Ganoderma applanatum

Artist's Bracket

Category: fungi
Primary role: pathogen fungal
Class: Agaricomycetes
Order: Polyporales
Family: Ganodermataceae
Genus: Ganoderma

External: GBIF #2549834

0 AI-consensus-verified claims .

No verified claims involving this entity yet.

Genus-level evidence

2 claims where the source named the organism only at the genus or collective level (e.g. Ganoderma sp.) and did not determine the species. Listed separately because they apply to the genus, not specifically to Ganoderma applanatum.

pathogen pressure · Ganoderma sp. → Elaeis guineensis · effect: harmful

“Ganoderma butt rot of palm tree”

Unknown (Unknown) · History of Plant Pathology and Early Significant Plant Diseases (Chapter 1 Introduction) · p. 605 #6494439
pathogen pressure · Ganoderma spp. → Citrus sinensis · effect: harmful

“CITRUS, OIL PALM, FOREST TREES Butt & root rots”

TerraCircle Inc. with Improved Plant Protection in Solomon Islands (IPPSI) (2014) · Pacific Pests and Pathogens — Solomon Islands Farmer Fact Sheets (1-24) · p. 4 #6496359

Aggregated via GloBI — not independently verified by AgroEco.

biocontrol 3

GloBI eats Ganoderma applanatum https://www.inaturalist.org/observations/218112711
GloBI eats Ganoderma applanatum https://www.inaturalist.org/observations/307444870
GloBI eats Ganoderma applanatum https://www.inaturalist.org/observations/244511727

mutualism 34

GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum 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 Ganoderma applanatum 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 Ganoderma applanatum 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 Ganoderma applanatum Tong, A.Z., Liu, W., Liu, Q., Xia, G.Q., 2021. Diversity and composition of the Panax ginseng rhizosphere microbiome in various cultivation modesand ages. BMC microbiology. doi:10.1186/s12866-020-02081-2 DOI
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum 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 Ganoderma applanatum 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 Ganoderma applanatum DeBellis, T., Kembel, S.W. and Lessard, J.P., 2019. Shared mycorrhizae but distinct communities of other root-associated microbes on co-occurring native and invasive maples.. PeerJ. doi:10.7717/peerj.7295 DOI
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum Boeraeve, M., Honnay, O. and Jacquemyn, H., 2018. Effects of host species, environmental filtering and forest age on community assembly of ectomycorrhizal fungi in fragmented forests.. Fungal Ecology. doi:10.1016/j.funeco.2018.08.003 DOI
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum Cregger, M.A., Veach, A.M., Yang, Z.K., Crouch, M.J., Vilgalys, R., Tuskan, G.A. and Schadt, C.W., 2018. The Populus holobiont: dissecting the effects of plant niches and genotype on the microbiome.. Microbiome. doi:10.1186/s40168-018-0413-8 DOI
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum Cai, Z., Wang, X., Bhadra, S. and Gao, Q., 2020. Distinct factors drive the assembly of quinoa-associated microbiomes along elevation.. Plant and Soil. doi:10.1007/s11104-019-04387-1 DOI
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum 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 Ganoderma applanatum Xu, L., Ravnskov, S., Larsen, J. and Nicolaisen, M., 2012. Linking fungal communities in roots, rhizosphere, and soil to the health status of Pisum sativum.. FEMS Microbiology Ecology. doi:10.1111/j.1574-6941.2012.01445.x DOI
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum 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 Ganoderma applanatum 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 Ganoderma applanatum 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 Ganoderma applanatum 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 Ganoderma applanatum Tanunchai, B., Ji, L., Schroeter, S.A., Wahdan, S.F.M., Hossen, S., Delelegn, Y., Buscot, F., Lehnert, A.S., Alves, E.G., Hilke, I. and Gleixner, G., 2022. FungalTraits vs. FUNGuild: Comparison of ecological functional assignments of leaf‑and needle‑associated fungi across 12 temperate tree species.. Microbial Ecology. doi:10.1007/s00248-022-01973-2 DOI
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum Kivlin, S.N., Mann, M.A., Lynn, J.S., Kazenel, M.R., Taylor, D.L. and Rudgers, J.A., 2022. Grass species identity shapes communities of root and leaf fungi more than elevation.. ISME Communications. doi:10.1038/s43705-022-00107-6 DOI
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum Zhang, Y., Gao, C., Masum, M., Islam, M., Cheng, Y., Wei, C., Guan, Y. and Guan, J., 2021. Dynamic Microbiome Changes Reveal the Effect of 1-Methylcyclopropene Treatment on Reducing Post-harvest Fruit Decay in “Doyenne du Comice” Pear. Frontiers in Microbiology. doi:10.3389/fmicb.2021.729014 DOI
GloBI symbiontOf Ganoderma applanatum Merino-Martín, L., Stokes, A., Gweon, H.S., Moragues-Saitua, L., Staunton, S., Plassard, C., Oliver, A., Le Bissonnais, Y. and Griffiths, R.I., 2021. Interacting effects of land use type, microbes and plant traits on soil aggregate stability.. Soil Biology and Biochemistry. doi:10.1016/j.soilbio.2020.108072 DOI
GloBI symbiontOf Ganoderma applanatum Lee, M. R. and Hawkes, C. V., 2020. Plant and soil drivers of whole-plant microbiomes: variation in switchgrass fungi from coastal to mountain sites. Phytobiomes Journal. doi:10.1094/PBIOMES-07-20-0056-FI DOI
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum Merino‐Martín, L., Hernández‐Cáceres, D., Reverchon, F., Angeles‐Alvarez, G., Zhang, G., Dunoyer de Segonzac, D., Dezette, D. and Stokes, A., 2022. Habitat partitioning of soil microbial communities along an elevation gradient: from plant root to landscape scale. Oikos. doi:10.1111/oik.09034 DOI
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum 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

pathogen pressure 35

GloBI hasHost Acer saccharum https://mycoportal.org/portal/collections/individual/index.php?occid=11602914
GloBI hasHost Fagus sylvatica https://www.inaturalist.org/observations/195377286
GloBI hasHost Alnus rubra https://mycoportal.org/portal/collections/individual/index.php?occid=11591157
GloBI hasHost Populus deltoides https://mycoportal.org/portal/collections/individual/index.php?occid=11803939
GloBI hasHost Fagus grandifolia https://mycoportal.org/portal/collections/individual/index.php?occid=11731951
GloBI hasHost Prunus persica https://mycoportal.org/portal/collections/individual/index.php?occid=1076917
GloBI hasHost Robinia pseudoacacia https://mycoportal.org/portal/collections/individual/index.php?occid=1077119
GloBI hasHost Cocos nucifera https://mycoportal.org/portal/collections/individual/index.php?occid=1077049
GloBI hasHost Malus sylvestris https://mycoportal.org/portal/collections/individual/index.php?occid=3298453
GloBI hasHost Prunus avium https://mycoportal.org/portal/collections/individual/index.php?occid=11685465
GloBI parasiteOf Fagus sylvatica https://www.inaturalist.org/observations/173789416
GloBI hasHost Fagus grandifolia grandifolia https://mycoportal.org/portal/collections/individual/index.php?occid=1076780
GloBI hasHost Schinus molle https://mycoportal.org/portal/collections/individual/index.php?occid=1076929
GloBI hasHost Castanea dentata https://mycoportal.org/portal/collections/individual/index.php?occid=1076709
GloBI hasHost Eucalyptus globulus https://mycoportal.org/portal/collections/individual/index.php?occid=1076788
GloBI hasHost Gleditsia triacanthos https://mycoportal.org/portal/collections/individual/index.php?occid=1838962
GloBI hasHost Prunus domestica Shaw, C.G.. 1973. Host fungus index for the Pacific Northwest - I. Hosts. Washington State Univ. Agric. Exp. Sta. Bull. 765:1-121
GloBI hasHost Casuarina equisetifolia https://mycoportal.org/portal/collections/individual/index.php?occid=1076707
GloBI hasHost Acacia melanoxylon https://mycoportal.org/portal/collections/individual/index.php?occid=1076629
GloBI hasHost Mangifera indica https://mycoportal.org/portal/collections/individual/index.php?occid=1077051
GloBI hasHost Conium maculatum https://mycoportal.org/portal/collections/individual/index.php?occid=8173010
GloBI hasHost Prunus armeniaca https://mycoportal.org/portal/collections/individual/index.php?occid=1189326
GloBI eats Populus deltoides https://www.inaturalist.org/observations/241924407
GloBI hasHost Taxodium distichum https://mycoportal.org/portal/collections/individual/index.php?occid=1076931
GloBI hasHost Araucaria angustifolia https://mycoportal.org/portal/collections/individual/index.php?occid=1076744
GloBI hasHost Cryptomeria japonica https://mycoportal.org/portal/collections/individual/index.php?occid=1190647
GloBI eats Prunus domestica https://www.inaturalist.org/observations/315664971
GloBI eats Prunus persica https://www.inaturalist.org/observations/67054948
GloBI pathogenOf Prunus persica J. K. Uyemoto, J. M. Ogawa, and B. A. Jaffee, primary collators; updated by J. E. Adaskaveg, S. W. Scott, and H. Scherm (last update 5/23/01). Diseases of Peach and Nectarine Peach: Prunus persica (L.) Batsch Nectarine: P. persica var. nucipersica (Suckow) C.K. Schneid.. The American Phytopathological Society. Accessed on 2019-10-24 at https://www.apsnet.org/edcenter/resources/commonnames/Pages/PeachandNectarine.aspx
GloBI eats Quercus serrata https://www.inaturalist.org/observations/220111424
GloBI hasHost Quercus virginiana https://mycoportal.org/portal/collections/individual/index.php?occid=1077112
GloBI hasHost Ailanthus altissima https://mycoportal.org/portal/collections/individual/index.php?occid=1076700
GloBI pathogenOf Mangifera indica K. Pernezny and G. W. Simone, primary collators (last update 11/09/00). Diseases of Mango (Mangifera indica L.). The American Phytopathological Society. Accessed on 2019-10-24 at https://www.apsnet.org/edcenter/resources/commonnames/Pages/Mango.aspx
GloBI hasHost Quercus serrata Kobayashi, T.. 2007. Index of fungi inhabiting woody plants in Japan. Host, Distribution and Literature. Zenkoku-Noson-Kyoiku Kyokai Publishing Co., Ltd. :1227
GloBI pathogenOf Prunus armeniaca J. M. Ogawa, J. K. Uyemoto, and B. A. Jaffee, primary collators (last update 4/8/03). Diseases of Apricot (Prunus armeniaca L.). The American Phytopathological Society. Accessed on 2019-10-24 at https://www.apsnet.org/edcenter/resources/commonnames/Pages/Apricot.aspx

biocontrol 3

GloBI eats Ganoderma applanatum https://www.inaturalist.org/observations/218112711
GloBI eats Ganoderma applanatum https://www.inaturalist.org/observations/307444870
GloBI eats Ganoderma applanatum https://www.inaturalist.org/observations/244511727

crop interaction 69

GloBI symbiontOf Ganoderma applanatum 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 hasHost Acer saccharum https://mycoportal.org/portal/collections/individual/index.php?occid=11602914
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum 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 Ganoderma applanatum 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 hasHost Fagus sylvatica https://www.inaturalist.org/observations/195377286
GloBI symbiontOf Ganoderma applanatum Tong, A.Z., Liu, W., Liu, Q., Xia, G.Q., 2021. Diversity and composition of the Panax ginseng rhizosphere microbiome in various cultivation modesand ages. BMC microbiology. doi:10.1186/s12866-020-02081-2 DOI
GloBI symbiontOf Ganoderma applanatum 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 hasHost Alnus rubra https://mycoportal.org/portal/collections/individual/index.php?occid=11591157
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum 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 hasHost Populus deltoides https://mycoportal.org/portal/collections/individual/index.php?occid=11803939
GloBI hasHost Fagus grandifolia https://mycoportal.org/portal/collections/individual/index.php?occid=11731951
GloBI symbiontOf Ganoderma applanatum DeBellis, T., Kembel, S.W. and Lessard, J.P., 2019. Shared mycorrhizae but distinct communities of other root-associated microbes on co-occurring native and invasive maples.. PeerJ. doi:10.7717/peerj.7295 DOI
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum Boeraeve, M., Honnay, O. and Jacquemyn, H., 2018. Effects of host species, environmental filtering and forest age on community assembly of ectomycorrhizal fungi in fragmented forests.. Fungal Ecology. doi:10.1016/j.funeco.2018.08.003 DOI
GloBI symbiontOf Ganoderma applanatum 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 Prunus persica https://mycoportal.org/portal/collections/individual/index.php?occid=1076917
GloBI symbiontOf Ganoderma applanatum Cregger, M.A., Veach, A.M., Yang, Z.K., Crouch, M.J., Vilgalys, R., Tuskan, G.A. and Schadt, C.W., 2018. The Populus holobiont: dissecting the effects of plant niches and genotype on the microbiome.. Microbiome. doi:10.1186/s40168-018-0413-8 DOI
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum Cai, Z., Wang, X., Bhadra, S. and Gao, Q., 2020. Distinct factors drive the assembly of quinoa-associated microbiomes along elevation.. Plant and Soil. doi:10.1007/s11104-019-04387-1 DOI
GloBI hasHost Robinia pseudoacacia https://mycoportal.org/portal/collections/individual/index.php?occid=1077119
GloBI hasHost Cocos nucifera https://mycoportal.org/portal/collections/individual/index.php?occid=1077049
GloBI hasHost Malus sylvestris https://mycoportal.org/portal/collections/individual/index.php?occid=3298453
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum 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 Ganoderma applanatum Xu, L., Ravnskov, S., Larsen, J. and Nicolaisen, M., 2012. Linking fungal communities in roots, rhizosphere, and soil to the health status of Pisum sativum.. FEMS Microbiology Ecology. doi:10.1111/j.1574-6941.2012.01445.x DOI
GloBI hasHost Prunus avium https://mycoportal.org/portal/collections/individual/index.php?occid=11685465
GloBI parasiteOf Fagus sylvatica https://www.inaturalist.org/observations/173789416
GloBI symbiontOf Ganoderma applanatum 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 hasHost Fagus grandifolia grandifolia https://mycoportal.org/portal/collections/individual/index.php?occid=1076780
GloBI hasHost Schinus molle https://mycoportal.org/portal/collections/individual/index.php?occid=1076929
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum 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 hasHost Castanea dentata https://mycoportal.org/portal/collections/individual/index.php?occid=1076709
GloBI hasHost Eucalyptus globulus https://mycoportal.org/portal/collections/individual/index.php?occid=1076788
GloBI hasHost Gleditsia triacanthos https://mycoportal.org/portal/collections/individual/index.php?occid=1838962
GloBI symbiontOf Ganoderma applanatum 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 hasHost Prunus domestica Shaw, C.G.. 1973. Host fungus index for the Pacific Northwest - I. Hosts. Washington State Univ. Agric. Exp. Sta. Bull. 765:1-121
GloBI hasHost Casuarina equisetifolia https://mycoportal.org/portal/collections/individual/index.php?occid=1076707
GloBI symbiontOf Ganoderma applanatum 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 hasHost Acacia melanoxylon https://mycoportal.org/portal/collections/individual/index.php?occid=1076629
GloBI hasHost Mangifera indica https://mycoportal.org/portal/collections/individual/index.php?occid=1077051
GloBI hasHost Conium maculatum https://mycoportal.org/portal/collections/individual/index.php?occid=8173010
GloBI hasHost Prunus armeniaca https://mycoportal.org/portal/collections/individual/index.php?occid=1189326
GloBI symbiontOf Ganoderma applanatum Tanunchai, B., Ji, L., Schroeter, S.A., Wahdan, S.F.M., Hossen, S., Delelegn, Y., Buscot, F., Lehnert, A.S., Alves, E.G., Hilke, I. and Gleixner, G., 2022. FungalTraits vs. FUNGuild: Comparison of ecological functional assignments of leaf‑and needle‑associated fungi across 12 temperate tree species.. Microbial Ecology. doi:10.1007/s00248-022-01973-2 DOI
GloBI symbiontOf Ganoderma applanatum 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 eats Populus deltoides https://www.inaturalist.org/observations/241924407
GloBI hasHost Taxodium distichum https://mycoportal.org/portal/collections/individual/index.php?occid=1076931
GloBI symbiontOf Ganoderma applanatum Kivlin, S.N., Mann, M.A., Lynn, J.S., Kazenel, M.R., Taylor, D.L. and Rudgers, J.A., 2022. Grass species identity shapes communities of root and leaf fungi more than elevation.. ISME Communications. doi:10.1038/s43705-022-00107-6 DOI
GloBI hasHost Araucaria angustifolia https://mycoportal.org/portal/collections/individual/index.php?occid=1076744
GloBI hasHost Cryptomeria japonica https://mycoportal.org/portal/collections/individual/index.php?occid=1190647
GloBI eats Prunus domestica https://www.inaturalist.org/observations/315664971
GloBI eats Prunus persica https://www.inaturalist.org/observations/67054948
GloBI pathogenOf Prunus persica J. K. Uyemoto, J. M. Ogawa, and B. A. Jaffee, primary collators; updated by J. E. Adaskaveg, S. W. Scott, and H. Scherm (last update 5/23/01). Diseases of Peach and Nectarine Peach: Prunus persica (L.) Batsch Nectarine: P. persica var. nucipersica (Suckow) C.K. Schneid.. The American Phytopathological Society. Accessed on 2019-10-24 at https://www.apsnet.org/edcenter/resources/commonnames/Pages/PeachandNectarine.aspx
GloBI eats Quercus serrata https://www.inaturalist.org/observations/220111424
GloBI hasHost Quercus virginiana https://mycoportal.org/portal/collections/individual/index.php?occid=1077112
GloBI symbiontOf Ganoderma applanatum 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 Ganoderma applanatum Zhang, Y., Gao, C., Masum, M., Islam, M., Cheng, Y., Wei, C., Guan, Y. and Guan, J., 2021. Dynamic Microbiome Changes Reveal the Effect of 1-Methylcyclopropene Treatment on Reducing Post-harvest Fruit Decay in “Doyenne du Comice” Pear. Frontiers in Microbiology. doi:10.3389/fmicb.2021.729014 DOI
GloBI symbiontOf Ganoderma applanatum Merino-Martín, L., Stokes, A., Gweon, H.S., Moragues-Saitua, L., Staunton, S., Plassard, C., Oliver, A., Le Bissonnais, Y. and Griffiths, R.I., 2021. Interacting effects of land use type, microbes and plant traits on soil aggregate stability.. Soil Biology and Biochemistry. doi:10.1016/j.soilbio.2020.108072 DOI
GloBI symbiontOf Ganoderma applanatum Lee, M. R. and Hawkes, C. V., 2020. Plant and soil drivers of whole-plant microbiomes: variation in switchgrass fungi from coastal to mountain sites. Phytobiomes Journal. doi:10.1094/PBIOMES-07-20-0056-FI DOI
GloBI symbiontOf Ganoderma applanatum 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 hasHost Ailanthus altissima https://mycoportal.org/portal/collections/individual/index.php?occid=1076700
GloBI pathogenOf Mangifera indica K. Pernezny and G. W. Simone, primary collators (last update 11/09/00). Diseases of Mango (Mangifera indica L.). The American Phytopathological Society. Accessed on 2019-10-24 at https://www.apsnet.org/edcenter/resources/commonnames/Pages/Mango.aspx
GloBI hasHost Quercus serrata Kobayashi, T.. 2007. Index of fungi inhabiting woody plants in Japan. Host, Distribution and Literature. Zenkoku-Noson-Kyoiku Kyokai Publishing Co., Ltd. :1227
GloBI symbiontOf Ganoderma applanatum Merino‐Martín, L., Hernández‐Cáceres, D., Reverchon, F., Angeles‐Alvarez, G., Zhang, G., Dunoyer de Segonzac, D., Dezette, D. and Stokes, A., 2022. Habitat partitioning of soil microbial communities along an elevation gradient: from plant root to landscape scale. Oikos. doi:10.1111/oik.09034 DOI
GloBI symbiontOf Ganoderma applanatum 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 pathogenOf Prunus armeniaca J. M. Ogawa, J. K. Uyemoto, and B. A. Jaffee, primary collators (last update 4/8/03). Diseases of Apricot (Prunus armeniaca L.). The American Phytopathological Society. Accessed on 2019-10-24 at https://www.apsnet.org/edcenter/resources/commonnames/Pages/Apricot.aspx
GloBI symbiontOf Ganoderma applanatum 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

Genus-level evidence

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