Ejaculate traits and ovarian fluid as a potential mechanism for cryptic female choice in chinook salmon (Oncorhynchus tshawytscha)

Marine and freshwater environments support numerous species of teleost fish with a wide and diverse range of reproductive strategies. Despite the considerable interest in fish reproduction, our knowledge regarding ejaculate traits and factors affecting them is limited. Using computer-assisted sperm analysis (CASA) I measured ejaculate traits (sperm swimming speed, motility, path trajectory, longevity and concentration) from sexually mature chinook salmon (Oncorhynchus tshawytscha) activated in freshwater and ovarian fluid. I also looked at these ejaculate traits in relation to measures of male quality (body condition) and investment into reproduction (relative testes mass). Furthermore, I determined the chemical composition of seminal and ovarian fluid and looked at the effect these fluids have on sperm behaviour. A considerable amount of intraspecific variation existed in all ejaculate traits measured, and investment into reproduction (relative testes mass) was dependent on male body condition, as males in better condition had relatively larger testes. However, these males did not have superior quality ejaculates or ejaculates with a higher density of spermatozoa; hence the potential reproductive advantage of having larger relative testes in this species remains unknown and requires further investigation. In addition, a positive relation between sperm longevity and sperm swimming speed was observed defying the expected trade-off between ejaculate traits according to theory. There was also a weak negative trend in our data between body condition and sperm swimming speed, linearity, and longevity. All sperm traits measured were greatly enhanced when activated in a solution containing ovarian fluid (a viscous fluid which is excreted with the egg batch during spawning) from female chinook salmon. Interestingly, sperm swimming speed activated in fresh water only accounted for < 12% of the observed variation in mean sperm swimming speed in ovarian fluid. This result suggests the sperm traits measured in fresh water are not relevant to those same traits measured in ovarian fluid, so caution should be applied when comparing the potential for individual males to fertilize ova when sperm traits are activated in water, especially in studies of sperm competition in an externally fertilising species. Sperm competition between males is known to strongly influence sperm and ejaculate traits, but less is known about female sperm choice after copulation via a process called cryptic female choice (CFC). In CFC, females may have the ability to favour the sperm of one male over another and bias fertilisation accordingly. To test whether ovarian fluid could act as a mechanism of CFC in an externally fertilising fish species, I measured sperm traits from each male activated in the ovarian fluids from different females. I found that mean sperm swimming speed, longevity, and path trajectory differed significantly among males, but most importantly, the pattern of within-male variation in these traits also varied significantly among males in response to different females’ ovarian fluids. This result suggests that ovarian fluid may be a potential mechanism of CFC whereby females differentially enhance the swimming speed of sperm from different males. In addition, I found that sperm longevity was negatively correlated with variation in [Ca²⁺] and [Mg²⁺] concentration in the ovarian fluid, while percent motility increased with increasing concentration of [Mg²⁺]. These observations provide a possible chemical basis for cryptic female choice whereby female ovarian fluid differentially influences the behaviour of sperm from different males and thus their fertilisation success. This finding is particularly exciting, as we may have uncovered a potential mechanism of CFC in an externally fertilising species, which is poorly understood. In addition, results from this study suggest new directions for genetic studies to provide direct evidence for CFC. For example, does sperm selection via ovarian fluid promote favoured genetic combinations that enhance male reproductive success

Esurvival

Dataset for embryo surviva

Replicates2

Same data as Replicates.csv but rearranged for loglinear analysi

Data from: Cryptic female choice enhances fertilization success and embryo survival in chinook salmon

In this study we investigated two potentially important intersexual postcopulatory gametic interactions in a population of chinook salmon (Oncorhynchus tshawytscha): (i) the effect of female ovarian fluid (OF) on the behaviour of spermatozoa during fertilisation, and (ii) the effects of multilocus heterozygosity (as an index of male quality) and female-male genetic relatedness on sperm behaviour and male fertilisation success when there is sperm competition in the presence of that ovarian fluid. To do this, we conducted a series of in vitro competitive fertilisation experiments and found that,when ejaculates from two males are competing for access to a single female’s unfertilised eggs, fertilisation success was significantly biased toward the male whose sperm swam fastest in the female’s ovarian fluid. Embryo survival—a measure of fitness—was also positively correlated with both sperm swimming speed in ovarian fluid and male multilocus heterozygosity, providing novel evidence that cryptic female choice is adaptive for the female, enhancing the early survival of her offspring and potentially influencing her fitness

Statistical Supplement 2016

This file includes all the R code and statistical analyses for - Rosengrave P, Montgomerie R, Gemmell, N. 2016. Cryptic female choice enhances fertilization success and embryo survival in chinook salmo

README

This file explains all of the variables in each of the datasets that accompany: Rosengrave P, Montgomerie R 2015ms. Cryptic female choice enhances fertilization success and embryo survival in chinook salmo

Trials

Dataset for experimental competitive and non-competitive fertilization trial

TRIOML

Dataset for genetic relatedness estimates, using TrioML for degree of genetic relatedness between male and femal

Replicates

Dataset for replicates of competitive fertilization trial

Data from: Delineating the roles of males and females in sperm competition

Disentangling the relative roles of males, females and their interactive effects on competitive fertilization success remains a challenge in sperm competition. In this study, we apply a novel experimental framework to an ideally suited externally fertilizing model system in order to delineate these roles. We focus on the chinook salmon, Oncorhynchus tshawytscha, a species in which ovarian fluid (OF) has been implicated as a potential arbiter of cryptic female choice for genetically compatible mates. We evaluated this predicted sexually selected function of OF using a series of factorial competitive fertilization trials. Our design involved a series of 10 factorial crosses, each involving two ‘focal’ rival males whose sperm competed against those from a single ‘standardized’ (non-focal) rival for a genetically uniform set of eggs in the presence of OF from two focal females. This design enabled us to attribute variation in competitive fertilization success among focal males, females (OF) and their interacting effects, while controlling for variation attributable to differences in the sperm competitive ability of rival males, and male-by-female genotypic interactions. Using this experimental framework, we found that variation in sperm competitiveness could be attributed exclusively to differences in the sperm competitive ability of focal males, a conclusion supported by subsequent analyses revealing that variation in sperm swimming velocity predicts paternity success. Together, these findings provide evidence that variation in paternity success can be attributed to intrinsic differences in the sperm competitive ability of rival males, and reveal that sperm swimming velocity is a key target of sexual selection