Abstract
It is well known that temporal fluctuations in small populations deeply influence evolutionary potential. Less well known is whether fluctuations can influence the evolutionary potentials of species with large census sizes. Here, we estimated genetic population parameters from as survey of polymorphic microsatellite DNA loci in archived otoliths from Adriatic European anchovy (Engraulis encrasicolus), a fish with large census sizes that supports numerous local fisheries. Stocks have fluctuated greatly over the past few decades, and the Adriatic fishery collapsed in 1987. Our results show a significant reduction of mean genetic parameters as a consequence of the population collapse. In addition, estimates of effective population size (Ne) are much smaller than those expected in a fishes with large population census sizes (Nc). Estimates of Ne indicate low effective population sizes, even before the population collapse. The ratio Ne/Ne ranged between 10−6 and 10−8, indicating a large discrepancy between the anchovy gene pool and population census size. Therefore, anchovy populations may be more vulnerable to fishery effort and environmental change than previously thought.
Highlights
Population dynamics are driven by a complex set of ecological and evolutionary variables that mold population demography on several spatial and temporal scales [1]
Since the Brookfield correction improved our dataset, and no loci showed a systematic presence of null alleles, the entire corrected dataset was used for subsequent statistical analyses
This study confirms the utility of archived DNA to address evolutionary and fishery-related problems
Summary
Population dynamics are driven by a complex set of ecological and evolutionary variables that mold population demography on several spatial and temporal scales [1]. A temporal dimension is not always considered in the assessment of population structure, because historical samples are not always available, or because of the high costs of retrospective laboratory analysis [reviewed in 2]. Populations of bony fishes are most often examined for historical trends because of the availability of historical tissues [3], which are sometimes available from archeological excavations [3] and from archived fish scales and otoliths used for aging by fishery managers [4]. Temporal Genetic Variability in the European Anchovy. Annual funds are provided by Università Politecnica delle Marche (Ancona, Italy) to Vincenzo Caputo Barucchi
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