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Main Authors: Longo, Caterina, Pierri, Cataldo, Trani, Roberta, Mercurio, Maria, Nonnis Marzano, Carlotta, Corriero, Giuseppe, Aguilo-Arce, Joseba, Sini, Valeria, Massari, Federica, Zambonin, Carlo, Vona, Danilo, Cotugno, Pietro, Ragni, Roberta, Masini, Serena, Giangrande, Adriana, D'Onghia, Gianfranco, Ferriol, Pere
Format: Artículo científico
Language:en
Published: Scientific reports 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/39966515/
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author Longo, Caterina
Pierri, Cataldo
Trani, Roberta
Mercurio, Maria
Nonnis Marzano, Carlotta
Corriero, Giuseppe
Aguilo-Arce, Joseba
Sini, Valeria
Massari, Federica
Zambonin, Carlo
Vona, Danilo
Cotugno, Pietro
Ragni, Roberta
Masini, Serena
Giangrande, Adriana
D'Onghia, Gianfranco
Ferriol, Pere
author_facet Longo, Caterina
Pierri, Cataldo
Trani, Roberta
Mercurio, Maria
Nonnis Marzano, Carlotta
Corriero, Giuseppe
Aguilo-Arce, Joseba
Sini, Valeria
Massari, Federica
Zambonin, Carlo
Vona, Danilo
Cotugno, Pietro
Ragni, Roberta
Masini, Serena
Giangrande, Adriana
D'Onghia, Gianfranco
Ferriol, Pere
Longo, Caterina
Pierri, Cataldo
Trani, Roberta
Mercurio, Maria
Nonnis Marzano, Carlotta
Corriero, Giuseppe
Aguilo-Arce, Joseba
Sini, Valeria
Massari, Federica
Zambonin, Carlo
Vona, Danilo
Cotugno, Pietro
Ragni, Roberta
Masini, Serena
Giangrande, Adriana
D'Onghia, Gianfranco
Ferriol, Pere
collection PubMed - marine biology
contents Toward a green strategy of sponge mariculture and bioactive compounds recovery. Longo, Caterina Pierri, Cataldo Trani, Roberta Mercurio, Maria Nonnis Marzano, Carlotta Corriero, Giuseppe Aguilo-Arce, Joseba Sini, Valeria Massari, Federica Zambonin, Carlo Vona, Danilo Cotugno, Pietro Ragni, Roberta Masini, Serena Giangrande, Adriana D'Onghia, Gianfranco Ferriol, Pere Animals Porifera Aquaculture Biomass Mediterranean Sea Green Chemistry Technology Chromatography, Supercritical Fluid Sponges are benthic filter-feeder invertebrates capable to produce a variety of high value bioactive compounds. Nevertheless, exploitation of sponges as bio-factories requires scalable and sustainable strategies to supply sponge biomass without threatening wild natural populations and to minimize the consumption of toxic organic solvents in metabolites extraction and purification procedures. Sponges farming in integrated facilities nearby fish mariculture cages represents a highly efficient strategy combining the production of sponge biomass with bioremediation. Here we report the results of the in situ rearing of the keratose sponge Sarcotragus spinosulus developed within three years in an innovative Integrated Multi-Trophic Aquaculture system in the Gulf of Taranto (Southern Italy, Mediterranean Sea), capable to supply large-scale sponge biomass with a minimal impact on wild populations. Moreover, we demonstrate the proof of concept that it is possible to produce polyprenyl hydroquinones, selected as well-known bioactive model metabolites, in good yields, high purity degree and low organic solvent consumption, by means of an innovative protocol based on the combination of supercritical carbon dioxide fluid extraction and gel permeation chromatography. Such a combination of eco-friendly techniques paves the way to eco-sustainable supply of bioactive compounds from marine organisms highly profitable in terms of working times, costs, solvents, and energy saving.
format Artículo científico
id pubmed_39966515
institution PubMed
language en
publishDate 2025
publisher Scientific reports
record_format pubmed
spellingShingle Toward a green strategy of sponge mariculture and bioactive compounds recovery.
Longo, Caterina
Pierri, Cataldo
Trani, Roberta
Mercurio, Maria
Nonnis Marzano, Carlotta
Corriero, Giuseppe
Aguilo-Arce, Joseba
Sini, Valeria
Massari, Federica
Zambonin, Carlo
Vona, Danilo
Cotugno, Pietro
Ragni, Roberta
Masini, Serena
Giangrande, Adriana
D'Onghia, Gianfranco
Ferriol, Pere
Animals
Porifera
Aquaculture
Biomass
Mediterranean Sea
Green Chemistry Technology
Chromatography, Supercritical Fluid
Toward a green strategy of sponge mariculture and bioactive compounds recovery. Longo, Caterina Pierri, Cataldo Trani, Roberta Mercurio, Maria Nonnis Marzano, Carlotta Corriero, Giuseppe Aguilo-Arce, Joseba Sini, Valeria Massari, Federica Zambonin, Carlo Vona, Danilo Cotugno, Pietro Ragni, Roberta Masini, Serena Giangrande, Adriana D'Onghia, Gianfranco Ferriol, Pere Animals Porifera Aquaculture Biomass Mediterranean Sea Green Chemistry Technology Chromatography, Supercritical Fluid Sponges are benthic filter-feeder invertebrates capable to produce a variety of high value bioactive compounds. Nevertheless, exploitation of sponges as bio-factories requires scalable and sustainable strategies to supply sponge biomass without threatening wild natural populations and to minimize the consumption of toxic organic solvents in metabolites extraction and purification procedures. Sponges farming in integrated facilities nearby fish mariculture cages represents a highly efficient strategy combining the production of sponge biomass with bioremediation. Here we report the results of the in situ rearing of the keratose sponge Sarcotragus spinosulus developed within three years in an innovative Integrated Multi-Trophic Aquaculture system in the Gulf of Taranto (Southern Italy, Mediterranean Sea), capable to supply large-scale sponge biomass with a minimal impact on wild populations. Moreover, we demonstrate the proof of concept that it is possible to produce polyprenyl hydroquinones, selected as well-known bioactive model metabolites, in good yields, high purity degree and low organic solvent consumption, by means of an innovative protocol based on the combination of supercritical carbon dioxide fluid extraction and gel permeation chromatography. Such a combination of eco-friendly techniques paves the way to eco-sustainable supply of bioactive compounds from marine organisms highly profitable in terms of working times, costs, solvents, and energy saving.
title Toward a green strategy of sponge mariculture and bioactive compounds recovery.
topic Animals
Porifera
Aquaculture
Biomass
Mediterranean Sea
Green Chemistry Technology
Chromatography, Supercritical Fluid
url https://pubmed.ncbi.nlm.nih.gov/39966515/