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Autores principales: Bianco, Stefania, Bordiga, Manuela, Langer, Gerald, Ziveri, Patrizia, Cerino, Federica, Relitti, Federica, Laudicella, Vincenzo Alessandro, Di Giulio, Andrea, Lupi, Claudia
Formato: Artículo científico
Lenguaje:en
Publicado: Journal of phycology 2025
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Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/41283763/
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author Bianco, Stefania
Bordiga, Manuela
Langer, Gerald
Ziveri, Patrizia
Cerino, Federica
Relitti, Federica
Laudicella, Vincenzo Alessandro
Di Giulio, Andrea
Lupi, Claudia
author_facet Bianco, Stefania
Bordiga, Manuela
Langer, Gerald
Ziveri, Patrizia
Cerino, Federica
Relitti, Federica
Laudicella, Vincenzo Alessandro
Di Giulio, Andrea
Lupi, Claudia
Bianco, Stefania
Bordiga, Manuela
Langer, Gerald
Ziveri, Patrizia
Cerino, Federica
Relitti, Federica
Laudicella, Vincenzo Alessandro
Di Giulio, Andrea
Lupi, Claudia
collection PubMed - marine biology
contents Helicosphaera carteri (Prymnesiophyceae) under high carbon dioxide: An experimental study. Bianco, Stefania Bordiga, Manuela Langer, Gerald Ziveri, Patrizia Cerino, Federica Relitti, Federica Laudicella, Vincenzo Alessandro Di Giulio, Andrea Lupi, Claudia Carbon Dioxide Haptophyta Seawater Hydrogen-Ion Concentration Carbon Carbon Cycle The coccolithophore Helicosphaera carteri is an understudied, yet ecologically and biogeochemically important, marine calcifier. Hence, its response to ocean acidification has implications for ecosystem function and the marine carbon cycle. Here we employed dilute batch cultures featuring a coupled C-system manipulation (295, 444, and 600 μatm CO) to analyze the response of H. carteri in terms of growth rate and particulate carbon production, two key eco-physiological and biogeochemical parameters. We highlight that both growth rate and organic carbon production are CO limited at 295 µatm but are not proton inhibited at 600 µatm of CO. This finding, combined with the maintenance of a stable inorganic production rate, places H. carteri among the coccolithophores less sensitive to seawater acidification. In addition, we tested a widely applied assumption underpinning the determination of carbon production, namely the constancy of particulate carbon quotas over the course of a dilute batch culture. We determined that the assumption holds true, an important validation of a method used in many publications.
format Artículo científico
id pubmed_41283763
institution PubMed
language en
publishDate 2025
publisher Journal of phycology
record_format pubmed
spellingShingle Helicosphaera carteri (Prymnesiophyceae) under high carbon dioxide: An experimental study.
Bianco, Stefania
Bordiga, Manuela
Langer, Gerald
Ziveri, Patrizia
Cerino, Federica
Relitti, Federica
Laudicella, Vincenzo Alessandro
Di Giulio, Andrea
Lupi, Claudia
Carbon Dioxide
Haptophyta
Seawater
Hydrogen-Ion Concentration
Carbon
Carbon Cycle
Helicosphaera carteri (Prymnesiophyceae) under high carbon dioxide: An experimental study. Bianco, Stefania Bordiga, Manuela Langer, Gerald Ziveri, Patrizia Cerino, Federica Relitti, Federica Laudicella, Vincenzo Alessandro Di Giulio, Andrea Lupi, Claudia Carbon Dioxide Haptophyta Seawater Hydrogen-Ion Concentration Carbon Carbon Cycle The coccolithophore Helicosphaera carteri is an understudied, yet ecologically and biogeochemically important, marine calcifier. Hence, its response to ocean acidification has implications for ecosystem function and the marine carbon cycle. Here we employed dilute batch cultures featuring a coupled C-system manipulation (295, 444, and 600 μatm CO) to analyze the response of H. carteri in terms of growth rate and particulate carbon production, two key eco-physiological and biogeochemical parameters. We highlight that both growth rate and organic carbon production are CO limited at 295 µatm but are not proton inhibited at 600 µatm of CO. This finding, combined with the maintenance of a stable inorganic production rate, places H. carteri among the coccolithophores less sensitive to seawater acidification. In addition, we tested a widely applied assumption underpinning the determination of carbon production, namely the constancy of particulate carbon quotas over the course of a dilute batch culture. We determined that the assumption holds true, an important validation of a method used in many publications.
title Helicosphaera carteri (Prymnesiophyceae) under high carbon dioxide: An experimental study.
topic Carbon Dioxide
Haptophyta
Seawater
Hydrogen-Ion Concentration
Carbon
Carbon Cycle
url https://pubmed.ncbi.nlm.nih.gov/41283763/