Adi S, Salim F, Suryati T, Handayani T, Hartini, Sudiana N. 2009. Emisi karbon lahan basah, pertanian dan kehutanan di Indonesia. J Teknik Lingkungan, [Edisi Khusus]: 1-12.
Afdal, Richardus F, Kaswadji, Alan FK. 2012. Pertukaran gas CO2 udara-laut di perairan selat nasik, Belitung. J Segara. 8(1): 9-17.
Alemaheyu F, Richard O, Wasonga MK. 2014. Assesment of mangroves covers change and biomass in Mide Creek, Kenya. Open J. of Forestry, (4):398-413. Arnold KV, Weslien P, Nillson M, Svensson BH, Klemedtsson L. 2005. Fluxes of CO2, CH4 and N2O from drained coniferous forests on organic soils. Forest Ecology and Management. 210: 239–254.
Beddu S. 2011. Bantaran sungai sebagai konservasi lansekap alami (studi kasus: bantaran sungai Tallo Makassar). Jurnal Teknik Lingkungan, (5): 1-7. Chauhan R, Datta A, Ramanathan AL, Adhya TK. 2015. Factors influencing
spatio-temporal variation of methane and nitrous oxide emission from a tropical mangrove of eastern coast of India. Atmospheric Environment. 107: 95-106
Chen GC, Tam NFY, Ye Y. 2010. Summer fluxes of atmospheric greenhouse gases N2O, CH4 and CO2 from mangrove soil in South China. Science of the Total Environment. 408: 2761 –2767.
Dalal RC, Wang WJ, Robertson G, Philip, Parton WJ. 2003. Nitrous oxide emission from Australian agricultural lands and mitigation options: A review. Aust. J Soil Res. 4: 165–195.
Davidson EA, Keller M, Erickson, HE, Verchot LV, Veldkamp E. 2000. Testing a conceptual model of soil emissions of nitrous and nitric oxides. Bioscience. 50: 667–680.
DeFries RS, Richard AH, Mattew CH, Christoper BF, David S, John T. 2002. Carbon emissions from tropical deforestation and regrowth based on satelite observation for the 1980s. PNAS 99(22):14256-14261.
Dutta MK, Chowdhury C, Jana TK, Mukhopadhyay SK. 2013. Dynamics and exchange fluxes of methane in the estuarine mangrove environment of the Sundarbans, NE coast of India. Atmospheric Environment. 77: 631-639. Fromard F, Puig H, Mougin E, Betoulle JL, Cadamuro L. 1998. Structure,
above-ground biomass and dynamics of mangrove ecosystems: new data from French Guiana. Oecologia, p 39-53.
Hairiah K, Rahayu S. 2007. Pengukuran Karbon Tersimpan di Berbagai Macam Penggunaan Lahan. Malang (ID): World Agroforestry Centre.
Heriyanto NM, Subiandono R. 2012. Komposisi dan struktur tegakan, biomassa dan potensi kandungan karbon hutan mangrove di taman nasional alas purwo. J Penelitian Hutan dan Konservasi Alam 9 (1): 023-032.
Hilmi E. 2003. Model penduga kandungan karbon pada pohon kelompok jenis Rhizophora spp dan Bruguiera spp dalam tegakan hutan mangrove (studi kasus: di Indragiri Hilir Riau) [Disertasi]. Bogor (ID): Institut Pertanian Bogor.
21 Huang J, Chen Y, Sui P, Nie S, Gao W. 2014. Soil Nitrous Oxide Emissions Under Maize-Legume Intercropping System in the North China Plain. J of Integrative Agriculture. 13(6): 1363-1372
[IAEA] International Atomic Energy Agency. 1992. Manual on Measurement of Methane and Nitrous Oxide Emission from Agricultural. Vienna (AT): IAEA. [IPCC] Intergovernmental Panel on Climate Change. 2001. Climate Change 2001 :
The Scientific Basis. Cambridge (GB): Cambridge University Pr.
[IPCC] Intergovernmental Panel on Climate Change. 2007. Mitigation of Climate Change. Cambridge (GB): Cambridge University Pr.
[Kemenhut] Kementerian Kehutanan. 2012. Pedoman Penggunaan Model Alometrik untuk Pendugaan Biomassa dan Stok Karbon di Indonesia. Bogor (ID): Badan Penelitian dan Pengembangan Kehutanan-Kemenhut.
[KLH] Kementerian Lingkungan Hidup. 2012. Pedoman Penyelenggaraan Inventarisasi Gas Rumah Kaca Nasional [Buku I Pedoman Umum]. Jakarta (ID). KLH.
Komiyama A, Poungparn S, Kato S. 2005. Coomon allometric equation for estimating the tree weight of mangroves. J. of Tropical Ecology. 21:471-477. Komiyama A, Ong JE, Poungparn S. 2008. Allometry, biomass and productivity of
mangrove forest: a. review. A Botany, 89:128-137.
Kone YJM, Borges AV. 2008. Dissolved inorganic carbon dynamics in the waters surrounding forested mangroves of the Ca Mau Province (Vietnam). Estuarine, Coastal and Shelf Science. 77: 409-421.
Konnerup D, Portela JMB, Villamil C, Parra JP. 2014. Nitrous oxide and methane emissions from the restored mangrove ecosystem of the Ciénaga Grande de Santa Marta, Colombia. Estuarine, Coastal and Shelf Science. 30: 1-9. Noor YR, Khazali M. Suryadiputra INN. 2006. Panduan Pengenalan Mangrove di
Indonesia. Bogor (ID): PHKA/WI – PI.
Pathak H. 1999. Emission of nitrous oxide from soil. Article Reviews, Current Science. 77(3): 359-360.
Rachmawati D, Setyobudiandi I, Hilmi E. 2014. Potensi estimasi karbon tersimpan pada vegetasi mangrove di wilayah pesisir Muara Gembong, Kabupaten Bekasi. Omni-Akuatika. 13(19): 85-91.
Riani E. 2012. Perubahan Iklim dan Kehidupan Biota Akuatik. Bogor (ID): IPB Pr. Rijal S. 2008. Kebutuhan ruang terbuka hijau di kota Makassar Tahun 2017. J
Hutan dan Masyarakat, (8),1: 65-77.
Rusmana I. 2006. Gaseous end products of nitrate and nitrite reduction by denitrifying Pseudomonads isolated from estuarine sediment. J Microbiol Indones, 11(2): 279-291.
Siddique HRM, Hossain M, Chowdhury KRM. 2012. Allometric relationship for estimating above-ground biomass of aegialitis rotundifolia roxb of sundarbans mangrove forest, in Bangladesh. J of Forestry Research, 23(1):23-28.
Wijanarko B. 2006. Kemungkinan penerapan co-management dalam pengelolaan ruang terbuka hijau di pantai utara kota Surabaya [Tesis]. Semarang (ID): Universitas Diponegoro.
Ye Y, Lu C, Yin P, Tan F, Wong Y. 2000. Diurnal charge of CH4 fluxes from estuarine mangrove wetland. Acta oceanol Sin. 22: 103-109.
22
Yunasfi. 2006. Dekomposisi serasah daun mangrove Avicennia marina pada berbagai tingkat salinitas [Disertasi]. Bogor (ID): Institut Pertanian Bogor. Zamroni Y, Rohyani IS. 2008. Produksi serasah hutan mangrove di perairan pantai
teluk Sepi, Lombok Barat. Biodiversitas. 9 (4): 284-287.
Zhang L, Song L, Zhang L, Shao H, Chen X, Yan K. 2013. Seasonal dynamics in nitrous oxide emissions under different types of vegetation in saline-alkaline soils of the Yellow River Delta, China and implications for eco-restoring coastal wetland. Ecological Engineering. 61: 82–89.
Zheng XH, Wang MX, Wang YS, Shen RX, Gou J, Li J, Jin JS, Li LT. 2000. Impacts of soil moisture on nitrous oxide emission from croplands: A case study on the rice-based agro-ecosystem in Southeast China. Chemosphere-Glob. Change Sci. 2: 207–224 .
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Lampiran 1 Dokumentasi penelitian
Pengukuran diameter pelepah dan diameter pangkal spesies Nypa fruticans
Penebangan pohon dan pemisahan bagian fraksi Nypa fruticans
25
Pengambilan sampel gas saat pasang dan surut
26 0 5 10 15 20 25 30 35 40 0,00 2,00 4,00 6,00 8,00 10,00 B io m ass ( k g ) Diameter of Stem (cm)
Lampiran 2 Grafik analisis allometrik hubungan diameter pangkal dan diameter pelepah terhadap nilai biomassa.
Model estimasi biomassa berdasarkan diameter pangkal
Model estimasi biomassa berdasarkan diameter pelepah
0 5 10 15 20 25 30 35 40 0,00 20,00 40,00 60,00 80,00 B io m ass ( k g ) Diameter of Base (cm) B = 0,098(DB)1,4934 R2 = 0,991 B = 0,222(DS)2,7048 R2 = 0,964
Lampiran 3 Berat kering beberapa bagian fraksi Nypa fruticans No Diameter
(cm)
Berat basah (kg)
Sub contoh berat basah (g)
Sub contoh berat kering (g)
Berat kering
total (kg) DB DS Akar Pelepah Daun Buah Akar Pelepah Daun Buah Akar Pelepah Daun Buah
1 57,91 7,65 17,61 97,81 16,81 5,02 300 500 400 400 76 122,2 164,02 105 36,58 2 55,36 6,94 15,83 96,14 15,12 2,81 300 500 400 400 75,4 120,8 163,83 103,8 34,13 3 47,09 5,77 13,24 89,02 12,37 2,12 300 500 400 400 76 120,67 164,06 104,16 30,46 4 35,64 5,24 9,41 70,15 9,45 0 300 500 400 0 75,54 121,88 164,2 0 23,35 5 29,91 4,57 7,21 62,67 5,28 0 300 500 400 0 75,62 122,04 163,29 0 19,27 6 24,18 4,23 5,72 51,54 3,92 0 300 500 400 0 74,48 122,16 163,38 0 15,61 7 21,64 4,07 5,15 36,23 1,72 0 300 500 400 0 76,12 120,43 165,05 0 10,74 8 20,36 3,54 4,08 22,08 1,54 0 300 500 400 0 74,68 122,2 164,24 0 7,04 9 16,23 3,29 2,98 16,4 1,02 0 300 500 400 0 76,08 122,12 164,22 0 5,18 10 12,73 3,22 1,46 14,82 0,98 0 300 500 400 0 75,24 121,81 163,98 0 4,38 11 11,45 2,91 1,04 12,26 0,82 0 300 500 400 0 75,06 122,02 163,76 0 3,59 12 9,86 2,73 0,86 9,06 0,69 0 300 500 400 0 75,18 120,89 164,14 0 2,69 13 7,32 2,28 0,72 7,15 0,53 0 300 500 400 0 74,83 122,22 164 0 2,14 14 5,09 1,88 0,52 4,21 0,41 0 300 500 400 0 74,86 121,24 164,2 0 1,32 15 4,39 1,62 0,38 2,04 0,36 0 300 500 400 0 75,38 122,25 164,12 0 0,74 Rata-rata 23,94 4,00 5,75 39,44 4,73 0,66 300 500 400 80 75,36 121,66 164,03 20,86 13,15
Keterangan: DB = Diameter of Base (Diameter pangkal), DS = Diameter of Stem (Diameter pelepah)