Xeromphalina campanella
Corn Pinc
- Category
- fungi
- Primary role
- pathogen fungal
- Class
- Agaricomycetes
- Order
- Agaricales
- Family
- Mycenaceae
- Genus
- Xeromphalina
Fungi | Basidiomycota | Agaricomycetes | Agaricales | Mycenaceae | Xeromphalina
External: GBIF #2527302
0 AI-consensus-verified claims .
No verified claims involving this entity yet.
Aggregated via GloBI — not independently verified by AgroEco.
biocontrol 1
- GloBI eats Xeromphalina campanella https://www.inaturalist.org/observations/64998999
mutualism 6
- GloBI symbiontOf Xeromphalina campanella 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 Xeromphalina campanella 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 Xeromphalina campanella Fukasawa, Y., Matsukura, K., Stephan, J.G., Makoto, K., Suzuki, S.N., Kominami, Y., Takagi, M., Tanaka, N., Takemoto, S., Kinuura, H. and Okano, K., 2021. Patterns of community composition and diversity in latent fungi of living Quercus serrata trunks across a range of oak wilt prevalence and climate variables in Japan. Fungal Ecology. doi:10.1016/j.funeco.2021.101095 DOI
- GloBI symbiontOf Xeromphalina campanella Ihrmark, K., Bödeker, I., Cruz-Martinez, K., Friberg, H., Kubartova, A., Schenck, J., Strid, Y., Stenlid, J., Brandström-Durling, M., Clemmensen, K.E. and Lindahl, B.D., 2012. New primers to amplify the fungal ITS2 region - evaluation by 454-sequencing of artificial and natural communities.. FEMS Microbiology Ecology. doi:10.1111/j.1574-6941.2012.01437.x DOI
- GloBI symbiontOf Xeromphalina campanella 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 Xeromphalina campanella Ma, J., Ma, K., Liu, J. and Chen, N, 2022. Rhizosphere Soil Microbial Community Under Ice in a High-Latitude Wetland: Different Community Assembly Processes Shape Patterns of Rare and Abundant Microbes. Frontiers in microbiology. doi:10.3389/fmicb.2022.783371 DOI
pathogen pressure 4
- GloBI hasHost Pinus taeda https://www.inaturalist.org/observations/174337198
- GloBI hasHost Pinus ponderosa https://mycoportal.org/portal/collections/individual/index.php?occid=3806847
- GloBI hasHost Pinus strobus https://mycoportal.org/portal/collections/individual/index.php?occid=11731322
- GloBI hasHost Conium maculatum https://mycoportal.org/portal/collections/individual/index.php?occid=4423925
biocontrol 1
- GloBI eats Xeromphalina campanella https://www.inaturalist.org/observations/64998999
crop interaction 10
- GloBI symbiontOf Xeromphalina campanella 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 hasHost Pinus taeda https://www.inaturalist.org/observations/174337198
- GloBI symbiontOf Xeromphalina campanella 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 hasHost Pinus ponderosa https://mycoportal.org/portal/collections/individual/index.php?occid=3806847
- GloBI hasHost Pinus strobus https://mycoportal.org/portal/collections/individual/index.php?occid=11731322
- GloBI symbiontOf Xeromphalina campanella Fukasawa, Y., Matsukura, K., Stephan, J.G., Makoto, K., Suzuki, S.N., Kominami, Y., Takagi, M., Tanaka, N., Takemoto, S., Kinuura, H. and Okano, K., 2021. Patterns of community composition and diversity in latent fungi of living Quercus serrata trunks across a range of oak wilt prevalence and climate variables in Japan. Fungal Ecology. doi:10.1016/j.funeco.2021.101095 DOI
- GloBI symbiontOf Xeromphalina campanella Ihrmark, K., Bödeker, I., Cruz-Martinez, K., Friberg, H., Kubartova, A., Schenck, J., Strid, Y., Stenlid, J., Brandström-Durling, M., Clemmensen, K.E. and Lindahl, B.D., 2012. New primers to amplify the fungal ITS2 region - evaluation by 454-sequencing of artificial and natural communities.. FEMS Microbiology Ecology. doi:10.1111/j.1574-6941.2012.01437.x DOI
- GloBI symbiontOf Xeromphalina campanella 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 Xeromphalina campanella Ma, J., Ma, K., Liu, J. and Chen, N, 2022. Rhizosphere Soil Microbial Community Under Ice in a High-Latitude Wetland: Different Community Assembly Processes Shape Patterns of Rare and Abundant Microbes. Frontiers in microbiology. doi:10.3389/fmicb.2022.783371 DOI
- GloBI hasHost Conium maculatum https://mycoportal.org/portal/collections/individual/index.php?occid=4423925