Phenogenomics reveals the ecology and evolution of Trichoderma fungi for sustainable agriculture

Andrei S. Steindorff; Feng M. Cai; Mingyue Ding; Siqi Jiang; Lea Atanasova; Scott E. Baker; Jomal Rodrigues Barbosa-Filho; Gunseli Bayram Akcapinar; Daren W. Brown; Priscila Chaverri; Peijie Chen; Komal Chenthamara; Chris Daum; Elodie Drula; Mukesh Dubey; Mikael Brandström Durling; Daniel Flatschacher; Thomas Ebner; Tamás Emri; Renwei Gao; Raphaela Castro Georg; Bernard Henrissat; Rosa Hermosa; Alfredo Herrera-Estrella; Wolfgang Hinterdobler; Philipp Kainz; Magnus Karlsson; László Kredics; Christian P. Kubicek; Alan Kuo; Kurt LaButti; Anna Lipzen; Matteo Lorito; Robert L. Mach; Gelsomina Manganiello; Tamás Marik; Natalia Martinez-Reyes; Michael Mayrhofer-Reinhartshuber; Márton Miskei; Marie Claude Moisan; Stephen Mondo; Enrique Monte; Vivian Ng; Guan Pang; Jasmyn Pangilinan; Mao Peng; Edoardo Piombo; István Pócsi; Mohammad Javad Rahimi; Sumitha K. Reddy; Robert Riley; Sabrina Sarrocco; Matthias Schmal; Monika Schmoll; Attila Szűcs; Sheridan L. Woo; Oded Yarden; Susanne Zeilinger; Christian Zimmermann; Ekaterina Shelest; Adrian Tsang; Randy Berka; Ronald P. de Vries; Igor V. Grigoriev; Irina S. Druzhinina

doi:10.1038/s41564-026-02260-3

Phenogenomics reveals the ecology and evolution of Trichoderma fungi for sustainable agriculture

Andrei S. Steindorff
, Feng M. Cai^*
, Mingyue Ding
, Siqi Jiang
, Lea Atanasova
, Scott E. Baker
, Jomal Rodrigues Barbosa-Filho
, Gunseli Bayram Akcapinar
, Daren W. Brown
, Priscila Chaverri
, Peijie Chen
, Komal Chenthamara
, Chris Daum
, Elodie Drula
, Mukesh Dubey
, Mikael Brandström Durling
, Daniel Flatschacher
, Thomas Ebner
, Tamás Emri
, Renwei Gao

Raphaela Castro Georg, Bernard Henrissat, Rosa Hermosa, Alfredo Herrera-Estrella, Wolfgang Hinterdobler, Philipp Kainz, Magnus Karlsson, László Kredics, Christian P. Kubicek, Alan Kuo, Kurt LaButti, Anna Lipzen, Matteo Lorito, Robert L. Mach, Gelsomina Manganiello, Tamás Marik, Natalia Martinez-Reyes, Michael Mayrhofer-Reinhartshuber, Márton Miskei, Marie Claude Moisan, Stephen Mondo, Enrique Monte, Vivian Ng, Guan Pang, Jasmyn Pangilinan, Mao Peng, Edoardo Piombo, István Pócsi, Mohammad Javad Rahimi, Sumitha K. Reddy, Robert Riley, Sabrina Sarrocco, Matthias Schmal, Monika Schmoll, Attila Szűcs, Sheridan L. Woo, Oded Yarden, Susanne Zeilinger, Christian Zimmermann, Ekaterina Shelest, Adrian Tsang, Randy Berka, Ronald P. de Vries, Igor V. Grigoriev, Irina S. Druzhinina^*

^*Corresponding author for this work

Bio Process Engineering

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

1 Citation (Scopus)

Abstract

Trichoderma fungi support sustainable agriculture by suppressing plant diseases and improving crop performance. However, emerging pathogenicity of Trichoderma warrants further ecological and genetic characterization. Here we used machine learning to correlate genomic data from 37 Trichoderma strains with over 140 phenotypic traits, spanning metabolic versatility, biotic interactions, stress tolerance and reproductive strategies. We determined Trichoderma to be an ancient, genetically cohesive and physiologically diverse genus with spores capable of germination in water and dispersal via air and water droplets. Metabolic preferences indicate universal adaptation to mycoparasitism and to niches like arboreal microbial mats, alongside broader saprotrophic versatility. Our analyses are consistent with character displacement among close relatives and convergent evolution in distant lineages, with both processes shaping ecological plasticity and traits including dispersal modes, terrestrialization or endophytism. Our findings reveal that while some Trichoderma species show traits of biosafety concern, its vast ecophysiological diversity enables the development of safe, targeted bioeffectors.

Original language	English
Pages (from-to)	815-831
Number of pages	17
Journal	Nature Microbiology
Volume	11
DOIs	https://doi.org/10.1038/s41564-026-02260-3
Publication status	Published - Mar 2026

Access to Document

10.1038/s41564-026-02260-3Licence: CC BY

https://edepot.wur.nl/712201Licence: CC BY

Cite this

Steindorff, A. S., Cai, F. M., Ding, M., Jiang, S., Atanasova, L., Baker, S. E., Barbosa-Filho, J. R., Bayram Akcapinar, G., Brown, D. W., Chaverri, P., Chen, P., Chenthamara, K., Daum, C., Drula, E., Dubey, M., Brandström Durling, M., Flatschacher, D., Ebner, T., Emri, T., ... Druzhinina, I. S. (2026). Phenogenomics reveals the ecology and evolution of Trichoderma fungi for sustainable agriculture. Nature Microbiology, 11, 815-831. https://doi.org/10.1038/s41564-026-02260-3

@article{2ba0f845fd9841d6983bb16f0269b969,

title = "Phenogenomics reveals the ecology and evolution of Trichoderma fungi for sustainable agriculture",

abstract = "Trichoderma fungi support sustainable agriculture by suppressing plant diseases and improving crop performance. However, emerging pathogenicity of Trichoderma warrants further ecological and genetic characterization. Here we used machine learning to correlate genomic data from 37 Trichoderma strains with over 140 phenotypic traits, spanning metabolic versatility, biotic interactions, stress tolerance and reproductive strategies. We determined Trichoderma to be an ancient, genetically cohesive and physiologically diverse genus with spores capable of germination in water and dispersal via air and water droplets. Metabolic preferences indicate universal adaptation to mycoparasitism and to niches like arboreal microbial mats, alongside broader saprotrophic versatility. Our analyses are consistent with character displacement among close relatives and convergent evolution in distant lineages, with both processes shaping ecological plasticity and traits including dispersal modes, terrestrialization or endophytism. Our findings reveal that while some Trichoderma species show traits of biosafety concern, its vast ecophysiological diversity enables the development of safe, targeted bioeffectors.",

author = "Steindorff, \{Andrei S.\} and Cai, \{Feng M.\} and Mingyue Ding and Siqi Jiang and Lea Atanasova and Baker, \{Scott E.\} and Barbosa-Filho, \{Jomal Rodrigues\} and \{Bayram Akcapinar\}, Gunseli and Brown, \{Daren W.\} and Priscila Chaverri and Peijie Chen and Komal Chenthamara and Chris Daum and Elodie Drula and Mukesh Dubey and \{Brandstr{\"o}m Durling\}, Mikael and Daniel Flatschacher and Thomas Ebner and Tam{\'a}s Emri and Renwei Gao and Georg, \{Raphaela Castro\} and Bernard Henrissat and Rosa Hermosa and Alfredo Herrera-Estrella and Wolfgang Hinterdobler and Philipp Kainz and Magnus Karlsson and L{\'a}szl{\'o} Kredics and Kubicek, \{Christian P.\} and Alan Kuo and Kurt LaButti and Anna Lipzen and Matteo Lorito and Mach, \{Robert L.\} and Gelsomina Manganiello and Tam{\'a}s Marik and Natalia Martinez-Reyes and Michael Mayrhofer-Reinhartshuber and M{\'a}rton Miskei and Moisan, \{Marie Claude\} and Stephen Mondo and Enrique Monte and Vivian Ng and Guan Pang and Jasmyn Pangilinan and Mao Peng and Edoardo Piombo and Istv{\'a}n P{\'o}csi and Rahimi, \{Mohammad Javad\} and Reddy, \{Sumitha K.\} and Robert Riley and Sabrina Sarrocco and Matthias Schmal and Monika Schmoll and Attila Sz{\H u}cs and Woo, \{Sheridan L.\} and Oded Yarden and Susanne Zeilinger and Christian Zimmermann and Ekaterina Shelest and Adrian Tsang and Randy Berka and \{de Vries\}, \{Ronald P.\} and Grigoriev, \{Igor V.\} and Druzhinina, \{Irina S.\}",

year = "2026",

month = mar,

doi = "10.1038/s41564-026-02260-3",

language = "English",

volume = "11",

pages = "815--831",

journal = "Nature Microbiology",

issn = "2058-5276",

publisher = "Nature",

}

Steindorff, AS, Cai, FM, Ding, M, Jiang, S, Atanasova, L, Baker, SE, Barbosa-Filho, JR, Bayram Akcapinar, G, Brown, DW, Chaverri, P, Chen, P, Chenthamara, K, Daum, C, Drula, E, Dubey, M, Brandström Durling, M, Flatschacher, D, Ebner, T, Emri, T, Gao, R, Georg, RC, Henrissat, B, Hermosa, R, Herrera-Estrella, A, Hinterdobler, W, Kainz, P, Karlsson, M, Kredics, L, Kubicek, CP, Kuo, A, LaButti, K, Lipzen, A, Lorito, M, Mach, RL, Manganiello, G, Marik, T, Martinez-Reyes, N, Mayrhofer-Reinhartshuber, M, Miskei, M, Moisan, MC, Mondo, S, Monte, E, Ng, V, Pang, G, Pangilinan, J, Peng, M, Piombo, E, Pócsi, I, Rahimi, MJ, Reddy, SK, Riley, R, Sarrocco, S, Schmal, M, Schmoll, M, Szűcs, A, Woo, SL, Yarden, O, Zeilinger, S, Zimmermann, C, Shelest, E, Tsang, A, Berka, R, de Vries, RP, Grigoriev, IV & Druzhinina, IS 2026, 'Phenogenomics reveals the ecology and evolution of Trichoderma fungi for sustainable agriculture', Nature Microbiology, vol. 11, pp. 815-831. https://doi.org/10.1038/s41564-026-02260-3

TY - JOUR

T1 - Phenogenomics reveals the ecology and evolution of Trichoderma fungi for sustainable agriculture

AU - Steindorff, Andrei S.

AU - Cai, Feng M.

AU - Ding, Mingyue

AU - Jiang, Siqi

AU - Atanasova, Lea

AU - Baker, Scott E.

AU - Barbosa-Filho, Jomal Rodrigues

AU - Bayram Akcapinar, Gunseli

AU - Brown, Daren W.

AU - Chaverri, Priscila

AU - Chen, Peijie

AU - Chenthamara, Komal

AU - Daum, Chris

AU - Drula, Elodie

AU - Dubey, Mukesh

AU - Brandström Durling, Mikael

AU - Flatschacher, Daniel

AU - Ebner, Thomas

AU - Emri, Tamás

AU - Gao, Renwei

AU - Georg, Raphaela Castro

AU - Henrissat, Bernard

AU - Hermosa, Rosa

AU - Herrera-Estrella, Alfredo

AU - Hinterdobler, Wolfgang

AU - Kainz, Philipp

AU - Karlsson, Magnus

AU - Kredics, László

AU - Kubicek, Christian P.

AU - Kuo, Alan

AU - LaButti, Kurt

AU - Lipzen, Anna

AU - Lorito, Matteo

AU - Mach, Robert L.

AU - Manganiello, Gelsomina

AU - Marik, Tamás

AU - Martinez-Reyes, Natalia

AU - Mayrhofer-Reinhartshuber, Michael

AU - Miskei, Márton

AU - Moisan, Marie Claude

AU - Mondo, Stephen

AU - Monte, Enrique

AU - Ng, Vivian

AU - Pang, Guan

AU - Pangilinan, Jasmyn

AU - Peng, Mao

AU - Piombo, Edoardo

AU - Pócsi, István

AU - Rahimi, Mohammad Javad

AU - Reddy, Sumitha K.

AU - Riley, Robert

AU - Sarrocco, Sabrina

AU - Schmal, Matthias

AU - Schmoll, Monika

AU - Szűcs, Attila

AU - Woo, Sheridan L.

AU - Yarden, Oded

AU - Zeilinger, Susanne

AU - Zimmermann, Christian

AU - Shelest, Ekaterina

AU - Tsang, Adrian

AU - Berka, Randy

AU - de Vries, Ronald P.

AU - Grigoriev, Igor V.

AU - Druzhinina, Irina S.

PY - 2026/3

Y1 - 2026/3

N2 - Trichoderma fungi support sustainable agriculture by suppressing plant diseases and improving crop performance. However, emerging pathogenicity of Trichoderma warrants further ecological and genetic characterization. Here we used machine learning to correlate genomic data from 37 Trichoderma strains with over 140 phenotypic traits, spanning metabolic versatility, biotic interactions, stress tolerance and reproductive strategies. We determined Trichoderma to be an ancient, genetically cohesive and physiologically diverse genus with spores capable of germination in water and dispersal via air and water droplets. Metabolic preferences indicate universal adaptation to mycoparasitism and to niches like arboreal microbial mats, alongside broader saprotrophic versatility. Our analyses are consistent with character displacement among close relatives and convergent evolution in distant lineages, with both processes shaping ecological plasticity and traits including dispersal modes, terrestrialization or endophytism. Our findings reveal that while some Trichoderma species show traits of biosafety concern, its vast ecophysiological diversity enables the development of safe, targeted bioeffectors.

AB - Trichoderma fungi support sustainable agriculture by suppressing plant diseases and improving crop performance. However, emerging pathogenicity of Trichoderma warrants further ecological and genetic characterization. Here we used machine learning to correlate genomic data from 37 Trichoderma strains with over 140 phenotypic traits, spanning metabolic versatility, biotic interactions, stress tolerance and reproductive strategies. We determined Trichoderma to be an ancient, genetically cohesive and physiologically diverse genus with spores capable of germination in water and dispersal via air and water droplets. Metabolic preferences indicate universal adaptation to mycoparasitism and to niches like arboreal microbial mats, alongside broader saprotrophic versatility. Our analyses are consistent with character displacement among close relatives and convergent evolution in distant lineages, with both processes shaping ecological plasticity and traits including dispersal modes, terrestrialization or endophytism. Our findings reveal that while some Trichoderma species show traits of biosafety concern, its vast ecophysiological diversity enables the development of safe, targeted bioeffectors.

U2 - 10.1038/s41564-026-02260-3

DO - 10.1038/s41564-026-02260-3

M3 - Article

C2 - 41775999

AN - SCOPUS:105032153581

SN - 2058-5276

VL - 11

SP - 815

EP - 831

JO - Nature Microbiology

JF - Nature Microbiology

ER -

Phenogenomics reveals the ecology and evolution of Trichoderma fungi for sustainable agriculture

Abstract

Access to Document

Fingerprint

Cite this