Trichoderma atroviride
- Category
- fungi
- Primary role
- biocontrol
- Class
- Sordariomycetes
- Order
- Hypocreales
- Family
- Hypocreaceae
- Genus
- Trichoderma
Fungi | Ascomycota | Sordariomycetes | Hypocreales | Hypocreaceae | Trichoderma
External: GBIF #5251332
0 AI-consensus-verified claims .
No verified claims involving this entity yet.
Genus-level evidence
7 claims where the source named the organism only at the genus or collective level (e.g. Trichoderma sp.) and did not determine the species. Listed separately because they apply to the genus, not specifically to Trichoderma atroviride.
- biocontrol · Trichoderma spp. → plant pathogens (general) · effect: beneficial
“fungus Trichoderma and bacteria Pseudomonas fluorescens colonize plant roots and protect them”
Magdoff F., Van Es H. (2021) · Building Soils for Better Crops: Ecological Management for Healthy Soils (Fourth Edition) · p. 59 #6492069 - biocontrol · Trichoderma spp. → Plant pathogenic fungi · effect: beneficial
“Mechanisms employed by Trichoderma species in the biological control of plant diseases”
Unknown (Unknown) · History of Plant Pathology and Early Significant Plant Diseases (Chapter 1 Introduction) · p. 354 #6493960 - biocontrol · Trichoderma spp. → Plantae pathogens (fungal) · effect: beneficial
“Trichoderma and Gliocladium, which are used as biocontrol agents against several plant pathogenic fungi”
Unknown (Unknown) · History of Plant Pathology and Early Significant Plant Diseases (Chapter 1 Introduction) · p. 394 #6494263 - biocontrol · Trichoderma spp. → plant-parasitic nematodes · effect: beneficial
“Hirsutella rhossiliensis, Dactylella oviparasitica and Trichoderma spp.”
- biocontrol · Trichoderma spp. → Fusarium oxysporum · effect: beneficial
“significantly higher levels of the beneficial fungus Trichoderma were found in OMVs”
- biocontrol · Trichoderma (genus) → Fungi (kingdom) · effect: beneficial
“Trichoderma species have received considerable attention for the production of antimicrobial compounds”
Mendes R., Garbeva P., Raaijmakers J.M. (2013) · The rhizosphere microbiome: significance of plant-beneficial, plant-pathogenic and human-pathogenic microorganisms · p. 7 #6495883 - biocontrol · Trichoderma spp. → bacterial pathogens · effect: beneficial
“Bacillus spp., Pseudomonas spp., Trichoderma spp., etc., and is conferred through plant hormone-mediated signalling”
Aggregated via GloBI — not independently verified by AgroEco.
mutualism 10
- GloBI symbiontOf Trichoderma atroviride Rudgers, J.A., Fox, S., Porras-Alfaro, A., Herrera, J., Reazin, C., Kent, D.R., Souza, L-. Chung, Y.A. and Jumpponen, A., 2021. Biogeography of root-associated fungi in foundation grasses of North American plains.. Journal of Biogeography. doi:10.1111/jbi.14260 DOI
- GloBI symbiontOf Trichoderma atroviride Kirkman, E.R., Hilton, S., Sethuraman, G., Elias, D.M., Taylor, A., Clarkson, J., Soh, A.C., Bass, D., Ooi, G.T., McNamara, N.P. and Bending, G.D., 2022. Diversity and Ecological Guild Analysis of the Oil Palm Fungal Microbiome Across Root, Rhizosphere, and Soil Compartments.. Frontiers in microbiology. doi:10.3389/fmicb.2022.792928 DOI
- GloBI symbiontOf Trichoderma atroviride Fan, K., Weisenhorn, P., Gilbert, J.A. and Chu, H., 2018. Wheat rhizosphere harbors a less complex and more stable microbial co-occurrence pattern than bulk soil.. Soil Biology and Biochemistry. doi:10.1016/j.soilbio.2018.07.022 DOI
- GloBI symbiontOf Trichoderma atroviride Benitez, M. S., Ewing, P. M., Osborne, S. L. and Lehman, R. M., 2021. Rhizosphere microbial communities explain positive effects of diverse crop rotations on maize and soybean performance. Soil Biology and Biochemistry. doi:10.1016/j.soilbio.2021.108309 DOI
- GloBI symbiontOf Trichoderma atroviride Boeraeve, M., Everts, T., Vandekerkhove, K., De Keersmaeker, L., Van de Kerckhove, P. and Jacquemyn, H., 2021. Partner turnover and changes in ectomycorrhizal fungal communities during the early life stages of European beech (Fagus sylvatica L.).. Mycorrhiza. doi:10.1007/s00572-020-00998-0 DOI
- GloBI symbiontOf Trichoderma atroviride Lagueux, D., Jumpponen, A., Porras-Alfaro, A., Herrera, J., Chung, Y.A., Baur, L.E., Smith, M.D., Knapp, A.K., Collins, S.L. and Rudgers, J.A., 2021. Experimental drought re-ordered assemblages of root-associated fungi across North American grasslands.. Journal of Ecology. doi:10.1111/1365-2745.13505 DOI
- GloBI symbiontOf Trichoderma atroviride Sternhagen, E.C., Black, K.L., Hartmann, E.D., Shivega, W.G., Johnson, P.G., McGlynn, R.D., Schmaltz, L.C., Asheim Keller, R.J., Vink, S.N. and Aldrich-Wolfe, L., 2020. Contrasting Patterns of Functional Diversity in Coffee Root Fungal Communities Associated with Organic and Conventionally Managed Fields. Applied and Environmental Microbiology. doi:10.1128/AEM.00052-20 DOI
- GloBI symbiontOf Trichoderma atroviride Monkai, J., Purahong, W., Nawaz, A., Wubet, T., Hyde, K.D., Goldberg, S.D., Mortimer, P.E., Xu, J. and Harrison, R.D., 2022. Conversion of rainforest to rubber plantations impacts rhizosphere soil mycobiome and alters soil biological activity. Land Degradation & Development. doi:10.1002/ldr.4395 DOI
- GloBI symbiontOf Trichoderma atroviride Li, Y., Li, Z., Arafat, Y. and Lin, W., 2020. Studies on fungal communities and functional guilds shift in tea continuous cropping soils by high-throughput sequencing.. Annals of Microbiology. doi:10.1186/s13213-020-01555-y DOI
- GloBI symbiontOf Trichoderma atroviride Barnes, C.J., Maldonado, C., Froslev, T.G., Antonelli, A. and Ronsted, N., 2016. Unexpectedly High Beta-Diversity of Root-Associated Fungal Communities in the Bolivian Andes.. Frontiers in Microbiology. doi:10.3389/fmicb.2016.01377 DOI
crop interaction 10
- GloBI symbiontOf Trichoderma atroviride Rudgers, J.A., Fox, S., Porras-Alfaro, A., Herrera, J., Reazin, C., Kent, D.R., Souza, L-. Chung, Y.A. and Jumpponen, A., 2021. Biogeography of root-associated fungi in foundation grasses of North American plains.. Journal of Biogeography. doi:10.1111/jbi.14260 DOI
- GloBI symbiontOf Trichoderma atroviride Kirkman, E.R., Hilton, S., Sethuraman, G., Elias, D.M., Taylor, A., Clarkson, J., Soh, A.C., Bass, D., Ooi, G.T., McNamara, N.P. and Bending, G.D., 2022. Diversity and Ecological Guild Analysis of the Oil Palm Fungal Microbiome Across Root, Rhizosphere, and Soil Compartments.. Frontiers in microbiology. doi:10.3389/fmicb.2022.792928 DOI
- GloBI symbiontOf Trichoderma atroviride Fan, K., Weisenhorn, P., Gilbert, J.A. and Chu, H., 2018. Wheat rhizosphere harbors a less complex and more stable microbial co-occurrence pattern than bulk soil.. Soil Biology and Biochemistry. doi:10.1016/j.soilbio.2018.07.022 DOI
- GloBI symbiontOf Trichoderma atroviride Benitez, M. S., Ewing, P. M., Osborne, S. L. and Lehman, R. M., 2021. Rhizosphere microbial communities explain positive effects of diverse crop rotations on maize and soybean performance. Soil Biology and Biochemistry. doi:10.1016/j.soilbio.2021.108309 DOI
- GloBI symbiontOf Trichoderma atroviride Boeraeve, M., Everts, T., Vandekerkhove, K., De Keersmaeker, L., Van de Kerckhove, P. and Jacquemyn, H., 2021. Partner turnover and changes in ectomycorrhizal fungal communities during the early life stages of European beech (Fagus sylvatica L.).. Mycorrhiza. doi:10.1007/s00572-020-00998-0 DOI
- GloBI symbiontOf Trichoderma atroviride Lagueux, D., Jumpponen, A., Porras-Alfaro, A., Herrera, J., Chung, Y.A., Baur, L.E., Smith, M.D., Knapp, A.K., Collins, S.L. and Rudgers, J.A., 2021. Experimental drought re-ordered assemblages of root-associated fungi across North American grasslands.. Journal of Ecology. doi:10.1111/1365-2745.13505 DOI
- GloBI symbiontOf Trichoderma atroviride Sternhagen, E.C., Black, K.L., Hartmann, E.D., Shivega, W.G., Johnson, P.G., McGlynn, R.D., Schmaltz, L.C., Asheim Keller, R.J., Vink, S.N. and Aldrich-Wolfe, L., 2020. Contrasting Patterns of Functional Diversity in Coffee Root Fungal Communities Associated with Organic and Conventionally Managed Fields. Applied and Environmental Microbiology. doi:10.1128/AEM.00052-20 DOI
- GloBI symbiontOf Trichoderma atroviride Monkai, J., Purahong, W., Nawaz, A., Wubet, T., Hyde, K.D., Goldberg, S.D., Mortimer, P.E., Xu, J. and Harrison, R.D., 2022. Conversion of rainforest to rubber plantations impacts rhizosphere soil mycobiome and alters soil biological activity. Land Degradation & Development. doi:10.1002/ldr.4395 DOI
- GloBI symbiontOf Trichoderma atroviride Li, Y., Li, Z., Arafat, Y. and Lin, W., 2020. Studies on fungal communities and functional guilds shift in tea continuous cropping soils by high-throughput sequencing.. Annals of Microbiology. doi:10.1186/s13213-020-01555-y DOI
- GloBI symbiontOf Trichoderma atroviride Barnes, C.J., Maldonado, C., Froslev, T.G., Antonelli, A. and Ronsted, N., 2016. Unexpectedly High Beta-Diversity of Root-Associated Fungal Communities in the Bolivian Andes.. Frontiers in Microbiology. doi:10.3389/fmicb.2016.01377 DOI