Structure, spatial dynamics, and stability of novel seed dispersal mutualistic networks in Hawaiʻi
Vizentin-Bugoni et al., 2019
When humans introduce exotic species to sensitive ecosystems, invasion and extinction of native species often follow. The resulting ecological communities can develop unusual interactions between the survivors and newcomers. Vizentin-Bugoni et al. analyzed the structure of seed dispersal networks in Hawai'i, where native bird species have been mostly replaced by invaders. They found that the native plants now depend on the invasive birds for seed dispersal. The network of dispersal interactions is complex and stable, which are features of native seed-dispersal networks in other parts of the world. It appears that introduced species may, in some circumstances, become integrated into native ecosystems
Abstract
Increasing
rates of human-caused species invasions and extinctions may reshape
communities and modify the structure, dynamics, and stability of species
interactions. To investigate how such changes affect communities, we
performed multiscale analyses of seed dispersal networks on Oʻahu,
Hawaiʻi. Networks consisted exclusively of novel interactions, were
largely dominated by introduced species, and exhibited specialized and
modular structure at local and regional scales, despite high interaction
dissimilarity across communities. Furthermore, the structure and
stability of the novel networks were similar to native-dominated
communities worldwide. Our findings suggest that shared evolutionary
history is not a necessary process for the emergence of complex network
structure, and interaction patterns may be highly conserved, regardless
of species identity and environment. Introduced species can quickly
become well integrated into novel networks, making restoration of native
ecosystems more challenging than previously thought.
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