RESUMO
BACKGROUND AND AIMS: Rhizophora species of mangroves have a conspicuous system of stilt-like roots (rhizophores) that grow from the main stem and resemble flying buttresses. As such, the development of rhizophores can be predicted to be important for the effective transmission of dynamic loads from the top of the tree to the ground, especially where the substrate is unstable, as is often the case in the habitats where Rhizophora species typically grow. This study tests the hypothesis that rhizophore architecture in R. mangle co-varies with their proximity to the main stem, and with stem size and crown position. METHODS: The allometry and wood mechanical properties of R. mangle (red mangrove) trees growing in a mangrove basin forest within a coastal lagoon in Mexico were compared with those of coexisting, non-buttressed mangrove trees of Avicennia germinans. The anatomy of rhizophores was related to mechanical stress due to crown orientation (static load) and to prevailing winds (dynamic load) at the study site. KEY RESULTS: Rhizophores buttressed between 10 and 33 % of tree height. There were significant and direct scaling relationships between the number, height and length of rhizophores vs. basal area, tree height and crown area. Wood mechanical resistance was significantly higher in the buttressed R. mangle (modulus of elasticity, MOE = 18·1 ± 2 GPa) than in A. germinans (MOE = 12·1 ± 0·5 GPa). Slenderness ratios (total height/stem diameter) were higher in R. mangle, but there were no interspecies differences in critical buckling height. When in proximity to the main stem, rhizophores had a lower length/height ratio, higher eccentricity and higher xylem/bark and pith proportions. However, there were no directional trends with regard to prevailing winds or tree leaning. CONCLUSIONS: In comparison with A. germinans, a tree species with wide girth and flare at the base, R. mangle supports a thinner stem of higher mechanical resistance that is stabilized by rhizophores resembling flying buttresses. This provides a unique strategy to increase tree slenderness and height in the typically unstable substrate on which the trees grow, at a site that is subject to frequent storms.
Assuntos
Avicennia/fisiologia , Raízes de Plantas/fisiologia , Rhizophoraceae/fisiologia , Animais , Avicennia/anatomia & histologia , Fenômenos Biomecânicos , Ecologia , Ecossistema , México , Raízes de Plantas/anatomia & histologia , Caules de Planta/anatomia & histologia , Caules de Planta/fisiologia , Rhizophoraceae/anatomia & histologia , Árvores , Áreas Alagadas , Vento , Madeira/anatomia & histologia , Madeira/fisiologia , Xilema/anatomia & histologia , Xilema/fisiologiaRESUMO
Costa Rica has mangrove forests on both the Caribbean and Pacific coasts. The Pacific side has 99% of the mangrove area of the country. In this review we compile available information on the mangroves of the north Pacific coast of Costa Rica, from Bahía Salinas, on the border with Nicaragua, to the tip of the Peninsula de Nicoya at Cabo Blanco. We provide information on the location of the mangroves and all available information for each mangrove forest. These mangrove communities are smaller in extension and tree sizes, and have lower diversity compared to the mangroves on the southern section of the Pacific coast of Costa Rica. The dominant species are Rhizophora mangle and Rhizophora racemosa along the canal edges, backed by Avicennia germinans, and farther inland Avicennia bicolor, Laguncularia racemosa and Conocarpus erectus. At Potrero Grande a healthy population of Pelliciera rhizophorae, a rare species, has been reported. We recognized 38 mangrove communities in this part of the country, based on the National Wetland Inventory, published papers, field observations, theses, technical reports, and the national topographic maps (1:50,000, Instituto Geográfico Nacional). Relatively detailed information could be found for only five mangrove forests, for 14 more only prelimary and incomplete lists of plants and in some cases of animal species are available, for nine there is even less information, and for nine more only their location is known, which in some cases was not correct. Detail mapping, characterization of the vegetation and fauna, physiological studies, analyses of biogeochemical and physical processes, economic valuations, and determination of the health status of the mangrove of the northern Pacific coast, as well as for the rest of Costa Rica, are neccesary and urgent.
Assuntos
Avicennia/classificação , Rhizophoraceae/anatomia & histologia , Árvores/classificação , Avicennia/anatomia & histologia , Costa Rica , Rhizophoraceae/classificação , Árvores/anatomia & histologiaRESUMO
Abstract: Costa Rica mangroves: the north Pacific. Costa Rica has mangrove forests on both the Caribbean and Pacific coasts. The Pacific side has 99% of the mangrove area of the country. In this review we compile available information on the mangroves of the north Pacific coast of Costa Rica, from Bahía Salinas, on the border with Nicaragua, to the tip of the Peninsula de Nicoya at Cabo Blanco. We provide information on the location of the mangroves and all available information for each mangrove forest. These mangrove communities are smaller in extension and tree sizes, and have lower diversity compared to the mangroves on the southern section of the Pacific coast of Costa Rica. The dominant species are Rhizophora mangle and Rhizophora racemosa along the canal edges, backed by Avicennia germinans, and farther inland Avicennia bicolor, Laguncularia racemosa and Conocarpus erectus. At Potrero Grande a healthy population of Pelliciera rhizophorae, a rare species, has been reported. We recognized 38 mangrove communities in this part of the country, based on the National Wetland Inventory, published papers, field observations, theses, technical reports, and the national topographic maps (1:50 000, Instituto Geográfico Nacional). Relatively detailed information could be found for only five mangrove forests, for 14 more only prelimary and incomplete lists of plants and in some cases of animal species are available, for nine there is even less information, and for nine more only their location is known, which in some cases was not correct. Detail mapping, characterization of the vegetation and fauna, physiological studies, analyses of biogeochemical and physical processes, economic valuations, and determination of the health status of the mangrove of the northern Pacific coast, as well as for the rest of Costa Rica, are neccesary and urgent. Rev. Biol. Trop. 57 (3): 473-488. Epub 2009 September 30.
Costa Rica tiene bosques de manglar en las costas Caribe y Pacífica. El 99% de los manglares del país se encuentran en la costa Pacífica. En este trabajo recopilamos la información disponible sobre los manglares del Pacífico norte de Costa Rica, desde la frontera con Nicaragua hasta la Reserva Absoluta de Cabo Blanco, en la punta sur de la Península de Nicoya. La ubicación de los manglares y cualquier información disponible para cada manglar es resumida. El clima de esta región es seco con estaciones de lluvia y sequía muy bien definidas. Los manglares del norte son relativamente pequeños en extensión y tamaño de árboles, y de baja diversidad comparados con los del Pacífico sur de Costa Rica. Las principales especies de mangle son: Rhizophora mangle, Rhizophora racemosa a lo largo de los bordes de los canales, seguido por Avicennia germinans, y más tierra adentro Avicennia bicolor, Laguncularia racemosa y Conocarpus erectus. En el manglar de Potrero Grande se informa de una población saludable de la especie de Pelliciera rhizophorae, especies muy poco abundante. Reconocemos 38 comunidades de manglares en el Pacífico norte de Costa Rica basado en el Inventario Nacional de Humedales, artículos publicados, observaciones de campo, tesis, informes técnicos y los mapas 1: 50 000 del Instituto Geográfico Nacional. Se pudo encontrar información relativamente detallada pero fragmentada de únicamente cinco manglares (los descritos en esta publicación), de 14 solamente hay listas preliminares e incompletas de plantas y en algunos casos de animales, de nueve manglares más hay información todavía más limitada, y de otros nueve se conoce solamente su ubicación, que en algunos casos se comprobó que era incorrecta. Trabajos de mapeo detallado, caracterización de la vegetación y la fauna, estudios fisiológicos, análisis de procesos biogeoquímicos, evaluaciones económicas, y determinación del estado de salud de los manglares del Pacífico norte de Costa Rica, y del resto del país son necesarios y urgentes.
Assuntos
Avicennia/classificação , Rhizophoraceae/anatomia & histologia , Árvores/classificação , Avicennia/anatomia & histologia , Costa Rica , Rhizophoraceae/classificação , Árvores/anatomia & histologiaRESUMO
Two groups of Avicennia germinans plants with differences in the radical architecture were exposed under hydroponic conditions to 95ppm of cadmium (Cd) for a period of 24h. Later, Cd concentration in roots, stems and leaves was determined by graphite furnace atomic absorption spectrophotometry. Our results showed that, for both groups of plants, the roots accumulated higher concentration of Cd as compared to stems and leaves, though, the plants of group B displayed enhanced radical architecture, better growth performance, and lower Cd concentration as compared to plants of group A. In contrast, low values of leaves/roots Cd transportation index, and bioaccumulation factor were found in plants of group B. These results suggest that the higher radical architecture developed in plants of group B might better adjust the uptake of Cd as a result of an integrated network of multiple response processes for instances, production of organic acids, antioxidative replay, cell-wall lignification and/or suberization. Further studies will be focused in understanding the role of the radical system in mangrove plants with the rhizosphere activation and root adsorption to soil Cd under natural conditions.