Dublin Core
Title
Metabolic Research in Aquatic Animal Nutrition, Physiology and Disease
Subject
fish nutrition; marine aquaculture; replacement; cottonseed meal; physiobiochemical; nutrient; fish soluble pulp; enzymatic chicken pulp; growth performance; appetite; Litopenaeus vannamei; hypothermia; glucose and lipid metabolism; miR-1; AMPK; freshwater drum; metabolic liver disease; integrated analysis; proteomics; lipidomics; largemouth bass; lipidomics; phospholipids; salmon; aquaculture; GM; novel feeds; artificial night light; feeding regime; lipid metabolism; serum metabolites; rainbow trout; lactoferrin; Epinephelus coioides; growth performance; intestinal damage; cottonseed protein concentrate; protein requirement; muscle texture; antioxidant capacity; metabolic function; Clostridium autoethanogenum; largemouth bass; growth; intestinal healthy; lipid metabolomics; Ctenopharyngodon idella; ecological network; homeostasis; microbial function; endoplasmic reticulum stress; high-fat diet; fat deposition; spotted seabass; 4-PBA; largemouth bass (Micropterus salmoides); enzymatic cottonseed protein concentrate; growth performance; antioxidant capacity; immunity; steroidal saponins; hybrid grouper; high-lipid diet; glucose and lipid metabolism; nonspecial immune; Micropterus salmoides; soybean lecithin; haematology; antioxidant capabilities; immune responses; Epinephelus akaara; fish meal; wheat gluten; soy protein concentrate; n/a
Description
Aquaculture supplies large quantities of high-value proteins to human beings and remains the most efficient protein-producing industry. Fish feed is the largest cost during aquaculture practice, and it is of great importance to explore the nutrient requirements and physiology of different aquatic animals. The last decade has seen a growing number of studies revealing the metabolic responses in aquatic animal nutrition, physiology and disease.
The inner metabolic regulatory mechanism in aquatic animal nutrition, physiology and disease remains largely unresolved. This Special Issue Reprint showcases a collection of original research articles that highlight the latest discoveries and advances in the field of metabolic research in aquatic animal nutrition, physiology and disease. In improving our understanding of the metabolic regulation in multiple aspects of aquatic animals, there is potential to develop functional feed components or high-efficiency fish feed, to finally promote the continual blooming of the aquaculture industry.
The inner metabolic regulatory mechanism in aquatic animal nutrition, physiology and disease remains largely unresolved. This Special Issue Reprint showcases a collection of original research articles that highlight the latest discoveries and advances in the field of metabolic research in aquatic animal nutrition, physiology and disease. In improving our understanding of the metabolic regulation in multiple aspects of aquatic animals, there is potential to develop functional feed components or high-efficiency fish feed, to finally promote the continual blooming of the aquaculture industry.
Creator
Qingchao Wang (editor)
Yan He (editor)
Qingsong Tan (editor)
Yan He (editor)
Qingsong Tan (editor)
Source
https://www.mdpi.com/books/reprint/8599-metabolic-research-in-aquatic-animal-nutrition-physiology-and-disease
Publisher
MDPI - Multidisciplinary Digital Publishing Institute
Date
2024
Contributor
Jadik Wijayanto
Rights
© by the authors
Relation
https://res.mdpi.com/bookfiles/book/8599/Metabolic_Research_in_Aquatic_Animal_Nutrition_Physiology_and_Disease.pdf?v=1709044868
Format
PDF
Language
English
Type
Textbooks
Identifier
ISBN : 978-3-0365-9985-4 (Hardback)
ISBN : 978-3-0365-9986-1 (PDF)
DOI : https://doi.org/10.3390/books978-3-0365-9986-1
ISBN : 978-3-0365-9986-1 (PDF)
DOI : https://doi.org/10.3390/books978-3-0365-9986-1
Coverage
Basel, Switzerland, 2024