Abstract
A major paradigm in biosphere ecology is that organic production, carbon turnover and, perhaps, species diversity are highest at tropical latitudes, and decrease toward higher latitudes. To examine these trends in the pantropical mangrove forest vegetation type, we collated and analysed data on above-ground biomass and annual litterfall for these communities. Regressions of biomass and litterfall data show significant relationships with height of the vegetation and latitude. It is suggested that height and latitude are causally related to biomass, while the relationship with litterfall reflects the specific growing conditions at the respective study sites. Comparison of mangrove and upland forest litterfall data shows similar trends with latitude but indicates that mangrove litterfall is higher than upland forest litterfall. The regression equations allow the litterfall/biomass ratio to be simulated, and this suggests that the patterns of organic matter partitioning differ according to latitude.
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References
Adaime RR (1985) Produçao do bosque de mangue da Gamboa Nobrega. Ph.D. Thesis, Universidade de Sao Paulo
Amarasinghe MD, Balasubrananiam S (1992a) Structural properties of two mangrove forest stands on the northwestern coast of Sri Lanka. Hydrobiologia 247:17–27
Amarasinghe MD, Balasubrananiam S (1992b) Net primary productivity of two mangrove forest stands on the northwestern coast of Sri Lanka. Hydrobiologia 247:37–47
Briggs SV (1977) Estimates of biomass in a temperate mangrove community. Aust J Ecol 2:369–373
Burchett MD, Pulkownik A (1983) Distribution of habitat types and their productivities. In: Moss J (ed) Investigation of the natural areas of Kooragang Island. NSW Dept Environment and Planning, Sydney, pp. 145–165
Christensen B (1978) Biomass and primary production of Rhizophora apiculata B1. in a mangrove in southern Thailand. Aquat Bot 4:43–52
Cintron G, Lugo AE, Pool DJ, Morris G (1978) Mangroves of arid environments in Puerto Rico and adjacent islands. Biotropica 10:110–121
Clough BF, Attiwill PM (1975) Nutrient cycling in a community of Avicennia marina in a temperate region of Australia. In: Walsh GE, Snedaker SC, Teas HJ (eds) Proceedings of the international symposium on biology and management of mangroves; vol. 1. Institute of Food and Agricultural Sciences, University of Florida, Gainesville, pp 137–146
Clough BF, Attiwill PM (1982) Primary productivity of mangroves. In: Clough BF (ed) Mangrove ecosystems in Australia — structure, function and management. Australian Institute of Marine Science, Townsville, pp 213–222
Courtney CM (1980) Production and decomposition in an impounded black mangrove forest. Fla Sci 43 suppl: 23
Davie JDS (1984) Structural variation, litter production and nutrient status of mangrove vegetation in Moreton Bay. In: Coleman RJ, Covacevich J, Davie P (eds) Focus on Stradbroke. New information on North Stradbroke Island and surrounding areas, 1974–1984. Boolarong Publications, Brisbane, pp 208–223
Day WD, Conner WH, Ley-Lou F, Day RH, Navarro AM (1987) The productivity and composition of mangrove forests, Laguna de Terminos, Mexico. Aquat Bot 27:267–284
Duke NC (1988) Phenologies and litter fall of two mangrove trees, Sonneratia alba Sm. and S. caseolaris (L.) Engl. and their putative hybrid, S. x gulngai N.C. Duke. Aust J Bot 36:473–482
Duke NC, Bunt JS, Williams WT (1981) Mangrove litter fall in northeastern Australia. I. Annual totals by component of selected species. Aust J Bot 29:547–553
Flores-Verdugo FJ, Day JW, Briseno-Duenas R (1987) Structure, litter fall, decomposition, and detritus dynamics of mangroves in a Mexican coastal lagoon with an ephemeral inlet. Mar Ecol Prog Ser 35:83–90
Golley FB, Odum HT, Wilson RF (1962) The structure and metabolism of a Puerto Rican red mangrove forest in May. Ecology 43:9–19
Golley FB, McGinnis JT, Clements RT, Child Gl, Duever MJ (1975) Mineral cycling in a tropical moist forest ecosystem. University of Georgia Press, Athens
Gong WK, Ong JE, Wong CH, Dhanarajan G (1984) Productivity of mangrove trees and its significance in a managed mangrove ecosystem in Malaysia. In: Soepadmo E, Rao AN, Macintosh DJ (eds) Proceedings of the Asian Symposium on Mangrove Environment Research and Development. Percetakan Ardyas Sdn. Bhd. Kuala Lumpur, Malaysia, pp 216–225
Goulter PFE, Allaway WG (1979) Litter fall and decomposition in a mangrove stand, Avicennia marina (Forsk.) Vierh., in Middle Harbour, Sydney. Aust J Mar Freshwat Res 30:541–546
Heald EJ (1971) The production of organic detritus in a south Florida estuary. Univ Miami Sea Grant Tech Bull 6:1–110
Komiyama A, Ogino K, Aksornkoae S, Sabhasri S (1987) Root biomass of a mangrove forest in southern Thailand. I. Estimation by the trench method and the zonal structure of root biomass. J Trop Ecol 3:97–108
Komiyama A, Moriya H, Prawiroatmodjo S, Toma T, Ogino K (1988) Primary productivity of mangrove forest. In: Ogino K, Chihara M (eds) Biological system of mangroves. A report of east Indonesian mangrove expedition 1986. Ehime University, Ehime, pp 97–117
Lahmann EJ (1988) Effects of different hydrological regimes on the productivity of Rhizophora mangle L. A case study of mosquito control impoundments at Hutchinson Island, Saint Lucie County, Florida. Ph.D. Thesis, University of Miami
Leach GJ, Burgin S (1985) Litter production and seasonality of mangroves in Papua New Guinea. Aquat Bot 23:215–224
Lee SY (1989) Litter production and turnover of the mangrove Kandelia candel (L.) Druce in a Hong Kong tidal shrimp pond. Estuarine Coastal Shelf Sci 29:75–87
Lopez-Portillo J, Ezcurra E (1985) Litter fall of Avicennia germinans L. in a one-year cycle in a mudflat at the Laguna de Mecoacan, Tabasco, Mexico. Biotropica 17:186–190
Lugo AE, Snedaker SC (1974) The ecology of mangroves. Annu Rev Ecol Syst 5:39–64
Lugo AE, Twilley RR, Patterson-Zucca C (1980) The role of black mangrove forests in the productivity of coastal ecosystems in south Florida. Report to E.P.A. Corvallis Environmental Research Laboratory, Corvallis, Oregon
Margalef R (1963) On certain unifying principles in ecology. Am Nat 97:357–374
Mullen K, Hernandez A (1978) Productividad primaria neta en un manglar del Pacifico Colombiano. In: Velez MV, Beltran RR (eds) Memorias seminario sobre el Oceano Pacifico Sudamericano, vol. 1. Universidad del Valle, Cali, Colombia, pp 663–685
Murray F (1985) Cycling of fluoride in a mangrove community near a fluoride emission source. J Appl Ecol 22:277–285
Ong JE, Gong WK, Wong CH (1980) Ecological survey of the Sungai Merbok estuarine mangrove ecosystem. Universiti Sains Malaysia, Penang
Ong JE, Gong WK, Wong CH (1981) Ecological monitoring of the Sungai Merbok estuarine mangrove ecosystem. Universiti Sains Malaysia, Penang
Peng L, Lu C (1990) Biomass and productivity of Bruguiera sexangula mangrove forest in Hainan Island, China. Journal Xiamen University (Natural Science) 29:209–213
Pool DJ, Lugo AE, Snedaker SC (1975) Litter production in mangrove forests of southern Florida and Puerto Rico. In: Walsh GE, Snedaker SC, Teas HJ (eds) Proceedings of the international symposium on biology and management of mangroves, vol. 2. Institute of Food and Agricultural Sciences, University of Florida, Gainesville, pp 213–237
Pool DJ, Snedaker SC, Lugo AE (1977) Structure of mangrove forests in Florida, Puerto Rico, Mexico and Costa Rica. Biotropica 9:195–212
Proctor J (1983) Tropical forest litterfall. I. Problems of data comparison In: Sutton SL, Whitmore TC, Chadwick AC (eds) Tropical rain forest: ecology and management. Blackwell Scientific Publications, Oxford, pp 267–273
Proctor J (1984) Tropical forest litterfall. II. The data set. In: Chadwick AC, Sutton SL (eds) Tropical rain forest: ecology and management, supplementary volume. Blackwell Scientific Publications, Oxford, pp 83–113
Saenger P, Holmes N (1991) Physiological, temperature tolerance and behavioral differences between tropical and temperate organisms. In: Connell DW, Hawker DW (eds) Pollution in tropical systems. CRC Press, Florida, pp 69–95
Sasekumar A, Loi JJ (1983) Litter production in three mangrove forest zones in the Malay Peninsula. Aquat Bot 17:283–290
Steinke TD, Charles LM (1984) Productivity and phenology of Avicennia marina (Forsk.) Vierh. and Bruguiera gymnorrhiza (L.) Lam. in Mgeni Estuary, South Africa. In: Teas HJ (ed) Physiology and management of mangroves. Junk, The Hague, pp 25–36
Suzuki E, Tagawa H (1983) Biomass of a mangrove forest and a sedge marsh in Ishigaki Island, South Japan. Japan. J Ecol 33:231–234
Tamai S, Nakasuga T, Tabuchi R, Ogino K (1983) Ecological studies of mangrove forests in southern Thailand: standing structure and biomass. Mangrove ecology in Thailand. Bulletin of the Thai-Japanese Co-operative Research Project on Mangrove Productivity and Development 1981–1982:3–15
Teas HJ (1979) Silviculture with saline water. In: Hollaender A (ed) The biosaline concept. Plenum Press, New York, pp 117–161
Tomlinson PB (1986) The botany of mangroves. Cambridge University Press, Cambridge
Twilley RR (1982) Litter dynamics and organic carbon exchange in black mangrove (Avicennia germinans) basin forests in a southwest Florida estuary. Ph.D. Thesis, University of Florida, Gainesville
Woodroffe CD (1985) Studies of a mangrove basin, Tuff Crater, New Zealand: I. Mangrove biomass and production of detritus. Estuarine Coastal Shelf Sci 20:265–280
Woodroffe CD, Moss TJ (1984) Litter fall beneath Rhizophora stylosa Griff., Vaitupu, Tuvalu, South Pacific. Aquat Bot 18:249–255
Woodroffe CD, Bardsley KN, Ward PJ, Hanley JR (1988) Production of mangrove litter in a macrotidal embayment, Darwin Harbour, N.T., Australia. Estuarine Coastal Shelf Sci 26:581–598
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Saenger, P., Snedaker, S.C. Pantropical trends in mangrove above-ground biomass and annual litterfall. Oecologia 96, 293–299 (1993). https://doi.org/10.1007/BF00317496
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DOI: https://doi.org/10.1007/BF00317496