Abstract
This work analysed the carbon sequestration potential in two species of mangroves (Rhizophora mucronata and Avicennia marina) along with their growth, biomass, sediment characteristics for four seasons of the year 2009–2010, in planted stands of different age (1–17.5 years) in the Vellar-Coleroon estuarine complex, India. The mangroves were recorded to store significant amount of biomass. Avicennia marina performed better to display 75 % higher rate of carbon sequestration than that in Rhizophora mucronata. This could be attributed to growth efficiency and high biomass production. For instance, Avicennia marina exhibited 2.7 fold higher girth, 24 % higher net canopy photosynthesis, 2 fold aboveground biomass (AGB), 40 % more belowground biomass (BGB) and 77.3 % higher total biomass, than R. mucronata did. Seasonally the rate of carbon sequestration was 7.3 fold higher in post-monsoon, 3.4 fold in monsoon, 73 % more in summer than that in pre-monsoon. The rate of carbon sequestration was positively correlated with age of planted site, tree height, tree diameter, net canopy photosynthesis, AGB, BGB, total biomass, carbon stock, growth efficiency, AGB/tree height tree girth, leaf area index, silt content (p < 0.01). The carbon sequestration was negatively corrected with soil temperature and clay content (p < 0.05). Mangroves were found to be a productive system and important sink of carbon in the tropical coastal zone, but increasing soil temperature due to global warming would have a negative impact on carbon sequestration potential of the mangroves.
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References
Along DM, Dixon P (2000) Mangrove primary production and above—and below ground biomass in Sawi Bay, southern Thailand. Phuket Mar Biol Cent Spec Publ 22:31–38
Alongi DM (2007) The contribution of mangrove ecosystems to global carbon cycling and greenhouse gas emissions. In: Tateda Y, Upstill-Goddard R, Goreau T, Alongi D, Nose A, Kristensen E, Wattayakorn G (eds) Greenhouse gas and carbon balances in mangrove coastal ecosystems. Maruzen, Tokyo, pp 1–10
Alongi DM, Ramanathan AL, Kannan L, Tirendi F, Trott LA, Balakrishna Prasad M (2005a) Influence of human-induced disturbance on benthic microbial metabolism in the Pichavaram mangroves, Vellar-Coleroon estuarine complex, India. Mar Biol 147:1033–1044
Alongi DM, Pfitzner J, Trott LA, Tirendif Dixon P, Klumpp DW (2005b) Rapid sediment accumulation and microbial mineralization in forests of the mangrove Kandelia candel in the Jiulongjiang Estuary, China. Estuar Coast Shelf Sci 63:605–618
Boto KG, Wellington JT (1988) Seasonal variations in concentrations and fluxes of dissolved organic and inorganic materials in a tropical, tidally-dominated, mangrove waterway. Mar Ecol Prog Ser 50:151–160
Bouillon SR, Connolly, Lee SY (2008) Carbon exchange and cycling in mangrove ecosystems: a synthesis of recent insights based on stable isotope studies. J Sea Res 59:44–58
Buchanan JB (1984) Sediment analysis. In: Holme NA, McIntyre AD (eds) Methods for the study of Marine Benthos. Blackwell Scientific Publictaions, London, pp 41–65
Bunt JS, Boto KG, Boto G (1979) A survey method for estimating potential levels of mangrove forest primary production. Mar Biol 52:123–128
Cebrain J (2002) Variability and control of carbon consumption, export, and accumulation in marine communities. Limnol Oceanogr 47:11–22
Chave J, Andalo C, Brown S, Cairns MA, Chambers JQ, Eamus D, Folster H, Fromard F, Higuchi N, Kira T, Lescure JP, Nelson BW, Ogawa H, Puig H, Riera B, Yamakura T (2005) Tree allometry and improved estimation of carbon stocks and balance in tropical forests. Oecologia 145:87–99
Clough BF (1997) Mangrove ecosystems. In: English S, Wilkinson C, Baker V (eds) Survy manual for tropical marine resources, 2nd edn. Australian Institute of Marine Science Townsville pp 119–196
Clough BF, Dixon P, Dalhaus O (1997) Allometric relationships for estimating biomass in multi-stemmed mangrove trees. Aust J Bot 45:1023–1031
Clough BF, Patanaporpaiboon P, Poungparn S (2000) Forest structure and carbon fixation by mangroves at Chumphon, Southern Thailand. In: Alongi DM, Ayukai T (eds) Carbon Fixation and storage in coastal ecosystems-phase 2. Final Report to the Kansai Electric Power Co., Japan, Australian Institute of Marine Science, Townsville pp 10–16
Dahdouh-Guebas F, Koedam N (2006) Empirical estimate of the reliability of the use of the Point-Centred Quarter Method (PCQM): Solutions to ambiguous field situations and description of the PCQM + protocol. Forest Ecol Manage 228:1–18
Duarte CM, Middelburg JJ, Caraco N (2005) Major role of marine vegetation on the oceanic carbon cycle. Biogeosciences 2:1–8
English SC, Wilkinson Basker V (1997) Survey manual for tropical marine resources, 2nd edn. Australian Institute of Mar Sci Townsville pp 119–195
Farnsworth EJ, Ellison AM, Gong WK (1996) Elevated CO2 alters anatomy, physiology, growth and reproduction of red mangrove (Rhizophora mangle L.). Oecologia 108:599–609
Feller IC (1995) Effects of nutrient enrichment on growth and herbivory of dwarf red mangrove (Rhizophora mangle). Ecol Monogr 65:477–505
Feller IC, Lovelock CE, McKee KL (2007) Nutrient addition differentially affects ecological processes of Avicennia germinans in nitrogen vs. phosphorus limited mangrove. Ecosystems 10:347–359
Fromard F, Puig H, Mougin E, Marty G, Betoulle JL, Cadamuro L (1998) Structure above-ground biomass and dynamics of mangrove ecosystems: new data from French Guiana. Oecologia 115:39–53
Golley F, Odum HT, Wilson R (1962) The structure and metabolism of a Puerto Rican red mangrove forest in May. Ecology 43:9–19
Hozumi K, Yoda K, Kokawa S, Kira T (1969) Production ecology of tropical rain forest in southern Cambodia I. Plant Biomass. Nat Life SE Asia 6:1–51
Kathiresan K (2000) A review of studies on Pichavaram mangroves, southeast India. Hydrobiologia 430:185–205
Kathiresan K, Bingham BL (2001) Biology of mangroves and mangrove ecosystems. Adv Mar Biol 40:81–251
Khan MNI, Suwa R, Hagihara A (2009) Biomass and above-ground net primary production in a subtropical mangrove stand of Kandelia obovata (S.L.) Yong at Manko Wetland, Okinawa, Japan. Wetl Ecol Manag 17:585–599
Koch MS (1997) Rhizophora mangle L. seedling development into the sapling stage across resource and stress gradients in subtropical Florida. Biotropica 29:427–439
Komiyama A (2006) What is required for scientists towards the mangrove management? In: Kyoto Symposium on mangrove management 1–17
Komiyama A, Ogino K, Aksornkoae S, Sabhasri S (1987) Root biomass of a mangrove forest in southern Thailand. J Trop Ecol 3:97–108
Komiyama A, Moriya H, Prawiroatmodjo S, Toma T, Ogino K (1988) Forest primary productivity. In: Ogino K, Chihara M (eds) Biological system of mangrove. Ehime University pp 97–117
Komiyama A, Havanond S, Srisawatt W, Mochida Y, Fujimoto K, Ohnishi T, Ishihara S, Miyagi T (2000) Top/root biomass ratio of a secondary mangrove (Ceriops tagal (Perr.)C.B.Rob) forest. Forest Ecol Manage 139:127–134
Komiyama A, Poungparn S, Kato S (2005) Common allometric equations for estimating the tree weight of mangroves. J Trop Ecol 21:471–477
Komiyama A, Ong JE, Poungparn S (2008) Allometry, biomass and productivity of mangrove forests: a review. Aquat Bot 89:128–137
Krauss KW, Lovelock CE, Mckee KL, Lopez-Hoffman L, Ewe SML, Sousa WP (2008) Environmental drivers in mangrove establishment and early development: a review. Aquat Bot 89:105–127
Lovelock CE, Feller IC, Mckee KL, Thompson R (2005) Variation in mangrove forest structure and sediment characteristics in Bocas del Toro Republic of Panama. Caribb J Sci 41:456–464
Lovelock CE, Feller IC, Ellis J, Hancock N, Schwarz AM, Sorrell B (2007) Mangrove growth in New Zealand estuaries: the role of nutrient enrichment at sites with contrasting rates of sedimentation. Oecologia 153:633–641
Lugo AE, Snedaker SC (1974) The ecology of mangroves. Ann Rev Ecol Evol Syst 5:39–64
Mackey AP (1993) Biomass of the mangrove Avicennia marina (Forsk.)Vierh. near Brisbane, south eastern Queensland. Aust J Mar Freshwat Res 44:721–725
Naidoo G (2006) Factors contributing to dwarfing in the mangrove Avicennia marina. Ann Bot 97:1095–1101
Ogawa H, Yoda K, Ogino K, Kira T (1965) Comparative ecological studies on three main type of forest vegetation in Thailand. Nat Life SE Asia 4:49–80
Ong JE, Gong WK, Clough CH (1995) Structure and productivity of a 20-year old stand of Rhizophora apiculata Bl. Mangrove forests. J Biogeogr 22:417–427
Putz F, Chen HT (1986) Tree growth dynamics and productivity in a mature mangrove forest in Malaysia. Forest Ecol Manage 17:211–230
Saintilan N (1997a) Above- and below- ground biomass of two species of mangrove in a sub-tropical estuary. Mar Freshwat Res 48:601–604
Saintilan N (1997b) Above and below ground biomass of two specie of mangrove on the Hawkesbury River estuary, New South Wales. Mar Freshwat Res 48:47–152
Suzuki E, Tagawa E (1983) Biomass of a mangrove forest and a sedge marsh on Ishigaki Island, south Japan. J Ecol 33:231–234
Tamai S, Nakasuga T, Tabuchi R, Ogino K (1986) Standing biomass of mangrove forests in southern Thailand. J Jpn For Soc 68:384–388
Teas HJ (1979) Silviculture with saline water. In: Hollaender A, Aller JC, Epstein E, Pietro AS, Zaborsky OR (eds) The bio saline concept. Plenum Press, New York, pp 117–161
Twilley RR, Chen RH, Hargis T (1992) Carbon sinks in mangroves and their implications to carbon budget of tropical coastal ecosystems. Water Air Soil Pollut 64:265–288
Yamamoto F, Sakata T, Terazawa K (1995) Physiological, morphological and anatomical responses of Fraxinus mandshurica seedlings to flooding. Tree Physiol 15:713–719
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Authors are thankful to the authorities of Annamalai University for providing facilities and to the Ministry of Earth Sciences, Govt. of India for financial support.
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Kathiresan, K., Anburaj, R., Gomathi, V. et al. Carbon sequestration potential of Rhizophora mucronata and Avicennia marina as influenced by age, season, growth and sediment characteristics in southeast coast of India. J Coast Conserv 17, 397–408 (2013). https://doi.org/10.1007/s11852-013-0236-5
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DOI: https://doi.org/10.1007/s11852-013-0236-5