Scientists' Warning on the Rapid Evolution of Parasites in the Anthropocene

Robert Poulin; Jerusha Bennett; Isabel Blasco‐Costa; Daniela de Angeli Dutra; Jean‐François Doherty; Eddy Dowle; Antoine Filion; Brian L. Fredensborg; Ryota Hasegawa; Kristin K. Herrmann; Devon B. Keeney; Anson V. Koehler; Janet Koprivnikar; Clément Lagrue; Henry S. Lane; Tommy L. F. Leung; Chen‐Hua Li; Colin D. MacLeod; Kim N. Mouritsen; Chris N. Niebuhr; Katie O'Dwyer; Eunji Park; Rachel A. Paterson; Bronwen Presswell; Haseeb S. Randhawa; Brandon Ruehle; Amandine Sabadel; Priscila M. Salloum; David W. Thieltges; Frédéric Thomas; Christian Selbach

doi:10.1111/eva.70244

Scientists' Warning on the Rapid Evolution of Parasites in the Anthropocene

Robert Poulin
, Jerusha Bennett
, Isabel Blasco‐Costa
, Daniela de Angeli Dutra
, Jean‐François Doherty
, Eddy Dowle
, Antoine Filion
, Brian L. Fredensborg
, Ryota Hasegawa
, Kristin K. Herrmann
, Devon B. Keeney
, Anson V. Koehler
, Janet Koprivnikar
, Clément Lagrue
, Henry S. Lane
, Tommy L. F. Leung
, Chen‐Hua Li
, Colin D. MacLeod
, Kim N. Mouritsen
, Chris N. Niebuhr

Katie O'Dwyer, Eunji Park, Rachel A. Paterson, Bronwen Presswell, Haseeb S. Randhawa, Brandon Ruehle, Amandine Sabadel, Priscila M. Salloum, David W. Thieltges, Frédéric Thomas, Christian Selbach

School of Environmental & Natural Sciences

University of Otago
Natural History Museum of Geneva
The University of British Columbia
New Zealand Institute for Bioeconomy Science Limited
Department of Conservation, Auckland
University of Copenhagen
Hokkaido University
Tarleton State University
Le Moyne College
University of Melbourne
Toronto Metropolitan University
New Zealand Institute of Earth Sciences
The University of New England
University of Victoria
Aarhus University
Atlantic Technological University
University of Toronto
Norwegian Institute for Nature Research (NINA)
University of Iceland
Peru State College
Auckland University of Technology
University of Auckland
NIOZ, Royal Netherlands Institute for Sea Research
University of Montpellier
UiT - The Arctic University of Norway, Tromsø

Research output: Contribution to journal › Article › peer-review

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Abstract

Human activities are changing the natural world at an accelerating pace, and as a consequence exerting novel and often strong selection pressures on living organisms. For species with traits conferring huge inherent evolutionary potential, like parasites, the outcome may be rapid adaptive responses spanning multiple phenotypic traits. The rise of drug resistance in parasites of domesticated animals is well documented, however rapid changes in other key parasite traits may go unnoticed. In this contribution to the Scientists’ Warning series, we argue that parasites are capable of evolving quickly to meet the new pressures of the Anthropocene. After summarizing evidence demonstrating their ability to evolve quickly and the magnitude of the anthropogenic selection pressures they now face, we discuss the basic types of adaptive responses we might expect. Next, we propose methods to track rapid parasite evolution in real time, as well as possible approaches to either slow it down or mitigate its impact on animal production systems. Our aim is to raise awareness of this concerning but underappreciated phenomenon and appeal for greater research into rapid parasite evolution in the Anthropocene and its consequences.

Original language	English
Article number	e70244
Journal	Evolutionary Applications
Volume	19
Issue number	4
Early online date	28 Apr 2026
DOIs	https://doi.org/10.1111/eva.70244
Publication status	Published - Apr 2026

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 2 Zero Hunger
SDG 13 Climate Action

Keywords

anthropogenic pressures
food production
mitigation
monitoring
genomic signature
space‐for‐time comparisons
aquaculture
climate change
thermal performance curves

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Cite this

Poulin, R., Bennett, J., Blasco‐Costa, I., Dutra, D. D. A., Doherty, JF., Dowle, E., Filion, A., Fredensborg, B. L., Hasegawa, R., Herrmann, K. K., Keeney, D. B., Koehler, A. V., Koprivnikar, J., Lagrue, C., Lane, H. S., Leung, T. L. F., Li, CH., MacLeod, C. D., Mouritsen, K. N., ... Selbach, C. (2026). Scientists' Warning on the Rapid Evolution of Parasites in the Anthropocene. Evolutionary Applications, 19(4), Article e70244. https://doi.org/10.1111/eva.70244

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title = "Scientists' Warning on the Rapid Evolution of Parasites in the Anthropocene",

abstract = "Human activities are changing the natural world at an accelerating pace, and as a consequence exerting novel and often strong selection pressures on living organisms. For species with traits conferring huge inherent evolutionary potential, like parasites, the outcome may be rapid adaptive responses spanning multiple phenotypic traits. The rise of drug resistance in parasites of domesticated animals is well documented, however rapid changes in other key parasite traits may go unnoticed. In this contribution to the Scientists{\textquoteright} Warning series, we argue that parasites are capable of evolving quickly to meet the new pressures of the Anthropocene. After summarizing evidence demonstrating their ability to evolve quickly and the magnitude of the anthropogenic selection pressures they now face, we discuss the basic types of adaptive responses we might expect. Next, we propose methods to track rapid parasite evolution in real time, as well as possible approaches to either slow it down or mitigate its impact on animal production systems. Our aim is to raise awareness of this concerning but underappreciated phenomenon and appeal for greater research into rapid parasite evolution in the Anthropocene and its consequences.",

keywords = "anthropogenic pressures, food production, mitigation, monitoring, genomic signature, space‐for‐time comparisons, aquaculture, climate change, thermal performance curves",

author = "Robert Poulin and Jerusha Bennett and Isabel Blasco‐Costa and Dutra, \{Daniela de Angeli\} and Jean‐Fran{\c c}ois Doherty and Eddy Dowle and Antoine Filion and Fredensborg, \{Brian L.\} and Ryota Hasegawa and Herrmann, \{Kristin K.\} and Keeney, \{Devon B.\} and Koehler, \{Anson V.\} and Janet Koprivnikar and Cl{\'e}ment Lagrue and Lane, \{Henry S.\} and Leung, \{Tommy L. F.\} and Chen‐Hua Li and MacLeod, \{Colin D.\} and Mouritsen, \{Kim N.\} and Niebuhr, \{Chris N.\} and Katie O'Dwyer and Eunji Park and Paterson, \{Rachel A.\} and Bronwen Presswell and Randhawa, \{Haseeb S.\} and Brandon Ruehle and Amandine Sabadel and Salloum, \{Priscila M.\} and Thieltges, \{David W.\} and Fr{\'e}d{\'e}ric Thomas and Christian Selbach",

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doi = "10.1111/eva.70244",

language = "English",

volume = "19",

journal = "Evolutionary Applications",

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Poulin, R, Bennett, J, Blasco‐Costa, I, Dutra, DDA, Doherty, JF, Dowle, E, Filion, A, Fredensborg, BL, Hasegawa, R, Herrmann, KK, Keeney, DB, Koehler, AV, Koprivnikar, J, Lagrue, C, Lane, HS, Leung, TLF, Li, CH, MacLeod, CD, Mouritsen, KN, Niebuhr, CN, O'Dwyer, K, Park, E, Paterson, RA, Presswell, B, Randhawa, HS, Ruehle, B, Sabadel, A, Salloum, PM, Thieltges, DW, Thomas, F & Selbach, C 2026, 'Scientists' Warning on the Rapid Evolution of Parasites in the Anthropocene', Evolutionary Applications, vol. 19, no. 4, e70244. https://doi.org/10.1111/eva.70244

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AU - Poulin, Robert

AU - Bennett, Jerusha

AU - Blasco‐Costa, Isabel

AU - Dutra, Daniela de Angeli

AU - Doherty, Jean‐François

AU - Dowle, Eddy

AU - Filion, Antoine

AU - Fredensborg, Brian L.

AU - Hasegawa, Ryota

AU - Herrmann, Kristin K.

AU - Keeney, Devon B.

AU - Koehler, Anson V.

AU - Koprivnikar, Janet

AU - Lagrue, Clément

AU - Lane, Henry S.

AU - Leung, Tommy L. F.

AU - Li, Chen‐Hua

AU - MacLeod, Colin D.

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AU - Niebuhr, Chris N.

AU - O'Dwyer, Katie

AU - Park, Eunji

AU - Paterson, Rachel A.

AU - Presswell, Bronwen

AU - Randhawa, Haseeb S.

AU - Ruehle, Brandon

AU - Sabadel, Amandine

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AU - Thomas, Frédéric

AU - Selbach, Christian

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N2 - Human activities are changing the natural world at an accelerating pace, and as a consequence exerting novel and often strong selection pressures on living organisms. For species with traits conferring huge inherent evolutionary potential, like parasites, the outcome may be rapid adaptive responses spanning multiple phenotypic traits. The rise of drug resistance in parasites of domesticated animals is well documented, however rapid changes in other key parasite traits may go unnoticed. In this contribution to the Scientists’ Warning series, we argue that parasites are capable of evolving quickly to meet the new pressures of the Anthropocene. After summarizing evidence demonstrating their ability to evolve quickly and the magnitude of the anthropogenic selection pressures they now face, we discuss the basic types of adaptive responses we might expect. Next, we propose methods to track rapid parasite evolution in real time, as well as possible approaches to either slow it down or mitigate its impact on animal production systems. Our aim is to raise awareness of this concerning but underappreciated phenomenon and appeal for greater research into rapid parasite evolution in the Anthropocene and its consequences.

AB - Human activities are changing the natural world at an accelerating pace, and as a consequence exerting novel and often strong selection pressures on living organisms. For species with traits conferring huge inherent evolutionary potential, like parasites, the outcome may be rapid adaptive responses spanning multiple phenotypic traits. The rise of drug resistance in parasites of domesticated animals is well documented, however rapid changes in other key parasite traits may go unnoticed. In this contribution to the Scientists’ Warning series, we argue that parasites are capable of evolving quickly to meet the new pressures of the Anthropocene. After summarizing evidence demonstrating their ability to evolve quickly and the magnitude of the anthropogenic selection pressures they now face, we discuss the basic types of adaptive responses we might expect. Next, we propose methods to track rapid parasite evolution in real time, as well as possible approaches to either slow it down or mitigate its impact on animal production systems. Our aim is to raise awareness of this concerning but underappreciated phenomenon and appeal for greater research into rapid parasite evolution in the Anthropocene and its consequences.

KW - anthropogenic pressures

KW - food production

KW - mitigation

KW - monitoring

KW - genomic signature

KW - space‐for‐time comparisons

KW - aquaculture

KW - climate change

KW - thermal performance curves

U2 - 10.1111/eva.70244

DO - 10.1111/eva.70244

M3 - Article

SN - 1752-4571

VL - 19

JO - Evolutionary Applications

JF - Evolutionary Applications

IS - 4

M1 - e70244

ER -

Scientists' Warning on the Rapid Evolution of Parasites in the Anthropocene

Abstract

UN SDGs

Keywords

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