Abstract
Since Darwin’s time, waterbirds have been considered an important vector for the dispersal of continental aquatic invertebrates. Bird movements have facilitated the worldwide invasion of the American brine shrimp Artemia franciscana, transporting cysts (diapausing eggs), and favouring rapid range expansions from introduction sites. Here we address the impact of bird migratory flyways on the population genetic structure and phylogeography of A. franciscana in its native range in the Americas. We examined sequence variation for two mitochondrial gene fragments (COI and 16S for a subset of the data) in a large set of population samples representing the entire native range of A. franciscana. Furthermore, we performed Mantel tests and redundancy analyses (RDA) to test the role of flyways, geography and human introductions on the phylogeography and population genetic structure at a continental scale. A. franciscana mitochondrial DNA was very diverse, with two main clades, largely corresponding to Pacific and Atlantic populations, mirroring American bird flyways. There was a high degree of regional endemism, with populations subdivided into at least 12 divergent, geographically restricted and largely allopatric mitochondrial lineages, and high levels of population structure (ΦST of 0.92), indicating low ongoing gene flow. We found evidence of human-mediated introductions in nine out of 39 populations analysed. Once these populations were removed, Mantel tests revealed a strong association between genetic variation and geographic distance (i.e., isolation-by-distance pattern). RDA showed that shared bird flyways explained around 20% of the variance in genetic distance between populations and this was highly significant, once geographic distance was controlled for. The variance explained increased to 30% when the factor human introduction was included in the model. Our findings suggest that bird-mediated transport of brine shrimp propagules does not result in substantial ongoing gene flow; instead, it had a significant historical role on the current species phylogeography, facilitating the colonisation of new aquatic environments as they become available along their main migratory flyways.
Highlights
Since Darwin (1859), the role of birds as dispersal vectors for the diapausing propagules of continental aquatic organisms has been recognized (Carlquist, 1983; Bilton, Freeland & Okamura, 2001; Green & Figuerola, 2005)
Phylogenetic relationships and geographic distribution of lineages Once PCR primers were removed and sequences trimmed to the same length, the 604 bp c Oxidase Subunit I gene (COI) alignment contained 603 individuals newly sequenced in this study, which collapsed into 93 haplotypes
Automatic Barcode Gap Discovery (ABGD) did not find any partitions in our dataset, so we reduced X, as suggested by the program, to 1.0 and used Kimura 80, identifying 12 groups with a prior intraspecific distance of = 0.0028
Summary
Since Darwin (1859), the role of birds as dispersal vectors for the diapausing propagules of continental aquatic organisms has been recognized (Carlquist, 1983; Bilton, Freeland & Okamura, 2001; Green & Figuerola, 2005). In stark contrast to this prediction, ongoing gene flow between populations has consistently been found to be low (Boileau, Hebert & Schwartz, 1992; De Meester et al, 2002) and phylogeographic structures quite marked, with high levels of endemism (Gomez, Carvalho & Lunt, 2000; Gomez et al, 2007a; De Gelas & De Meester, 2005; Munoz et al, 2008) This paradox has been explained through a combination of high population growth rates, rapid local adaptation and a buffering effect of large egg banks accumulated in sediments, resulting in a monopolisation of resources by the few initial founders, reducing the impact of further immigrants on population structure – what was termed the “monopolisation hypothesis” (De Meester et al, 2002). Figuerola, Green & Michot (2005) tested explicitly the relationship between bird movements and aquatic invertebrate population genetic structure, revealing a significant association between historical ringing data – used as a proxy of bird-mediated dispersal between populations – and population genetic distances for two cladocerans and a bryozoan in North America, concluding that birds significantly contributed to effective dispersal
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