Rhizophagus irregularis
- Category
- fungi
- Primary role
- soil microbe
- Class
- Glomeromycetes
- Order
- Glomerales
- Family
- Glomeraceae
- Genus
- Rhizophagus
Fungi | Glomeromycota | Glomeromycetes | Glomerales | Glomeraceae | Rhizophagus
External: GBIF #7764042
2 AI-consensus-verified claims across 1 interaction category.
Related entities
Top entities sharing the most verified claims with Rhizophagus irregularis.
mutualism 2 claims
- This entity is the object of mutualism by Lotus japonicus · effect: beneficial
“branching factor from L. japonicus purified and identified as strigolactone”
mutualistOf ✓ 2/2 AI critics agreed - This entity is the object of mutualism by Daucus carota (Almindelig Brandbæger) · effect: beneficial
“exudates of carrot root organ cultures and strigolactones induce transcription of fungal genes”
mutualistOf ✓ 2/2 AI critics agreed
Aggregated via GloBI — not independently verified by AgroEco.
mutualism 30
- GloBI symbiontOf Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis del Pilar Martínez-Diz, M., Andrés-Sodupe, M., Bujanda, R., Díaz-Losada, E., Eichmeier, A. and Gramaje, D., 2019. Soil-plant compartments affect fungal microbiome diversity and composition in grapevine.. Fungal Ecology. doi:10.1016/j.funeco.2019.07.003 DOI
- GloBI symbiontOf Rhizophagus irregularis Singh, J., Silva, K.J.P., Fuchs, M. and Khan, A., 2019. Potential role of weather, soil and plant microbial communities in rapid decline of apple trees.. PloS One. doi:10.1371/journal.pone.0213293 DOI
- GloBI symbiontOf Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis Fernández-González, A.J., Wentzien, N.M., Villadas, P.J., Valverde-Corredor, A., Lasa, A.V., Gómez-Lama Cabanás, C., Mercado-Blanco, J. and Fernández-López, M., 2020. Comparative study of neighboring Holm oak and olive trees-belowground microbial communities subjected to different soil management. PloS one. doi:10.1371/journal.pone.0236796 DOI
- GloBI symbiontOf Rhizophagus irregularis Li, Y., Wang, Z., Li, T., Zhao, D., Han, J. and Liao, Y., 2021. Wheat rhizosphere fungal community is affected by tillage and plant growth.. Agriculture, Ecosystems & Environment. doi:10.1016/j.agee.2021.107475 DOI
- GloBI symbiontOf Rhizophagus irregularis Wang, C., Masoudi, A., Wang, M., Yang, J., Shen, R., Man, M., Yu, Z. and Liu, J., 2020. Community structure and diversity of the microbiomes of two microhabitats at the root-soil interface: implications of meta-analysis of the root-zone soil and root endosphere microbial communities in Xiong’an New Area.. Canadian Journal of Microbiology. doi:10.1139/cjm-2020-0061 DOI
- GloBI symbiontOf Rhizophagus irregularis Toju, H., Kurokawa, H. and Kenta, T., 2019. Factors influencing leaf-and root-associated communities of bacteria and fungi across 33 plant orders in a grassland.. Frontiers in Microbiology. doi:10.3389/fmicb.2019.00241 DOI
- GloBI symbiontOf Rhizophagus irregularis 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 Rhizophagus irregularis Mommer, L., Cotton, T.A., Raaijmakers, J.M., Termorshuizen, A.J., van Ruijven, J., Hendriks, M., van Rijssel, S.Q., van de Mortel, J.E., van der Paauw, J.W., Schijlen, E.G. and Smit-Tiekstra, A.E., 2018. Lost in diversity: the interactions between soil-borne fungi, biodiversity and plant productivity.. New Phytologist. doi:10.1111/nph.15036 DOI
- GloBI symbiontOf Rhizophagus irregularis Dong, H., Fan, S., Sun, H., Chen, C., Wang, A., Jiang, L. and Ma, D., 2021. Rhizosphere-associated microbiomes of rice (Oryza sativa L.) under the effect of increased nitrogen fertilization.. Frontiers in Microbiology. doi:10.3389/fmicb.2021.730506 DOI
- GloBI symbiontOf Rhizophagus irregularis Si, P., Shao, W., Yu, H., Yang, X., Gao, D., Qiao, X., Wang, Z. and Wu, G., 2018. Rhizosphere Microenvironments of Eight Common Deciduous Fruit Trees Were Shaped by Microbes in Northern China.. Frontiers in Microbiology. doi:10.3389/fmicb.2018.03147 DOI
- GloBI symbiontOf Rhizophagus irregularis Toju, H., Kurokawa, H. and Kenta, T., 2019. Factors influencing leaf-and root-associated communities of bacteria and fungi across 33 plant orders in a grassland.. Frontiers in Microbiology. doi:10.3389/fmicb.2019.00241 DOI
- GloBI symbiontOf Rhizophagus irregularis Wang, C., Masoudi, A., Wang, M., Yang, J., Shen, R., Man, M., Yu, Z. and Liu, J., 2020. Community structure and diversity of the microbiomes of two microhabitats at the root-soil interface: implications of meta-analysis of the root-zone soil and root endosphere microbial communities in Xiong’an New Area.. Canadian Journal of Microbiology. doi:10.1139/cjm-2020-0061 DOI
- GloBI symbiontOf Rhizophagus irregularis Toju, H., Kurokawa, H. and Kenta, T., 2019. Factors influencing leaf-and root-associated communities of bacteria and fungi across 33 plant orders in a grassland.. Frontiers in Microbiology. doi:10.3389/fmicb.2019.00241 DOI
- GloBI symbiontOf Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis Toju, H., Kurokawa, H. and Kenta, T., 2019. Factors influencing leaf-and root-associated communities of bacteria and fungi across 33 plant orders in a grassland.. Frontiers in Microbiology. doi:10.3389/fmicb.2019.00241 DOI
- GloBI symbiontOf Rhizophagus irregularis 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 Rhizophagus irregularis Toju, H., Kurokawa, H. and Kenta, T., 2019. Factors influencing leaf-and root-associated communities of bacteria and fungi across 33 plant orders in a grassland.. Frontiers in Microbiology. doi:10.3389/fmicb.2019.00241 DOI
- GloBI symbiontOf Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis Toju, H., Kurokawa, H. and Kenta, T., 2019. Factors influencing leaf-and root-associated communities of bacteria and fungi across 33 plant orders in a grassland.. Frontiers in Microbiology. doi:10.3389/fmicb.2019.00241 DOI
mycorrhizal 61
- GloBI hasArbuscularMycorrhizalHost Achillea millefolium Bunn, R.A., Lekberg, Y., Gallagher, C., Rosendahl, S. and Ramsey, P.W., 2014. Grassland invaders and their mycorrhizal symbionts: a study across climate and invasion gradients..
- GloBI hasArbuscularMycorrhizalHost Medicago sativa Roy, J., Reichel, R., Brüggemann, N., Hempel, S. and Rillig, M. C., 2017. Succession of arbuscular mycorrhizal fungi along a 52-year agricultural recultivation chronosequence.
- GloBI hasArbuscularMycorrhizalHost Glycine max Senés-Guerrero, C., Giménez, S., Pacheco, A., Gradilla-Hernández, M. S. and Schüßler, A., 2020. New MiSeq based strategy exposed plant-preferential arbuscular mycorrhizal fungal communities in arid soils of Mexico.
- GloBI hasArbuscularMycorrhizalHost Arrhenatherum elatius Řezáčová, V., Řezáč, M., Gryndler, M., Hršelová, H., Gryndlerová, H. and Michalová, T., 2021. Plant invasion alters community structure and decreases diversity of arbuscular mycorrhizal fungal communities.
- GloBI hasArbuscularMycorrhizalHost Tanacetum vulgare Řezáčová, V., Řezáč, M., Gryndler, M., Hršelová, H., Gryndlerová, H. and Michalová, T., 2021. Plant invasion alters community structure and decreases diversity of arbuscular mycorrhizal fungal communities.
- GloBI hasArbuscularMycorrhizalHost Capsicum annuum Senés-Guerrero, C., Giménez, S., Pacheco, A., Gradilla-Hernández, M. S. and Schüßler, A., 2020. New MiSeq based strategy exposed plant-preferential arbuscular mycorrhizal fungal communities in arid soils of Mexico.
- GloBI hasArbuscularMycorrhizalHost Citrus sinensis Senés-Guerrero, C., Giménez, S., Pacheco, A., Gradilla-Hernández, M. S. and Schüßler, A., 2020. New MiSeq based strategy exposed plant-preferential arbuscular mycorrhizal fungal communities in arid soils of Mexico.
- GloBI hasArbuscularMycorrhizalHost Taraxacum officinale Lekberg, Y., Gibbons, S. M., Rosendahl, S. and Ramsey, P. W., 2013. Severe plant invasions can increase mycorrhizal fungal abundance and diversity.
- GloBI hasArbuscularMycorrhizalHost Hordeum vulgare Roy, J., Reichel, R., Brüggemann, N., Hempel, S. and Rillig, M. C., 2017. Succession of arbuscular mycorrhizal fungi along a 52-year agricultural recultivation chronosequence.
- GloBI hasArbuscularMycorrhizalHost Daucus carota Řezáčová, V., Řezáč, M., Gryndler, M., Hršelová, H., Gryndlerová, H. and Michalová, T., 2021. Plant invasion alters community structure and decreases diversity of arbuscular mycorrhizal fungal communities.
- GloBI hasArbuscularMycorrhizalHost Vitis vinifera Bouffaud, M. L., Bernaud, E., Colombet, A., van Tuinen, D., Wipf, D. and Redecker, D., 2016. Regional-scale analysis of arbuscular mycorrhizal fungi: the case of Burgundy vineyards.
- GloBI hasArbuscularMycorrhizalHost Zea mays Cheeke, T.E., Schütte, U.M., Hemmerich, C.M., Cruzan, M.B., Rosenstiel, T.N. and Bever, J.D., 2015. Spatial soil heterogeneity has a greater effect on symbiotic arbuscular mycorrhizal fungal communities and plant growth than genetic modification with Bacillus thuringiensis toxin genes.
- GloBI hasArbuscularMycorrhizalHost Beta vulgaris Williams, A., Manoharan, L., Rosenstock, N. P., Olsson, P. A. and Hedlund, K., 2017. Long‐term agricultural fertilization alters arbuscular mycorrhizal fungal community composition and barley (H ordeum vulgare) mycorrhizal carbon and phosphorus exchange.
- GloBI hasArbuscularMycorrhizalHost Solanum chaucha Loján, P., Senés-Guerrero, C., Suárez, J.P., Kromann, P., Schüßler, A. and Declerck, S., 2017. Potato field-inoculation in Ecuador with Rhizophagus irregularis: no impact on growth performance and associated arbuscular mycorrhizal fungal communities.
- GloBI hasArbuscularMycorrhizalHost Triticum aestivum Manoharan, L., Rosenstock, N. P., Williams, A. and Hedlund, K., 2017. Agricultural management practices influence AMF diversity and community composition with cascading effects on plant productivity.
- GloBI hasArbuscularMycorrhizalHost Psidium cattleianum Gomes, S.I., Merckx, V.S. and Hynson, N.A., 2018. Biological invasions increase the richness of arbuscular mycorrhizal fungi from a Hawaiian subtropical ecosystem.
- GloBI hasArbuscularMycorrhizalHost Toona ciliata Gomes, S.I., Merckx, V.S. and Hynson, N.A., 2018. Biological invasions increase the richness of arbuscular mycorrhizal fungi from a Hawaiian subtropical ecosystem.
- GloBI hasHost Zea mays S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasArbuscularMycorrhizalHost Avena sativa Bouffaud, M.L., Creamer, R.E., Stone, D., Plassart, P., van Tuinen, D., Lemanceau, P., Wipf, D. and Redecker, D., 2016. Indicator species and co-occurrence in communities of arbuscular mycorrhizal fungi at the European scale..
- GloBI hasArbuscularMycorrhizalHost Lolium multiflorum Bouffaud, M.L., Creamer, R.E., Stone, D., Plassart, P., van Tuinen, D., Lemanceau, P., Wipf, D. and Redecker, D., 2016. Indicator species and co-occurrence in communities of arbuscular mycorrhizal fungi at the European scale..
- GloBI hasArbuscularMycorrhizalHost Trifolium subterraneum Bouffaud, M.L., Creamer, R.E., Stone, D., Plassart, P., van Tuinen, D., Lemanceau, P., Wipf, D. and Redecker, D., 2016. Indicator species and co-occurrence in communities of arbuscular mycorrhizal fungi at the European scale..
- GloBI hasArbuscularMycorrhizalHost Lolium perenne Bouffaud, M.L., Creamer, R.E., Stone, D., Plassart, P., van Tuinen, D., Lemanceau, P., Wipf, D. and Redecker, D., 2016. Indicator species and co-occurrence in communities of arbuscular mycorrhizal fungi at the European scale..
- GloBI hasHost Solanum chaucha S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasArbuscularMycorrhizalHost Artemisia vulgaris Řezáčová, V., Řezáč, M., Gryndler, M., Hršelová, H., Gryndlerová, H. and Michalová, T., 2021. Plant invasion alters community structure and decreases diversity of arbuscular mycorrhizal fungal communities.
- GloBI hasHost Glycine max https://mycoportal.org/portal/collections/individual/index.php?occid=11771090
- GloBI hasHost Vitis vinifera S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Triticum aestivum https://mycoportal.org/portal/collections/individual/index.php?occid=11668761
- GloBI hasHost Hordeum vulgare S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Malus domestica S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Vigna unguiculata S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Vicia villosa S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Capsicum annuum S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Dactylis glomerata S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Lavandula angustifolia S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Melissa officinalis S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Perilla frutescens S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Taraxacum officinale S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Trifolium alexandrinum S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Trifolium incarnatum S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Trifolium pratense S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Citrus limon S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Daucus carota https://mycoportal.org/portal/collections/individual/index.php?occid=11802960
- GloBI hasHost Mangifera indica S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Oryza sativa S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Phragmites australis S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Punica granatum S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Solanum lycopersicum S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Tanacetum vulgare S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Brassica juncea S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Catha edulis S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Citrus reticulata S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Citrus sinensis S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Oenanthe crocata S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Panax ginseng S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Phacelia tanacetifolia S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Phoenix dactylifera S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Pistacia vera S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Tectona grandis S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Zea mays subsp. mays S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Crocus sativus S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Lavandula intermedia S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
crop interaction 91
- GloBI hasArbuscularMycorrhizalHost Achillea millefolium Bunn, R.A., Lekberg, Y., Gallagher, C., Rosendahl, S. and Ramsey, P.W., 2014. Grassland invaders and their mycorrhizal symbionts: a study across climate and invasion gradients..
- GloBI hasArbuscularMycorrhizalHost Medicago sativa Roy, J., Reichel, R., Brüggemann, N., Hempel, S. and Rillig, M. C., 2017. Succession of arbuscular mycorrhizal fungi along a 52-year agricultural recultivation chronosequence.
- GloBI hasArbuscularMycorrhizalHost Glycine max Senés-Guerrero, C., Giménez, S., Pacheco, A., Gradilla-Hernández, M. S. and Schüßler, A., 2020. New MiSeq based strategy exposed plant-preferential arbuscular mycorrhizal fungal communities in arid soils of Mexico.
- GloBI hasArbuscularMycorrhizalHost Arrhenatherum elatius Řezáčová, V., Řezáč, M., Gryndler, M., Hršelová, H., Gryndlerová, H. and Michalová, T., 2021. Plant invasion alters community structure and decreases diversity of arbuscular mycorrhizal fungal communities.
- GloBI hasArbuscularMycorrhizalHost Tanacetum vulgare Řezáčová, V., Řezáč, M., Gryndler, M., Hršelová, H., Gryndlerová, H. and Michalová, T., 2021. Plant invasion alters community structure and decreases diversity of arbuscular mycorrhizal fungal communities.
- GloBI hasArbuscularMycorrhizalHost Capsicum annuum Senés-Guerrero, C., Giménez, S., Pacheco, A., Gradilla-Hernández, M. S. and Schüßler, A., 2020. New MiSeq based strategy exposed plant-preferential arbuscular mycorrhizal fungal communities in arid soils of Mexico.
- GloBI hasArbuscularMycorrhizalHost Citrus sinensis Senés-Guerrero, C., Giménez, S., Pacheco, A., Gradilla-Hernández, M. S. and Schüßler, A., 2020. New MiSeq based strategy exposed plant-preferential arbuscular mycorrhizal fungal communities in arid soils of Mexico.
- GloBI hasArbuscularMycorrhizalHost Taraxacum officinale Lekberg, Y., Gibbons, S. M., Rosendahl, S. and Ramsey, P. W., 2013. Severe plant invasions can increase mycorrhizal fungal abundance and diversity.
- GloBI hasArbuscularMycorrhizalHost Hordeum vulgare Roy, J., Reichel, R., Brüggemann, N., Hempel, S. and Rillig, M. C., 2017. Succession of arbuscular mycorrhizal fungi along a 52-year agricultural recultivation chronosequence.
- GloBI hasArbuscularMycorrhizalHost Daucus carota Řezáčová, V., Řezáč, M., Gryndler, M., Hršelová, H., Gryndlerová, H. and Michalová, T., 2021. Plant invasion alters community structure and decreases diversity of arbuscular mycorrhizal fungal communities.
- GloBI hasArbuscularMycorrhizalHost Vitis vinifera Bouffaud, M. L., Bernaud, E., Colombet, A., van Tuinen, D., Wipf, D. and Redecker, D., 2016. Regional-scale analysis of arbuscular mycorrhizal fungi: the case of Burgundy vineyards.
- GloBI hasArbuscularMycorrhizalHost Zea mays Cheeke, T.E., Schütte, U.M., Hemmerich, C.M., Cruzan, M.B., Rosenstiel, T.N. and Bever, J.D., 2015. Spatial soil heterogeneity has a greater effect on symbiotic arbuscular mycorrhizal fungal communities and plant growth than genetic modification with Bacillus thuringiensis toxin genes.
- GloBI hasArbuscularMycorrhizalHost Beta vulgaris Williams, A., Manoharan, L., Rosenstock, N. P., Olsson, P. A. and Hedlund, K., 2017. Long‐term agricultural fertilization alters arbuscular mycorrhizal fungal community composition and barley (H ordeum vulgare) mycorrhizal carbon and phosphorus exchange.
- GloBI symbiontOf Rhizophagus irregularis 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 hasArbuscularMycorrhizalHost Solanum chaucha Loján, P., Senés-Guerrero, C., Suárez, J.P., Kromann, P., Schüßler, A. and Declerck, S., 2017. Potato field-inoculation in Ecuador with Rhizophagus irregularis: no impact on growth performance and associated arbuscular mycorrhizal fungal communities.
- GloBI hasArbuscularMycorrhizalHost Triticum aestivum Manoharan, L., Rosenstock, N. P., Williams, A. and Hedlund, K., 2017. Agricultural management practices influence AMF diversity and community composition with cascading effects on plant productivity.
- GloBI symbiontOf Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis del Pilar Martínez-Diz, M., Andrés-Sodupe, M., Bujanda, R., Díaz-Losada, E., Eichmeier, A. and Gramaje, D., 2019. Soil-plant compartments affect fungal microbiome diversity and composition in grapevine.. Fungal Ecology. doi:10.1016/j.funeco.2019.07.003 DOI
- GloBI symbiontOf Rhizophagus irregularis Singh, J., Silva, K.J.P., Fuchs, M. and Khan, A., 2019. Potential role of weather, soil and plant microbial communities in rapid decline of apple trees.. PloS One. doi:10.1371/journal.pone.0213293 DOI
- GloBI hasArbuscularMycorrhizalHost Psidium cattleianum Gomes, S.I., Merckx, V.S. and Hynson, N.A., 2018. Biological invasions increase the richness of arbuscular mycorrhizal fungi from a Hawaiian subtropical ecosystem.
- GloBI hasArbuscularMycorrhizalHost Toona ciliata Gomes, S.I., Merckx, V.S. and Hynson, N.A., 2018. Biological invasions increase the richness of arbuscular mycorrhizal fungi from a Hawaiian subtropical ecosystem.
- GloBI hasHost Zea mays S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasArbuscularMycorrhizalHost Avena sativa Bouffaud, M.L., Creamer, R.E., Stone, D., Plassart, P., van Tuinen, D., Lemanceau, P., Wipf, D. and Redecker, D., 2016. Indicator species and co-occurrence in communities of arbuscular mycorrhizal fungi at the European scale..
- GloBI hasArbuscularMycorrhizalHost Lolium multiflorum Bouffaud, M.L., Creamer, R.E., Stone, D., Plassart, P., van Tuinen, D., Lemanceau, P., Wipf, D. and Redecker, D., 2016. Indicator species and co-occurrence in communities of arbuscular mycorrhizal fungi at the European scale..
- GloBI hasArbuscularMycorrhizalHost Trifolium subterraneum Bouffaud, M.L., Creamer, R.E., Stone, D., Plassart, P., van Tuinen, D., Lemanceau, P., Wipf, D. and Redecker, D., 2016. Indicator species and co-occurrence in communities of arbuscular mycorrhizal fungi at the European scale..
- GloBI hasArbuscularMycorrhizalHost Lolium perenne Bouffaud, M.L., Creamer, R.E., Stone, D., Plassart, P., van Tuinen, D., Lemanceau, P., Wipf, D. and Redecker, D., 2016. Indicator species and co-occurrence in communities of arbuscular mycorrhizal fungi at the European scale..
- GloBI symbiontOf Rhizophagus irregularis 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 hasHost Solanum chaucha S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI symbiontOf Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis 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 hasArbuscularMycorrhizalHost Artemisia vulgaris Řezáčová, V., Řezáč, M., Gryndler, M., Hršelová, H., Gryndlerová, H. and Michalová, T., 2021. Plant invasion alters community structure and decreases diversity of arbuscular mycorrhizal fungal communities.
- GloBI hasHost Glycine max https://mycoportal.org/portal/collections/individual/index.php?occid=11771090
- GloBI symbiontOf Rhizophagus irregularis Fernández-González, A.J., Wentzien, N.M., Villadas, P.J., Valverde-Corredor, A., Lasa, A.V., Gómez-Lama Cabanás, C., Mercado-Blanco, J. and Fernández-López, M., 2020. Comparative study of neighboring Holm oak and olive trees-belowground microbial communities subjected to different soil management. PloS one. doi:10.1371/journal.pone.0236796 DOI
- GloBI symbiontOf Rhizophagus irregularis Li, Y., Wang, Z., Li, T., Zhao, D., Han, J. and Liao, Y., 2021. Wheat rhizosphere fungal community is affected by tillage and plant growth.. Agriculture, Ecosystems & Environment. doi:10.1016/j.agee.2021.107475 DOI
- GloBI hasHost Vitis vinifera S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI symbiontOf Rhizophagus irregularis Wang, C., Masoudi, A., Wang, M., Yang, J., Shen, R., Man, M., Yu, Z. and Liu, J., 2020. Community structure and diversity of the microbiomes of two microhabitats at the root-soil interface: implications of meta-analysis of the root-zone soil and root endosphere microbial communities in Xiong’an New Area.. Canadian Journal of Microbiology. doi:10.1139/cjm-2020-0061 DOI
- GloBI hasHost Triticum aestivum https://mycoportal.org/portal/collections/individual/index.php?occid=11668761
- GloBI symbiontOf Rhizophagus irregularis Toju, H., Kurokawa, H. and Kenta, T., 2019. Factors influencing leaf-and root-associated communities of bacteria and fungi across 33 plant orders in a grassland.. Frontiers in Microbiology. doi:10.3389/fmicb.2019.00241 DOI
- GloBI symbiontOf Rhizophagus irregularis 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 Rhizophagus irregularis Mommer, L., Cotton, T.A., Raaijmakers, J.M., Termorshuizen, A.J., van Ruijven, J., Hendriks, M., van Rijssel, S.Q., van de Mortel, J.E., van der Paauw, J.W., Schijlen, E.G. and Smit-Tiekstra, A.E., 2018. Lost in diversity: the interactions between soil-borne fungi, biodiversity and plant productivity.. New Phytologist. doi:10.1111/nph.15036 DOI
- GloBI symbiontOf Rhizophagus irregularis Dong, H., Fan, S., Sun, H., Chen, C., Wang, A., Jiang, L. and Ma, D., 2021. Rhizosphere-associated microbiomes of rice (Oryza sativa L.) under the effect of increased nitrogen fertilization.. Frontiers in Microbiology. doi:10.3389/fmicb.2021.730506 DOI
- GloBI symbiontOf Rhizophagus irregularis Si, P., Shao, W., Yu, H., Yang, X., Gao, D., Qiao, X., Wang, Z. and Wu, G., 2018. Rhizosphere Microenvironments of Eight Common Deciduous Fruit Trees Were Shaped by Microbes in Northern China.. Frontiers in Microbiology. doi:10.3389/fmicb.2018.03147 DOI
- GloBI symbiontOf Rhizophagus irregularis Toju, H., Kurokawa, H. and Kenta, T., 2019. Factors influencing leaf-and root-associated communities of bacteria and fungi across 33 plant orders in a grassland.. Frontiers in Microbiology. doi:10.3389/fmicb.2019.00241 DOI
- GloBI symbiontOf Rhizophagus irregularis Wang, C., Masoudi, A., Wang, M., Yang, J., Shen, R., Man, M., Yu, Z. and Liu, J., 2020. Community structure and diversity of the microbiomes of two microhabitats at the root-soil interface: implications of meta-analysis of the root-zone soil and root endosphere microbial communities in Xiong’an New Area.. Canadian Journal of Microbiology. doi:10.1139/cjm-2020-0061 DOI
- GloBI hasHost Hordeum vulgare S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI symbiontOf Rhizophagus irregularis Toju, H., Kurokawa, H. and Kenta, T., 2019. Factors influencing leaf-and root-associated communities of bacteria and fungi across 33 plant orders in a grassland.. Frontiers in Microbiology. doi:10.3389/fmicb.2019.00241 DOI
- GloBI hasHost Malus domestica S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Vigna unguiculata S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Vicia villosa S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI symbiontOf Rhizophagus irregularis 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 Rhizophagus irregularis 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 hasHost Capsicum annuum S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Dactylis glomerata S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Lavandula angustifolia S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Melissa officinalis S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Perilla frutescens S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Taraxacum officinale S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Trifolium alexandrinum S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Trifolium incarnatum S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Trifolium pratense S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI symbiontOf Rhizophagus irregularis Toju, H., Kurokawa, H. and Kenta, T., 2019. Factors influencing leaf-and root-associated communities of bacteria and fungi across 33 plant orders in a grassland.. Frontiers in Microbiology. doi:10.3389/fmicb.2019.00241 DOI
- GloBI symbiontOf Rhizophagus irregularis 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 Rhizophagus irregularis Toju, H., Kurokawa, H. and Kenta, T., 2019. Factors influencing leaf-and root-associated communities of bacteria and fungi across 33 plant orders in a grassland.. Frontiers in Microbiology. doi:10.3389/fmicb.2019.00241 DOI
- GloBI hasHost Citrus limon S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Daucus carota https://mycoportal.org/portal/collections/individual/index.php?occid=11802960
- GloBI hasHost Mangifera indica S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Oryza sativa S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Phragmites australis S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Punica granatum S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Solanum lycopersicum S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Tanacetum vulgare S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI symbiontOf Rhizophagus irregularis 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 Rhizophagus irregularis 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 Rhizophagus irregularis 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 hasHost Brassica juncea S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Catha edulis S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Citrus reticulata S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Citrus sinensis S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Oenanthe crocata S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Panax ginseng S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Phacelia tanacetifolia S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Phoenix dactylifera S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Pistacia vera S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Tectona grandis S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Zea mays subsp. mays S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI symbiontOf Rhizophagus irregularis Toju, H., Kurokawa, H. and Kenta, T., 2019. Factors influencing leaf-and root-associated communities of bacteria and fungi across 33 plant orders in a grassland.. Frontiers in Microbiology. doi:10.3389/fmicb.2019.00241 DOI
- GloBI hasHost Crocus sativus S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI
- GloBI hasHost Lavandula intermedia S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N. Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122, https://doi.org/10.1073/pnas.2505059122 (2025). Accessed at <https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip> on 23 May 2026. DOI