This research was carried out in Pangandaran Regency, specifically in the Batukaras, Nusawiru, and Bojongsalawe areas, in March–April 2022. This research to determine the characteristics of Avicennia type mangroves, habitat characteristics, and the ability of Avicennia type mangrove roots to trap debris. The method used is the Line Transect (LT) method. The results obtained from research on the characteristics of this type of Avicennia mangrove include that the circumference of mangrove roots ranges from 2–24 cm, the height of mangrove roots ranges from 3-83 cm, and the number of mangrove roots ranges from 925–2988 roots. The wider the area, the more debris you will find. Based on the results of the calculation of the characteristics of the Avicennia-type mangrove habitat in Pangandaran, it is in a good range. The calculations include salinity in the range of 15–22 ppt, a temperature of 32–34 °C, a pH value of 7,6–8, and DO (dissolved oxygen) of 4–4,5 mg/L. The trapping of waste in the Avicennia root area is categorized as strong. So the denser the mangrove roots are, the density of debris will increase. This is proven by the large amount of debris found in Batukaras.

Keywords: Avicennia mangrove; Characteristics, Category, Density, Marine debris; Type.

Alwi, D., Koroy, K., dan Laba, E. 2019. Struktur komunitas ekosistem mangrove di Desa Daruba Pantai Kabupaten Pulau Morotai. Jurnal Ilmiah Wahana Pendidikan, 5(4): 33–46. https://doi.org/10.5281/zenodo.3551741.

Ance., Muntalif, B.S., dan Sudjono, P. 2016. Probabilitas terperangkapnya sampah non-organik di kawasan mangrove studi kasus: Pantai Karangantu, Kota Serang. Jurnal Tehnik Lingkungan, 22(1): 11–20. https://doi.org/10.5614/j.tl.2016.22.1.2.

Barreto, M.B., Lo Mónaco, S., Díaz, R., Barreto-Pittol, E., López, L., Peralba, M., and do C.R. 2016. Soil organic carbon of mangrove forests (Rhizophora and Avicennia) of the Venezuelan Caribbean coast. Organic Geochemistry, 100: 51–61. https://doi.org/10.1016/j.orggeochem.2016.08.002.

Chusna, R.R.R., Rudiyanti, S., dan Suryanti, S. 2017. Hubungan substrat dominan dengan kelimpahan gastropoda pada hutan mangrove Kulonprogo, Yogyakarta. Saintek Perikanan: Indonesian Journal of Fisheries Science and Technology, 13(1): 19. https://doi.org/10.14710/ijfst.13.1.19-23.

Handayani, L. 2018. Potential of Avicennia alba as an agent of phytoremediation heavy metal (Pb and Cu) in Wonorejo, Surabaya. Depik, 7(1): 76–83. https://doi.org/https://doi.org/10.13170/depik.7.3.10555.

Hiwari, H., Purba, N.P., Ihsan, Y.N., Yuliadi, L.P.S., dan Mulyani, P.G. 2019. Kondisi sampah mikroplastik di permukaan air laut sekitar Kupang dan Rote , Provinsi Nusa Tenggara Timur. 5: 165–171. https://doi.org/10.13057/psnmbi/m050204

Johan, Y., Persona, R., Mutaqin, P., dan Purnama, D.A. 2020. Analisis sampah laut (marine debris) di Pantai Kualo Kota Bengkulu. 5(2): 73–89.

Kuslani, H. 2015. Teknik pengamatan vegetasi mangrove di pesisir. Balitbang, 13: 83–90. https://doi.org/http://dx.doi.org/10.15578/btl.13.2.2015.83-90.

Larasati, H., Bambang, A.N., dan Boesono, H. 2013. Analisis faktor-faktor yang mempengaruhi terbentuknya harga ikan kembung lelaki (Rastrelliger kanagurta) hasil tangkapan purse seine di TPI Bulu Kabupaten Tuban Jawa Timur. Journal of Fisheries Resources Utilization Management and Technology, 2(3): 121-130.

Nurfajrin, A. 2018. Keanekaragaman hayati makrozoobenthos di kawasan mangrove. Pros. Sem. Nas. Masy. Biodiv. Indon., 4(2): 248–253. https://doi.org/10.13057/psnmbi/m040226.

Pratiwi. 2016. Analisis kualitas air dan kepadatan moluska pada kawasan ekosistem mangrove, Nusa Lembongan. Journal of Marine and Aquatic Sciences, 2(2): 67. https://doi.org/10.24843/jmas.2016.v2.i02.67-72.

Prihadi, D.J., Riyantini, I.R., dan Ismail, M.R. 2018. Pengelolaan Kondisi ekosistem mangrove dan daya dukung lingkungan kawasan wisata bahari mangrove di Karangsong Indramayu. Jurnal Kelautan Nasional, 1(1). https://doi.org/10.15578/jkn.v1i1.6748.

Purba, N.P., Apriliani, I.M., Dewanti, L.P., Herawati, H., dan Faizal, I. 2018. Distribution of macro debris at Pangandaran Beach, Indonesia. International Scientific Journal, 103(7): 144–156. www.worldscientificnews.com.

Putri, D.R., Muktiningsih, S., Ulfa, V., Sari, T.N., dan Savitri, E.N. 2020. Alat penjebak sampah pada ekowisata dan Konservasi Mangrove Center, Kabupaten Gresik. 2(1): 19–23.

Renaldi, A., Galuh, U., Pangandaran, P., dan Pangandaran, K. 2021. Peran dinas lingkungan hidup dan kebersihan dalam pelayanan kebersihan di objek wisata pantai Pangandaran Kabupaten Pangandaran.

Sahami, F. 2020. Komposisi dan kepadatan sampah pantai Leato Utara, Kota Gorontalo. JFMR-Journal of Fisheries and Marine Research, 4(3): 352–356. https://doi.org/10.21776/ub.jfmr.2020.004.03.6.

Salestin, C.B., Soewarlan, L.C., dan Paulus, C.A. 2021. Kajian komposisi dan kepadatan jenis sampah laut pada kawasan ekowisata mangrove, di Kelurahan Oesapa Barat, Kota Kupang.

Septian, F.M., Purba, N.P., Agung, M.U.K., Yuliadi, L.P.S., Akuan, L.F., and Mulyani, P.G. 2018. Microplastic spatial distribution in sediment at Pangandaraan beach, West Java. Jurnal Geomaritim Indonesia, 1(1): 1–8.

Sundah, G.T., Schaduw, J.N.W., Warouw, V., Kumampung, D.R. H., Paransa, D.S.J., dan Mokolensang, J. 2021. Inventarisasi sampah anorganik pada ekosistem mangrove Pulau Bunaken Bagian Timur. 9: 262–270. https://doi.org/10.35800/jip.9.2.2021.35318.

Wahyudhi. 2019. Fenomena ekosistem pesisir di Kabupaten Gresik.