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ObjectiveTo understand the concentration of heavy metal cadmium and cadmium in portunus and mantis shrimp, and to timely identify food safety problems and potential hazards. MethodsPortunus and mantis shrimp samples from different provinces were collected and categorized based on different regions and locations, and some samples were made from tissue parts. Graphite furnace atomic absorption spectrometry was used to detect cadmium items, the cadmium exposure of portunus and mantis shrimp was evaluated simultaneously ResultsThe detection rate of cadmium in 124 batches of portunus sold in Shanghai was 100% (124/124), the detection rate of cadmium in 63 batches of mantis shrimp sold in the market was also 100% (63/63). The cadmium content varied in different tissue parts, and the cadmium enrichment in hepatopancreas was the highest in the edible parts of portunus and mantis shrimp. The average detection value, 50th percentile value, 95th percentile value of cadmium in the hepatopancreas of portunus accounted for 52.64%, 49.28% and 98.65% of the PTMI, respectively. The average detection value, 50th percentile value and 95th percentile value of cadmium in the hepatopancreas of mantis shrimp accounted for 30.76%, 32.04% and 46.16% of the PTMI, respectively. ConclusionThe average residual levels of heavy metal cadmium in portunus and mantis shrimp are within the safe range.
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Introduction: Mantis shrimps are ecologically and economically important organisms in marine ecosystems. However, there is still a lack of information about their habitat, in particular, their burrows. Objective: To analyze how dense and sparse mantis shrimp burrows differ in abundance, size, sediment grain size, and water quality. Methods: We counted burrows in 10 x 10 m2 random plots in sparse and dense seagrass (ten plots per density), around Barrang Lompo Island, South Sulawesi, Indonesia. Sampling took place at spring low tide from August to September 2017. Results: Two mantis shrimp species were observed: Lysiosquillina maculate and L. sulcata. Dense and sparse seagrass burrows did not differ in wall grain size or water parameters, both inside and outside of the burrows (P > 0.05). Similarly, there was no correlation between burrow depth and diameter in either dense (P > 0.05; r= 0.27) or sparse (P > 0.05; r= 0.33) seagrass. However, larger burrows tend to occur in denser beds, but there were more burrows in denser seagrass (t-test, P < 0.05). Conclusions: There seems to be a preference for dense seagrass beds, especially by larger mantis shrimps. The correlation between shrimp burrow abundance and seagrass density highlights the importance of conserving the quality as well as the extent of seagrass habitat.
Introducción: Los camarones mantis son organismos ecológica y económicamente importantes en los ecosistemas marinos. Sin embargo, aún falta información sobre su hábitat, en particular sobre sus madrigueras. Objetivo: Analizar cómo difieren las madrigueras de los camarones mantis en su abundancia, tamaño, tamaño de grano de los sedimentos y calidad del agua. Métodos: Contamos las madrigueras en parcelas de 10 x 10 m2 al azar (diez parcelas por densidad) en pastos marinos densos y poco densos, alrededor de la isla de Barrang Lompo, Sulawesi del Sur, Indonesia. Resultados: Se observaron dos especies de camarones mantis: Lysiosquillina maculata y L. sulcata. El tamaño de grano de las paredes de las madrigueras y los parámetros de agua, tanto dentro y fuera de la madriguera no variaron (P > 0.05). Tampoco hubo correlación entre la profundidad y el diámetro de las madrigueras, tanto en praderas densas (P > 0.05; r= 0.27), como no densas (P > 0.05; r= 0.33). Sin embargo, las madrigueras más grandes tienden a aparecer en las praderas densas, además había más madrigueras en pastos densos (t-test, P < 0.05). Conclusiones: Parece haber una preferencia por las praderas marinas densas, especialmente en los camarones mantis de mayor tamaño. La correlación entre la abundancia de madrigueras de camarones y la densidad de pastos marinos pone de manifiesto la importancia de conservar la calidad del hábitat de los pastos, así como su extensión.