Drivers of Pests & Pesticides
Related Publications:
A.E. Larsen & F. Noack (2021). Impact of landscape complexity on the stability of field-level pest control. Nature Sustainability, https://doi.org/10.1038/s41893-020-00637-8.
A.E. Larsen & S. McComb* (2021). Land cover and climate changes drive regionally heterogeneous increases in US insecticide use. Landscape Ecology, 36: 159-177. (link)
M. Tao*, P. Adler, A.E. Larsen, S. Suh (2020). Pesticide application rate and its toxicological impacts: why do they vary so widely? Environmental Research Letters, 15: 124049. (link)
A.E. Larsen, M. Patton*, E.A. Martin (2019). High highs and low lows: Elucidating striking seasonal variability in pesticide use and its environmental implications. Science of the Total Environment, 651(1), 828-837 (link)
D. Mall*, A.E. Larsen, E.A. Martin. (2018). Investigating the (mis) match between natural pest control knowledge and the intensity of pesticide use. Insects, 9(1), 2.(link)
D. Karp [...]. A.E. Larsen [...] et al. (2018). Crop pests and predators exhibit inconsistent responses to surrounding landscape composition. Proceedings of the National Academy of Science, USA 20180042. (link)
A.E. Larsen & F. Noack. (2017). Identifying the landscape drivers of agricultural insecticide use leveraging evidence from 100,000 fields. Proceedings of the National Academy of Sciences, USA. (link)
T. Tscharntke, D. Karp, R. Chaplin-Kramer, P. Batáry, F. DeClerck, C. Gratton, A. Ives, M. Jonsson, A. Larsen, E. Martin, A. Martínez-Salinas, T. D. Meehan, M. O’Rourke, K. Poveda , J.A. Rosenheim, A. Rusch, N. Schellhorn, S. Wratten, W. Zhang. (2016). When natural habitat fails to enhance biological pest control. Biological Conservation 204:449-458. (link)
A.E. Larsen, S. Gaines, O. Deschenes. (2015). Spatio-temporal variation in the relationship between landscape simplification and insecticide use. Ecological Applications 25(7): 1976-1983. (link)
A.E. Larsen. (2013). Agricultural landscape simplification does not consistently drive insecticide use. Proceedings of the National Academy of Science, USA 110(3): 15330-15335. (link)
*Student author
Related Publications:
A.E. Larsen & F. Noack (2021). Impact of landscape complexity on the stability of field-level pest control. Nature Sustainability, https://doi.org/10.1038/s41893-020-00637-8.
A.E. Larsen & S. McComb* (2021). Land cover and climate changes drive regionally heterogeneous increases in US insecticide use. Landscape Ecology, 36: 159-177. (link)
M. Tao*, P. Adler, A.E. Larsen, S. Suh (2020). Pesticide application rate and its toxicological impacts: why do they vary so widely? Environmental Research Letters, 15: 124049. (link)
A.E. Larsen, M. Patton*, E.A. Martin (2019). High highs and low lows: Elucidating striking seasonal variability in pesticide use and its environmental implications. Science of the Total Environment, 651(1), 828-837 (link)
D. Mall*, A.E. Larsen, E.A. Martin. (2018). Investigating the (mis) match between natural pest control knowledge and the intensity of pesticide use. Insects, 9(1), 2.(link)
D. Karp [...]. A.E. Larsen [...] et al. (2018). Crop pests and predators exhibit inconsistent responses to surrounding landscape composition. Proceedings of the National Academy of Science, USA 20180042. (link)
A.E. Larsen & F. Noack. (2017). Identifying the landscape drivers of agricultural insecticide use leveraging evidence from 100,000 fields. Proceedings of the National Academy of Sciences, USA. (link)
T. Tscharntke, D. Karp, R. Chaplin-Kramer, P. Batáry, F. DeClerck, C. Gratton, A. Ives, M. Jonsson, A. Larsen, E. Martin, A. Martínez-Salinas, T. D. Meehan, M. O’Rourke, K. Poveda , J.A. Rosenheim, A. Rusch, N. Schellhorn, S. Wratten, W. Zhang. (2016). When natural habitat fails to enhance biological pest control. Biological Conservation 204:449-458. (link)
A.E. Larsen, S. Gaines, O. Deschenes. (2015). Spatio-temporal variation in the relationship between landscape simplification and insecticide use. Ecological Applications 25(7): 1976-1983. (link)
A.E. Larsen. (2013). Agricultural landscape simplification does not consistently drive insecticide use. Proceedings of the National Academy of Science, USA 110(3): 15330-15335. (link)
*Student author