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Kabir Peay

Kabir Peay

Stanford University

H-index: 48

North America-United States

Contact Kabir Peay

About Kabir Peay

Kabir Peay, With an exceptional h-index of 48 and a recent h-index of 45 (since 2020), a distinguished researcher at Stanford University, specializes in the field of Ecology, Mycology, Biogeography, Macroecology.

His recent articles reflect a diverse array of research interests and contributions to the field:

A risk assessment framework for the future of forest microbiomes in a changing climate

Potential for functional divergence in ectomycorrhizal fungal communities across a precipitation gradient

Above- and belowground fungal biodiversity of Populus trees on a continental scale

Dispersal changes soil bacterial interactions with fungal wood decomposition

Soil microbes under threat in the Amazon Rainforest

Woodland wildfire enables fungal colonization of encroaching Douglas‐fir

Positive interactions between mycorrhizal fungi and bacteria are widespread and benefit plant growth

Niche modelling predicts that soil fungi occupy a precarious climate in boreal forests

Kabir Peay Information

University

Position

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Citations(all)

14559

Citations(since 2020)

9095

Cited By

9306

hIndex(all)

48

hIndex(since 2020)

45

i10Index(all)

80

i10Index(since 2020)

74

Email

University Profile Page

Google Scholar

Kabir Peay Skills & Research Interests

Ecology

Mycology

Biogeography

Macroecology

Top articles of Kabir Peay

A risk assessment framework for the future of forest microbiomes in a changing climate

2024/4/29

Potential for functional divergence in ectomycorrhizal fungal communities across a precipitation gradient

ISME communications

2024/1/1

Above- and belowground fungal biodiversity of Populus trees on a continental scale

Nature Microbiology

2023/12

S Caroline Daws
S Caroline Daws

H-Index: 3

Dispersal changes soil bacterial interactions with fungal wood decomposition

ISME communications

2023/5/3

Cong Wang
Cong Wang

H-Index: 4

Gabriel Reuben Smith
Gabriel Reuben Smith

H-Index: 4

Cheng Gao
Cheng Gao

H-Index: 7

Soil microbes under threat in the Amazon Rainforest

2023/8/5

Erika Berenguer
Erika Berenguer

H-Index: 23

Woodland wildfire enables fungal colonization of encroaching Douglas‐fir

Functional Ecology

2023/8

Gabriel Reuben Smith
Gabriel Reuben Smith

H-Index: 4

Positive interactions between mycorrhizal fungi and bacteria are widespread and benefit plant growth

Current Biology

2023/7/24

Louis Berrios
Louis Berrios

H-Index: 3

Niche modelling predicts that soil fungi occupy a precarious climate in boreal forests

Global Ecology and Biogeography

2023/7

Clara Qin
Clara Qin

H-Index: 3

Kai Zhu
Kai Zhu

H-Index: 11

Global links between soil microbes and biogeochemical functions

EGU General Assembly Conference Abstracts

2023/5

Gabriel Reuben Smith
Gabriel Reuben Smith

H-Index: 4

Kabir Peay
Kabir Peay

H-Index: 40

Manuel Delgado-Baquerizo
Manuel Delgado-Baquerizo

H-Index: 45

Robert Jackson
Robert Jackson

H-Index: 4

Carbon Costs of Plant Nutrient Acquisition Improve Present-Day Carbon Cycle Estimates and Limit CO2 Fertilization Effect

EGU General Assembly Conference Abstracts

2023/5

Edward Brzostek
Edward Brzostek

H-Index: 25

Daniel Ricciuto
Daniel Ricciuto

H-Index: 12

Qing Zhu
Qing Zhu

H-Index: 13

Richard Phillips
Richard Phillips

H-Index: 25

Jing Liang
Jing Liang

H-Index: 6

Kabir Peay
Kabir Peay

H-Index: 40

Changing balance between dormancy and mortality determines the trajectory of ectomycorrhizal fungal spore longevity over a 15-yr burial experiment

New Phytologist

2023/4/1

Mycorrhizal nutrient acquisition strategies shape tree competition and coexistence dynamics

Journal of Ecology

2023/3

Climate change impacts on mycorrhizae amplify nitrogen limitation on global plant growth

Authorea Preprints

2022/11/30

Jingjing Liang
Jingjing Liang

H-Index: 1

Modified EMP ITS Illumina Amplicon Protocol

2022/11/21

Markus Bauer
Markus Bauer

H-Index: 1

Noah Fierer
Noah Fierer

H-Index: 103

Jack A Gilbert
Jack A Gilbert

H-Index: 81

Rob Knight
Rob Knight

H-Index: 178

Geoff Smith
Geoff Smith

H-Index: 20

Resilient consumers accelerate the plant decomposition in a naturally acidified seagrass ecosystem

Global Change Biology

2022/8

Marco Munari
Marco Munari

H-Index: 9

Kabir Peay
Kabir Peay

H-Index: 40

Fiorenza Micheli
Fiorenza Micheli

H-Index: 53

Transcriptional acclimation and spatial differentiation characterize drought response by the ectomycorrhizal fungus Suillus pungens

The New phytologist

2022/6

Rogerio Margis
Rogerio Margis

H-Index: 33

Nhu Nguyen
Nhu Nguyen

H-Index: 11

Hui-Ling Liao
Hui-Ling Liao

H-Index: 15

Rytas Vilgalys
Rytas Vilgalys

H-Index: 52

Does resource exchange in ectomycorrhizal symbiosis vary with competitive context and nitrogen addition?

New Phytologist

2022/2

Interactions with soil fungi alter density dependence and neighborhood effects in a locally abundant dipterocarp species

Ecology and Evolution

2022/1

Mycorrhizal distributions impact global patterns of carbon and nutrient cycling

Geophysical Research Letters

2021/10

Jingjing Liang
Jingjing Liang

H-Index: 1

Multiple distinct, scale‐dependent links between fungi and decomposition

Ecology Letters

2021/4/24

Gabriel Reuben Smith
Gabriel Reuben Smith

H-Index: 4

See List of Professors in Kabir Peay University(Stanford University)