Seagrass decomposition. In Global seagrass research methods (pp. 313–324). Elsevier Science.
  100. Wang, Y., Kindong, R., Gao, C., & Wang, J. (2023). Identification of keystone species in ecological communities in the East China Sea. Fishes, 8(5), 224. https://doi.org/10.3390/fishes8050224
  101. Wang, Y., Zhang, Y., & Liu, J. (2020). Seasonal shifts in the assembly dynamics of benthic macroinvertebrate and diatom communities in a subtropical river. Ecology and Evolution, 10(15), 1–12. https://doi.org/10.1002/ece3.6467
  102. Warnell, L. J., & Schmitz, A. (2022). Sea level rise drives carbon and habitat loss in the U.S. Mid-Atlantic coastal zone. PLOS Climate, 1(1), e0000044. https://doi.org/10.1371/journal.pclm.0000044
  103. Waycott, M., Duarte, C. M., Carruthers, T. J. M., Orth, R. J., Denisson, W. C., Olyarnik, S., Calladine, A., Fourqurean, J. W., Heck, K. L., Randall-Hughes, A., Kendrick, G. A., Judson-Kenworthy, W., Short, F. T., & Williams, S. L. (2009). Accelerating loss of seagrasses across the globe threatens coastal ecosystems. Proceedings of the National Academy of Sciences, 106(30), 12377–12381. https://doi.org/10.1073/pnas.0905620106
  104. World Register of Marine Species. (2020). Retrieved December 21, 2020, from http://www.marine-species.org/ 

Tools


Copyright © 2025  KITE Digital Educational Solutions |  Exclusively distributed by CE-Logic