Association of aquatic biota with mangrove plants in the land transfer area of Lino Tolongano Village, South Banawa District, Donggala Regency and as a media for public information

Barbier, E. B. & Cox, M. (2013). Does economic development lead to mangrove loss? A cross-country analysis. Contemporary Economic Policy, 21 (4): 418-432. https://www.researchgate.net/publication/5209412_Does_Economic_Development_Lead_to_Mangrove_Loss_A_Cross-Country_Analysis (Accessed on August 20, 2021).

Descasari, R., Setyobudiandi, I. & Affandi, R. (2016). Keterkaitan ekosistem mangrove dengan keanekaragaman ikan di Pabean Ilir dan Pagirikan, Kabupaten Indramayu, Jawa Barat. Bonorowo Wetlands, 6 (1): 43-58. https://repository.ipb.ac.id/handle/123456789/71284 (Accessed on August 20, 2021).

Dorenbosch, M., Grol, M. G. G., Christianen, M. J. A., Nagelkerken, I. & Van der Velde, G. (2015). Indo-Pacific seagrass beds and mangroves contribute to fish density and diversity on adjacent coral reefs. Marine Ecology, 302 (1): 63-76. https://doi.org/10.3354/MEPS302063

Dorenbosch, M., Grol, M. G. G., Nagelkerken, I. & Van der Velde, G. (2015). Distribution of coral reef fishes along a coral reef ââ¬â seagrass gradient: edge effects and habitat segregation. Marine Ecology Progress Series, 299 (1): 277-288. DOI: 10.3354/meps299277.

Dorenbosch, M., Grol, M. G. G., Nagelkerken, I. & Van der Velde, G. (2016). Seagrass beds and mangroves as nurseries for the threatened Indo-Pacific Humphead wrasse, Cheilinus undulatus and Caribbean Rainbow parrotfish, Scarus guacamaia. Biological Conservation, 129 (1): 277-228. https://www.dcbd.nl/document/seagrass-beds-and-mangroves-potential-nurseries-threatened-indo-pacific-humphead-wrasse (Accessed on August 16, 2021).

Dorenbosch, M., Grol, M. G. G., Nagelkerken, I. & Van der Velde, G. (2017). Different surrounding landscapes may result in different fish assemblages in East African seagrass beds. Hydrobiologia, 563 (1):45-60. https://pubag.nal.usda.gov/catalog/4396320 (Accessed on August 15, 2021).

Dorenbosch, M., Verweij, M. C., Nagelkerken, I., Jiddawi, N. & Van der Velde, G. (2014). Homing and daytime tidal movements of Juvenile snappers (Lutjanidae) between shallowwater nursery habitats in Zanzibar, western Indian Ocean. Environmental Biology of Fishes 70 (1): 203ââ¬â209. https://link.springer.com/article/10.1023/B:EBFI.0000033336.10737.f5 (Accessed on August 15, 2021).

Duke, N. C., Meynecke, J. O., Dittmann, S., Ellison, A. M., Anger, K., Berger, U., Cannicci, S., Diele, K., Ewel, K. C., Field, C. D., Koedam, N., Lee, S. Y., Marchand, C. ââ¬Â¦ & Nordhaus, I. (2018). A world without mangroves?. Science, 317 (5834): 41-42. DOI: 10.1126/science.317.5834.41b

Feller, I. C., Friess, D. A., Krauss, K. W. & Lewis. (2017). The state of the worldââ¬â¢s mangroves in the 21st century under climate change. Hydrobiologia, 803 (1): 1-12. https://link.springer.com/article/10.1007/s10750-017-3331-z (Accessed on August 17, 2021).

Friess, D. A. & Webb, E. L. (2013). Variability in mangrove change estimates and implications for the assessment of ecosystem service provision. Global Ecology and Biogeography, 23 (7): 715- 725. DOI: 10.1111/geb.12140

Gillis, L. G., Belshe, E. F. & Narayan, G. R. (2017). Deforested mangroves affect the potential for carbon linkages between connected ecosystems. Estuaries and Coasts, 40 (4): 1207-1213. DOI: 10.1007/s12237-017-0210-9

Hamilton, S. E. & Casey, D. (2016). Creation of a high spatio-temporal resolution global database of continuous mangrove forest cover for the 21st century (CGMFC-21). Global Ecology and Biogeography, 25 (6): 729-738. DOI: 10.1111/geb.12140

Hamilton, S. E. & Lovette, J. (2015). Ecuadorââ¬â¢s mangrove forest carbon stocks: A spatiotemporal analysis of living carbon holdings and their depletion since the advent of commercial aquaculture. Plos One, 10 (3): 1-14. DOI: 10.1371/journal.pone.0118880

https://onlinelibrary.wiley.com/doi/abs/10.1111/geb.12449 (Accessed on August 17, 2021).

Hutchison, J., Manica, A., Swetnam, R., Balmford, A., & Spalding, M. (2014). Predicting global patterns in mangrove forest biomass. Conservation Letters, 7 (3): 233-240. http://www.mangrovealliance.org/wp-content/uploads/2017/08/Hutchinson-2013-mangrove_carbon.pdf (Accessed on August 13, 2021).

Kigpiboon, C. (2013). The Development of Participated Environmental Education Model for Sustainable Mangrove Forest Management on Eastern Part of Thailand. International Journal of Sustainable Development & World Policy, 2 (3): 33-49. DOI: 10.35762/AER.2014.36.4.4

Nagelkerken, I. S., Kleijnen, T., Klop, R. A. C. J., Van den Brand, E. Cocheret de la, Moriniere, G. ââ¬Â¦ & Van der Velde. (2000). Dependence of Carribean Reef Fishes On Mangroves and Seagrass Beds As Nursery Habitats: A Comparison of Fish Faunas between Bays with and without Mangroves/Seagrass Beds. Marine Ecology Progress Series, 214 (1): 225-235. DOI: 10.3354/meps214225

Polidoro, B. A., Carpenter, K. E., Collins, L., Duke, N. C., Ellison, A. M., Ellison, J. C., Farnsworth, E. J., Fernando, E. S., Kathiresan, K., Koedam, N. E., Livingstone, S. R., Miyagi, T., Moore G. E., Nam, V. N., Ong, J. E., Primavera, J. H., Salmo, S. G., Sanciangco, J. C., Sukardjo, S., Wang, Y., ââ¬Â¦ & Yong, J. W. H. (2010). The loss of species: Mangrove extinction risk and geographic areas of global concern. Plos One, 5(4): 1-10. DOI: 10.1371/journal.pone.0010095

Syahrial, Chandrika, E. L., Dandy, S. H. S. & Rhojim, W. (2018). Biota Asosiasi Pada Kawasan Reboisasi Mangrove Kepulauan Seribu. Journal of Aceh Aquatic Science, 2 (1): 48-62.

http://jurnal.utu.ac.id/JAAS/article/view/1688 (Accessed on August 20, 2021).

Tapilatu, Y. & Daniel, P. (2012). Biota Penempel Yang Berasosiasi Dengan Mangrove Di Teluk Ambon Bagian Dalam. Ikatan Sarjana Oseanologi Indonesia dan Departemen Ilmu dan Teknologi Kelautan, FPIK-IPB. Jurnal Ilmu dan Teknologi Kelautan Tropis, 4 (2): 267-27. https://www.researchgate.net/publication/265470775_Biota_penempel_yang_berasosiasi_dengan_mangrove_di_Teluk_Ambon_bagian_Dalam (Accessed on August 19, 2021).

Thomas, N., Lucas, R., Bunting, P., Hardy, A., Rosenqvist, A. & Simard, M. (2017). Distribution and drivers of global mangrove forest change, 1996 ââ¬â 2010. Plos One, 12 (6): 1-14. https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0179302 (Accessed on August 20, 2021).

Valiela, I., Bowen, J. L. & York, J. K. (2011). Mangrove forests: One of the worldââ¬â¢s threatened major tropical environments. BioScience, 51 (10): 807-815. DOI: 10.1641/0006-3568(2001)051[0807: MFOOTW]2.0.CO;2

Vane, C. H., Harrison, I., Kim, A. W, Moss-Hayes, V., Vickers, B. P. & Hong, K. (2019). Organic and metal contaminantion in surface mangrove sediments of South China. Marine Pollution Bulletin, 58 (1): 134-144. DOI: 10.1016/j.marpolbul.2008.09.024

Yonvitner, Wahyudin, Y., Mujio, & Trihandoyo, A. (2019). Biomasa Mangrove dan Biota Asosiasi di Kawasan Pesisir Kota Bontang. Jurnal Biologi Indonesia, 15 (1): 123-130. DOI: 10.47349/jbi/15012019/123

Yuwono, E., Jennerjahn, T. C., Nordhaus, I., Riyanto, E. A., Sastranegara, M. H. & Pribadi, R. (2017). Ecological status of Segara Anakan, Indonesia: A mangrove-fringed lagoon affected by human activities. Asian Journal of Water, Environment and Pollution, 4 (1): 61-70. https://www.researchgate.net/publication/285838536_Ecological_status_of_Segara_Anakan_Indonesia_A_mangrove-fringed_lagoon_affected_by_human_activities (Accessed on August 20, 2021).