Avy Bernales scite author profile

Avy Bernales

5Publications

62Citation Statements Received

117Citation Statements Given

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105

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Instituto del Mar del Peru

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Factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off Peru

et al. 2020

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Abstract. Eastern boundary upwelling systems (EBUS) are among the most productive marine ecosystems on Earth. The production of organic material is fueled by upwelling of nutrient-rich deep waters and high incident light at the sea surface. However, biotic and abiotic factors can modify surface production and related biogeochemical processes. Determining these factors is important because EBUS are considered hotspots of climate change, and reliable predictions of their future functioning requires understanding of the mechanisms driving the biogeochemical cycles therein. In this field experiment, we used in situ mesocosms as tools to improve our mechanistic understanding of processes controlling organic matter cycling in the coastal Peruvian upwelling system. Eight mesocosms, each with a volume of ∼55 m3, were deployed for 50 d ∼6 km off Callao (12∘ S) during austral summer 2017, coinciding with a coastal El Niño phase. After mesocosm deployment, we collected subsurface waters at two different locations in the regional oxygen minimum zone (OMZ) and injected these into four mesocosms (mixing ratio ≈1.5 : 1 mesocosm: OMZ water). The focus of this paper is on temporal developments of organic matter production, export, and stoichiometry in the individual mesocosms. The mesocosm phytoplankton communities were initially dominated by diatoms but shifted towards a pronounced dominance of the mixotrophic dinoflagellate (Akashiwo sanguinea) when inorganic nitrogen was exhausted in surface layers. The community shift coincided with a short-term increase in production during the A. sanguinea bloom, which left a pronounced imprint on organic matter C : N : P stoichiometry. However, C, N, and P export fluxes did not increase because A. sanguinea persisted in the water column and did not sink out during the experiment. Accordingly, export fluxes during the study were decoupled from surface production and sustained by the remaining plankton community. Overall, biogeochemical pools and fluxes were surprisingly constant for most of the experiment. We explain this constancy by light limitation through self-shading by phytoplankton and by inorganic nitrogen limitation which constrained phytoplankton growth. Thus, gain and loss processes remained balanced and there were few opportunities for blooms, which represents an event where the system becomes unbalanced. Overall, our mesocosm study revealed some key links between ecological and biogeochemical processes for one of the most economically important regions in the oceans.

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Variability and Biogeographical Distribution of Harmful Algal Blooms in Bays of High Productivity off Peruvian Coast (2012-2015)

Sánchez¹,

Bernales²,

Delgado³

et al. 2017

J Environ Anal Toxicol

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Efectos de El Niño Costero 2017 sobre la oxigenación, fertilidad y productividad del mar frente a las costas del Perú

et al. 2022

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En el presente estudio describimos la asociación entre la variación de la temperatura del mar y los cambios en oxigenación, fertilidad y productividad durante el período 2016 - 2017 frente a la costa peruana. Para ello se utilizaron tanto datos in situ como satelitales, con énfasis frente al norte del Perú. El Niño Costero 2017 ocasionó disminución de las concentraciones denutrientes y una reducción significativa del área productiva frente a la costa para el verano, marzo 2017, hasta de 49% particularmente al norte de Callao (12°S). En cambio, frente a la costa sur los impactos fueron débiles o inclusive se registraron concentraciones elevadas de clorofila-a, posiblemente asociadas a la recuperación más rápida del afloramiento costero en dicha región. Asimismo, durante el verano 2017 se detectaron mayores concentraciones de oxígeno disuelto que lo habitual en la capa superior de la columna de agua y poca variación en la profundidad del límite superior de la zona de mínima de oxígeno.

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Grupos funcionales del fitoplancton en el norte del ecosistema de la Corriente de Humboldt

et al. 2022

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El Norte del ecosistema de la Corriente de Humboldt, localizado a lo largo del Sudeste del Océano Pacífico, frente a Perú, es considerado uno de los más productivos sistemas naturales en el mundo, siendo de gran relevancia el estudio del fitoplancton como base de la trama trófica marina. Tomando en cuenta las relaciones entre la superficie celular, biovolumen y máxima dimensión lineal de las células de las especies del fitoplancton, se encontraron 140 especies en el grupo funcional ‘R‘ (especies ruderales, adaptables a condiciones altas de mezcla); 133 especies en el grupo funcional ‘S’ (especies Stress-tolerantes, predominantes en condiciones oligotróficas y de alta luz) y 19 en el grupo funcional ‘C’ (especies colonizadoras, oportunistas, predominantes en condiciones mesotróficas y de alta luz). En el grupo funcional R destacaron las diatomeas elongadas, pennadas, dispuestas en cadenas; en el grupo funcional S se encontraron dinoflagelados, diatomeas centrales grandes y silicoflagelados; mientras que, en el grupo funcional C destacaron cocolitofóridos, algunos dinoflagelados mixotróficos y fitoflagelados. Los porcentajes de coincidencia entre la clasificación morfométrica de grupos funcionales del presente estudio y la clasificación ecológica, estuvieron entre 52 y 90%. Se propone el uso de estos grupos para evaluar las variaciones espacio-temporales del fitoplancton y su relación con las condiciones ambientales en el Norte del ecosistema de la Corriente de Humboldt, cuyos niveles de turbulencia son menores al de los fiordos chilenos.

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Seasonal Variability in the Distribution of Phytoplankton in Paracas Bay/Peru, as a Response to Environmental Conditions

Sánchez¹,

Jacobo²,

Bernales³

et al. 2019

JCEA

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During 2013-2015, a series of bio-oceanographic surveys was carried out in Paracas bay (13°50′ S). This coastal habitat represents a transition between open ocean and continent. Changes in distribution and structure of phytoplankton community and presence of noxious algal blooms were evaluated. The vertical stability of water column was analyzed on transects of temperature, salinity and potential density. Stratification of the water column as well as other variables presented a seasonal behavior. The maximum values were recorded in summer and were directly related to the seasonal heat flux in surface layers of the bay, while in winter this stratification index was minimum. N/P ratios showed a seasonal variation with highest values in winter and lowest ones in summer. Silicate concentrations were minimum mainly during in spring due to high biological fixation. The dominance of diatoms was evident in winter and spring, with maximum abundances of r strategists. The diversity and equitability indexes were low (< 3 bitscel-1 and 0.31, respectively). During summer, there was a greater contribution of oceanic species, with high concentrations of the dinoflagellate Prorocentrum cordatum; and a higher frequency of algal blooms (Akashiwo sanguinea, Heterosigma akashiwo, Eutreptiella gymnastica and Gonyaulax polygramma) in the coastal zone. Silicates and pH presented a significant correlation with diatom abundances in spring, whilst dinoflagellates were associated to warm and salinity conditions in summer. Weak correlations were found for potentially toxic dinoflagellates with temperature and for Pseudo-nitzschia group with silicates and phosphates.

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Avy Bernales

Factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off Peru

Variability and Biogeographical Distribution of Harmful Algal Blooms in Bays of High Productivity off Peruvian Coast (2012-2015)

Efectos de El Niño Costero 2017 sobre la oxigenación, fertilidad y productividad del mar frente a las costas del Perú

Grupos funcionales del fitoplancton en el norte del ecosistema de la Corriente de Humboldt

Seasonal Variability in the Distribution of Phytoplankton in Paracas Bay/Peru, as a Response to Environmental Conditions

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