Predicting the Impact of Climate Change on the Habitat Distribution of Parthenium hysterophorus around the World and in South Korea
Pradeep AdhikariYong-Ho LeeAnil PoudelGaeun LeeSun-Hee HongYong-Soon ParkPublished in: Biology (2023)
The global climate change, including increases in temperature and precipitation, may exacerbate the invasion by P . hysterophorus . Here, MaxEnt modeling was performed to predict P . hysterophorus distribution worldwide and in South Korea under the current and future climate global climate changes, including increases in temperature and precipitation. Under the current climate, P . hysterophorus was estimated to occupy 91.26%, 83.26%, and 62.75% of the total land area of Australia, South America, and Oceania, respectively. However, under future climate scenarios, the habitat distribution of P . hysterophorus would show the greatest change in Europe (56.65%) and would extend up to 65°N by 2081-2100 in South Korea, P . hysterophorus currently potentially colonizing 2.24% of the land area, particularly in six administrative divisions. In the future, P . hysterophorus would spread rapidly, colonizing all administrative divisions, except Incheon, by 2081-2100. Additionally, the southern and central regions of South Korea showed greater habitat suitability than the northern region. These findings suggest that future climate change will increase P . hysterophorus distribution both globally and locally. Therefore, effective control and management strategies should be employed around the world and in South Korea to restrict the habitat expansion of P . hysterophorus .
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