Fases geoquímicas del Fe y grado de piritización en sedimentos de la Ría de Pontevedra (NO de España)implicaciones del cultivo del mejillón en bateas

  1. León, I. 1
  2. Méndez Martínez, Gonzalo 2
  3. Rubio Armesto, Belén 2
  1. 1 Universidad del Atlántico (Colombia)
    info

    Universidad del Atlántico (Colombia)

    Barranquilla, Colombia

    ROR https://ror.org/05mm1w714

  2. 2 Universidade de Vigo
    info

    Universidade de Vigo

    Vigo, España

    ROR https://ror.org/05rdf8595

Zeitschrift:
Ciencias marinas

ISSN: 0185-3880 2395-9053

Datum der Publikation: 2004

Ausgabe: 30

Nummer: 4

Seiten: 585-602

Art: Artikel

DOI: 10.7773/CM.V30I4.340 DIALNET GOOGLE SCHOLAR lock_openOpen Access editor

Andere Publikationen in: Ciencias marinas

Ziele für nachhaltige Entwicklung

Zusammenfassung

To assess the influence of mussel raft systems on several geochemical and sedimentological properties (carbonate and organic matter contents, fractions of Fe and degree of pyritization), six sediment cores were collected from the Ría de Pontevedra area. Four of those cores were collected in mussel raft areas (biodeposits) and the other two in adjacent areas where mussel rafts do not operate. The degree of pyritization (DOP) varied between 11.89% and 67.30%, with a mean value of 46.36 ± 13.15%. The maximum values of DOP were obtained in sediments from the mussel raft areas, which in turn showed higher values of pyrite Fe, organic matter and mud than the areas without mussel rafts. On the contrary, in the latter areas, coarser sediments with high carbonate content and Fe bound to silicates were the predominant phases. The results show a dominance of more reducing conditions in the biodeposit areas than in the adjacent areas. The DOP values indicate that reactive Fe was not totally converted to pyrite Fe. The significant correlation (r = 0.61) between DOP and organic matter confirmed that the latter is the limiting factor in pyrite genesis. These results allow us to conclude that mussel raft culture significantly changes the sediment texture and geochemical forms of Fe, with the consequent geochemical and environmental implications.