Characteristics and freezing tolerance of
brown trout spermatozoa according to rearing water salinity
C.
Labbe, G. Maisse-2001
Aquaculture, 201(3-4): 287-299
Abstract:
In most salmonid species, sperm cryopreservation
induces a drastic decrease in percentage of motile spermatozoa after
thawing, and this is at odds with the high motility observed on
cryopreserved sperm of most marine species studied. This study was carried
out to investigate whether water salinity could modify sperm fitness to
cryopreservation. During the 9 months preceding sexual maturation, 30 brown
trout Salmo trutta f. fario males were reared in seawater, while 30
other males from the same family were reared in freshwater. Sperm was
collected once and analyzed. Sperm motility was lower and more variable in
the seawater group (10% to 90%; mean 55%±29S.D.) than in the freshwater one
(60% to 95%; mean 89%±7S.D.). Resistance of spermatozoa plasma membrane to
osmotic shock was assessed by calculating the time before 50% spermatozoa
became permeable to propidium iodide upon exposure to deionized water. Fifty
percent permeable cells occurred 2 min earlier in sperm from seawater fish
than in sperm from freshwater fish. The two groups displayed the same sperm
fatty-acid profile and the same sperm cholesterol/phospholipid ratio (0.526±0.092S.D.
in seawater fish vs. 0.523±0.076S.D. in freshwater fish). Cryopreservation
induced the same decrease in sperm ATP content in the two groups and
fertilization rates were not different, whether fish were reared in seawater
or in freshwater (27%±12 and 32%±12, respectively). It is concluded that
water salinity is not a determinant of sperm fitness to cryopreservation,
and that salinity is not a direct modulator of the cholesterol/phospholipid
ratio.
(Ichtyodiversité
et Cryoconservation, Inra Scribe, Campus de Beaulieu, F-35042 Rennes Cedex,
France, Tel.: +33-2-23-48-50-04; fax: +33-2-23-48-50-20, e-mail : labbe@beaulieu.rennes.inra.fr)