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1.
Isotopes Environ Health Stud ; 56(5-6): 700-712, 2020.
Artículo en Inglés | MEDLINE | ID: mdl-32876490

RESUMEN

Coastal ecosystems are under increasing stress from anthropogenic nutrient loading; which is most often assessed through water quality measurements. Here, 136 published studies on the use of δ15N to identify nutrient loading in coastal systems were analyzed to identify key strengths and challenges when using this isotope technique. δ15N has been used successfully for this purpose around the globe for over 40 years. Studies have mainly used benthic macroalgae and sediment samples in estuaries and coral reefs of North America and Oceania. Strengths of this technique include timely identification of nutrient loading and its sources, even when inputs are pulsed or assimilated by biota, the benefits of varying isotope turnover rates in different types of samples, sporadic sampling efforts, simple collection and preparation of samples, and relatively low analysis costs. The shortcomings of this technique have led to a loss in popularity in recent times, mainly from isotopic overlap of potential sources and the effects of other confounding factors on isotopic compositions. These challenges can be compensated by simultaneous measurement of other key variables including additional isotopes (δ13C, δ34S), water column nutrient concentrations, and fecal coliforms, highlighting great potential to use this tool.


Asunto(s)
Monitoreo del Ambiente/métodos , Isótopos de Nitrógeno/análisis , Nitrógeno/análisis , Fósforo/análisis , Contaminantes Químicos del Agua/análisis , Organismos Acuáticos/crecimiento & desarrollo , Arrecifes de Coral , Ecosistema , Estuarios , Sedimentos Geológicos/química , América del Norte , Oceanía , Calidad del Agua
2.
Rev. biol. trop ; Rev. biol. trop;66(3): 1149-1161, jul.-sep. 2018. tab, graf
Artículo en Inglés | LILACS | ID: biblio-977373

RESUMEN

Abstract Seagrass beds are an important ecosystem on the Caribbean coast of Costa Rica. At Cahuita National Park (CNP) a seagrass bed at Perezoso has been monitored continually since 1999 within the CARICOMP program. Thalassia testudinum is the dominant seagrass species, in some cases mixed with Syringodium filiforme. The results from the 2009 to 2015 monitoring period are presented here, and contrasted with data before 2009. Total (above and below ground tissue) mean biomass of T. testudinum was higher (1 255.4 ± 146.0 gm-2) than biomass before 2009, with an increasing tendency. However, productivity (1.5±0.59 gm-2d-1) and turnover rate (4.3 ± 1.22 %d-1) were lower than previous monitoring periods. In this period, mean leaf area diminished considerably (4.9 ± 2.30 m2), but leaf area index (LAI) increased (1.9 ± 0.80 m2leafm-2) in comparison to prior monitoring. Productivity, density, turnover rate, LAI and biomass showed intra-annual variations; while mean biomass of T. testudinum did not vary significantly among years. No correlations were found between water salinity, temperature and clarity with seagrass measurements. However, most seagrass parameters were strongly correlated with precipitation. These results highlight the effect of external environmental agents acting on the ecosystem. CNP presents a long-term stable seagrass meadow. However, there are indirect signals, such as high biomass and above-ground biomass proportion, along with low productivity and LAI, which point to a nutrient increment in Perezoso's seagrass bed. To continue protecting this seagrass bed, it is necessary to improve monitoring methods, and seagrass beds should be included in national conservation policies and monitoring programs. Rev. Biol. Trop. 66(3): 1149-1161. Epub 2018 September 01.


Resumen Los lechos de pastos marinos son un ecosistema importante en la costa caribeña de Costa Rica. En el Parque Nacional Cahuita (PNC), un lecho de pastos marinos en Perezoso ha sido monitoreado continuamente desde 1999 dentro del programa CARICOMP. Thalassia testudinum es la especie dominante, en algunos casos mezclada con Syringodium filiforme. Se presentan los resultados del período de monitoreo del 2009 al 2015. La biomasa promedio de T. testudinum fue mayor (1 255.4 ± 146.0 gm-2) que la biomasa antes de 2009, mostrando una tendencia creciente. Sin embargo, la productividad (1.5 ± 0.59 gm-2d-1) y la tasa de recambio (4.3 ± 1.22 %d-1) fueron inferiores a los períodos de monitoreo previos. En este período, el área foliar media disminuyó considerablemente (4.9 ± 2.30 m2), pero el Índice de Área Foliar (LAI) aumentó (1.9 ± 0.80 m2 hoja m-2) en comparación con el monitoreo previo. El promedio de la productividad, la densidad, la tasa de recambio, el LAI y la biomasa mostraron variaciones intra-anuales, mientras que la biomasa promedio de T. testudinum no varió significativamente entre los años, lo que representa un período estable. Ningún parámetro del agua de mar (salinidad, temperatura o turbiedad) se correlacionó con los parámetros del pasto marino. Sin embargo, la mayoría de los parámetros del pasto marino estaban fuertemente correlacionados con la precipitación. Estos resultados ponen en evidencia el efecto de factores ambientales externos sobre el ecosistema. El PNC tiene condiciones estables a largo plazo en las que se establece el pasto marino sin que haya evidencia de pérdida de biomasa. Sin embargo, hay señales indirectas; como el aumento de la biomasa y de la proporción de biomasa sobre el sustrato, así como una baja productividad y LAI; que apuntan a un incremento de nutrientes en el lecho de pastos marinos de Perezoso. Para continuar protegiendo este lecho marino, es necesario mejorar la calidad del agua y los métodos de monitoreo, además de incluir a estos hábitats en las políticas nacionales de conservación.


Asunto(s)
Ecosistema , Biomasa , Fondo Oceánico/análisis , Hydrocharitaceae/fisiología , Costa Rica
3.
Rev. biol. trop ; Rev. biol. trop;64(3): 955-964, jul.-sep. 2016. tab, ilus
Artículo en Español | LILACS | ID: biblio-958187

RESUMEN

ResumenLos manglares tienen gran importancia ecológica, económica, riqueza natural y prestan servicios ambientales. No obstante, son amenazados por la sobreexplotación, la contaminación y el cambio de uso de suelo. Costa Rica tiene manglares en las costas pacífica y caribeña. Según algunos estudios, la cobertura de manglar ha ido disminuyendo desde la década de 1980. Debido a que estos datos no son actualizados y se basan en estimaciones poco precisas, es necesario hacer una valoración de la extensión actual y la variación de la cobertura en los últimos años, que permita determinar cambios. En esta investigación se estudió la cobertura de dos manglares ubicados en Bahía Culebra, Pacífico Norte: Iguanita y Playa Panamá. Se usaron fotografías e imágenes de satélite para un período de 65 años (1945-2010). Se encontraron cambios espaciotemporales en la cobertura de manglar, bosques adyacentes y áreas sin vegetación. Las menores coberturas de manglar se registraron en la década de 1970, pero aumentaron en años posteriores. Los cambios en la cobertura de bosque alrededor de los manglares de Iguanita y Playa Panamá concuerdan con otros análisis históricos sobre el uso del suelo alrededor de Bahía Culebra. Antes de 1980 se dio un aumento de las prácticas de ganadería extensiva e intensiva, lo que aumentó la tasa de deforestación. Después de 1980 se abandonaron estas prácticas y la cobertura de bosque secundario aumentó hasta el año 2000. Para asegurar una adecuada protección de los manglares, es necesario evaluar también las áreas aledañas y establecer zonas de amortiguamiento alrededor, para reducir los impactos futuros.


Abstract:Despite the economic and environmental services that mangroves provide, they continue to be threatened by overexploitation, pollution, and land use change. Costa Rica has mangrove areas on the Pacific and Caribbean coasts, and cover has been declining since the 1980s. However, data on mangrove coverage are not continually updated and are often based on inaccurate estimates. It is therefore necessary to assess the current extension and variation of the mangrove cover in recent years, to determine changes. The mangrove cover was analyzed in two mangrove forests located in Bahía Culebra, North Pacific: Iguanita and Playa Panamá. For this, aerial photographs and satellite imagery were used to study changes for a 65 year period (1945-2010). Spatio-temporal changes were found in mangrove coverage, adjacent forests and areas without vegetation. Lower mangrove cover occurred during the 1970s (28.4 ha in Iguanita and 4.8 ha in Playa Panamá); but increased in recent years (38.9 ha in Iguanita and 12.0 ha in Panamá). Changes in forest cover by the Iguanita and Playa Panama mangroves were related to the history of land use around Bahía Culebra. Before 1980, there was extensive and intensive cattle ranching, increasing the deforestation rate; after that year, these practices were abandoned and secondary forest coverage increased until 2000. To ensure the adequate protection of mangroves, it is not only important to protect mangrove forests, but it is also necessary to establish buffer zones on their surroundings, to mitigate and/or reduce possible impacts. Rev. Biol. Trop. 64 (3): 955-964. Epub 2016 September 01.


Asunto(s)
Humedales , Análisis Espacio-Temporal , Valores de Referencia , Factores de Tiempo , Océano Pacífico , Monitoreo del Ambiente/métodos , Bahías , Conservación de los Recursos Naturales , Costa Rica , Imágenes Satelitales
4.
Rev. biol. trop ; Rev. biol. trop;63(supl.1): 199-208, abr. 2015. tab, graf
Artículo en Español | LILACS, SaludCR | ID: biblio-958135

RESUMEN

Resumen Este estudio reporta las características estructurales y distribución de las especies en los bosques de mangle de Playa Blanca, Escondido y Rincón en Golfo Dulce, Pacífico Sur de Costa Rica. Se realizaron múltiples transectos en cada uno de los manglares. Cada 10m a lo largo de cada transecto se delimitaron parcelas cuadradas de 5x5m. En cada parcela se midió el diámetro a la altura del pecho y altura de los árboles de mangle y se tomaron muestras de sedimento y de agua intersticial (salinidad). Se determinó la densidad total y por especie para cada manglar, el área basal y valor de importancia por especie y la complejidad general entre los manglares. Las especies dominantes en los tres manglares estudiados fueron Rhizophora racemosa y Pelliciera rhizophorae. Los manglares de Playa Blanca y Rincón presentaron mayor similitud en la estructura del bosque entre sí que con el manglar de Escondido. Playa Blanca fue el bosque de mayor altura del dosel y menor densidad; mientras que Escondido presentó mayor densidad y menor altura, así como el menor número de especies y el único donde se encontró la especie Conocarpus erectus. La composición de especies presente en estos manglares coincide con la reportada para la región. Sin embargo, la variación en estructura y complejidad entre los tres manglares es mayor a las similitudes con otros de la región. El estudio histórico y topográfico de estos manglares puede aclarar las variaciones en estructura y complejidad encontrada actualmente entre ellos.


Abstract This study reports the structural characteristics and distribution of species in the mangrove forests of Playa Blanca, Escondido and Rincón de Osa in Golfo Dulce, South Pacific of Costa Rica. Multiple lineal transects were carried out at each of the mangrove forests. Every 10 meters along each transect the diameter at breast height, basal area, and height was determined for all mangrove trees within a 5x5meter square plot. Sediment and interstitial water (salinity) samples were also collected at each plot. Total density of the stand was determined, as were the density of each mangrove species, the importance value and basal area per species, and general complexity indices for each mangrove forest. The dominant species at all three mangroves were Rhizophora racemosa and Pelliciera rhizophorae. Forest structure was more similar between Playa Blanca and Rincón mangroves than with Escondido. Playa Blanca was the forest with the tallest canopy height and lowest density, while Escondido had the highest density and the shortest canopy height. Escondido was also the forest with the least number of species and the only one where Conocarpus erectus was present. Species composition and dominance at these mangroves coincides with that reported for the region. However, the variation in structure and complexity among the three mangroves is greater than the commonalities with mangroves in the region. Topographical and historical analysis of these mangroves could further elucidate the present structure and complexity variation among them. Rev. Biol. Trop. 63 (Suppl. 1): 199-208. Epub 2015 April 01.


Asunto(s)
Análisis de Sistemas , Árboles/clasificación , Ecosistema , Rhizophoraceae/clasificación , Humedales , Modelos Estructurales , Costa Rica
5.
PLoS One ; 9(3): e90600, 2014.
Artículo en Inglés | MEDLINE | ID: mdl-24594732

RESUMEN

The CARICOMP monitoring network gathered standardized data from 52 seagrass sampling stations at 22 sites (mostly Thalassia testudinum-dominated beds in reef systems) across the Wider Caribbean twice a year over the period 1993 to 2007 (and in some cases up to 2012). Wide variations in community total biomass (285 to >2000 g dry m(-2)) and annual foliar productivity of the dominant seagrass T. testudinum (<200 and >2000 g dry m(-2)) were found among sites. Solar-cycle related intra-annual variations in T. testudinum leaf productivity were detected at latitudes > 16°N. Hurricanes had little to no long-term effects on these well-developed seagrass communities, except for 1 station, where the vegetation was lost by burial below ∼1 m sand. At two sites (5 stations), the seagrass beds collapsed due to excessive grazing by turtles or sea-urchins (the latter in combination with human impact and storms). The low-cost methods of this regional-scale monitoring program were sufficient to detect long-term shifts in the communities, and fifteen (43%) out of 35 long-term monitoring stations (at 17 sites) showed trends in seagrass communities consistent with expected changes under environmental deterioration.


Asunto(s)
Biota , Monitoreo del Ambiente/estadística & datos numéricos , Hydrocharitaceae/crecimiento & desarrollo , Biomasa , Región del Caribe , Monitoreo del Ambiente/métodos , Dinámica Poblacional
6.
Rev. biol. trop ; Rev. biol. trop;60(supl.2): 109-120, abr. 2012. mapas, tab
Artículo en Inglés | LILACS, SaludCR | ID: lil-657838

RESUMEN

Mangrove forests are abundant and important coastal marine ecosystems that are being impacted by human activity in Costa Rica. There are two mangrove stands (Panama and Iguanita) in Bahia Culebra, Guanacaste, North Pacific coast of Costa Rica. Their forest structure was determined with the Point-Centered Quarter Method (PCQM) during the dry season (December 2007-March 2008). Eleven transects were established at Panama mangrove, with a total of 52 points and 208 quadrats. Two transects were established at Iguanita with a total of 16 points and 62 quadrats given access difficulty. Mapping of both stands was done with two georeferenced MASTER CARTA 2005 images. Images were digitized to 1:5000 scale using the following categories: mangrove forest, low density mangrove, no mangrove, transition to dry forest, sand and water. In the area studied at Panama was 13.7ha, and 40.8ha for Iguanita. Panama is mostly composed of dense mangrove forest (51% of total study area) and dry forest species (35% of total study area). A small area (2%) had dry soil and scarce mangrove trees and the remaining 12% corresponds to water, sand and other areas without vegetation. At Iguanita, 84% was dense mangrove, 5% scarce mangrove trees and the remaining 10% corresponds to water, sand and other areas without vegetation. Five mangrove species were encountered at Panama (Avicennia germinans, Avicennia bicolor, Conocarpus erectus, Laguncularia racemosa, and Rhizophora mangle), and three at Iguanita (A. germinans, L. racemosa, and R. mangle). Species zonation was similar at both stands; with Rhizophora near water channels and inundated areas, Avicennia frequent in drier areas, and Laguncularia (both stands) and Conocarpus (only Panama) more frequent near fresh water input. Densities at both stands (Iguanita= 67.2 and Panama= 8.4 stems/0.1 ha) were lower than reported for the north Pacific of Costa Rica. Complexity index was higher at Iguanita (CI= 86.5) with R. mangle dominance, than Panama (CI= 1.1) with A. germinans dominance. While both stands are in Bahia Culebra, structurally they are very different and seem to be under two different hydrodynamic contexts. Sea level rise related to global climate change might impact both mangrove stands as they would not be able to migrate further inland (given land elevation at the back of Iguanita, and a paved road at Panama). Given the socio-economic and ecological importance of mangrove habitats, further study and continued conservation efforts of Costa Rican mangroves are needed.


Los manglares son abundantes e importantes ecosistemas marino-costeros en Costa Rica pero están siendo afectados por la actividad humana. Se analizo la estructura y cobertura de ambos manglares presentes en Bahía Culebra (Panamá e Iguanita), Guanacaste, Pacifico norte de Costa Rica. Se utilizo el PCQM para estructura durante la época seca entre diciembre 2007 y marzo 2008. Se utilizaron dos imágenes MASTER CARTA 2005 georreferenciadas para mapeo. El área aproximada de bosque de manglar en Panamá fue de 13.7ha; y de 40.8ha en Iguanita. Panamá contiene 51% de manglar denso en el área de estudio, 35% bosque seco, 2% sin vegetación y 12% de arena o agua. En Iguanita el 84% del área corresponde a manglar denso, 5% manglar de baja densidad y 10% sin cobertura vegetal o era arena o agua. Se hallaron cinco especies de manglar en Panamá (Avicennia germinans, Avicennia bicolor, Conocarpus erectus, Laguncularia racemosa y Rhizophora mangle); y tres en Iguanita (A. germinans, L. racemosa y R. mangle). En general, la presencia de las especies de manglar siguió un patrón similar en ambos manglares. La densidad total fue menor que en manglares cercanos; y Panamá (8.4tallos/0.1ha) mucho menor que Iguanita (67.2tallos/0.1 ha). El Índice de Complejidad (IC) fue mucho mayor en Iguanita (IC= 86.5), con dominancia de R. mangle, que en Panamá (IC= 1.1), con dominancia marcada de A. germinans. Estructuralmente ambos manglares son muy distintos entre sí y parecen encontrarse en contextos hidrodinámicos diferentes.


Asunto(s)
Ecosistema , Humedales , Costa Rica
7.
Rev. biol. trop ; Rev. biol. trop;58(supl.3): 1-22, Oct. 2010. ilus, graf, tab
Artículo en Inglés | LILACS | ID: lil-638084

RESUMEN

The coral reefs, seagrasses and mangroves from the Costa Rican Caribbean coast have been monitored since 1999 using the CARICOMP protocol. Live coral cover at Meager Shoal reef bank (7 to 10m depth) at the Parque Nacional Cahuita (National Park), increased from 13.3% in 1999, to 28.2% in 2003, but decreased during the next 5 years to around 17.5%. Algal cover increased significantly since 2003 from 36.6% to 61.3% in 2008. The density of Diadema antillarum oscillated between 2 and 7ind/m2, while Echinometra viridis decreased significantly from 20 to 0.6ind/m2. Compared to other CARICOMP sites, live coral cover, fish diversity and density, and sea urchin density were low, and algal cover was intermediate. The seagrass site, also in the Parque Nacional Cahuita, is dominated by Thalassia testudinum and showed an intermediate productivity (2.7±1.15 g/m2/d) and biomass (822.8±391.84 g/m2) compared to other CARICOMP sites. Coral reefs and seagrasses at the Parque Nacional Cahuita continue to be impacted by high sediment loads from terrestrial origin. The mangrove forest at Gandoca, within the Refugio Nacional de Vida Silvestre Gandoca-Manzanillo (National Wildlife Refuge), surrounds a lagoon and it is dominated by the red mangrove, Rhizophora mangle. Productivity and flower production peak was in July. Biomass (14kg/m2) and density (9.0±0.58 trees/100m2) in Gandoca were relatively low compared to other CARICOMP sites, while productivity in July in Costa Rica (4g/m2/d) was intermediate, similar to most CARICOMP sites. This mangrove is expanding and has low human impact thus far. Management actions should be taken to protect and preserve these important coastal ecosystems. Rev. Biol. Trop. 58 (Suppl. 3): 1-22. Epub 2010 October 01.


Los arrecifes coralinos, pastos marinos y manglares de la costa Caribe de Costa Rica han sido monitoreados desde 1999 siguiendo el protocolo de CARICOMP. La cobertura de coral vivo en el arrecife de Meager Shoal (7 a 10m de profundidad) en el Parque Nacional Cahuita, aumentó de 13.3% en 1999, a 28.2% en 2003, pero después bajó, por los siguientes 5 años, a aproximadamente 17.5%; la cobertura de algas aumentó significativamente de 36.6% en 2003 a 61.3% en 2008. La densidad de Diadema antillarum osciló entre 2 y 7 ind/m2 mientras que Echinometra viridis decreció significativamente de 20 a 0.6 ind/m2. Comparado con otros sitios CARICOMP, la cobertura de coral vivo, diversidad y densidad de peces, y densidades de erizos de mar fueron bajas y la cobertura algal intermedia. El sitio de pastos marinos, también en el Parque Nacional Cahuita, está dominado por Thalassia testudinum y tiene una productividad (2.7±1.15g/m2/d) y biomasa (822.8±391.84g/m2) intermedia comparado a otros sitios CARICOMP. Los arrecifes coralinos y pastos marinos en el Parque Nacional Cahuita continúan siendo impactados por sedimentos terrígenos. El bosque de manglar en Laguna Gandoca, dentro del Refugio Nacional de Vida Silvestre Gandoca-Manzanillo, está bordeado por una laguna y predomina el mangle rojo, Rhizophora mangle. El pico de productividad y producción de flores fue en julio. La biomasa (14 kg/m2) y densidad (9.0±0.58 árboles/100 m2) en Gandoca fueron relativamente bajas comparadas con otros sitios CARICOMP, mientras que la productividad en julio en Costa Rica (4g/m2/d) fue intermedia, similar a la mayoría de los sitios CARICOMP. Este manglar se está expandiendo y tiene muy poco impacto humano hasta ahora. Se deben tomar acciones de manejo para proteger y preservar estos importantes ecosistemas costeros.


Asunto(s)
Arrecifes de Coral , Ecosistema , Monitoreo del Ambiente/métodos , Poaceae/clasificación , Rhizophoraceae/clasificación , Costa Rica , Ambiente , Densidad de Población
8.
Rev Biol Trop ; 58 Suppl 3: 1-22, 2010 Oct.
Artículo en Inglés | MEDLINE | ID: mdl-21302409

RESUMEN

The coral reefs, seagrasses and mangroves from the Costa Rican Caribbean coast have been monitored since 1999 using the CARICOMP protocol. Live coral cover at Meager Shoal reef bank (7 to 10 m depth) at the Parque Nacional Cahuita (National Park), increased from 13.3% in 1999, to 28.2% in 2003, but decreased during the next 5 years to around 17.5%. Algal cover increased significantly since 2003 from 36.6% to 61.3% in 2008. The density of Diadema antillarum oscillated between 2 and 7ind/m2, while Echinometra viridis decreased significantly from 20 to 0.6ind/m2. Compared to other CARICOMP sites, live coral cover, fish diversity and density, and sea urchin density were low, and algal cover was intermediate. The seagrass site, also in the Parque Nacional Cahuita, is dominated by Thalassia testudinum and showed an intermediate productivity (2.7 +/- 1.15 g/m2/d) and biomass (822.8 +/- 391.84 g/m2) compared to other CARICOMP sites. Coral reefs and seagrasses at the Parque Nacional Cahuita continue to be impacted by high sediment loads from terrestrial origin. The mangrove forest at Gandoca, within the Refugio Nacional de Vida Silvestre Gandoca-Manzanillo (National Wildlife Refuge), surrounds a lagoon and it is dominated by the red mangrove, Rhizophora mangle. Productivity and flower production peak was in July. Biomass (14 kg/m2) and density (9.0 +/- 0.58 trees/100 m2) in Gandoca were relatively low compared to other CARICOMP sites, while productivity in July in Costa Rica (4 g/m2/d) was intermediate, similar to most CARICOMP sites. This mangrove is expanding and has low human impact thus far. Management actions should be taken to protect and preserve these important coastal ecosystems.


Asunto(s)
Arrecifes de Coral , Ecosistema , Monitoreo del Ambiente/métodos , Poaceae/clasificación , Rhizophoraceae/clasificación , Costa Rica , Ambiente , Densidad de Población
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