The respiratory development of two species of teleost, Oncorhynchus
mykiss and Scophthalmus maximus was investigated to identify any
possible periods of reduced respiratory fitness during early
development. The two species were selected because of their different
development strategies to allow any common factors in respiratory
development to be identified.
The study included determination of the respiratory oxygen demand and
the critical oxygen tension (Pc) through early development for both
species. Respiratory oxygen demand was measured as a routine rate
(rVO2) with individual and weight specific values being determined.
The main respiratory surface areas for both species were measured,
this included the gills; body area; fin area and yolk-sac area in the
case of O. mykiss. Changes in the rate of development was monitored
by determining the mass and length specific development relationships.
Significant changes in body fin and yolk-sac area occurred at
approximately 70mg yolkless wet weight. for O. mykiss, gill area
development was found to change at approximately 110mg. Similar
changes in rate of fin and body area occurred for S. maximus at
approximately 3.5mg wet weight, while gill development changed at
6.8mg.
The change in epidermal thickness was measured during the
development of S. maximus larvae and fry. During the larval
development fin and body epithelium were significantly different up to
4.6mg wet weight with fin area being significantly thinner. Epidermal
thickness increased from 2µm to 23µm over the 35 day period of
monitoring. The degree of vascularisation of the yolk-sac of O. mykiss
larvae was measured and found to remain relatively constant at
approximately 41%. up to 70mg wet weight before declining. Mean
minimum diffusion distances increased from approximately 13. 5µm to
35µm over the life-span of the yolk-sac. The change in erythrocyte
type was also monitored during this period and found to decline in a
similar manner to yolk-sac area.
O. mykiss larvae reared under hypoxic conditions showed reductions in
growth towards the end of the period of endogenous feeding, as well as
increased development of gill area and increased levels of
vascularisation (up to 10%) of the yolk-sac. compared to normoxic reared
larvae. A study of the effects of removal of the respiratory pigment at
different stages of development was also undertaken. This allowed the
significance of haemoglobin during development of both species of fish
to be estimated. Respiratory fitness was inhibited in both species with
reductions of up to 2mg02/l in the Pc for O. mykiss, and 2. 5mg02/l for
S. maximus. However, S. maximus showed a high level of dependence
on haemoglobin for gaseous exchange during a short phase of
development from 9.5 to 15mg wet weight were removal of haemoglobin
caused 100% mortality in treated fish.
Overall the study showed the low level of respiratory flexibility of S.
maximus when compared to O. mykiss, especially during early
development. This must have significant importance for the intensive
mass culture of the larvae of this species. The important role cutaneous
respiration plays during the early development of both species was also
highlighted.
Date of Award | 1993 |
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Original language | English |
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Awarding Institution | |
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Respiratory Development of Two Teleost Fish, Oncorhynchus mykiss and Scophthalmus maximus During Their Early Life History
Burdass, M. C. (Author). 1993
Student thesis: PhD