Autor:
Brunton, L.A.
Desbois, A.P.
Garza, M.
Wieland, Barbara
Mohan, C.V.
Häsler, B.
Tam, C.C.
Phuc Nguyen Thien Le
Nguyen Thanh Phuong
Phan Thi Van
Hung Nguyen-Viet
Eltholth, M.M.
Dang Kim Pham
Phuc Pham Duc
Nguyen Tuong Linh
Rich, Karl M.
Mateus, A.L.P.
Hoque, M.A.
Ahad, A.
Khan, M.N.A.
Adams, A.
Guitian, J.
Aquaculture systems are highly complex, dynamic and interconnected systems influenced by environmental, biological, cultural, socio-economic and human behavioural factors. Intensification of aquaculture production is likely to drive indiscriminate use of antibiotics to treat or prevent disease an...
Enlace original:
https://cgspace.cgiar.org/handle/10568/101611
Brunton, L.A.
,
Desbois, A.P.
,
Garza, M.
,
Wieland, Barbara
,
Mohan, C.V.
,
Häsler, B.
,
Tam, C.C.
,
Phuc Nguyen Thien Le
,
Nguyen Thanh Phuong
,
Phan Thi Van
,
Hung Nguyen-Viet
,
Eltholth, M.M.
,
Dang Kim Pham
,
Phuc Pham Duc
,
Nguyen Tuong Linh
,
Rich, Karl M.
,
Mateus, A.L.P.
,
Hoque, M.A.
,
Ahad, A.
,
Khan, M.N.A.
,
Adams, A.
,
Guitian, J.
,
[Identifying hotspots for antibiotic resistance emergence and selection, and elucidating pathways to human exposure: Application of a systems-thinking approach to aquaculture systems]
,
Identifying hotspots for antibiotic resistance emergence and selection, and elucidating pathways to human exposure: Application of a systems-thinking approach to aquaculture systems
