Segara Anakan Lagoon  is a  specific lagoon as dispose industry waste area, i.e. lead waste.  Distribution of lead accumulation in vegetation, soil and water can explain pollution status in Segara Anakan Lagoon.  This study aims to analysis lead accumulation distribution  (soil, water and vegetation),  bioaccumulation factor (BAF), translocation factor (TF), leaf morphometric (the lead effect for mangrove vegetation), and to develop pre-design a mangrove  zoning based on lead accumulation. The results showed that lead accumulation in Segara Anakan Lagoon (SAL) was 0.177 – 0.233 mg/l (water),  0.320 – 0.780 mg/kg (soil),  4.80–8.67 mg/kg (mangrove roots), for stem between 2.48–6.96 mg/kg (mangrove stem), and 1.48–4.76 mg/kg (mangrove leaf).  BAF of mangrove vegetation scored between 22.2–40.1 and TF between 0.9–1.3. The lead accumulation of soil depths were 8.89 mg/kg (0-50 cm) to 0.56 mg/kg (150-200 cm). The effect of  lead accumulation was observed as leaf damage between 2-60 % of surface leafs. And based on best lead accumulation of mangrove vegetation showed that the first mangrove zoning was Rhizophora apiculata, Bruguiera sexangula, Aegiceras corniculatum and  Sonneratia caseolaris

Keyword: lead accumulation; mangrove capacity; bioaccumulation factor; translocation factor;  lead effect

Abohassan, R. A.,2013. Heavy Metal Pullution in Avicennia marina Mangrove Systems on the Red Sea Coast of Saudi Arabia. JKAU: Met., Env. and Arid Land. Sci. Vol. 24 No.1, 35-53

Agoramoorthy, G., Chen, F., Hsu, M., 2008. Threat of heavy metal pollution in halophytic and mangrove plants of Tamil Nadu, India. Environ. Pollut. 155, 320–326.

Ahmed, K., Mehedi, Y., Haque. R., Mondol, P., 2011. Heavy metal concentrations in some macrobenthic fauna of the Sundarbans mangrove forest, south west coast of Bangladesh. Environ. Monit. Assess. 177, 505–514.

Aksornkoae, S., 1993. Ecology and Management of Mangrove. IUCN Wetland Program. Bangkok

Alhashmi, Z., Blunt, M.J., Bijeljic, B., 2015. Predictions of dynamic changes in reaction rates as a consequence of incomplete mixing using pore scale reactive transport modeling on images of porous media. . Journal of Contam. Hydrol. 179, 171–181

Alongi, D.M, Wattayakorn, G., Boyle, G., 2004. Influence of roots and climate on mineral and trace element storage and flux in tropical mangrove soils. Biogeochem 69, 105–123

Ang, L.H.; L. K. Tang; W. M. Ho; T. F. Hui; and G. W. Theseira. 2010. Phytoremediation of Cd and Pb by Four Tropical Timber Species Grown on an Ex-tin Mine in Peninsular Malaysia. World Academy of Science, Engineering and Technology vol. 62, 244 – 248.

Ardii, E.R., 2008. A trophic flow model of the Segara Anakan lagoon,Cilacap, Indonesia. Dissertation. Faculty of Biology and Chemistry (FB 2) University Of Bremen.

Arisandy, K.R., Herawati, E.Y.,Suprayitno, E., 2012. Lead accumulation and histology viewing of Avicennia marina (forsk)Vierh tissue in Est Java beach. Jurnal Penelitian Perikanan 1(1), 15-25

Ashraf, M.A.; M. J. Maah; I. Yusoff. 2011. Heavy metals accumulation in plants growing in ex tin mining Catchment. International Journal of Environmental Science Technology, 8 (2), 401-416.

Badarudeen A., Damodaran, KT., Sajan, K., Padmalal, D., 1996. Texture and geochemistry of the sediments of a tropical mangrove ecosystem, southwest coast of India. Environ. Geol. 27, 164–169

Berner, R. A., 1984. Sedimentary pyrite formation: an update. Geochim. Cosmochim Acta. 48, 605–615

Borovec, Z., 1996. Evaluation of the concentrations of trace elements in stream sediments by factor and cluster analysis and the sequential extraction procedure, Sci. Total Environ. 177, 237–250.

Brander, L.M., WagtendonkA.J., Hussain, S., McVittie, A., Verburg, P.H., De Groot, R.S., Ploeg, S.V., 2012. Ecosystem service values for mangroves in Southeast Asia: A meta-analysis and value transfer application. Ecosystem Services 1, 62–69

Buwono, D., Lestari, L., Suherman, H., 2005. Reducing effort of Hg, Pb, in Mytilus Viridis Linn. With concentration and retention time of Na2CaEDTA differ. Jurnal Bionatura 7 (3), 192 – 204.

Charles J. Paradis, C.J., Jagadamma, S., Watson, D.B., McKay, L.D., Hazen, T.C., Park, M,. Istok, J.D., 2016. In situ mobility of uranium in the presence of nitrate following sulfate-reducing conditions. . Journal of Contam. Hydrol. 187, 55–64

Chebo, A.K., 2009. Monitoring wetlands deterioration in the Cameroon coastal lowlands: implications for management. Procedia Earth and Planetary Science 1, 1010–1015.

Cochran, W.G.,1997. Sampling Techniques (Third edition). John Wiley & sons

Colt, J., 2006. Water quality requirements for reuse systems. Aquacult. Engin. 34, 143–156.

Crystal Ng, G.H., Bekins, B.A., Cozzarelli, I.M., Baedecker, M.J.,Philip C. Bennett, P.C., Amos, R.T., . 2014. A mass balance approach to investigating geochemical controls on secondary water quality impacts at a crude oil spill site near Bemidji, MN. Journal of Contam. Hydrol. 164, 1–15.

Cuong, D.T., Bayen, S., Wurl, O., Subramanian, K., Wong, K.K.S., Sivasothi, N., Obbrad, J.P., 2005. Heavy Metal Contamination in Mangrove Habitats of Singapore. Baseline/ Marine Pollut. Bullet. 50, 1713-44.

Darmono., 1995. Metal in Biology Systeom of life Organism. UI-Press. Jakarta

Davidson, J., Good, C., Welsh, C., Brazil, B., Summerfelt, S., 2009. Heavy metal and waste metabolite accumulation and their potential effecton rainbow trout performance in a replicated water reuse system operated at low or high system flushing rates. Aquacultural Engineering 41, 136–145

Dixon, R.A., Paiva, N., 1995. Stress-induced phenylpropanoid metabolism. Plant Cell 7, 1085–1097

El-Nemr, A., Khaled, A., El-SikailyA., 2006. Distribution and statistical analysis of leachable and total heavy metals in the sediments of the Suez Gulf, Environ. Monit. Assess. 118(1–3), 89–112.

Fernandes, L.L., Nayak, G.N., 2012. Heavy metals contamination in mudflat and mangrove sediments (Mumbai, India). Chemistry and Ecology Vol. 28 No. 5, 435–455

Fernandez, T.V., Jones, N.V., 1987. Some studies on the effect of zinc on Nereis diversicolor (Polychaete – Annelida). Trop. Ecol. 28, 9–21.

Guangqiu, Q., Chongling, Y., Haoliang, L., 2007. Influence of Heavy Metals on the Carbohydrate and Phenolics in Mangrove, Aegiceras corniculatum L., Seedlings. Bull Environ Contam Toxicol 78, 440–444

Harbison, P., 1986. Mangrove muds – A sink and a source for trace metals. Marine Pollut. Bullet. 17, 246–250.

Hartis, R.R., Santos, G.F., 2000. Heavy metal contamination and physiological variability in the the brazilian mangrove crabs Ucides cordatus and Callinectes danae (Crustacea : Decapoda). Marine Biology 137, 691 – 703.

Herman, D.Z., 2006. Tinjauan terhadap Tailing Mengandung Unsur Pencemar Arsen (As), Merkuri (Hg), Timbal (Pb), dan Kadmium (Cd) dari Sisa Pengolahan Bijih Logam. Jurnal Geologi Indonesia. Vol. 1 No. 1, 31-36.

Hilmi, E., Syakti, A.D., Siregar, A.S., 2014. Concervation Strategy for Coastal and Mangrove Ecosystem to Reduce Tsunami Disaster, Pollution and Ability to sequestrate Carbon. Final Report 1. Competence grand. Universitas of Jenderal Soedirman

Hilmi, E., Syakti, A.D., Siregar, A.S., 2015. Concervation Strategy for Coastal and Mangrove Ecosystem to Reduce Tsunami Disaster, Pollution and Ability to sequestrate Carbon. Final Report 2. Competence grand. Universitas of Jenderal Soedirman

Howarth, R. H., 1979. Pyrite: its rapid formation in a salt marsh and its importance in ecosystem metabolism. Science 203, 49–51

Kathiresan, K., Bingham, B.L,. 2001. Biology of mangroves and mangrove ecosystems. Adv Mar Biol 40, 81–251

Krauss, K.W.,Alen, J.A., 2003. Factors influencing the regeneration of the mangrove Bruguiera gymnorrhiza (L) lamk. on tropical pasific island. Forest Ecology and Management 176, 49 -60.

Kusmana, C., Puradyatmika, P., Husin, Y.A., Shea, G., Martindale, D., 2000. Mangrove litter fall studi at the Ajkwa Estuary Irian Jaya. Indonesian Journal of Tropical Agriculture 9 (3), 39 – 47

Lestari, M., 2014. The Bioaccumulation of Lead (Pb) for Rhizophora apiculata di Donan River Segara Anakan Cilacap. Thesis. Faculty of Fisheries and Marine Science. Jenderal Soedirman University. p. 74

Lestari., Edward., 2004. Heavy metal pollution effect to sea water quality and fisheries resources ( Case study fish death in Teluk Jakarta). Makara Sains. Vol 8 No. 2, 52-58.

Liu, J., Wi, H., Feng, J., Li, Z., Lin, G., 2014. Heavy metal contamination and ecological risk assessments in the sediments and zoobenthos of selected mangrove ecosystems,South China. Catena 119 (2014) 136–142

MacFarlane, G.R., Pulkownik, A., Burchett, M.D.,2003. Accumulation and distribution of heavy metals in the gray mangrove, Avicennia marina (Forsk.) Vierh: biologicalindication potential. Environmental Pollution, 123: 139-151.

Machado, W., Moscatelli, M., Rezende, L.G., 2002. Mercury, zinc, and copper accumulation in mangrove sediments surrounding a large landfill in southeast Brazil. Environ Pollut 120:455–461

Madejόn, P.; J. M. Murillo; T. Marañόn; and F. Cabrera. 2006. Bioaccumulation of Trace Elements in A Wild Grass Three Years After The Aznalcόlllar Mine Spill (South Spain). Environmental Monitoring and Assessment 114, 169–189.

Madjid, N. M.; M. M. Islam, V. Justin, A. Abdu and P. Ahmadpour. 2011. Evaluation of heavy metal uptake and translocation by Acacia mangium as a phytoremediator of copper contaminated soil. African Journal of Biotechnology Vol. 10(42), 8373-8379.

Maldonado-Magaña, A.; E. Favela-Torres; F. Rivera-Cabrera; T. L. Volke-Sepulveda, 2011. Lead Bioaccumulation in Acacia farnesiana and Its Effect on Lipid Peroxidation and Glutathione Production. Journal of Plant Soil 339, 377-389.

Marchand, C., Lallier-Vergès, E., Baltzer, F., Albéric, P., Cossa, D., Baillif, P., 2006. Heavy metals distribution in mangrove sediments along the mobile coastline of French Guiana. Marine Chemistry 98, 1–17.

Maslukah, L., 2006. Heavy metal concentration and distribution of Pb, Cd, Cu, Zn in Muara Banjir Kanal Barat, Semarang. IPB. Bogor.

Munawar, A., Rina., 2004. Mangrove capability to absorb Hg and Pb. Jurnal Ilmiah Teknik Lingkungan Vol. 2 No. 2, 21-30

Nora, F., Tam, Y., Wong, Y.S., 1997. Accumulation and distribution of heavy metals in a simulated mangrove system treated with sewage. Hydrobiologia 352, 67–75,

Ooa, C.W., Kassima, M.J., Pizzi, A., 2009. Characterization and performance of Rhizophora apiculata mangrove polyflavonoid tannins in the adsorption of copper (II) and lead (II). Industrial Crops and Products 30, 152–161.

Palar, H.,2008. Pollution and heavy metal toxicities. Rineka Cipta, Jakarta. 152

Parvaresh, H., Abedi, Z., Farshchi, P., Karami, M., Khorasani, N., Karbassi, A., 2011. Bioavailability and Concentration of Heavy Metals in the Sediments and Leaves of Grey Mangrove, Avicennia marina (Forsk.) Vierh, in Sirik Azini Creek, Iran. Biol Trace Elem Res (2011) 143:1121–1130. DOI 10.1007/s12011-010-8891-y

Qiu, Y.W., Yu, K.F., Zang, G., Wan, W.X.,. 2014. Accumulation and partitioning of even trace metals in mangroves and sediment cores from three estuarine wetlands of Hainan Island, China. Journal of Hazardous Materials 190 , 631–638

Rainbow, P.S., 1985. Accumulation of Zn, Cu, and Cd by crabs and barnacles. Estuar, Cstl Shelf sci 21, 291-313.

Rivero, R.M., Ruiz, J.M., Garcı´a, P.C., Lo´pez-Lefebre, L.R., Sa´nchez, E., Romero, L., 2001. Resistance to cold and heat stress: accumulation of phenolic compounds in tomato and watermelon plants. Plant Sci 160, 315–321

Rochyatun, E., Kaisupy, M.T., Rozak, A., 2006. Heavy metal distribution of water and sediment in Cisadane estuarine. Makara, Sains, Vol. 10, No. 1, 35-40.

Rudiyanti, S., 2007. Bioconcentration of Anadara granosa Linn towardCadmium (Cd) in culture media from Kaliwungu area, Kendal. FPIK. UNDIP. Semarang.

Sabu, E.F, Syahrul, M., Hatta, M., Ahyar, A., 2006. Heavy metal analysis of milkfish drying (Chanos Chanosforsskal) by spectofotometric from some area in South Sulawesi. J. Sains & Teknologi, April 2006, Vol. 6 No. 1, 35 – 40.

Seidl, R., Rammer, W.,.Scheller, R.M., Spies, T.A., 2012. An Individual-Based Process Model To Simulate Landscape-Scale Forest Ecosystem Dynamics. Ecological Modelling 231, 87– 100;

Sharma, S., Hoque, A.T.M.R.., Analuddin, K., Hagihara, A., 2012. Litterfall dynamics in an overcrowded mangrove Kandelia obovata (S., L.) Yong stand over five years. Estuarine, Coastal and Shelf Science 98, 31-41

Shi, Z., Fan, D., Johnson, R.L., Tratnyek, P.G., Nurmi, J.T., Wu. Y., Williams, Y.H., 2015. Methods for characterizing the fate and effects of nano zerovalent iron during groundwater remediation. . Journal of Contam. Hydrol.18, 17–35

Sprague, J.B., 1985. Factors that modify toxicity. In: Fundamentals of Aquatic Toxicology: Methods and Applications, Hemisphere Publishing Corporation, Washington, D.C., pp. 124–163

Susanti, E., 2010. The characteristic of lead transfer in Lotiq water. LIPI Report. Jakarta.

Tam, N.F.Y., Wong, Y.S., 1997. Accumulation and distribution of heavy metals in a simulated mangrove system treated with sewage. Hydrobiologia 352, 67–75.

Tarigan Z., Edward And A.Rozak. 2003. Kandungan Logam Berat Lead, Cd, Cu, Zn Dan Ni Dalam Air Laut Dan Sedimen Di Muara Sungai Membramo, Papua Dalam Kaitannya Dengan Kepentingan Budidaya Perikanan. Makara, Sains, Vol. 7, No. 3, 119 - 127.

Thomas G., Fernandez, T.V., 1997. Incidence of heavy metals in the mangrove flora and sediments in Kerala, India. Hydrobiologia 352: 77–87, 1997.

UNEP., 2006. Marine and Coastal Ecosystems and Human Well-Being: A Synthesis Report Based on the Findings of the Millennium Ecosystem Assessment. UN Environment Programme, Nairobi.

Wang, Y., Qiu, Q., Xin, G., Yang, Z., Zheng, J., Ye, Z., Li, S., 2012. Heavy metal contamination in a vulnerable mangrove swamp in South China. Environ Monit Assess DOI 10.1007/s10661-012-2983-4.

Wardas, M., Budek,L., Rybicka, E.H., 1996. Variability of heavy metals content in bottom sediments of theWilga River, a tributary of the Vistula River (Krakow area, Poland), Appl. Geochem. 11, 197–202.

Wedemeyer, G.A., 1996. Physiology of Fish in Intensive Culture Systems. Chapman and Hall, New York

White, S.L., Rainbow, P.S., 1982. Regulation and accumulation of copper, zink and cadmium by the shrimp Palaemon elegans. Mar Ecol Prog Ser 8, 85-101.

Yamasaki, H., Heshiki, R., Ikehara, N.,. 1995. Leaf-goldening induced by high light in Ficus microcarpa L. f., a tropical fig. J Plant Res 108, 171–180

Yoon, J., Xinde, C., Qixing, Z., L.Q. Ma, L.Q.,. 2006. Accumulation of Pb, Cu, and Zn in Native Plants Gowing on a Contaminated Florida Site. Science of the Total Environment. 52, 456-464.