Data from: A population genetic signature of human releases in an invasive ladybeetle
Data files
Sep 07, 2012 version files 290.09 KB
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C7-COI_Nucleotide alignment_Kajita.nex
189.20 KB
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DataSetKajita.xls
84.99 KB
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diversity.txt
761 B
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Introduction.txt
7.88 KB
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Rcode_AIC_select.txt
1.63 KB
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Rcode_Spational_Analyses.txt
5.62 KB
Abstract
Biological invasions have been accelerated by a variety of human activities. Propagule pressure, the number of introduced individuals and independent introductions, is likely to be influenced by these human activities and may be an important factor for successful range expansion in new environments. We tested whether the current distribution of the predatory ladybeetle Coccinella septempunctata in the introduced range (USA) is the result of multiple historical human introductions or natural range expansion from the first established populations in the USA. To test this hypothesis, we compared historical records of propagule size, propagule number, specific introduction locations, and the date of each introduction, with estimates of genetic variation in mitochondrial DNA (COI). Our results indicated that genetic diversity in the introduced range was positively correlated with historical records of propagule size and number, and negatively correlated with distance to nearest introduction point, suggesting that multiple human releases were successful. Higher genetic diversity in populations found near introduction points suggest that initial founder effects were limited, but lower genetic diversity found farther from introduction points is likely the result of serial founder effects during secondary range expansion. These results suggest that the current distribution of C. septempunctata in the introduced range is the result of a combination of human releases and short-range expansion from multiple established populations in introduced range.