Mário Jorge Araújo scite author profile

Summary The anadromous sea lamprey (Petromyzon marinus) stop feeding during spawning migration; following the migration effort, the energy reserves of their tissues are expected to be mobilised and depleted. The present work aimed at testing if mobilisation of nutrients occurred in sea lampreys during the 2011 spawning run in the Minho River. Professional fishermen at three sampling sites captured the individuals used: two at the beginning of the freshwater spawning migration (one at the river mouth and one upstream the estuary) and one near the spawning grounds (35 km upstream the estuary limit). The total lipids (Folch extraction), protein (nitrogen conversion), energy content (direct calorimetry) and fatty acids (GC/EI‐MS‐SIM) were determined in the carcass (n = 19) and female liver (n = 8) and gonads (n = 8). The results indicated that a reduction of carcass dry matter during migration was mainly caused by a lipid decrease (51.0 ± 2.46% downstream and 38.0 ± 2.92% upstream, LSmean ± SE). In females, a decrease in the measured amounts of liver lipids was also observed (4.28 ± 2.637 g downstream and 0.64 ± 2.206 g upstream, LSmean ± SE) and the monounsaturated fatty acids consistently composed the larger fraction of lipids in all tissues (ranging between 42.9 ± 4.20% and 54.9 ± 3.43% of total fatty acids, LSMean ± SE). The results suggest a dynamic nutrient mobilisation and the major importance of liver fatty acids (such as 14:1n‐5 and 16:1n‐7) as possible energy sources for embryonic development or combustion during spawning migration. The P. marinus individuals captured at the intermediate sampling site (approximately 35 km upstream river mouth) in the middle of the season seemed as ready to spawn as the upstream sea lampreys.

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Effects of UV filter 4-methylbenzylidene camphor during early development of Solea senegalensis Kaup, 1858

Araújo

Rocha

Soares

et al. 2018

Science of The Total Environment

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Habitat modifications by sea lampreys (Petromyzon marinus) during the spawning season: effects on sediments

Sousa

Araújo²,

Antunes

2012

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Summary This study evaluated the habitat modifications of sea lampreys (Petromyzon marinus) during their spawning season. Males are responsible for digging circular or oval shape nests with lengths varying between 0.80 and 2.25 m (mean 1.49 m ± 0.43 SD). Females join later during the final phase of the process. Nest depth varies between 0.20 and 0.40 m (mean 0.28 m ± 0.07 SD). Significant differences in the mean particle size of the sediments were detected (F = 126.7; P < 0.01); sediments from the edge of the nest were coarser than the control plots, and sediments from the center of the nest were the finest. This species clearly changes the sediments in the spawning areas by altering the structure of the riverbed, with possible reverberating effects on other organisms. The burrows created by the sea lampreys remained intact for several months despite significant daily changes in the current velocity due to upstream dam operations. Given these results, and recognizing the great ecological importance of this species worldwide, their spawning activities should be taken into account in future ecological studies.

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The haematophagous feeding stage of anadromous populations of sea lamprey Petromyzon marinus: low host selectivity and wide range of habitats

et al. 2014

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Limited information is available regarding habitat use and host species of the haematophagous feeding stage of the anadromous sea lamprey Petromyzon marinus Linnaeus, 1758, due to the difficulties in capturing feeding lampreys and wounded hosts. The aim of this study is to provide new records of P. marinus feeding on host species and to review the available information in this regard to better know the ecology and distribution of sea lamprey during this stage. Thus, new records of P. marinus individuals or wounds on 23 species of fishes and cetaceans are provided. Nineteen of these species were described for the first time as hosts of P. marinus. As a result, an updated list of 54 host species is provided. They belong to diverse taxonomic groups and exhibit different morphological, physiological and ecological patterns. The attacks were located from fresh and brackish waters to open sea. The results suggest that the marine distribution of P. marinus is mainly related to coastal areas with part of the population widely dispersed in offshore areas. This remarkable capacity of inhabiting a broad range of aquatic ecosystems and exploiting different host species could have favoured the dispersal ability and evolutionary success of sea lamprey.

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