Combined effects of maternal traits and spring warming patterns on spawning success of walleye
Date
2020-09-11
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Abstract
Factors influencing survival through the earliest life stages are believed to be strong
drivers of recruitment variability in many fishes. Previous research on walleye (Sander
vitreus) has suggested that early life survival and subsequent year-class strength may be
related to the age composition of spawners through maternal influences on egg quality, as
well as environmental conditions during spawning and early rearing periods. My
objective was to examine survival and developmental rates for embryo batches of
individual female walleye of Lake Nipissing, Ontario, in relation to the combined
influences of maternal effects and incubation temperature.
Female walleye were spawned on multiple dates in each of three consecutive years (2017
– 2019) and their embryos incubated under three spring warming regimes (slow,
seasonal, and rapid warming; approximately 4 °C range in mean daily temperature) in a
controlled laboratory setting. Embryo survival to hatch and thermal units to hatch (TU50;
cumulative growing degree-days) were determined for each egg batch. Maternal traits
measured included female age and length, ovum (egg) size and total lipid content, and
relative abundances of essential fatty acids in ova lipids. For each year, embryo survival
and TU50 were modelled as functions of spawning date, incubation temperature treatment
and maternal and ova traits using standard frequentist statistics and a model selection
approach based on AICc ranking.
Embryo survival varied among spawning dates in 2017, the year with the earliest
spawning period, but not in 2018 or 2019. Embryo survival did not vary with respect to
incubation warming rate in any year. Relationships between embryo survival and
maternal and ova traits varied among spawning years but did not appear to be related to
incubation temperature treatments within years. Contrary to my predictions, embryo
ivsurvival was more consistently related to ova characteristics than to female age or size,
and relationships between embryo survival and indices of ova quality were not always
positive. Mean TU50 was higher in 2017, the year with the earliest spawning period, than
in 2018 and 2019. Spawning date and incubation warming rate had interactive effects on
TU50; there was generally a positive relationship between TU50 and spawning date in all
years in the seasonal and slow-warming incubation treatments but not in the rapidwarming treatment. Similarly, relationships between TU50 and maternal and ova traits
were strongest in the slow-warming treatment and weakest in the rapid-warming
treatment. TU50 tended to decline with increasing female age and size, and egg size. Time
to 50% hatch ranged from 13 to 33 days across all years, spawn dates, treatments and
females in my experiments. Based on my laboratory results and temperature
measurements at natural spawning sites I estimated that walleye would hatch 3 to 5 days
earlier at river inflow sites than at shoreline spawning sites in Lake Nipissing.
My results provide new and unique information on reproduction and the recruitment
process in walleye and have implications for size-selective harvest guidelines used in
fisheries management. It appears that the older and larger females of spawning stocks
may not always produce the eggs with highest survival. Also, it appears that temperature
could influence early life survival more indirectly, through its effects on hatch timing,
this is an aspect that merits further investigation.
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Keywords
walleye, spawning