Resource: Pearl and Hermes Atoll

Speciation is the process by which new species evolve. Many islands provide a perfect set of circumstances to set this process in motion. Hypothetically, a small number of birds or turtles or beetles happen onto the shores of a newly formed island that provides unexploited opportunities and novel selective pressures. Isolated from their parent population, these founders and their offspring are free to explore new environments and opportunities. Those that do well survive long enough to reproduce and pass on their genes.

Often, speciation results in a new species, which, to the untrained eye, is little changed from the parent species. Perhaps the island species has a slightly longer neck or a unique song. In some cases, however, new opportunities or an absence of pressures in the newfound land result in behaviors or body plans that would be out of place anywhere else. Giant tortoises, flightless birds, and animals without fear of potential predators are just a few examples of the many evolutionary wonders found on islands.

This much is clear: if the isolation that helped them evolve in the first place is suddenly compromised, many island species will be vulnerable. Species that have evolved without predators—those who may lack an innate fear of other animals or are unable to avoid them—are particularly vulnerable to invasive species from the mainland, such as rats, pigs, and domestic cats. Species endemic to islands have been plagued, and in many cases driven to extinction, by animals introduced by humans, either intentionally or accidentally. Plants, too, can invade an ecosystem, often quietly wreaking as much or more ecological havoc than animal invaders. Typically, such plant species simply out-compete their native rivals for resources such as water and nutrients. They may also be less vulnerable to herbivores if the invasive species is particularly unpalatable.

Although invasive species on islands provide some of the most striking examples of damage on record, there are plenty of invaders on the mainland as well. Again, initial isolation plays an important role. Often invasive species arrive from other continents and find new opportunities or decreased pressure in a new ecosystem. A weed called leafy spurge, for example, is taking over ranchland in the western United States because the beetle that eats and keeps leafy spurge in check in its native environment (Europe and Asia) is absent from North America.

If such invasions were a natural occurrence, they would still be troubling from a species conservation perspective, but they might be more acceptable. However, in nearly all instances, invasive species have relied on humans to transport them to new lands. Consequently, we have a dual responsibility: to do our best to mitigate the invaders' effects and to prevent similar invasions in the future.

To learn more about evolution and speciation on islands, check out An Origin of Species and Adaptive Radiation: Darwin's Finches.

To learn more about island ecology and coral reefs, check out How Did Life Emerge Here?, Nihoa Island, Coral Reef Connections, and Beneath the Waters of Cocos Island.

To learn more about how the Hawaiian Island chain formed, check out Plate Tectonics: The Hawaiian Archipelago and Build an Island.

• Everything the scientists bring to the island must be brand new and frozen. Why is this necessary?
• Why is the presence of the non-native weed harmful to the ecosystem of the atoll?
• What is meant by the term "ecosystem buster?"
• Why are the scientists optimistic that the atoll can return to its natural state?
• If nobody lives on the Pearl and Hermes atoll, why do scientists think it's important to ensure that only native plants and animals live here?