Laboratory of Aquaculture and Marine Ecophysiology
Integrative Neuroendocrinology of Fish Reproduction • Applications in Aquaculture • Ecotoxicology •
Biodiversity • Conservation • Sustainability
Integrative Neuroendocrinology of Fish Reproduction • Applications in Aquaculture • Ecotoxicology •
Biodiversity • Conservation • Sustainability
The Laboratory of Aquaculture and Marine Ecophysiology (LAQUEFIM) conducts research in Comparative Fish Physiology, with emphasis on Reproductive Neuroendocrinology, Ecotoxicology, and Applications in Aquaculture.
Our investigations integrate morphological, endocrine, molecular, and behavioral approaches to understand the mechanisms that regulate reproduction, development, and physiological plasticity in teleost fishes, both in natural environments and under farming conditions.
The laboratory is structured around four main research lines: (i) Reproductive Neuroendocrinology and Comparative Physiology, focusing on the brain–pituitary–gonadal axis and its regulatory mechanisms; (ii) Endocrine and Behavioral Ecotoxicology, investigating the effects of environmental contaminants on physiological biomarkers and behavioral performance; (iii) Aquaculture, Induced Reproduction and Development, aimed at applying reproductive physiology in captivity and improving sustainable production protocols; and (iv) Nutrition, Lipid Metabolism and Applied Physiology, exploring metabolic regulation and the nutritional impacts on growth, reproduction, and energy homeostasis.
LAQUEFIM also contributes to the conservation of threatened species and to the development of reproductive management strategies in captivity, integrating basic and applied science with a focus on innovation and sustainability.
Embryonic development of the threatened Neotropical fish Prochilodus vimboides.
This study provides a detailed description of the embryonic and early larval development of Prochilodus vimboides, a threatened freshwater species from the Paraíba do Sul River Basin. Through hormonally induced reproduction under controlled conditions, developmental events were documented from fertilization to hatching, including cleavage, gastrulation, and organogenesis stages. The results establish a precise embryological timeline for the species, providing essential information to improve captive breeding protocols, larval production, and conservation strategies.
Behavioral and Physiological Impacts of Phenanthrene in Juvenile Epinephelus marginatus.
This study demonstrated that acute exposure to phenanthrene (PAH) induces significant behavioral alterations, activation of the stress axis, and oxidative damage in juvenile dusky grouper. The results provide integrated evidence of neurobehavioral and physiological disruption, with implications for conservation and environmental risk assessment.
Office and Laboratory
University of São Paulo – IB/USP
Universidade de São Paulo - IB/USP
Rua do Matão, trav. 14, no. 321,
Cidade Universitária, São Paulo - SP
Zip Code: 05508-090 - Brazil
Other affiliation
Graduate Program in Aquaculture and Sustainable Development
Federal University of Paraná – PGADS/UFPR m
Rua Pioneiro, 2153
Palotina - PR
Zip Code: 85950-000 - Brazil
Contact
honjijp@usp.br
honjijp@gmail.com
honji@ufpr.br
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