Abstract
AbstractReproductive timing can be defined as the temporal pattern of reproduction over a lifetime. Although reproductive timing is highly variable in marine fishes, certain traits are universal, including sexual maturity, undergoing one or more reproductive cycles, participating in one or more spawning events within a reproductive cycle, release of eggs or offspring, aging, and death. These traits commonly occur at four temporal scales: lifetime, annual, intraseasonal, and diel. It has long been known that reproductive timing affects reproductive success, especially in terms of the onset of sexual maturity and the match or mismatch between seasonal spawning and offspring survival. However, a comprehensive understanding of variability in reproductive timing over species, populations, and temporal scales is lacking. In addition, there is a need to assess how variability in reproductive timing affects a population's resilience. Because natural selection occurs at the individual level, this necessitates an understanding of within‐population (i.e., individual) variability in reproductive timing and how fishing may impact it through age truncation and size‐specific selectivity or fisheries‐induced evolution. In this paper, we review the temporal aspects of reproductive strategies and the four most‐studied reproductive timing characteristics in fishes: sexual maturity, spawning seasonality, spawning frequency, and diel periodicity. For each characteristic, we synthesize how it has traditionally been measured, advances in understanding the underlying physiology, its role in equilibrium‐based fish population dynamics, and its importance to reproductive success. We then provide a review of emerging methodology—with an emphasis on ovarian histology—to improve our ability to assess variability in reproductive timing both among populations and within populations.
Highlights
Reproductive timing can be defined as the temporal pattern of reproduction over a lifetime
Fitness occurs at the individual level, and modeling results are increasingly indicating that individual variability in reproductive timing affects reproductive success
The objective of this paper is to review traditional and emerging methods of assessing reproductive timing in marine fishes, emphasizing methods to assess within population variability and demographic effects
Summary
Most exploited marine teleosts are highly fecund and produce either pelagic or demersal eggs (Murua and Saborido-Rey 2003), their reproductive timing strategies vary widely (Bye 1984; McEvoy and McEvoy 1992; Murua and Saborido-Rey 2003). It is difficult to distinguish between the lifetime scale of ovarian development and the development associated with the annual reproductive cycle, this is easier done in coldwater species that take longer to resorb POFs (see Spawning Seasonality section below) Both immature and mature regenerating females (i.e., fish with undeveloped ovaries prior to recrudescence in the reproductive cycle) have primary growth oocytes as their most developed oocyte stage. The lack of synchronization can result in some species having (1) an extended spawning season, during which some portion of the population is spawning, and (2) a large degree of overlap between spawning capable fish and both early developing individuals and fish that have completed their spawning periods (i.e., regressing or regenerating individuals; Figure 4) For species with this pattern and with fast rates of atresia and POF resorption, it will be difficult to identify females that are exhibiting skipped spawning (Lowerre-Barbieri et al 2009; Rideout and Tomkiewicz 2011). Seasonality estimates based on male behavior tend to be somewhat longer than those based on ovarian histological analysis because males often arrive on spawning grounds before females and remain after most females have left
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