67. Qin C, Zhu K, Chiarello NR, Field CB, Peay KG (accepted) Fire history and plant composition outweigh decadal multi-factor global change as drivers of microbial composition in an annual grassland. Journal of Ecology
†66. Steidinger BS, Crowther TW, Liang J, Van Nuland ME, Werner GDA, Reich PB, Nabuurs G, De Miguel S, Zhou M, Picard N, Herault B, Zhao X, Zhang C, Routh D, GFBi Team, Peay KG*. (2019) Climatic controls over decomposition drive the global biogeography of forest tree symbioses. Nature 569: 404–408.
65. Duhamel M, Wan J, Bogar LM, Segnitz RM, Duncritts NE, Peay KG (2019). Plant selection initiates alternative successional trajectories in the soil microbial community after disturbance. Ecological Monographs. 89: e01367
64. Barge EG, Leopold DR, Peay KG, Newcombe G, Busby PE. (2019). Differentiating spatial from environmental effects on foliar fungal communities of Populus trichocarpa. Journal of Biogeography. DOI: 10.1111/jbi.13641
63. Ravenscraft A, KishN, Peay KG, BoggsC. (2019)No evidence that gut microbiota impose a net cost on their butterfly host.Molecular Ecology. doi: 10.1111/mec.15057
62. Bogar LM, Peay KG, Kornfeld, A, Huggins J, Hortal Sara, Anderson I, Kennedy PG. (2019). Plant-mediated partner discrimination in ectomycorrhizal mutualisms. Mycorrhiza. 29: 97-111
61. Barbour M, Erlandson SE, Peay KG, Locke B, Jules ES, Crutsinger GM. (2019) Partitioning plant genetic and environmental drivers of above and belowground community assembly. Journal of Ecology 107: 350-360
60. Ravenscraft A*, Berry M, Hammer T, Peay KG, Boggs C. (2019) Structure and function of the bacterial and fungal gut flora of neotropical butterflies. Ecological Monographs. e01346
59. Bhatnagar JM*, Peay KG, Treseder KM (2018). Litter chemistry influences decomposition through activity of specific microbial functional guilds. Ecological Monographs 88: 429-444
58. Erlandson SE, Wei X, Savage J, Cavender-Bares J, Peay KG (2018). Soil abiotic variables are more important than Salicaceae phylogeny or habitat specialization in determining soil microbial community structure. Molecular Ecology 8: 2007-2024
57. Smith GR, Steidinger BS, Bruns TD, Peay KG (2018) Competition-colonization tradeoffs structure fungal diversity. ISME Journal 12: 1758–1767
56. Peay KG (2018). Timing of mutualist arrival has a greater effect on Pinus muricata seedling growth than interspecific competition. Journal of Ecology. 106: 514-523
55. Hirokazu Toju, Kabir Peay, Masato Yamamichi, Kazuhiko Narisawa, Kei Hiruma, Ken Naito, Shinji Fukuda, Masayuki Ushio, Shinji Nakaoka, Yusuke Onoda, Kentaro Yoshida, Klaus Schlaeppi, Yang Bai, Ryo Sugiura, Yasunori Ichihashi, Kiwamu Minamisawa, and Toby Kiers. (2018) Core microbiomes for sustainable agroecosystems. Nature Plants 4: 247-257
54. Essene A, Shek KL, Lewis JD, Peay KG, McGuire KL. (2017). Soil type has a stronger role than dipterocarp host species in shaping the ectomycorrhizal fungal community in a Bornean lowland tropical rain forest. Frontiers in Plant Science 8: 1828
53. Peay KG, von Sperber C, Cardarelli E, Toju H, Francis CA, Chadwick OA, Vitousek PM (2017) Convergence and contrast in the community structure of Bacteria, Fungi and Archaea along a tropical elevation-climate gradient. FEMS Microbiology Ecology 93(5).
52. Mucha J, Peay KG, Smith DP, Reich PB, Stefanski A, Hobbie SE. Effect of Simulated Climate Warming on the Ectomycorrhizal Fungal Community of Boreal and Temperate Host Species Growing Near Their Shared Ecotonal Range Limits. Microbial Ecology. 2017.
51. Fukami T, Nakajima M, Fortunel C, Fine PVA, Baraloto C, Russo SE, and Peay KG. (2017) Geographical Variation in Community Divergence: Insights from Tropical Forest Monodominance by Ectomycorrhizal Trees. American Naturalist 190(S1):S105-S22.
50. Bogar LMB, Peay KG (2017) Processes maintaining the co-existence of ectomycorrhizal fungi at a fine spatial scale. Leho Tedersoo Ed. Springer Ecological Studies 300: 79-105. Biogeography of Mycorrhizal Symbiosis. Springer.
49. Branco S, Bi K, Liao HL, Gladieux P, Badouin H, Ellison CE, Nguyen NH, Vilgalys R, Peay KG, Taylor JW, Bruns TD (2017) Continental-level population differentiation and environmental adaptation in the mushroom Suillus brevipes. Molecular Ecology 26(7):2063-2076.
48. Rosenthal LM, Larsson KH, Branco S, Chung JA, Glassman SI, Liao HL, Peay, KG, Smith DP, Talbot JM, Taylor JW, Vellinga EC, Vilgalys R, Bruns TD (2017) Survey of corticioid fungi in North American pinaceous forests reveals hyperdiversity, underpopulated sequence databases, and species that are potentially ectomycorrhizal. Mycologia. 109(1):115-27.
47. von Sperber C, Chadwick OA, Casciotti KL, Peay KG, Francis CA, Kim AE, Vitousek PM (2017). Controls of nitrogen evaluated along a well-characterized climate gradient. Ecology. 98(4):1117-1129.
46. Peay KG, Matheny PB. (2017). Biogeography of ectomycorrhizal fungi. In The Molecular Mycorrhizal Symbiosis, F. Martin, ed. John Wiley & Sons, pp. 341-361. PDF
45. Peay KG (2016). The Mutualistic Niche: Mycorrhizal Symbiosis and Community Dynamics. Annual Review of Ecology, Evolution, and Systematics 47(1). PDF
44. Öpik M, Peay KG (2016). Mycorrhizal diversity: Diversity of host plants, symbiotic fungi and relationships. Fungal Ecology. PDF
43. Moeller HV, Peay KG (2016). Competition-function tradeoffs in ectomycorrhizal fungi. PeerJ 4:e2270. PDF
42. Peay KG, Kennedy PG, Talbot JM (2016). Dimensions of biodiversity in the Earth mycobiome. Nature Reviews Microbiology 14(7):434-447. PDF
41. Busby PE, Peay KG, Newcombe G (2016). Common foliar fungi of Populus trichocarpa modify Melampsora rust disease severity. New Phytologist 209(4):1681-1692. PDF
40. Erlandson SR, Savage JA, Cavender-Bares JM, Peay KG (2016). Soil moisture and chemistry influence diversity of ectomycorrhizal fungal communities associating with willow along an hydrologic gradient. FEMS Microbiology Ecology 92(1):fiv148. PDF
39. Peay KG*, Russo SE*, McGuire KL, Lim Z, Chan JP, Tan S, Davies SJ. (2015). Lack of host
specificity leads to independent assortment of dipterocarps and ectomycorrhizal fungi across a soil fertility gradient. Ecology Letters 18: 807-816 *Co-first authors PDF
38. Duhamel M, Peay KG (2015). Does microbial diversity confound general predictions? Trends in Plant Science 20(11):695-697.PDF
37. Talbot JM, Martin F, Kohler A, Henrissat B, KG Peay (2015). Functional guild classification predicts the enzymatic role of fungi in litter and soil biogeochemistry. Soil Biology and Biochemistry 88:441-456. PDF
36. Branco S, Gladieux P, Ellison CC, Kuo A, LaButii K, Lipzen A, Grigoriev IV, Liao HL, Vilgalys R, Peay KG, Taylor JW, Bruns TD (2015). Genetic isolation between two recently diverged populations of a symbiotic fungus. Molecular Ecology 24: 2747–2758 PDF
35. Glassman SI, Peay KG, Talbot JM, Smith DP, Chung JA, Taylor JW, Vilgalys R, Bruns TD (2015). A continental view of pine-associated ectomycorrhizal fungal spore banks: a quiescent functional guild with a strong biogeographic patter. New Phytologist. PDF
34. Liao HL, Chen Y, Bruns TD, Peay KG, Taylor JW, Branco S, Talbot JM, Vilgalys, R. (2014). Metatranscriptomic analysis of ectomycorrhizal roots reveal genes associated with Piloderma-Pinus symbiosis: new methodologies for assessing gene expression in situ. Environmental Microbiology 16, 3730-3742. PDF
33. Bahram M, Peay KG, Tedersoo L. (2014) Local-scale biogeography and spatiotemporal variability in communities of mycorrhizal fungi. New Phytologist. doi: 10.1111/nph.13206 PDF
32. Kennedy PG, Nguyen N, Cohen H, Peay KG (2014) Missing checkerboards? An absence of competitive signal in Alnus-associated ectomycorrhizal fungal communities. PeerJ 2:e686. http://dx.doi.org/10.7717/peerj.686
31. Nguyen NH, Smith DP, Peay KG, Kennedy PG (2014) Parsing ecological signal from noise in next generation amplicon sequencing. New Phytologist. PDF
30.*Peay, KG (2014). Back to the future: natural history and the way forward in modern fungal ecology. Fungal Ecology. PDF
*This article was highlighted in Faculty of 1000 Biology
29. Peay KG, Bruns TD (2014). Spore dispersal of fungi at the landscape scale is driven by stochastic and deterministic processes and generates variability in plant-fungal interactions. New Phytologist PDF
28. Talbot JM, Bruns TD, Taylor JW, Smith DP, Branco S, Glassman SI, Erlandson S, Vilgalys R, Liao HL, Smith ME, Peay KG. (2014). Endemism and functional convergence across the North American soil mycobiome. Proceedings of the National Academy of Sciences Online Early PDF
27. Smith DP and Peay KG. (2014). Sequence depth, not PCR replication, improves ecological inference from next generation DNA sequencing. PLoS One 9(2):e90234. PDF
26. Moeller HV, Peay KG, and Fukami T (published online) Ectomycorrhizal fungal traits reflect environmental conditions along a coastal California edaphic gradient. FEMS Microbiology Ecology. PDF
25. Crutsinger GM, Rodriguez-Cabal MA, Roddy AB, Peay KG, Bastow JL, Kidder AG, Dawson TE, Fine PVA, and Rudgers JA. (2014) Genetic variation within a dominant shrub structures green and brown community assemblages. Ecology 95:387-398. PDF
24. Koljalg U, Nilsson RH, Abarenkov K, Tedersoo L, Taylor AFS, Bahram M, Bates ST, Bruns TD, Bengtsson-Palme J, Callaghan MT, Douglas B, Drenkhan T, Eberhardt U, Dueñas M, Grebenc T, Griffith GW, Hartmann M, Kirk PM, Kohout P, Larsson E, Lindahl BD, Lücking R, Martín MP, Matheny PB, Nguyen NH, Niskanen T, Oja J, Peay KG, Peintner U, Peterson M, Põldmaa K, Saag L, Saar I, Schüssler A, Scott JA, Senés C, Smith ME, Suija A, Taylor DL, Telleria MT, Weiß M, Larsson KH. (2013) Towards a unified paradigm for sequence based identification of Fungi. Molecular Ecology 22:5271-5277. PDF
23. Peay KG, Baroloto C, Fine PVA (2013) Strong coupling of plant and fungal community structure across western Amazonian rainforests. ISME Journal 7:1852-1861. PDF
22. Gao C, Shi NN, Liu YX, Peay KG, Yong Z, Ding Q, Mi XC, Ma KP, Guo LD (2013) Host plant genus level diversity is the best predictor of ectomycorrhizal fungal diversity in a Chinese subtropical forest. Molecular Ecology 22:3403-3414. PDF
21. Merckx VSFT, Mennes CB, Peay KG, Geml J (2013) Evolution and Diversification in Mycoheterotrophy: The Biology of Plants Living on Fungi. (Ed.) V. Merckx. Springer, New York pp. 215-244.
20. Talbot JM, Bruns TD, Smith DP, Branco S, Glassman SI, Erlandson S, Vilgalys R, Peay KG(2013). Independent roles of ectomycorrhizal and saprotrophic communities in soil organic matter decomposition. Soil Biology & Biochemistry 57:282-291. PDF
19. Peay KG, Dickie IA, Wardle DA, Bellingham PJ, Fukami T (2013). Rat invasion alters fungal community structure, but not wood decomposition rates. Oikos 17:4160-4170. PDF
18. Peay KG, Schubert MG, Nguyen NH, Bruns TD (2012). Measuring ectomycorrhizal dispersal: macroecological patterns driven by microscopic propagules. Molecular Ecology 21:4122-4136. PDF
17. Tedersoo L, Mohammad B, Toots M, Diedhiou A, Henkel T, Kjoller R, Morris MH, Nara K, Nouhra E, Peay KG, Põlme S, Ryberg M, Smith MA, Kõljalg U. (2012). Towards global patterns in the diversity and community structure of ectomycorrhizal fungi. Molecular Ecology 17:4160-70. PDF
16. Belisle M, Peay KG, Fukami T. (2012). Flowers as islands: distribution of nectar-inhabiting microfungi in a California landscape. Microbial Ecology 63:711-718. PDF
15. Peay KG, Belisle M, Fukami T. (2012). Phylogenetic relatedness predicts priority effects in nectar yeast communities. P. Roy. Soc. B. 279:749-758.* PDF
*This article was highlighted in Faculty of 1000 Biology
14. Desjardin DE, Peay KG, Bruns TD. (2011). Spongiforma squarepantsii: a new species of gasteroid bolete from Borneo. Mycologia 103:1119–1123. PDF
13. Peay KG, Kennedy PG, Bruns TD. (2011). Rethinking ectomycorrhizal succession: are root density and hyphal exploration types drivers of spatial and temporal zonation? Fungal Ecology 4:233-240. PDF
12. Peay KG, Bruns TD, Garbelotto M. (2010). Evidence of dispersal limitation in soil microorganisms: Isolation reduces species richness on mycorrhizal tree islands. Ecology 91:3631-3640. PDF
11. Peay KG, Bidartondo MI, Arnold, EA. (2010). Not every fungus is everywhere: scaling to the biogeography of fungal-plant interactions across roots, shoots and ecosystems. New Phytologist 185:878-882. PDF
10. Parrent JL, Peay KG, Arnold AE, Comas LH, Avis P, Tuininga A. (2010). Moving from pattern to process in fungal symbioses: Linking functional traits, community ecology, and phylogenetics. New Phytologist 185:882-886. PDF
9. Peay KG, Kennedy PG, Davies SJ, Tan S, Bruns TD. (2010) Potential link between plant and fungal distributions in a dipterocarp rainforest: community and phylogenetic structure of tropical ectomycorrhizal fungi across a plant and soil ecotone. New Phytologist 185:529-542. PDF
8. Peay KG, Bruns TD, Garbelotto M. (2010) Testing the ecological stability of ectomycorrhizal symbiosis: effects of heat, ash and mycorrhizal colonization on Pinus muricata seedling performance. Plant & Soil 330:291-302. PDF
7. Kennedy PG, Peay KG, Bruns TD. (2009) Root tip competition among ectomycorrhizal fungi: are priority effects a rule or an exception? Ecology, 90:2098-2107. PDF
6. Bruns TD, Peay KG, Boynton PJ, Grubisha LC, Hynson NA, Nguyen NH, Rosenstock NP. (2008). Inoculum potential of Rhizopogon spores increases with time over the first four years of a 99-year spore burial experiment. New Phytologist 181:463-470. PDF
5. Peay KG, Kennedy PG, Bruns TD (2008). Fungal community ecology: A hybrid beastwith a molecular master. BioScience, 58:799-810. PDF
4. Peay KG, Bruns TD, Kennedy PG, Bergemann SE, Garbelotto M (2007). A strong species-area relationship for soil microbial eukaryotes: Island size matters for ectomycorrhizal fungi. Ecology Letters 10:470-480.* PDF
*This article was highlighted in Faculty of1000 Biology
3. Kennedy PG, Peay KG. (2007) Different soil moisture conditions change the outcome of the ectomycorrhizal symbiosis between Rhizopogon species and Pinus muricata. Plant and Soil 291:155-165. PDF
2. Forrestel AB and KG Peay. 2006 Deforestation in a complex landscape: The Amistad Biosphere Reserve. Journal of Sustainable Forestry 22:49-71. PDF
1. Schweigkofler WS, Otrosina WJ, Smith SL, Cluck DR, Maeda K, Peay KG, and Garbelotto M. 2005. Detection and quantification of Leptographium wageneri, the cause of black-stain root disease, from bark beetles (Coleoptera: Scolytidae) in Northern California using regular and Real-time PCR. Canadian Journal of Forest Research 35:1798-1808. PDF