6533b852fe1ef96bd12ab70f
RESEARCH PRODUCT
Metallic nanoparticle enrichment at low temperature, shallow CO2 seeps in Southern Italy
Roy M. HarrisonRoy M. HarrisonFrancesco ParelloBjörn StolpeAndrew FisherJamie R. LeadEniko Kadarsubject
WESTERN MEDITERRANEAN SEA; VULCANO ISLAND; HYDROTHERMAL VENTS; TRANSMISSION ELECTRON; COLLOID AGGREGATION; TRACE-ELEMENTS; SEAWATER; SPECIATION; ZN; PB010504 meteorology & atmospheric sciencesVULCANO ISLANDNanoparticleMineralogyFraction (chemistry)010501 environmental sciencesOceanography01 natural sciencesMetalMediterranean seaWater columnTRACE-ELEMENTSEnvironmental Chemistry14. Life underwaterCOLLOID AGGREGATIONSPECIATION0105 earth and related environmental sciencesWater Science and TechnologyTRANSMISSION ELECTRONWESTERN MEDITERRANEAN SEASEAWATERGeneral ChemistrySettore GEO/08 - Geochimica E VulcanologiaPetroleum seepHYDROTHERMAL VENTS13. Climate actionvisual_artvisual_art.visual_art_mediumZNSeawaterComposition (visual arts)PBGeologydescription
We report on metal enrichment along a natural pH gradient owing to increased CO2 degassing at cold, shallow seeps of Vulcano Island in the Mediterranean Sea, off Sicily. We assessed composition of unfiltered and filtered seawater (<100 nm) along acidic zones ranging between ambient and pH 5, and showed that most seep derived elements are present as nanoclusters which then aggregate into larger colloids while mixing with ambient seawater along a pH gradient. Size and elemental composition of such naturally occurring nanoparticles assessed by modern characterisation methods were in good agreement with the results from conventional analytical methods. We provide analytical evidence for the presence in the water column of a large fraction of seep derived elements (e.g. approximately 50% of iron, over 80% of Mn, 100% of Cr, S and Zn) in the form of nano sized particles (e.g. <100 nm) even at typical open ocean pHs. We launch in situ sampling protocols and sample preparation procedures for multi-method suitable to obtain accurate measurements on nanoparticles from environmental samples. Based on our results a first insight to the formation of natural nanoparticles at cold CO2 seeps is presented and the persistence of such nano-clusters in the surrounding seawater is stipulated.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2012-01-01 | Marine Chemistry |