Researchers find a way to identify key nodes in illegal wildlife trade network

(Phys.org)—A team of researchers with affiliations to several institutions in the U.S. has found a new way to track import, export and connecting countries in the illegal wildlife trade network. As they describe in their paper published in Proceedings of the National Academy of Sciences, their work may help identify ways to reduce such trade in order to help protect the animals involved.

Most people are aware of the underground wildlife trade network, animals around the world are caught or killed and are sent whole or in parts to other places where they are highly valued. Such trafficking has resulted in reducing the numbers of many species, many to the point of extinction. Unfortunately, efforts by many people and organizations to stop the illegal trade have not been very successful. In this new effort, the researchers describe a new tool to help win the war.

To gain a better perspective on the geographic location of all the players involved, the researchers used the HealthMap Wildlife Trade database to gather data about illegal trade location details. The database was originally built to help track diseases spread by animals, but offered data on details such as animals found dead due to poaching or resale market raids by police. The team used the data to create a network that revealed the country locals of various players involved in the illegal trade. And that allowed them to identify those countries that play a crucial role in maintaining the network—the thinking is, if the activities in just those countries could be curtailed, the network might fall apart.

The team divided activities into two main sections—six countries that had the most illegal activity going on for three main animals—tigers, rhinos and elephants, and six countries that had the most connections. As an example, they found that disrupting such activity in the United Kingdom, Mozambique, China, Vietnam, South Africa and Thailand would cause a significant disruption of trade in rhino horns.

The team notes that adding data to the networks as it becomes available should make the reports more accurate and thus more useful, both as a tool in slowing illegal wildlife trading and for studying the spread of diseases, particularly, those that jump to humans from animals.