논문 상세보기
Arsenic, a common metalloid contaminant in soil, can enter the terrestrial food chain through plant uptake. While soil arsenic contamination can lead to long-term exposure that affects multiple generations, the multigenerational impacts on terrestrial plantherbivore systems remain poorly understood. This study examined the effects of soil arsenate (As(V)) transferred to pepper plants on Myzus persicae over three generations (F0-F2). We measured adult body length (AL), development time (DT), and offspring body length (OL) of M. persicae after rearing them on peppers cultivated in soil treated with four concentrations (0, 2, 4, and 6 mg kg-1) of As(V). In the F0 generation, the As(V) treatment significantly affected AL and DT (p<0.05), but no significant effect on OL was detected (p= 0.83). In the F1 and F2 generations, however, significant differences between treatments were observed in OL (p<0.05), along with AL and DT. Notably, in the F0 generation, As(V)- exposed individuals exhibited consistently stimulated growth and development, while responses became inconsistent in the F1 and F2 generations across various treatment conditions. These findings suggest that the effects of As(V) on M. persicae through multigenerational exposure are more complex than those observed within a single generation. This study highlights the importance of multigenerational approaches to accurately assess the ecological impacts of soil As(V) contamination on terrestrial ecosystems.
1. 서 론
2. 재료 및 방법
2.1. 실험생물
2.2. 시험물질 및 기주식물
2.3. Myzus persicae에 대한 비소 독성영향평가
2.4. 다세대 노출 실험
2.5. 통계분석
3. 결 과
3.1. Myzus persicae의 성장에 대한 비소 영향
3.2. Myzus persicae의 발육에 대한 비소 영향
3.3. Myzus persicae의 번식에 대한 비소 영향
4. 고 찰
4.1. 단일 세대 As(V) 처리에 의한 성장, 발달 촉진
4.2. As(V) 노출의 다세대 효과
4.3. 연구의 한계와 의의
5. 결 론
적 요
SUPPLEMENTARY MATERIALS
CRediT authorship contribution statement
Declaration of Competing Interest
ACKNOWLEDGEMENTS
REFERENCES
