Abstract
ABSTRACTSperm fertilisation success depends on both intrinsic quality and the interactions with the surrounding reproductive fluids. In several fish species, these interactions have a variable effect on sperm performance. Although specific responses to reproductive fluids may depend on intrinsic differences in sperm quality, variations in the traditionally recorded sperm functional traits do not fully account for the observed patterns. New methods to enhance the evaluation of sperm quality may prove to be valuable at both applied and theoretical levels, by improving the breeding protocol of reared species and the understanding of mating success in sperm competition contexts. Here we develop a fibre optic-based technique, also adequate for small ejaculate samples, to test the role of mitochondrial respiratory efficiency in deciphering sperm performance variability. We purposely used as model the grass goby, Zosterisessor ophiocephalus, a fish with guard-sneaker mating tactics where the sperm in each male tactic have similar intrinsic qualities (velocity, viability, ATP content), but sneakers' sperm exploit territorial males' seminal fuid, overall displaying better fertilization ability. We found that sperm differed in their mitochondrial respiratory efficiency, which was higher in sneakers’ sperm compared to territorial ones. This result draws the attention to an indicator of sperm quality that might be helpful in disentangling the mechanisms driving sperm-reproductive fluid interactions.
Highlights
The number and quality of sperm are widely recognized to determine fertilisation success in both natural and artificial conditions (Birkhead and Møller, 1998; Birkhead et al, 2009; Morrell and Rodriguez-Martinez, 2009)
We introduced a method that, thanks to a fibre optic-based technology, allows the measurement of an overlooked sperm feature, the sperm oxygen consumption rate, in species in which the tiny amount of ejaculate represented a major limitation to the traditional measurements of respiration by means of electrodes
This limitation is quite common in sperm competition and cryptic female choice studies that are often performed in small model fish species and insects
Summary
The number and quality of sperm are widely recognized to determine fertilisation success in both natural and artificial conditions (Birkhead and Møller, 1998; Birkhead et al, 2009; Morrell and Rodriguez-Martinez, 2009). One of the main goals in spermatology is to detect the set of sperm traits that allow a better prediction of fertilisation outcomes In this respect, a major contribution to the field was engendered by studies on sperm competition, which is recognized as a major selective force influencing both sperm morphology and physiology When sperm intrinsic quality is analysed, none of the usually recorded parameters (i.e. velocity, viability, longevity, ATP content, etc.) appear to fully explain the observed variability in the presence of reproductive fluids
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