New Lit Alert: Genetic differentiation in pesticide resistance between urban and rural populations of a nontarget freshwater keystone interactor, Daphnia magna

Genetic differentiation in pesticide resistance between urban and rural populations of a nontarget freshwater keystone interactor, Daphnia magna

Kristien I. Brans, Rafaela A. Almeida, Maxime Fajgenblat

Abstract

There is growing evidence that urbanization drives adaptive evolution in response to thermal gradients. One such example is documented in the water flea Daphnia magna. However, organisms residing in urban lentic ecosystems are increasingly exposed to chemical pollutants such as pesticides through run-off and aerial transportation. The extent to which urbanization drives the evolution of pesticide resistance in aquatic organisms and whether this is impacted by warming and thermal adaptation remains limitedly studied. We performed a common garden rearing experiment using multiple clonal lineages originating from five replicated urban and rural D. magna populations, in which we implemented an acute toxicity test exposing neonates (<24 h) to either a solvent control or the organophosphate pesticide chlorpyrifos. Pesticide exposures were performed at two temperatures (20°C vs. 24°C) to test for temperature-associated differences in urbanization-driven evolved pesticide resistance. We identified a strong overall effect of pesticide exposure on Daphnia survival probability (−72.8 percentage points). However, urban Daphnia genotypes showed higher survival probabilities compared to rural ones in the presence of chlorpyrifos (+29.7 percentage points). Our experiment did not reveal strong temperature x pesticide or temperature x pesticide x urbanization background effects on survival probability. The here observed evolution of resistance to an organophosphate pesticide is a first indication Daphnia likely also adapts to pesticide pollution in urban areas. Increased pesticide resistance could facilitate their population persistence in urban ponds, and feed back to ecosystem functions, such as top-down control of algae. In addition, adaptive evolution of nontarget organisms to pest control strategies and occupational pesticide use may modulate how pesticide applications affect genetic and species diversity in urban areas.

Brans, K.I., Almeida, R.A. and Fajgenblat, M., 2021. Genetic differentiation in pesticide resistance between urban and rural populations of a nontarget freshwater keystone interactor, Daphnia magna. Evolutionary Applications.

If you’re an author on this paper or just found it really interesting, consider writing a post telling us more about it! Contact Kristin for more details and to become a contributor.

Featured Image: “Daphnia magna, vannlopper” by NTNU, Faculty of Natural Sciences is licensed under CC BY 2.0

Catch up on recent urban eco-evo literature in the Literature section

• Author
• Recent Posts

Elizabeth Carlen

I am an NSF Postdoctoral Researcher at Washington University in St Louis and UC Berkeley where I am working on the ecology and evolution of urban Eastern Gray Squirrels. You can find out more about me on my personal site www.elizabethcarlen.com

Latest posts by Elizabeth Carlen (see all)

• Salinity, Urbanization, and Genetic Divergence of Killifish - July 5, 2023
• New Lit Alert: Cat colonies and flight initiation distances of urban birds: Dealing with conflicting sources of citizen wellbeing - March 27, 2023
• How the GLUE Animation Came About - November 15, 2022