Abstract
We investigated the restoration trajectories in vegetation and soil parameters of monospecific Rhizophora mucronata stands planted 6, 8, 10, 11, 12, 17, 18, and 50 years ago (restored system). We tested the hypothesis that the changes in vegetation characteristics, with progressing mangrove age, are related to the changes in soil characteristics. The vegetation and soil parameters were compared across this restoration sequence using a reference system comprising mature, natural mangrove stands of unknown age. Rapid increases in leaf area index and aboveground biomass, and declines in tree density and size (in terms of tree diameter and height) occurred with increasing stand age. Soil organic matter, total nitrogen, and soil redox potential increased, and soil temperature decreased as stands aged. These patterns tended to stabilize at approximately the 11th year, indicating the probable age that restoration plots tend toward forest maturity. The time for the restored systems to reach forest maturity, attaining characteristics similar to the reference system, is estimated at 25 years, which is relatively slow compared to forest regeneration trajectories estimated for natural mangroves. Our study describes the trajectory patterns for planted mangroves, which are important for the assessment of both the progress and success of mangrove rehabilitation programs.
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References
Aksornkoae, S., 1996. Reforestation of mangrove forests in Thailand. In Field, C. D. (ed.), Restoration of Mangrove Ecosystems. International Society for Mangrove Ecosystems, Okinawa: 52–63.
Alongi, D. M., 2009. The Energetics of Mangrove Forests. Springer, Townsville: 216 pp.
Analuddin, K., R. Suwa & K. Hagihara, 2009. The self-thinning process in mangrove Kandelia obovata stands. Journal of Plant Research 122: 53–59.
Araujo, R. J., J. C. Jaramillo & S. C. Snedaker, 1997. LAI and leaf size differences in two red mangrove forest types in South Florida. Bulletin of Marine Science 60(3): 643–647.
Baldwin, A., M. Egnotovich & W. Platt, 2001. Regeneration in fringe mangrove forests damaged by Hurricane Andrew. Plant Ecology 157: 149–162.
Barbier, E. B., 2006. Natural barriers to natural disasters: replanting mangroves after the tsunami. Frontiers in Ecology and the Environment 4(3): 124–131.
Bosire, J. O., F. Dahdouh-Guebas, J. G. Kairo & N. Koedam, 2003. Colonization of non-planted mangrove species into restored mangrove stands in Gazi Bay, Kenya. Aquatic Botany 76: 267–279.
Bosire, J. O., F. Dahdouh-Guebas, J. G. Kairo, J. M. Kazungu, F. Dehairs & N. Koedam, 2005. Litter degradation and CN dynamics in reforested mangrove plantations at Gazi Bay, Kenya. Biological Conservation 126: 287–295.
Bosire, J. O., F. Dahdouh-Guebas, M. Walton, B. I. Crona, R. R. Lewis III, C. Field & N. Koedam, 2008. Functionality of restored mangroves – a review. Aquatic Botany 89: 251–259.
Boto, K. G., 1984. Waterlogged saline soils. In Snedaker, S. C. & J. C. Snedaker (eds), The Mangrove Ecosystem: Research Methods. UNESCO, Paris: 114–130.
Boto, K. G. & J. T. Wellington, 1984. Soil characteristics and nutrient status in a northern Australian mangrove forest. Estuaries 7: 61–69.
Bouillon, S., 2011. Carbon cycle: storage beneath mangroves. Nature Geoscience 4: 282–283.
Bray, R. H. & L. T. Kurtz, 1945. Determination of total, organic, and available forms of phosphorus in soils. Soil Science 59: 39–45.
Cardona, P. & L. Botero, 1998. Soil characteristics and vegetation structure in a heavily deteriorated mangrove forest in the Caribbean coast of Colombia. Biotropica 30(1): 24–34.
Chan, H. T., 1996. Mangrove reforestation in Peninsular Malaysia: a case study of Matang. In Field, C. D. (ed.), Restoration of Mangrove Ecosystems. International Society of Mangrove Ecosystems, Okinawa: 64–75.
Chapman, M. G. & T. J. Tolhurst, 2007. Relationships between benthic macrofauna and biogeochemical properties of sediments at different spatial scales and among different habitats in mangrove forests. Journal of Experimental Marine Biology and Ecology 343: 96–109.
Chazdon, R. L., 2003. Tropical forest recovery: legacies of human impact and natural disturbances. Perspectives in Plant Ecology Evolution and Systematics 6/1(2): 51–71.
Chen, R. & R. R. Twilley, 1998. A gap dynamic model of mangrove forest development along gradients of soil salinity and nutrient resources. The Journal of Ecology 86(1): 37–51.
Chen, R. & R. R. Twilley, 1999. Patterns of mangrove forest structure and soil nutrient dynamics along the Shark River Estuary, Florida. Estuaries 22(4): 955–970.
Clarke, P. J., 1995. The population dynamics of the mangrove Avicennia marina: demographic synthesis and predictive modelling. Hydrobiologia 295: 83–88.
Clarke, K. R. & R. N. Gorley, 2006. PRIMER v6: User Manual/Tutorial. PRIMER-E, Plymouth.
Clough, B. F., 1998. Mangrove forest productivity and biomass accumulation in Hinchinbrook Channel, Australia. Mangroves and Salt Marshes 2: 191–198.
Clough, B. F., J. E. Ong & W. K. Gong, 1997. Estimating leaf area index and photosynthetic production in canopies of the mangrove Rhizophora apiculata. Marine Ecology Progress Series 159: 285–292.
Clough, B., D. T. Tan, D. X. Phuong & D. C. Buu, 2000. Canopy leaf area index and litter fall in stands of the mangrove Rhizophora apiculata of different age in the Mekong Delta, Vietnam. Aquatic Botany 66: 311–320.
Cohen, M. C. L., R. J. Lara, J. F. D. Ramos & T. Dittmar, 1999. Factors influencing the variability of Mg, Ca and K in waters of a mangrove creek in Braganca, North Brazil. Mangroves and Salt Marshes 3: 9–15.
Colonello, G. & E. Medina, 1998. Vegetation changes induced by dam construction in a tropical estuary: the case of the Manamo river, Orinoco Delta (Venezuela). Plant Ecology 139: 145–154.
Connell, J. H., 1978. Diversity in tropical rain forests and coral reefs. Science 199(4335): 1302–1310.
Crona, B. I. & P. Ronnback, 2005. Use of replanted mangroves as nursery grounds by shrimp communities in Gazi Bay, Kenya. Estuarine, Coastal and Shelf Science 65(3): 535–544.
De Boer, T. A., 1983. Vegetation as an indicator of environmental changes. Environmental Monitoring and Assessment 3: 375–380.
Donato, D. C., J. B. Kauffman, D. Murdiyarso, S. Kurnianto, M. Stidham & M. Kanninen, 2011. Mangroves among the most carbon-rich forests in the tropics. Nature Geoscience 4: 293–297.
Duarte, C. M., O. Geertz-Hansen, U. Thampanya, J. Terrados, M. D. Fortes, L. Kamp-Nielsen, J. Borum & S. Boromthanarath, 1998. Relationship between sediment conditions and mangrove Rhizophora apiculata seedling growth and nutrient status. Marine Ecology Progress Series 175: 277–283.
Duke, N. C., 2001. Gap creation and regenerative processes driving diversity and structure of mangrove ecosystems. Wetlands Ecology and Management 9: 257–269.
Ellison, A. M., 2000. Mangrove restoration: do we know enough? Restoration Ecology 8(3): 219–229.
Evans, J., 1999. Planted forests of the wet and dry tropics: their variety, nature, and significance. In Boyle, J. R., J. K. Winjum, K. Kavanagh & E. C. Jensen (eds), Planted Forests: Contributions to the Quest for Sustainable Societies. Kluwer, Dordrecht: 25–36.
Feller, I. C., 1995. Effects of nutrient enrichment on growth and herbivory of dwarf red mangrove (Rhizophora mangle). Ecological Monographs 65(4): 477–505.
Field, C. D., 1999. Mangrove rehabilitation: choice and necessity. Hydrobiologia 413: 47–52.
Fromard, F., H. Puig, E. Mougin, G. Marty, J. L. Bertoulle & L. Cadamuro, 1998. Structure, above-ground biomass and dynamics of mangrove ecosystems: new data from French Guiana. Oecologia 115: 39–53.
Green, R. H., 1979. Sampling Design and Statistical Methods for Environmental Biologists. Wiley, New York: 257.
Green, E. P., P. J. Mumby, A. J. Edwards, C. D. Clark & A. C. Ellis, 1997. Estimating leaf area index of mangroves from satellite data. Aquatic Botany 58(1): 11–19.
Guariguata, M. R. & R. Ostertag, 2001. Neotropical secondary forest succession: changes in structural and functional characteristics. Forest Ecology and Management 148: 185–206.
Hong, P. N., 1996. Restoration of mangrove ecosystems in Vietnam: a case study of Can Gio District, Ho Chi Minh City. In Field, C. D. (ed.), Restoration of Mangrove Ecosystems. International Society of Mangrove Ecosystems, Okinawa: 76–96.
Hooper, D. U. & P. M. Vitousek, 1997. The effects of plant competition and diversity on ecosystem processes. Science 277: 1302–1305.
Imai, N., M. Takyu, Y. Nakamura & T. Nakamura, 2006. Gap formation and regeneration of tropical mangrove forests in Ranong, Thailand. Plant Ecology 186: 37–46.
Ishii, T. & Y. Tateda, 2004. Leaf area index and biomass estimation for mangrove plantation in Thailand. Geoscience and Remote Sensing Symposium. IGARRS’04 Proceedings: 2323–2326.
Jimenez, J. A., A. E. Lugo & G. Cintron, 1985. Tree mortality in mangrove forests. Biotropica 17(3): 177–185.
Kaly, U. L. & G. P. Jones, 1998. Mangrove restoration: a potential tool for coastal management in tropical developing countries. Ambio 27(8): 656–661.
Kathiresan, K. & B. L. Bingham, 2001. Biology of mangroves and mangrove ecosystems. Advances in Marine Biology 40: 81–251.
Katon, B. M., R. S. Pomeroy, L. R. Garces & M. W. Ring, 2000. Rehabilitating the mangrove resources of Cogtong Bay, Philippines: a co-management perspective. Coastal Management 28(1): 29–37.
Kellner, J. R., G. P. Asner, P. M. Vitousek, M. A. Tweiten, S. Hotchkiss & O. A. Chadwick, 2011. Dependence of forest structure and dynamics on substrate age and ecosystem development. Ecosystems 14: 1156–1167.
Komiyama, A., K. Ogino, S. Aksornkoae & S. Sabhasri, 1987. Root biomass of a mangrove forest in southern Thailand. 1. Estimation by the trench method and the zonal structure of root biomass. Journal of Tropical Ecology 3: 97–108.
Komiyama, A., H. Moriya, S. Prawiroatmodjo, T. Toma & K. Ogino, 1988. Forest primary productivity. In Ogino, K. & M. Chihara (eds), Biological System of Mangrove. Ehime University, Matsuyama: 97–117.
Komiyama, A., J. E. Ong & S. Poungparn, 2008. Allometry, biomass and productivity of mangrove forests: a review. Aquatic Botany 89: 128–137.
Lewis III, R. R., 2005. Ecological engineering for successful management and restoration of mangrove forests. Ecological Engineering 24(4): 403–418.
Lovelock, C. E., B. K. Sorrell, N. Hancock, Q. Hua & A. Swales, 2010. Mangrove forest and soil development on a rapidly accreting shore in New Zealand. Ecosystems 13(3): 437–451.
Masera, O. R., J. F. Garza-Caligaris, M. Kanninen, T. Karjalainen, J. Liski, G. J. Nabuurs, A. Pussinen, B. H. J. de Jong & G. M. J. Mohren, 2003. Modeling carbon sequestration in afforestation, agroforestry and forest management projects: the CO2FIX V. 2 approach. Ecological Modelling 164: 177–199.
McKee, K. L., 1993. Soil physicochemical patterns and mangrove species distribution – reciprocal effects? The Journal of Ecology 81(3): 477–487.
McKee, K. L., 1995. Interspecific variation in growth, biomass partitioning, and defensive characteristics of neotropical mangrove seedlings: response to light and nutrient availability. American Journal of Botany 82(3): 299–307.
McKee, K. L., 2010. Biophysical controls on accretion and elevation change in Caribbean mangrove ecosystems. Estuarine, Coastal and Shelf Science 91(4): 475–483.
McKee, K. L., 2011. Biophysical controls on accretion and elevation change in Caribbean mangrove ecosystems. Estuarine, Coastal and Shelf Science 91: 475–483.
McKee, K. L. & P. L. Faulkner, 2000. Biogeochemical functioning of restored and natural mangrove forests in Southwest Florida, USA. Restoration Ecology 8: 247–259.
Mcleod, E., G. L. Chmura, S. Bouillon, R. Salm, M. Bjork, C. M. Duarte, C. E. Lovelock, W. H. Schlesinger & B. R. Silliman, 2011. A blueprint for blue carbon: toward an improved understanding of the role of vegetated coastal habitats in sequestering CO2. Frontiers in Ecology and the Environment 9(10): 552–560.
Michener, W. K., 1997. Quantitatively evaluating restoration experiments: research design, statistical analysis, and data management considerations. Restoration Ecology 5(4): 324–337.
Milbrandt, E. C., J. M. Greenawalt-Boswell, P. D. Sokoloff & S. A. Bortone, 2006. Impact and response of Southwest Florida mangroves to the 2004 hurricane season. Estuaries and Coasts 29(6): 979–984.
Morgan, P. A. & F. T. Short, 2002. Using functional trajectories to track constructed salt marsh development in the Great Bay Estuary, Maine/New Hampshire, USA. Restoration Ecology 10: 461–473.
Morrisey, D. J., G. A. Skilleter, J. I. Ellis, B. R. Burns, C. E. Kemp & K. Burta, 2003. Differences in benthic fauna and sediment among mangrove (Avicennia marina var. australasica) stands of different ages in New Zealand. Estuarine, Coastal and Shelf Science 56: 581–592.
Nagelkerken, I., S. J. M. Blaber, S. Bouillon, P. Green, M. Haywood, L. G. Kirton, J.-O. Meynecke, J. Pawlik, H. M. Penrose, A. Sasekumar & P. J. Somerfield, 2008. The habitat function of mangroves for terrestrial and marine fauna: a review. Aquatic Botany 89: 155–185.
Nelson, D. W. & L. E. Sommers, 1972. A simple digestion procedure for estimation of total nitrogen in soils and sediments. Journal of Environmental Quality 1(4): 423–425.
Nichols, O. G. & F. M. Nichols, 2003. Long-term trends in faunal recolonization after bauxite mining in the jarrah forest of south-western Australia. Restoration Ecology 11: 261–272.
Niklas, K. J., J. J. Midgley & R. H. Rand, 2003. Tree size frequency distributions, plant density, age and community disturbance. Ecology Letters 6: 405–411.
Oliver, C. D. & B. C. Larson, 1996. Forest Stand Dynamics. Wiley Inc., New York: 520 pp.
Ong, J. E., G. W. Khoon & C. H. Wong, 1982. Productivity and nutrient status of litter in a managed mangrove forest in Malaysia. In: Kostermans, A. Y. & S. S. Sastroutomo (eds), Proceedings of the Symposium on Mangrove Forest Ecosystem Productivity in Southeast Asia. BIOTROP Special Publication No. 17, Bogor, Indonesia.
Ong, J. E., W. K. Gong & C. H. Wong, 2004. Allometry and partitioning of the mangrove, Rhizophora apiculata. Forest Ecology and Management 188: 395–408.
Osland, J. M., A. C. Spivak, J. A. Nestlerode, J. M. Lessmann, A. E. Almario, P. T. Heitmuller, M. J. Russell, K. W. Krauss, F. Alvarez, D. D. Dantin, J. E. Harvey, A. S. From, N. Cormier & C. L. Stagg, 2012. Ecosystem development after mangrove wetland creation: plant–soil change across a 20-year chronosequence. Ecosystems 15: 848–866.
Pernetta, J. C., 1993. Mangrove Forests, Climate Change and Sea Level Rise: Hydrological Influences on Community Structure and Survival, with Examples from the Indo-West Pacific. A Marine Conservation and Development Report. IUCN, Gland, Switzerland.
Pickett, S. T. A., 1989. Space-for-time substitution as an alternative to long-term studies. In Likens, G. E. (ed.), Long-Term Studies in Ecology: Approaches and Alternatives. Springer, New York: 110–135.
Primavera, J. H. & J. M. A. Esteban, 2008. A review of mangrove rehabilitation in the Philippines: successes, failures and future prospects. Wetlands Ecology and Management 16(5): 345–358.
Putz, F. E. & H. T. Chan, 1986. Tree growth, dynamics and productivity in a mature mangrove forests in Malaysia. Forest Ecology and Management 17: 211–230.
R Development Core Team, 2012. R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria, http://www.R-project.org/. Accessed 30 September 2012.
Ramsey, E. W. & J. R. Jensen, 1996. Remote sensing of mangrove wetlands: relating penetration theory and a test case. Journal of Applied Ecology 12: 839–878.
Ren, H., S. Jian, H. Lu, Q. Zhang, W. Shen, W. Han, Z. Yin & Q. Guo, 2008. Restoration of mangrove plantations and colonization by native species in Leizhou Bay. South China. Ecological Research 23(2): 401–407.
Rivera-Monroy, V. H., R. R. Twilley, E. Medina, E. B. Moser, L. Botero, A. M. Francisco & E. Bullard, 2004. Spatial variability of soil nutrients in disturbed riverine mangrove forests at different stages of regeneration in the San Juan River Estuary, Venezuela. Estuaries 27(1): 44–57.
Ruiz-Jaen, M. C. & T. M. Aide, 2005. Restoration success: how is it being measured? Restoration Ecology 13(3): 569–577.
Saenger, P., 2002. Mangrove Ecology, Silviculture and Conservation. Kluwer, Dordrecht: 360.
Salmo III, S. G. & N. C. Duke, 2010. Establishing mollusk colonization and assemblage patterns in planted mangrove stands of different ages in Lingayen Gulf, Philippines. Wetlands Ecology and Management 18(6): 745–754.
Salmo III, S. G., R. Carranza, M. A. J. Meñez & N. G. Estepa, 1999. Mangrove reforestation program in Bolinao, Pangasinan: partnerships among local and government institutions. Community-Based Strategies in Natural Resources Management. Voluntary Service Overseas, Philippines: 146–151.
Salmo III, S. G., D. D. Torio & J. M. A. Esteban, 2007. Evaluation of rehabilitation strategies and management schemes for the improvement of mangrove management programs in Lingayen Gulf. Science Diliman 19(1): 24–34.
Samson, M. S. & R. N. Rollon, 2008. Growth performance of planted mangroves in the Philippines: revisiting forest management strategies. Ambio 37(4): 234–240.
Sherman, R. E., T. J. Fahey & R. W. Howarth, 1998. Soil-plant interactions in a neotropical mangrove forest: iron, phosphorus and sulfur dynamics. Oecologia 115(4): 553–563.
Society for Ecological Restoration International Science and Policy Working Group (SER), 2004. The SER International Primer on Ecological Restoration. Society for Ecological Restoration International, Tuczon. http://www.ser.org. Accessed 30 October 2012.
Sukardjo, S. & I. Yamada, 1992. Biomass and productivity of a Rhizophora mucronata Lamarck plantation in Tritih, Central Java, Indonesia. Forest Ecology and Management 49: 195–209.
Tabuchi, R., 2004. The rehabilitation of mangroves in Southeast Asia. In Saxena, K. G., L. Liang, Y. Kono & S. Miyata (eds), Small-Scale Livelihoods and Natural Resources Management in Marginal Areas: Case Studies in Monsoon Asia. Proceedings of an International Symposium, Tokyo, Japan: 121–128.
Tamai, S. & P. Iampa, 1988. Establishment and growth of mangrove seedlings in mangrove forests of Southern Thailand. Ecological Research 3: 227–238.
Thom, B. G., 1987. Mangrove environments. In Field, C. D. & A. J. Dartnall (eds), Mangrove Ecosystems of Asia and the Pacific: Status, Exploitation and Management. Proceedings of the Research for Development Seminar held at the Australian Institute of Marine Science, Townsville, Australia: 286–291.
Tolhurst, T. J. & M. G. Chapman, 2007. Patterns in biogeochemical properties of sediments and benthic animals among different habitats in mangrove forests. Austral Ecology 32: 775–788.
Twilley, R. R., V. H. Rivera-Monroy, R. Chen & L. Botero, 1998. Adapting an ecological mangrove model to simulate trajectories in restoration ecology. Marine Pollution Bulletin 37(8–12): 404–419.
Ukpong, I. E., 1994. Soil–vegetation interrelationships of mangrove swamps as revealed by multivariate analyses. Geoderma 64: 167–181.
Vitousek, P. M. & W. A. Reiners, 1975. Ecosystem succession and nutrient retention: a hypothesis. Bioscience 25(6): 376–381.
Walkley, A. & I. A. Black, 1934. An examination of the Degtjareff method for determining organic carbon in soils: effect of variations in digestion conditions and of inorganic soil constituents. Soil Science 63: 251–263.
Walters, B. B., 2004. Local management of mangrove forests in the Philippines: successful conservation or efficient resource exploitation? Human Ecology 32(2): 177–195.
Walters, B. B., 2005. Ecological effects of small-scale cutting of Philippine mangrove forests. Forest Ecology and Management 206: 331–348.
Weilhoefer, C. L., 2010. A review of indicators of estuarine tidal wetland condition. Ecological Indicators 11(2): 514–525.
Acknowledgments
We are grateful to Ford Foundation-International Fellowship Program (FORD-IFP) and International Foundation for Science (IFS; D/4667-1) for providing financial assistance throughout the study period; the University of Queensland Research Scholarship Grant for providing financial support to SS; the Local Government Units and mangrove managers; and Jack Rengel and Tommy Conzaga for assisting in the field sampling.
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Salmo, S.G., Lovelock, C. & Duke, N.C. Vegetation and soil characteristics as indicators of restoration trajectories in restored mangroves. Hydrobiologia 720, 1–18 (2013). https://doi.org/10.1007/s10750-013-1617-3
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DOI: https://doi.org/10.1007/s10750-013-1617-3