Assessment of mineral composition of blue crab (Callinectes sapidus) shell from Tivat Bay and Ulcinj coastal waters
Date
2022Author
Rakita, Slađana
Čabarkapa, Ivana
Spasevski, Nedeljka
Lazarević, Jasmina
Joksimović, Aleksandar
Joksimović, Danijela
Drakulović, Dragana
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Show full item recordAbstract
The blue crab (Callinectes sapidus) has been considered an invasive species distributed
in the Adriatic and other parts of the Mediterranean Sea, and represents a significant
threat to the global marine ecosystems, because it may cause native species extinction
and transformation of entire ecosystem functioning. Valorization of the blue crab
waste (i.e. shell) into new products has been sought as a promising solution to reduce
its negative effects. Therefore, the evaluation of chemical composition with a focus on
the mineral composition of the blue crab shell was carried out within this research. For
that purpose, blue crabs were caught in two different sites of the coastal part of the
Adriatic Sea (Tivat Bay and Ulcinj). The samples of the blue crab were cooked by
steaming for 10 min and then, shell from crab claws, head and legs (sample I) were
separated from the shell of the rest of the body (cephalothorax) (sample II). The
obtained results showed that both samples from Tivat Bay and Ulcinj were rich in
calcium and magnesium. Calcium in the crab shell is in the form of calcium carbonate.
Samples I and II from Tivat Bay and Ulcinj were also characterized with higher content
of sodium and potassium. Regarding microelements, the samples had lower amounts
of iron, manganese, zinc and copper. When evaluated the safety, it was determined that
the concentrations of cadmium, arsenic and mercury in the samples were low or under
detection limits, whereas the concentration of lead ranged between 1.32 and 1.75
mg/kg, indicating that crab shells accumulated lead. Based on the findings, it can be
concluded that due to high calcium content blue crab shells from Tivat Bay and Ulcinj
coastal waters have metal removal capacities and hence have a great potential as an
adsorbent for the remediation of metal-bearing solutions. This potential, combined
with the low cost of crab shells, could result in a cost-effective effluent treatment
system.