Abstract
The island biogeography theory is one of the major theories in ecology, and its applicability to natural systems is well documented. The core model of the theory, the equilibrium model of island biogeography, predicts that species diversity on an island is positively related to the size of the island, but negatively related by the island's distance to the mainland. In recent years, ecologists have begun to apply this model when investigating genetic diversity, arguing that genetic and species diversity might be influenced by similar ecological processes. However, most studies have focused on oceanic islands, but knowledge on how the theory applies to islands located on the mainland (e.g., mountain islands, forest islands) is scarce. In this study, we examined how the size and degree of isolation of mountain islands would affect the genetic diversity of an alpine bird, the rock ptarmigan (Lagopus muta). Within our study area, we defined the largest contiguous mountain area as the mainland, while smaller mountains surrounding the mainland were defined as islands. We found that the observed heterozygosity (H o) was significantly higher, and the inbreeding coefficient (F is) significantly lower, on the mainland compared to islands. There was a positive significant relationship between the unbiased expected heterozygosity (H n.b.) and island size (log km2), but a negative significant relationship between H o and the cost distance to the mainland. Our results are consistent with the equilibrium model of island biogeography and show that the model is well suited for investigating genetic diversity among islands, but also on islands located on the mainland.
Highlights
Islands have for decades been a model of choice for ecologists, and because they are closed environments, islands are well suited for ecological studies (MacArthur & Wilson, 1967)
The negative effect of either isolation or area size on genetic diversity has been documented in a large number of studies, but surprisingly few have combined the two landscape parameters or related it to the island biogeography theory
This study is an attempt to increase our knowledge on how genetic diversity is affected within such a system, and if the theory can be ap‐ plied to mountain islands rather than oceanic islands
Summary
Islands have for decades been a model of choice for ecologists, and because they are closed environments, islands are well suited for ecological studies (MacArthur & Wilson, 1967). The core model of the theory, the equilibrium model of island biogeography, predicts that the number of species on an island is dependent on two factors: the extinction rate and the immigration rate (Whittaker & Fernandez‐Palacios, 2007) These two factors act in balance and are influenced, respectively, by two different geographical characteristics of the island: area and distance. The model predicts a negative relationship between species persistence and island area (as a proxy of the carrying capac‐ ity of the island), and between distance to the mainland and immi‐ gration rate This means that larger islands and islands closer to the mainland are predicted to have a lower extinction rate and a higher immigration rate, respectively, than smaller and more isolated ones, both resulting in higher species diversity. We expected that genetic diversity would be higher on the mainland compared to the islands, and that genetic diversity would be higher on larger islands and on islands closer to the mainland
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