Ascochyta medicaginicola

Category: fungi
Primary role: pathogen fungal
Class: Dothideomycetes
Order: Pleosporales
Family: Didymellaceae
Genus: Ascochyta

0 AI-consensus-verified claims .

No verified claims involving this entity yet.

Genus-level evidence

1 claim where the source named the organism only at the genus or collective level (e.g. Ascochyta sp.) and did not determine the species. Listed separately because they apply to the genus, not specifically to Ascochyta medicaginicola.

pathogen pressure · Ascochyta sp. → Arachis hypogaea · effect: harmful

“Peanut Ascochyta Web Blotch Cercospora Leaf Spot Rust”

University of Guam Cooperative Extension & Outreach (2024) · Guam Fruit and Vegetable Pesticide Guide, 6th Edition · p. 88 #6734908

Aggregated via GloBI — not independently verified by AgroEco.

mutualism 29

GloBI symbiontOf Ascochyta medicaginicola Khokon, A.M., Schneider, D., Daniel, R. and Polle, A., 2021. Soil Layers Matter: Vertical Stratification of Root-Associated Fungal Assemblages in Temperate Forests Reveals Differences in Habitat Colonization. Microorganisms. doi:10.3390/microorganisms9102131 DOI
GloBI symbiontOf Ascochyta medicaginicola Sauer, S., Dlugosch, L., Kammerer, D.R., Stintzing, F.C. and Simon, M., 2021. The Microbiome of the Medicinal Plants Achillea millefolium L. and Hamamelis virginiana L.. Frontiers in Microbiology. doi:10.3389/fmicb.2021.696398 DOI
GloBI symbiontOf Ascochyta medicaginicola 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 Ascochyta medicaginicola Longa, C.M.O., Antonielli, L., Bozza, E., Sicher, C., Pertot, I. and Perazzolli, M., 2022. Plant organ and sampling time point determine the taxonomic structure of microbial communities associated to apple plants in the orchard environment.. Microbiological Research. doi:10.1016/j.micres.2022.126991 DOI
GloBI symbiontOf Ascochyta medicaginicola Liu, Y., Zhang, X., Yang, M.L. and Wang, S.M., 2020. Study on the correlation between soil microbial diversity and ambient environmental factors influencing the safflower distribution in Xinjiang. Journal of basic microbiology. doi:10.1002/jobm.201900626 DOI
GloBI symbiontOf Ascochyta medicaginicola Tan, L., Zeng, W.A., Xiao, Y., Li, P., Gu, S., Wu, S., Zhai, Z., Feng, K., Deng, Y. and Hu, Q., 2021. Fungi-bacteria associations in wilt diseased rhizosphere and endosphere by interdomain ecological network analysis. Frontiers in Microbiology. doi:10.3389/fmicb.2021.722626 DOI
GloBI symbiontOf Ascochyta medicaginicola Li, R., Yang, S., Lin, M., Guo, S., Han, X., Ren, M., Du, L., Song, Y., You, Y., Zhan, J. and Huang, W.,, 2021. The biogeography of fungal communities across different chinese wine-producing regions associated with environmental factors and spontaneous fermentation performance. Frontiers in microbiology. doi:10.3389/fmicb.2021.636639 DOI
GloBI symbiontOf Ascochyta medicaginicola Schöps, R., Goldmann, K., Korell, L., Bruelheide, H., Wubet, T. and Buscot, F., 2020. Resident and phytometer plants host comparable rhizosphere fungal communities in managed grassland ecosystems.. Scientific Reports. doi:10.1038/s41598-020-57760-x DOI
GloBI symbiontOf Ascochyta medicaginicola Tian, L., Yu, S., Zhang, L., Dong, K. and Feng, B., 2022. Mulching practices manipulate the microbial community diversity and network of root‑associated compartments in the Loess Plateau. Soil and Tillage Research. doi:10.1016/j.still.2022.105476 DOI
GloBI symbiontOf Ascochyta medicaginicola 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 Ascochyta medicaginicola Katsoula, A., Vasileiadis, S., Karamanoli, K., Vokou, D. and Karpouzas, D.G., 2021. Factors Structuring the Epiphytic Archaeal and Fungal Communities in a Semi-arid Mediterranean Ecosystem. Microbial ecology. doi:10.1007/s00248-021-01712-z DOI
GloBI symbiontOf Ascochyta medicaginicola Holden, J., Grayson, R.P., Berdeni, D., Bird, S., Chapman, P.J., Edmondson, J.L., Firbank, L.G., Helgason, T., Hodson, M.E., Hunt, S.F.P. and Jones, D.T., 2019. The role of hedgerows in soil functioning within agricultural landscapes. Agriculture, Ecosystems & Environment. doi:10.1016/j.agee.2018.11.027 DOI
GloBI symbiontOf Ascochyta medicaginicola 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 Ascochyta medicaginicola 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 Ascochyta medicaginicola Schlatter, D.C., Hansen, J.C., Schillinger, W.F., Sullivan, T.S. and Paulitz, T.C., 2019. Common and unique rhizosphere microbial communities of wheat and canola in a semiarid Mediterranean environment.. Applied Soil Ecology. doi:10.1016/j.apsoil.2019.07.010 DOI
GloBI symbiontOf Ascochyta medicaginicola Michael, P. J., Jones, D., White, N., Hane, J. K., Bunce, M., and Gibberd, M., 2020. Crop-Zone Weed Mycobiomes of the South-Western Australian Grain Belt. Frontiers in Microbiology. doi:10.3389/fmicb.2020.581592 DOI
GloBI symbiontOf Ascochyta medicaginicola Griffin, E. A., Harrison, J. G., McCormick, M. K., Burghardt, K. T. and Parker, J. D., 2019. Tree Diversity Reduces Fungal Endophyte Richness and Diversity in a Large-Scale Temperate Forest Experiment.. Diversity. doi:10.3390/d11120234 DOI
GloBI symbiontOf Ascochyta medicaginicola Lankau, R.A. and Keymer, D.P., 2016. Ectomycorrhizal fungal richness declines towards the host species range edge. Molecular Ecology. doi:10.1111/mec.13628 DOI
GloBI symbiontOf Ascochyta medicaginicola Robin, A., Pradier, C., Sanguin, H., Mahé, F., Lambais, G.R., de Araujo Pereira, A.P., Germon, A., Santana, M.C., Tisseyre, P., Pablo, A.-L., Heuillard, P., Sauvadet, M., Bouillet, J.-P., Andreote, F.D., Plassard, C., de Moraes Gonçalves, J.L., Cardoso, E.J.B.N., Laclau, J.-P., Hinsinger, P. and Jourdan, C., 2019. How deep can ectomycorrhizas go? A case study on Pisolithus down to 4 meters in a Brazilian eucalypt plantation.. Mycorrhiza. doi:10.1007/s00572-019-00917-y DOI
GloBI symbiontOf Ascochyta medicaginicola Giampetruzzi, A., Baptista, P., Morelli, M., Cameirão, C., Lino Neto, T., Costa, D., D’Attoma, G., Abou Kubaa, R., Altamura, G., Saponari, M. and Pereira, J.A., 2020. Differences in the Endophytic Microbiome of Olive Cultivars Infected by Xylella fastidiosa across Seasons. PATHOGENS. doi:10.3390/pathogens9090723 DOI
GloBI symbiontOf Ascochyta medicaginicola Wang, W., Zhai, Y., Cao, L., Tan, H. and Zhang, R., 2016. Endophytic bacterial and fungal microbiota in sprouts, roots and stems of rice (Oryza sativa L.).. Microbiological Research. doi:10.1016/j.micres.2016.04.009 DOI
GloBI symbiontOf Ascochyta medicaginicola Bickford, W.A., Zak, D.R., Kowalski, K.P. and Goldberg, D.E., 2020. Differences in rhizosphere microbial communities between native and non-nativePhragmites australismay depend on stand density. ECOLOGY AND EVOLUTION. doi:10.1002/ece3.6811 DOI
GloBI symbiontOf Ascochyta medicaginicola Franić, I., Prospero, S., Adamson, K., Allan, E., Attorre, F., Auger-Rozenberg, M.A., Augustin, S., Avtzis, D., Baert, W., Barta, M. and Bauters, K., 2022. Worldwide diversity of endophytic fungi and insects associated with dormant tree twigs.. Scientific Data. doi:10.1038/s41597-022-01162-3 DOI
GloBI symbiontOf Ascochyta medicaginicola Franić, I., Prospero, S., Adamson, K., Allan, E., Attorre, F., Auger-Rozenberg, M.A., Augustin, S., Avtzis, D., Baert, W., Barta, M. and Bauters, K., 2022. Worldwide diversity of endophytic fungi and insects associated with dormant tree twigs.. Scientific Data. doi:10.1038/s41597-022-01162-3 DOI
GloBI symbiontOf Ascochyta medicaginicola Vepštaite-Monstaviče, I., Lukša, J., Stanevičiene, R., Strazdaite-Žieliene, Ž., Yurchenko, V., Serva, S. and Serviene, E., 2018. Distribution of apple and blackcurrant microbiota in Lithuania and the Czech Republic.. Microbiological Research. doi:10.1016/j.micres.2017.09.004 DOI
GloBI symbiontOf Ascochyta medicaginicola Mardanova, A., Lutfullin, M., Hadieva, G., Akosah, Y., Pudova, D., Kabanov, D., Shagimardanova, E., Vankov, P., Vologin, S., Gogoleva, N., Stasevski, Z. and Sharipova, M., 2019. Structure and variation of root-associated microbiomes of potato grown in alfisol.. World Journal of Microbiology and Biotechnology.
GloBI symbiontOf Ascochyta medicaginicola Franić, I., Prospero, S., Adamson, K., Allan, E., Attorre, F., Auger-Rozenberg, M.A., Augustin, S., Avtzis, D., Baert, W., Barta, M. and Bauters, K., 2022. Worldwide diversity of endophytic fungi and insects associated with dormant tree twigs.. Scientific Data. doi:10.1038/s41597-022-01162-3 DOI
GloBI symbiontOf Ascochyta medicaginicola Ettinger, C.L., Vann, L.E. and Eisen, J.A., 2020. Global diversity and biogeography of the Zostera marina mycobiome.. bioRxiv. doi:10.1101/2020.10.29.361022 DOI
GloBI symbiontOf Ascochyta medicaginicola 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

pathogen pressure 2

GloBI hasHost Medicago falcata https://www.inaturalist.org/observations/251883999
GloBI pathogenOf Medicago falcata D. A. Samac, L. H. Rhodes, and W. O. Lamp, primary collators (Last update: 6/25/14). Diseases of Alfalfa (Medicago sativa L.). The American Phytopathological Society. Accessed on 2019-10-24 at https://www.apsnet.org/edcenter/resources/commonnames/Pages/Alfalfa.aspx

crop interaction 31

GloBI symbiontOf Ascochyta medicaginicola Khokon, A.M., Schneider, D., Daniel, R. and Polle, A., 2021. Soil Layers Matter: Vertical Stratification of Root-Associated Fungal Assemblages in Temperate Forests Reveals Differences in Habitat Colonization. Microorganisms. doi:10.3390/microorganisms9102131 DOI
GloBI symbiontOf Ascochyta medicaginicola Sauer, S., Dlugosch, L., Kammerer, D.R., Stintzing, F.C. and Simon, M., 2021. The Microbiome of the Medicinal Plants Achillea millefolium L. and Hamamelis virginiana L.. Frontiers in Microbiology. doi:10.3389/fmicb.2021.696398 DOI
GloBI symbiontOf Ascochyta medicaginicola 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 Ascochyta medicaginicola Longa, C.M.O., Antonielli, L., Bozza, E., Sicher, C., Pertot, I. and Perazzolli, M., 2022. Plant organ and sampling time point determine the taxonomic structure of microbial communities associated to apple plants in the orchard environment.. Microbiological Research. doi:10.1016/j.micres.2022.126991 DOI
GloBI symbiontOf Ascochyta medicaginicola Liu, Y., Zhang, X., Yang, M.L. and Wang, S.M., 2020. Study on the correlation between soil microbial diversity and ambient environmental factors influencing the safflower distribution in Xinjiang. Journal of basic microbiology. doi:10.1002/jobm.201900626 DOI
GloBI symbiontOf Ascochyta medicaginicola Tan, L., Zeng, W.A., Xiao, Y., Li, P., Gu, S., Wu, S., Zhai, Z., Feng, K., Deng, Y. and Hu, Q., 2021. Fungi-bacteria associations in wilt diseased rhizosphere and endosphere by interdomain ecological network analysis. Frontiers in Microbiology. doi:10.3389/fmicb.2021.722626 DOI
GloBI symbiontOf Ascochyta medicaginicola Li, R., Yang, S., Lin, M., Guo, S., Han, X., Ren, M., Du, L., Song, Y., You, Y., Zhan, J. and Huang, W.,, 2021. The biogeography of fungal communities across different chinese wine-producing regions associated with environmental factors and spontaneous fermentation performance. Frontiers in microbiology. doi:10.3389/fmicb.2021.636639 DOI
GloBI hasHost Medicago falcata https://www.inaturalist.org/observations/251883999
GloBI symbiontOf Ascochyta medicaginicola Schöps, R., Goldmann, K., Korell, L., Bruelheide, H., Wubet, T. and Buscot, F., 2020. Resident and phytometer plants host comparable rhizosphere fungal communities in managed grassland ecosystems.. Scientific Reports. doi:10.1038/s41598-020-57760-x DOI
GloBI symbiontOf Ascochyta medicaginicola Tian, L., Yu, S., Zhang, L., Dong, K. and Feng, B., 2022. Mulching practices manipulate the microbial community diversity and network of root‑associated compartments in the Loess Plateau. Soil and Tillage Research. doi:10.1016/j.still.2022.105476 DOI
GloBI symbiontOf Ascochyta medicaginicola 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 Ascochyta medicaginicola Katsoula, A., Vasileiadis, S., Karamanoli, K., Vokou, D. and Karpouzas, D.G., 2021. Factors Structuring the Epiphytic Archaeal and Fungal Communities in a Semi-arid Mediterranean Ecosystem. Microbial ecology. doi:10.1007/s00248-021-01712-z DOI
GloBI symbiontOf Ascochyta medicaginicola Holden, J., Grayson, R.P., Berdeni, D., Bird, S., Chapman, P.J., Edmondson, J.L., Firbank, L.G., Helgason, T., Hodson, M.E., Hunt, S.F.P. and Jones, D.T., 2019. The role of hedgerows in soil functioning within agricultural landscapes. Agriculture, Ecosystems & Environment. doi:10.1016/j.agee.2018.11.027 DOI
GloBI symbiontOf Ascochyta medicaginicola 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 Ascochyta medicaginicola 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 pathogenOf Medicago falcata D. A. Samac, L. H. Rhodes, and W. O. Lamp, primary collators (Last update: 6/25/14). Diseases of Alfalfa (Medicago sativa L.). The American Phytopathological Society. Accessed on 2019-10-24 at https://www.apsnet.org/edcenter/resources/commonnames/Pages/Alfalfa.aspx
GloBI symbiontOf Ascochyta medicaginicola Schlatter, D.C., Hansen, J.C., Schillinger, W.F., Sullivan, T.S. and Paulitz, T.C., 2019. Common and unique rhizosphere microbial communities of wheat and canola in a semiarid Mediterranean environment.. Applied Soil Ecology. doi:10.1016/j.apsoil.2019.07.010 DOI
GloBI symbiontOf Ascochyta medicaginicola Michael, P. J., Jones, D., White, N., Hane, J. K., Bunce, M., and Gibberd, M., 2020. Crop-Zone Weed Mycobiomes of the South-Western Australian Grain Belt. Frontiers in Microbiology. doi:10.3389/fmicb.2020.581592 DOI
GloBI symbiontOf Ascochyta medicaginicola Griffin, E. A., Harrison, J. G., McCormick, M. K., Burghardt, K. T. and Parker, J. D., 2019. Tree Diversity Reduces Fungal Endophyte Richness and Diversity in a Large-Scale Temperate Forest Experiment.. Diversity. doi:10.3390/d11120234 DOI
GloBI symbiontOf Ascochyta medicaginicola Lankau, R.A. and Keymer, D.P., 2016. Ectomycorrhizal fungal richness declines towards the host species range edge. Molecular Ecology. doi:10.1111/mec.13628 DOI
GloBI symbiontOf Ascochyta medicaginicola Robin, A., Pradier, C., Sanguin, H., Mahé, F., Lambais, G.R., de Araujo Pereira, A.P., Germon, A., Santana, M.C., Tisseyre, P., Pablo, A.-L., Heuillard, P., Sauvadet, M., Bouillet, J.-P., Andreote, F.D., Plassard, C., de Moraes Gonçalves, J.L., Cardoso, E.J.B.N., Laclau, J.-P., Hinsinger, P. and Jourdan, C., 2019. How deep can ectomycorrhizas go? A case study on Pisolithus down to 4 meters in a Brazilian eucalypt plantation.. Mycorrhiza. doi:10.1007/s00572-019-00917-y DOI
GloBI symbiontOf Ascochyta medicaginicola Giampetruzzi, A., Baptista, P., Morelli, M., Cameirão, C., Lino Neto, T., Costa, D., D’Attoma, G., Abou Kubaa, R., Altamura, G., Saponari, M. and Pereira, J.A., 2020. Differences in the Endophytic Microbiome of Olive Cultivars Infected by Xylella fastidiosa across Seasons. PATHOGENS. doi:10.3390/pathogens9090723 DOI
GloBI symbiontOf Ascochyta medicaginicola Wang, W., Zhai, Y., Cao, L., Tan, H. and Zhang, R., 2016. Endophytic bacterial and fungal microbiota in sprouts, roots and stems of rice (Oryza sativa L.).. Microbiological Research. doi:10.1016/j.micres.2016.04.009 DOI
GloBI symbiontOf Ascochyta medicaginicola Bickford, W.A., Zak, D.R., Kowalski, K.P. and Goldberg, D.E., 2020. Differences in rhizosphere microbial communities between native and non-nativePhragmites australismay depend on stand density. ECOLOGY AND EVOLUTION. doi:10.1002/ece3.6811 DOI
GloBI symbiontOf Ascochyta medicaginicola Franić, I., Prospero, S., Adamson, K., Allan, E., Attorre, F., Auger-Rozenberg, M.A., Augustin, S., Avtzis, D., Baert, W., Barta, M. and Bauters, K., 2022. Worldwide diversity of endophytic fungi and insects associated with dormant tree twigs.. Scientific Data. doi:10.1038/s41597-022-01162-3 DOI
GloBI symbiontOf Ascochyta medicaginicola Franić, I., Prospero, S., Adamson, K., Allan, E., Attorre, F., Auger-Rozenberg, M.A., Augustin, S., Avtzis, D., Baert, W., Barta, M. and Bauters, K., 2022. Worldwide diversity of endophytic fungi and insects associated with dormant tree twigs.. Scientific Data. doi:10.1038/s41597-022-01162-3 DOI
GloBI symbiontOf Ascochyta medicaginicola Vepštaite-Monstaviče, I., Lukša, J., Stanevičiene, R., Strazdaite-Žieliene, Ž., Yurchenko, V., Serva, S. and Serviene, E., 2018. Distribution of apple and blackcurrant microbiota in Lithuania and the Czech Republic.. Microbiological Research. doi:10.1016/j.micres.2017.09.004 DOI
GloBI symbiontOf Ascochyta medicaginicola Mardanova, A., Lutfullin, M., Hadieva, G., Akosah, Y., Pudova, D., Kabanov, D., Shagimardanova, E., Vankov, P., Vologin, S., Gogoleva, N., Stasevski, Z. and Sharipova, M., 2019. Structure and variation of root-associated microbiomes of potato grown in alfisol.. World Journal of Microbiology and Biotechnology.
GloBI symbiontOf Ascochyta medicaginicola Franić, I., Prospero, S., Adamson, K., Allan, E., Attorre, F., Auger-Rozenberg, M.A., Augustin, S., Avtzis, D., Baert, W., Barta, M. and Bauters, K., 2022. Worldwide diversity of endophytic fungi and insects associated with dormant tree twigs.. Scientific Data. doi:10.1038/s41597-022-01162-3 DOI
GloBI symbiontOf Ascochyta medicaginicola Ettinger, C.L., Vann, L.E. and Eisen, J.A., 2020. Global diversity and biogeography of the Zostera marina mycobiome.. bioRxiv. doi:10.1101/2020.10.29.361022 DOI
GloBI symbiontOf Ascochyta medicaginicola 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

Genus-level evidence

Cite this entity