Quantifying Digestion in California Yellowtail (Seriola lalandi dorsalis), Technological Advances Towards the Development of the Aquaculture Sector

Date

2016-12

Contributor

Instructor

Depositor

Speaker

Researcher

Consultant

Interviewer

Narrator

Transcriber

Annotator

Journal Title

Journal ISSN

Volume Title

Publisher

Volume

Number/Issue

Starting Page

Ending Page

Alternative Title

Abstract

Tracing the path of nutrient incorporation from the moment of ingestion through the later phases of excretion and growth has proven extremely difficult due to the nature of marine species. Numerous studies have attempted to quantitatively describe feed efficiency in fish however no method more accurately embodies this process as respirometry. Respirometry has been a valuable tool to monitor variability in respiration rates and offers a quantitative approach to measure specific dynamic action. The term specific dynamic action encompasses the energy expenditures during ingestion, digestion, absorption, and assimilation of a meal. This type of analysis produces an estimate of both the baseline and postprandial metabolic rate, which can be later compared with the initial meal energy to provide an estimate towards the efficiency during digestion. Yellowtail were placed in a 30L flume and maintained at a velocity of 1 body length per second as well as a 1237L static respirometer to determine their “fasted” baseline metabolic rate. After the fish consumed a meal equivalent to 5% body weight, their postprandial metabolic response (SDA) was calculated based on the difference in oxygen consumption between their “fasted” and “digestive” states. Baseline routine metabolic rates and SDA were calculated for both a sardine flesh and a commercially available pelleted feed treatment. The results of this work indicate a considerably large percentage of the total energy of a meal placed towards digestion in yellowtail, a common theme for a number of other active pelagic fish of similar proportion.

Description

Keywords

Aquatic sciences, Physiology, Aquaculture, Diet, digestion, Respirometer, specific dynamic action, yellowtail

Citation

Extent

111 pages

Format

Geographic Location

Time Period

Related To

Related To (URI)

Table of Contents

Rights

All UHH dissertations and theses are protected by copyright. They may be viewed from this source for any purpose, but reproduction or distribution in any format is prohibited without written permission from the copyright owner.

Rights Holder

Local Contexts

Email libraryada-l@lists.hawaii.edu if you need this content in ADA-compliant format.