A thousand-genome panel retraces the global spread and adaptation of a major fungal crop pathogen

Alice Feurtey; Cécile Lorrain; Megan C. McDonald; Andrew Milgate; Peter S. Solomon; Rachael Warren; Guido Puccetti; Gabriel Scalliet; Stefano F.F. Torriani; Lilian Gout; Thierry C. Marcel; Frédéric Suffert; Julien Alassimone; Anna Lipzen; Yuko Yoshinaga; Christopher Daum; Kerrie Barry; Igor V. Grigoriev; Stephen B. Goodwin; Anne Genissel; Michael F. Seidl; Eva H. Stukenbrock; Marc Henri Lebrun; Gert H.J. Kema; Bruce A. McDonald; Daniel Croll

doi:10.1038/s41467-023-36674-y

A thousand-genome panel retraces the global spread and adaptation of a major fungal crop pathogen

Alice Feurtey, Cécile Lorrain, Megan C. McDonald, Andrew Milgate, Peter S. Solomon, Rachael Warren, Guido Puccetti, Gabriel Scalliet, Stefano F.F. Torriani, Lilian Gout, Thierry C. Marcel, Frédéric Suffert, Julien Alassimone, Anna Lipzen, Yuko Yoshinaga, Christopher Daum, Kerrie Barry, Igor V. Grigoriev, Stephen B. Goodwin, Anne GenisselMichael F. Seidl, Eva H. Stukenbrock, Marc Henri Lebrun, Gert H.J. Kema, Bruce A. McDonald, Daniel Croll^*

^*Corresponding author for this work

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

34 Citations (Scopus)

Abstract

Human activity impacts the evolutionary trajectories of many species worldwide. Global trade of agricultural goods contributes to the dispersal of pathogens reshaping their genetic makeup and providing opportunities for virulence gains. Understanding how pathogens surmount control strategies and cope with new climates is crucial to predicting the future impact of crop pathogens. Here, we address this by assembling a global thousand-genome panel of Zymoseptoria tritici, a major fungal pathogen of wheat reported in all production areas worldwide. We identify the global invasion routes and ongoing genetic exchange of the pathogen among wheat-growing regions. We find that the global expansion was accompanied by increased activity of transposable elements and weakened genomic defenses. Finally, we find significant standing variation for adaptation to new climates encountered during the global spread. Our work shows how large population genomic panels enable deep insights into the evolutionary trajectory of a major crop pathogen.

Original language	English
Article number	1059
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-36674-y
Publication status	Published - Dec 2023

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Feurtey, A., Lorrain, C., McDonald, M. C., Milgate, A., Solomon, P. S., Warren, R., Puccetti, G., Scalliet, G., Torriani, S. F. F., Gout, L., Marcel, T. C., Suffert, F., Alassimone, J., Lipzen, A., Yoshinaga, Y., Daum, C., Barry, K., Grigoriev, I. V., Goodwin, S. B., ... Croll, D. (2023). A thousand-genome panel retraces the global spread and adaptation of a major fungal crop pathogen. Nature Communications, 14(1), Article 1059. https://doi.org/10.1038/s41467-023-36674-y

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abstract = "Human activity impacts the evolutionary trajectories of many species worldwide. Global trade of agricultural goods contributes to the dispersal of pathogens reshaping their genetic makeup and providing opportunities for virulence gains. Understanding how pathogens surmount control strategies and cope with new climates is crucial to predicting the future impact of crop pathogens. Here, we address this by assembling a global thousand-genome panel of Zymoseptoria tritici, a major fungal pathogen of wheat reported in all production areas worldwide. We identify the global invasion routes and ongoing genetic exchange of the pathogen among wheat-growing regions. We find that the global expansion was accompanied by increased activity of transposable elements and weakened genomic defenses. Finally, we find significant standing variation for adaptation to new climates encountered during the global spread. Our work shows how large population genomic panels enable deep insights into the evolutionary trajectory of a major crop pathogen.",

author = "Alice Feurtey and C{\'e}cile Lorrain and McDonald, {Megan C.} and Andrew Milgate and Solomon, {Peter S.} and Rachael Warren and Guido Puccetti and Gabriel Scalliet and Torriani, {Stefano F.F.} and Lilian Gout and Marcel, {Thierry C.} and Fr{\'e}d{\'e}ric Suffert and Julien Alassimone and Anna Lipzen and Yuko Yoshinaga and Christopher Daum and Kerrie Barry and Grigoriev, {Igor V.} and Goodwin, {Stephen B.} and Anne Genissel and Seidl, {Michael F.} and Stukenbrock, {Eva H.} and Lebrun, {Marc Henri} and Kema, {Gert H.J.} and McDonald, {Bruce A.} and Daniel Croll",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = dec,

doi = "10.1038/s41467-023-36674-y",

language = "English",

volume = "14",

journal = "Nature Communications",

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Feurtey, A, Lorrain, C, McDonald, MC, Milgate, A, Solomon, PS, Warren, R, Puccetti, G, Scalliet, G, Torriani, SFF, Gout, L, Marcel, TC, Suffert, F, Alassimone, J, Lipzen, A, Yoshinaga, Y, Daum, C, Barry, K, Grigoriev, IV, Goodwin, SB, Genissel, A, Seidl, MF, Stukenbrock, EH, Lebrun, MH, Kema, GHJ, McDonald, BA & Croll, D 2023, 'A thousand-genome panel retraces the global spread and adaptation of a major fungal crop pathogen', Nature Communications, vol. 14, no. 1, 1059. https://doi.org/10.1038/s41467-023-36674-y

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AU - Feurtey, Alice

AU - Lorrain, Cécile

AU - McDonald, Megan C.

AU - Milgate, Andrew

AU - Solomon, Peter S.

AU - Warren, Rachael

AU - Puccetti, Guido

AU - Scalliet, Gabriel

AU - Torriani, Stefano F.F.

AU - Gout, Lilian

AU - Marcel, Thierry C.

AU - Suffert, Frédéric

AU - Alassimone, Julien

AU - Lipzen, Anna

AU - Yoshinaga, Yuko

AU - Daum, Christopher

AU - Barry, Kerrie

AU - Grigoriev, Igor V.

AU - Goodwin, Stephen B.

AU - Genissel, Anne

AU - Seidl, Michael F.

AU - Stukenbrock, Eva H.

AU - Lebrun, Marc Henri

AU - Kema, Gert H.J.

AU - McDonald, Bruce A.

AU - Croll, Daniel

PY - 2023/12

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N2 - Human activity impacts the evolutionary trajectories of many species worldwide. Global trade of agricultural goods contributes to the dispersal of pathogens reshaping their genetic makeup and providing opportunities for virulence gains. Understanding how pathogens surmount control strategies and cope with new climates is crucial to predicting the future impact of crop pathogens. Here, we address this by assembling a global thousand-genome panel of Zymoseptoria tritici, a major fungal pathogen of wheat reported in all production areas worldwide. We identify the global invasion routes and ongoing genetic exchange of the pathogen among wheat-growing regions. We find that the global expansion was accompanied by increased activity of transposable elements and weakened genomic defenses. Finally, we find significant standing variation for adaptation to new climates encountered during the global spread. Our work shows how large population genomic panels enable deep insights into the evolutionary trajectory of a major crop pathogen.

AB - Human activity impacts the evolutionary trajectories of many species worldwide. Global trade of agricultural goods contributes to the dispersal of pathogens reshaping their genetic makeup and providing opportunities for virulence gains. Understanding how pathogens surmount control strategies and cope with new climates is crucial to predicting the future impact of crop pathogens. Here, we address this by assembling a global thousand-genome panel of Zymoseptoria tritici, a major fungal pathogen of wheat reported in all production areas worldwide. We identify the global invasion routes and ongoing genetic exchange of the pathogen among wheat-growing regions. We find that the global expansion was accompanied by increased activity of transposable elements and weakened genomic defenses. Finally, we find significant standing variation for adaptation to new climates encountered during the global spread. Our work shows how large population genomic panels enable deep insights into the evolutionary trajectory of a major crop pathogen.

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VL - 14

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 1059

ER -

A thousand-genome panel retraces the global spread and adaptation of a major fungal crop pathogen

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