The key to invasive pest management lies in preemptive action. However, most current research using species distribution models is conducted after an invasion has occurred. This study modeled the potential distribution of the globally notorious sweet potato pest, the sweet potato weevil (Cylas formicarius), that has not yet invaded Korea using MaxEnt. Using global occurrence data, bioclimatic variables, and topsoil characteristics, MaxEnt showed high explanatory power as both the training and test areas under the curve exceeded 0.9. Among the environmental variables used in this study, minimum temperature in the coldest month (BIO06), precipitation in the driest month (BIO14), mean diurnal range (BIO02), and bulk density (BDOD) were identified as key variables. The predicted global distribution showed high values in most countries where the species is currently present, with a significant potential invasion risk in most South American countries where C. formicarius is not yet present. In Korea, Jeju Island and the southwestern coasts of Jeollanam-do showed very high probabilities. The impact of climate change under shared socioeconomic pathway (SSP) scenarios indicated an expansion along coasts as climate change progresses. By applying the 10th percentile minimum training presence rule, the potential area of occurrence was estimated at 1,439 km2 under current climate conditions and could expand up to 9,485 km2 under the SSP585 scenario. However, the model predicted that an inland invasion would not be serious. The results of this study suggest a need to focus on the risk of invasion in islands and coastal areas.

1. 서 론
2. 재료 및 방법
    2.1. 출현자료
    2.2. 환경변수
    2.3. MaxEnt 모형
3. 결 과
    3.1. MaxEnt 모형 구축 결과
    3.2. 전 지구 수준의 분포 예측 결과
    3.3. 국내 분포 예측 결과
4. 고 찰
5. 결 론
적 요
CRediT authorship contribution statement
Declaration of Competing Interest
ACKNOWLEDGEMENTS
REFERENCES

• 홍진솔(고려대학교 오정리질리언스연구원) | Jinsol Hong (Ojeong Resilience Institute, Korea University, Seoul 02841, Republic of Korea)
• 홍희원(고려대학교 환경생태공학과) | Heewon Hong (Division of Environmental Science and Ecological Engineering, Korea University, Seoul 02841, Republic of Korea)
• 피수민(고려대학교 환경생태공학과) | Sumin Pi (Division of Environmental Science and Ecological Engineering, Korea University, Seoul 02841, Republic of Korea)
• 이수현(고려대학교 환경생태공학과) | Soohyun Lee (Division of Environmental Science and Ecological Engineering, Korea University, Seoul 02841, Republic of Korea)
• 신재하(고려대학교 환경생태공학과) | Jae Ha Shin (Division of Environmental Science and Ecological Engineering, Korea University, Seoul 02841, Republic of Korea)
• 김용은(고려대학교 오정리질리언스연구원) | Yongeun Kim (Ojeong Resilience Institute, Korea University, Seoul 02841, Republic of Korea)
• 조기종(고려대학교 오정리질리언스연구원, 고려대학교 환경생태공학과) | Kijong Cho (Ojeong Resilience Institute, Korea University, Seoul 02841, Republic of Korea, Division of Environmental Science and Ecological Engineering, Korea University, Seoul 02841, Republic of Korea) Corresponding author