Abstract
The origin of sea lamprey (Petromyzon marinus) in Lake Champlain has been heavily debated over the past decade. Given the lack of historical documentation, two competing hypotheses have emerged in the literature. First, it has been argued that the relatively recent population size increase and concomitant rise in wounding rates on prey populations are indicative of an invasive population that entered the lake through the Champlain Canal. Second, recent genetic evidence suggests a post-glacial colonization at the end of the Pleistocene, approximately 11,000 years ago. One limitation to resolving the origin of sea lamprey in Lake Champlain is a lack of historical and current measures of population size. In this study, the issue of population size was explicitly addressed using nuclear (nDNA) and mitochondrial DNA (mtDNA) markers to estimate historical demography with genetic models. Haplotype network analysis, mismatch analysis, and summary statistics based on mtDNA noncoding sequences for NCI (479 bp) and NCII (173 bp) all indicate a recent population expansion. Coalescent models based on mtDNA and nDNA identified two potential demographic events: a population decline followed by a very recent population expansion. The decline in effective population size may correlate with land-use and fishing pressure changes post-European settlement, while the recent expansion may be associated with the implementation of the salmonid stocking program in the 1970s. These results are most consistent with the hypothesis that sea lamprey are native to Lake Champlain; however, the credibility intervals around parameter estimates demonstrate that there is uncertainty regarding the magnitude and timing of past demographic events.
Highlights
The origin of the landlocked population of sea lamprey (Petromyzon marinus) in Lake Champlain has been the subject of an ongoing debate in recent years (Bryan et al, 2005; Waldman, Grunwald & Wirgin, 2006; Waldman et al, 2009; Eshenroder, 2009; Eshenroder, 2014)
Sample collection and mitochondrial DNA sequencing To estimate historical population fluctuations within Lake Champlain, fin tissue samples from spawning-phase sea lamprey were obtained from the US Fish and Wildlife Service (USFWS) in May–June 2009
This study builds upon previous research by modeling historical sea lamprey population fluctuations in Lake Champlain
Summary
The origin of the landlocked population of sea lamprey (Petromyzon marinus) in Lake Champlain has been the subject of an ongoing debate in recent years (Bryan et al, 2005; Waldman, Grunwald & Wirgin, 2006; Waldman et al, 2009; Eshenroder, 2009; Eshenroder, 2014). Recent research has suggested that native coastal populations of sea lamprey may have positive environmental impacts on freshwater streams. Post-spawning sea lamprey carcasses may be important sources of marine-derived nutrients and materials in oligotrophic streams (Guyette et al, 2014). The overall effect of landlocked sea lamprey populations in the Great Lakes and Lake Champlain has been detrimental. Lamprey-induced collapses of native fish populations have been well documented in the region since the 1970s (Smith, 1971; Smith & Tibbles, 1980)
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