Artículo
Nutrients and not temperature are the key drivers for cyanobacterial biomass in the Americas
Bonilla, Sylvia; Aguilera, Anabella
; Aubriot, Luis; Huszar, Vera; Almanza, Viviana; Haakonsson, Signe; Izaguirre, Irina
; O'farrell, Ines
; Salazar, Anthony; Becker, Vanessa; Cremella, Bruno; Ferragut, Carla; Hernandez, Esnedy; Palacio, Hilda; Rodrigues, Luzia Cleide; Sampaio da Silva, Lúcia Helena; Santana, Lucineide Maria; Santos, Juliana; Somma, Andrea; Ortega, Laura; Antoniades, Dermot
Fecha de publicación:
01/2023
Editorial:
Elsevier Science
Revista:
Harmful Algae
ISSN:
1568-9883
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
Cyanobacterial blooms imperil the use of freshwater around the globe and present challenges for water management. Studies have suggested that blooms are trigged by high temperatures and nutrient concentrations. While the roles of nitrogen and phosphorus have long been debated, cyanobacterial dominance in phytoplankton has widely been associated with climate warming. However, studies at large geographical scales, covering diverse climate regions and lake depths, are still needed to clarify the drivers of cyanobacterial success. Here, we analyzed data from 464 lakes covering a 14,000 km north-south gradient in the Americas and three lake depth categories. We show that there were no clear trends in cyanobacterial biomass (as biovolume) along latitude or climate gradients, with the exception of lower biomass in polar climates. Phosphorus was the primary resource explaining cyanobacterial biomass in the Americas, while nitrogen was also significant but particularly relevant in very shallow lakes (< 3 m depth). Despite the assessed climatic gradient water temperature was only weakly related to cyanobacterial biomass, suggesting it is overemphasized in current discussions. Depth was critical for predicting cyanobacterial biomass, and shallow lakes proved more vulnerable to eutrophication. Among other variables analyzed, only pH was significantly related to cyanobacteria biomass, likely due to a biologically mediated positive feedback under high nutrient conditions. Solutions toward managing harmful cyanobacteria should thus consider lake morphometric characteristics and emphasize nutrient control, independently of temperature gradients, since local factors are more critical – and more amenable to controls – than global external forces.
Palabras clave:
BLOOMS
,
CLIMATE CHANGE
,
EUTROPHICATION
,
FRESHWATER
,
GLOBAL GRADIENTS
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Articulos(IEGEBA)
Articulos de INSTITUTO DE ECOLOGIA, GENETICA Y EVOLUCION DE BS. AS
Articulos de INSTITUTO DE ECOLOGIA, GENETICA Y EVOLUCION DE BS. AS
Citación
Bonilla, Sylvia; Aguilera, Anabella; Aubriot, Luis; Huszar, Vera; Almanza, Viviana; et al.; Nutrients and not temperature are the key drivers for cyanobacterial biomass in the Americas; Elsevier Science; Harmful Algae; 121; 102367; 1-2023; 1-12
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