Under pressure: Cassiopea andromeda jellyfish exposed to increasing water temperature or lead, cadmium and anthropogenic gadolinium contamination

Similar to other cnidarians such as stony corals, the upside-down jellyfish (Cassiopea spp.) lives in endosymbiosis with dinoflagellates of the family Symbiodiniaceae. These jellyfish have been described as invasive species and are now found circumtropically in coastal marine environments. This study investigates the response of Cassiopea andromeda and its symbiotic algae to increased water temperature, further elucidating potential impacts of climate change on its populations in tropical ecosystems. It is demonstrated that water temperatures above 34 degrees C are lethal for the C. andromeda medusae tested in this study. A non-lethal temperature rise triggers significant changes in the animals behaviour and physiology, including significant changes in bell pulsation rate and a significant decrease in photochemical efficiency, once 33 degrees C is reached. Additionally, it is demonstrated that C. andromeda is capable of bioconcentrating significant amounts of cadmium from the surrounding water column. In the case of lead exposure, the jellyfish appear capable of regulating intake; no significant bioconcentration has been observed in this study. Our results do not indicate significant differences between the uptake patterns of anthropogenically complexed gadolinium chelates - emerging aquatic pollutants originating from hospital effluents - and the natural, non-chelated rare earth element terbium. This study supports the potential use of Cassiopea jellyfish as an attractive bioindicator species, serving to detect both continuous and pulse-contamination of coastal marine ecosystems. Cassiopea andromeda appears stable up until temperatures of about 34 degrees C, suggesting that temperature increase concomitant with climate change might drive important range extensions of this tropical species into new environments - environments in which the holobiont will play significant roles in local pollutant dynamics.

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Tipo de recurso Texto
Fecha de creación 17-09-2024
Fecha de última modificación 17-09-2024
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Identificador de los metadatos 7a80f100-9637-5197-9342-33bf9b7130bd
Idioma de los metadatos Español
Temáticas (NTI-RISP)
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Categoría temática ISO 19115 biota
Identificador alternativo DOI 10.1080/17451000.2022.2066132
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Identificador INSPIRE ESPMITECOIEPNBMMENOR845
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Identificador geográfico Murcia
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"{\"type\": \"Polygon\", \"coordinates\": [[[-2.34, 37.38], [-0.69, 37.38], [-0.69, 38.76], [-2.34, 38.76], [-2.34, 37.38]]]}"
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  1. Marine Biology Research
  2. Vol 18
  3. No 1-2
  4. 48-63
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Nombre del autor Beziat, P. y Kunzmann, A.
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Email del autor pauline.beziat@usys.ethz.ch
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