Your search keyword '"Martín Merino-Ibarra"' showing total 3 results

1. Iron, cadmium, and chromium in seagrass (Thalassia testudinum) from a coastal nature reserve in karstic Yucatán

Author

Jorge A. Herrera-Silveira, Job Valdespino, Juan P. Carricart-Ganivet, Ana Martínez, Mayra Avelar, Blanca Bonilla-Heredia, Martín Merino-Ibarra, Humberto Rosas, and Javier Vazquez Ramirez

Subjects

Chromium, Conservation of Natural Resources, Iron, Hydrocharitaceae, Management, Monitoring, Policy and Law, Seawater, Groundwater discharge, Mexico, General Environmental Science, Hydrology, Nature reserve, geography, geography.geographical_feature_category, biology, Ecology, General Medicine, biology.organism_classification, Karst, Pollution, Salinity, Seagrass, Thalassia testudinum, Environmental science, Protected area, Water Pollutants, Chemical, Groundwater, Cadmium, Environmental Monitoring

Abstract

The management of protected areas in karstic regions is a challenge because flooded cave systems form there and provide underground hydrological conducts that may link different zones. As a consequence, affectations to the protected areas can possibly occur as a consequence of human activities in remote areas and may therefore pass undetected. Thus, the monitoring of possible contaminants in these regions is becoming imperative. In this work, we analyze the concentration of essential (iron) and non-essential metals (cadmium and chromium) in the seagrass Thalassia testudinum that grows in Yalahau Lagoon, located in a near-to-pristine protected area of the Yucatan Peninsula, close to the rapidly developing touristic belt of the Mexican Caribbean. Salinity and silicate patterns show that Yalahau is an evaporation lagoon, where groundwater discharge is important. High iron (>400 μg/g), cadmium (>4 μg/g), and chromium (≈1 μg/g) concentrations were found in the area of highest groundwater input of the lagoon. High levels (5.1 μg/g) were also found near the town dump. In the rest of the sampling sites, metal concentrations remained near to background levels as estimated from other works. Temporal changes of concentrations in the seagrass tissues show also a local input and an input from the groundwater that could provoke an environmental problem in the Yalahau Lagoon in the near future.

Published

2013

2. Community metabolism in a deep (stratified) tropical reservoir during a period of high water-level fluctuations

Author

Jorge Jiménez-Contreras, Patricia M. Valdespino-Castillo, Jorge A. Ramírez-Zierold, Fermín S. Castillo-Sandoval, and Martín Merino-Ibarra

Subjects

Boundary mixing, Biology, Management, Monitoring, Policy and Law, Atmospheric sciences, Cyanobacteria, Zooplankton, Article, Carbon cycle, Environmental Science(all), Water Supply, Heterotrophy, Phytoplankton, Animals, Ecosystem, General Environmental Science, Hydrology, Respiration, Primary production, Silicate, General Medicine, Nutrients, Plankton, Pollution, Water level, Eutrophic, Lakes, Aphotic zone, Seasons, Eutrophication, Environmental Monitoring

Abstract

As long as lakes and reservoirs are an important component of the global carbon cycle, monitoring of their metabolism is required, especially in the tropics. In particular, the response of deep reservoirs to water-level fluctuations (WLF) is an understudied field. Here, we study community metabolism through oxygen dynamics in a deep monomictic reservoir where high WLF (~10 m) have recently occurred. Simultaneous monitoring of environmental variables and zooplankton dynamics was used to assess the effects of WLF on the metabolism of the eutrophic Valle de Bravo (VB) reservoir, where cyanobacteria blooms are frequent. Mean gross primary production (P g) was high (2.2 g C m(-2) day(-1)), but temporal variation of P g was low except for a drastic reduction during circulation attributed to zooplankton grazing. The trophogenic layer showed net autotrophy on an annual basis, but turned to net heterotrophy during mixing, and furthermore when the whole water-column oxygen balance was calculated, considering the aphotic respiration (Raphotic). The high total respiration resulting (3.1 g C m(-2) day(-1)) is considered to be partly due to mixing enhanced by WLF. Net ecosystem production was equivalent to a net export of 3.4 mg CO₂ m(-2) day(-1) to the atmosphere. Low water levels are posed to intensify boundary-mixing events driven by the wind during the stratification in VB. Long-term monitoring showed changes in the planktonic community and a strong silicon decrease that matched with low water-level periods. The effects of low water-level on metabolism and planktonic community in VB suggest that water-level manipulation could be a useful management tool to promote phytoplankton groups other than cyanobacteria.

Published

2013

3. Biogeochemical responses to nutrient inputs in a Cuban coastal lagoon: runoff, anthropogenic, and groundwater sources

Author

R. González-De Zayas, Fermín S. Castillo-Sandoval, Martín F. Soto-Jiménez, and Martín Merino-Ibarra

Subjects

Biogeochemical cycle, Nitrogen, chemistry.chemical_element, Management, Monitoring, Policy and Law, Water Movements, Seawater, Groundwater, General Environmental Science, Hydrology, geography, geography.geographical_feature_category, biology, Phosphorus, Biogeochemistry, Cuba, General Medicine, Eutrophication, Inlet, biology.organism_classification, Pollution, Salinity, Oceanography, chemistry, Thalassia testudinum, Environmental science, Water quality, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Laguna Larga, a coastal lagoon in central Cuba, has been heavily altered by tourism infrastructure construction and sewage disposal. We hypothesize that this has decreased the circulation and caused eutrophication of the lagoon. To assess this, 12 bimonthly samplings were carried out in 2007-2008. Temperature, salinity, oxygen, nutrients and nitrogen, and phosphorous fractions (inorganic, organic, and total) were determined. Water and salt budgets, as well as biogeochemical fluxes of nitrogen and phosphorus were calculated using the LOICZ budget model for the three sections of the lagoon identified by morphological constrains and salinity patterns. Laguna Larga is a choked lagoon with restricted water circulation, low exchange, and high residence times that vary significantly along its sections. Residence time was estimated to be 0.1-0.7 years for the inner section and 1-9 days for the outer one. High levels of total nitrogen (annual means 126-137 μM, peaks up to 475 μM) and phosphorus (2.5-4.4 μM, peaks up to 14.5 μM) are evidence of eutrophication of Laguna Larga. During 2007, an average precipitation year, Laguna Larga exported water (703 m(3) d(-1)) and was a source of nitrogen (9.026 mmol m(-2) d(-1)) and phosphorus (0.112 mmol m(-2) d(-1)) to the adjacent sea. δ(15)N determinations in the seagrass Thalassia testudinum (-1.83 to +3.02 ‰) differed significantly between sites in the lagoon and offshore reference sites located W of the inlet, but were similar to those located E of the inlet. δ(15)N determinations in the seaweed Penicillus dumetosus (+1.02 to +4.2) did not show significant differences.

Published

2012