CSIRO Publishing

Southern hemisphere botanical ecosystems

Shopping Cart: ( empty )

Articles citing this paper

Fungi and fire in Australian ecosystems: a review of current knowledge, management implications and future directions

Sapphire J. M. McMullan-Fisher ^A ^H , Tom W. May ^B , Richard M. Robinson ^C , Tina L. Bell ^D , Teresa Lebel ^B , Pam Catcheside ^E ^F and Alan York ^G

+ Author Affiliations

- Author Affiliations

^A School of Geography and Environmental Studies, Private Bag 78, Hobart, Tas. 7001, Australia.

^B Royal Botanic Gardens Melbourne, Private Bag 2000, Birdwood Avenue, South Yarra, Vic. 3141, Australia.

^C Department of Environment and Conservation, Brain Street, Manjimup, WA 6258, Australia.

^D Faculty of Agriculture, Food and Natural Resources, University of Sydney, Sydney, NSW 2006, Australia.

^E State Herbarium of South Australia, PO Box 2732, Kent Town, SA 5071, Australia.

^F School of Biological Sciences, Flinders University, PO Box 2100, Adelaide, SA 5001, Australia.

^G Department of Forest and Ecosystem Science, University of Melbourne, Water Street, Creswick, Vic. 3363, Australia.

^H Corresponding author. Email: sapphire@flyangler.com.au

Australian Journal of Botany 59(1) 70-90 https://doi.org/10.1071/BT10059
Submitted: 3 March 2010 Accepted: 7 December 2010 Published: 10 February 2011

60 articles found in Crossref database.

DWELLING IN THE DEAD ZONE—VERTEBRATE BURROWS IMMEDIATELY SUCCEEDING THE END-PERMIAN EXTINCTION EVENT IN AUSTRALIA

McLoughlin Stephen, Mays Chris, Vajda Vivi, Bocking Malcolm, Frank Tracy D., Fielding Christopher R.

PALAIOS. 2020 35(8). p.342

Drought legacy interacts with wildfire to alter soil microbial communities in a Mediterranean climate-type forest

Hopkins A.J.M., Brace A.J., Bruce J.L., Hyde J., Fontaine J.B., Walden L., Veber W., Ruthrof K.X.

Science of The Total Environment. 2024 915 p.170111

Systematic review of fungi, their diversity and role in ecosystem services from the Far Eastern Himalayan Landscape (FHL)

Fang Wei, Devkota Shiva, Arunachalam Karuppusamy, Phyo Khin Min Min, Shakya Bandana

Heliyon. 2023 9(1). p.e12756

Understorey structural complexity mediated by plantation management as a driver of predation events on potential eucalypt pests

Filloy Julieta, Oxbrough Anne, Oddi José A., Ramos Carolina S., Ribero Martín N., Santoandré Santiago, Vaccaro Anahí S.

Forest Ecology and Management. 2023 531 p.120799

Influence of wildfire on diversity of culturable soil microfungal communities in the Mount Carmel forest, Israel

Grishkan Isabella

Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology. 2016 150(1). p.1

Fire regime, not time-since-fire, affects soil fungal community diversity and composition in temperate grasslands

Egidi Eleonora, McMullan-Fisher Sapphire, Morgan John W., May Tom, Zeeman Ben, Franks Ashley E., Daniell Tim

FEMS Microbiology Letters. 2016 363(17). p.fnw196

Soil Microbial Community Responses After Amendment with Thermally Altered Pinus radiata Needles

Stirling Erinne, Macdonald Lynne M., Smernik Ronald J., Cavagnaro Timothy R.

Microbial Ecology. 2020 79(2). p.409

The impact of urban and forest fires on the airborne fungal spore aerobiology

Camacho Irene, Góis André, Camacho Roberto, Nóbrega Vítor, Fernandez

Aerobiologia. 2018 34(4). p.585

The occurrence of heat-resistant species of Trichophaea abundans in different types of soil in Slovakia and Czech Republic

Šimonovičová Alexandra, Nováková Alena, Pangallo Domenico, Hnátová Veronika, Hubka Vít

Biologia. 2014 69(2). p.168

Where are they hiding? Testing the body snatchers hypothesis in pyrophilous fungi

Raudabaugh Daniel B., Matheny P. Brandon, Hughes Karen W., Iturriaga Teresa, Sargent Malcolm, Miller Andrew N.

Fungal Ecology. 2020 43 p.100870

Biodiversity and Biomedicine (2020)

Hamzah Tuan Noraida Tuan, Ozturk Munir, Altay Volkan, Hakeem Khalid Rehman

Alliances in the Anthropocene (2020)

Eriksen Christine, Ballard Susan

The mycological social network a way forward for conservation of fungal biodiversity

Irga Peter J, Dominici Laura, Torpy Fraser R

Environmental Conservation. 2020 47(4). p.243

Soil environmental factors rather than denitrification gene abundance control N2O fluxes in a wet sclerophyll forest with different burning frequency

Liu Xian, Chen C.R., Wang W.J., Hughes J.M., Lewis Tom, Hou E.Q., Shen Jupei

Soil Biology and Biochemistry. 2013 57 p.292

Revision of pyrophilous taxa ofPholiotadescribed from North America reveals four species—P. brunnescens, P. castanea, P. highlandensis, andP. molesta

Matheny P. Brandon, Swenie Rachel A., Miller Andrew N., Petersen Ronald H., Hughes Karen W.

Mycologia. 2018 110(6). p.997

Mega‐fire in redwood tanoak forest reduces bacterial and fungal richness and selects for pyrophilous taxa that are phylogenetically conserved

Enright Dylan J., Frangioso Kerri M., Isobe Kazuo, Rizzo David M., Glassman Sydney I.

Molecular Ecology. 2022 31(8). p.2475

Impact of fire on the macrofungal diversity in scrub jungles of south-west India

Greeshma Ammatanda A., Sridhar Kandikere R., Pavithra Mundamoole, Ghate Sudeep D.

Mycology. 2016 7(1). p.15

Early fungal community succession following crown fire in Pinus mugo stands and surface fire in Pinus sylvestris stands

Motiejūnaitė Jurga, Adamonytė Gražina, Iršėnaitė Reda, Juzėnas Sigitas, Kasparavičius Jonas, Kutorga Ernestas, Markovskaja Svetlana

European Journal of Forest Research. 2014 133(4). p.745

Arbuscular-Mycorrhizal Networks Inhibit Eucalyptus tetrodonta Seedlings in Rain Forest Soil Microcosms

Janos David P., Scott John, Aristizábal Catalina, Bowman David M. J. S., Kytöviita Minna-Maarit

PLoS ONE. 2013 8(2). p.e57716

Mycorrhizal Fungi in South America (2022)

Salgado Salomón María Eugenia, Barroetaveña Carolina

Disturbance alters the forest soil microbiome

Bowd Elle J., Banks Sam C., Bissett Andrew, May Tom W., Lindenmayer David B.

Molecular Ecology. 2022 31(2). p.419

Pyrophilous fungi detected after wildfires in the Great Smoky Mountains National Park expand known species ranges and biodiversity estimates

Hughes Karen W., Matheny P. Brandon, Miller Andrew N., Petersen Ronald H., Iturriaga Teresa M., Johnson Kristine D., Methven Andrew S., Raudabaugh Daniel B., Swenie Rachel A., Bruns Thomas D.

Mycologia. 2020 112(4). p.677

Handbook for the Analysis of Micro-Particles in Archaeological Samples (2020)

Shumilovskikh Lyudmila S., van Geel Bas

Long term repeated fire disturbance alters soil bacterial diversity but not the abundance in an Australian wet sclerophyll forest

Shen Ju-pei, Chen C. R., Lewis Tom

Scientific Reports. 2016 6(1).

Does the presence of large down wood at the time of a forest fire impact soil recovery?

Smith Jane E., Kluber Laurel A., Jennings Tara N., McKay Donaraye, Brenner Greg, Sulzman Elizabeth W.

Forest Ecology and Management. 2017 391 p.52

An overview of the taxonomic groups of non-pollen palynomorphs

Shumilovskikh Lyudmila, O'Keefe Jennifer M. K., Marret Fabienne

Geological Society, London, Special Publications. 2021 511(1). p.13

Delving into the dark ecology: A continent-wide assessment of patterns of composition in soil fungal communities from Australian tussock grasslands

Egidi Eleonora, Wood Jennifer L., Celestina Corinne, May Tom W., Mele Pauline, Edwards Jacqueline, Powell Jeff, Bissett Andrew, Franks Ashley E.

Fungal Ecology. 2019 39 p.356

Distinct fungal successional trajectories following wildfire between soil horizons in a cold‐temperate forest

Yang Teng, Tedersoo Leho, Lin Xingwu, Fitzpatrick Matthew C., Jia Yunsheng, Liu Xu, Ni Yingying, Shi Yu, Lu Pengpeng, Zhu Jianguo, Chu Haiyan

New Phytologist. 2020 227(2). p.572

Large, high-severity burn patches limit fungal recovery 13 years after wildfire in a ponderosa pine forest

Owen Suzanne M., Patterson Adair M., Gehring Catherine A., Sieg Carolyn H., Baggett L. Scott, Fulé Peter Z.

Soil Biology and Biochemistry. 2019 139 p.107616

Fire as a driver of fungal diversity — A synthesis of current knowledge

Fox Sam, Sikes Benjamin A., Brown Shawn P., Cripps Cathy L., Glassman Sydney I., Hughes Karen, Semenova-Nelsen Tatiana, Jumpponen Ari

Mycologia. 2022 114(2). p.215

Seeking the needle in the haystack: Undetectability of mycorrhizal fungi outside of the plant rhizosphere associated with an endangered Australian orchid

Egidi Eleonora, May Tom W., Franks Ashley E.

Fungal Ecology. 2018 33 p.13

Evidence that pyrophilous fungi aggregate soil after forest fire

Filialuna Olivia, Cripps Cathy

Forest Ecology and Management. 2021 498 p.119579

Fire as a key driver of Earth's biodiversity

He Tianhua, Lamont Byron B., Pausas Juli G.

Biological Reviews. 2019 94(6). p.1983

Fungal community structure and seasonal trajectories respond similarly to fire across pyrophilic ecosystems

Hopkins Jacob R, Semenova-Nelsen Tatiana, Sikes Benjamin A

FEMS Microbiology Ecology. 2020 97(1).

Wildfire impact: Natural experiment reveals differential short-term changes in soil microbial communities

Prendergast-Miller Miranda T., de Menezes Alexandre B., Macdonald Lynne M., Toscas Peter, Bissett Andrew, Baker Geoff, Farrell Mark, Richardson Alan E., Wark Tim, Thrall Peter H.

Soil Biology and Biochemistry. 2017 109 p.1

Rapid bacterial and fungal successional dynamics in first year after chaparral wildfire

Pulido‐Chavez M. Fabiola, Randolph James W. J., Zalman Cassandra, Larios Loralee, Homyak Peter M., Glassman Sydney I.

Molecular Ecology. 2023 32(7). p.1685

Variation in the Outcomes of an Ant-Plant System: Fire and Leaf Fungus Infection Reduce Benefits to Plants with Extrafloral Nectaries

Pires L. P., Del-Claro K.

Journal of Insect Science. 2014 14(84). p.1

CrassisporiumandRomagnesiella: two new genera of dark-spored Agaricales

Matheny P. Brandon, Moreau Pierre-Arthur, Vizzini Alfredo, Harrower Emma, De Haan Andre, Contu Marco, Curti Mariano

Systematics and Biodiversity. 2015 13(1). p.28

An assessment of ectomycorrhizal fungal communities in Tasmanian temperate high-altitude Eucalyptus delegatensis forest reveals a dominance of the Cortinariaceae

Horton Bryony M., Glen Morag, Davidson Neil J., Ratkowsky David A., Close Dugald C., Wardlaw Tim J., Mohammed Caroline

Mycorrhiza. 2017 27(1). p.67

Structure and phylogenetic diversity of post-fire ectomycorrhizal communities of maritime pine

Rincón A., Santamaría B. P., Ocaña L., Verdú M.

Mycorrhiza. 2014 24(2). p.131

Long-term mowing and burning have more of an effect on soil fungal communities than on bacteria in a semiarid sandy land

Zhan Jin, Li Yulin, Yang Hongling, Ning Zhiying, Wang Lilong, Zhang Rui

Applied Soil Ecology. 2023 189 p.104855

Review on fire effects on ectomycorrhizal symbiosis, an unachieved work for a scalding topic

Taudière Adrien, Richard Franck, Carcaillet Christopher

Forest Ecology and Management. 2017 391 p.446

Biodiversity Monitoring Informs Forest Management in South-West Western Australia: Ten-Year Findings of Forestcheck

Wills Allan John, Robinson Richard, McCaw Lachlan

SSRN Electronic Journal . 2022

Austral Ark (2014)

Woinarski John C. Z., Burbidge Allan H., Comer Sarah, Harley Dan, Legge Sarah, Lindenmayer David B., Partridge Thalie B.

Observations on post-fire black morel ascocarp development in an Israeli burnt forest site and their preferred micro-sites

Masaphy Segula, Zabari Limor

Fungal Ecology. 2013 6(4). p.316

The impact of fire on soil-dwelling biota: A review

Certini Giacomo, Moya Daniel, Lucas-Borja Manuel Esteban, Mastrolonardo Giovanni

Forest Ecology and Management. 2021 488 p.118989

High-severity wildfire reduces richness and alters composition of ectomycorrhizal fungi in low-severity adapted ponderosa pine forests

Pulido-Chavez M. Fabiola, Alvarado Ernesto C., DeLuca Thomas H., Edmonds Robert L., Glassman Sydney I.

Forest Ecology and Management. 2021 485 p.118923

Continental risk assessment for understudied taxa post‐catastrophic wildfire indicates severe impacts on the Australian bee fauna

Dorey James B., Rebola Celina M., Davies Olivia K., Prendergast Kit S., Parslow Ben A., Hogendoorn Katja, Leijs Remko, Hearn Lucas R., Leitch Emrys J., O’Reilly Robert L., Marsh Jessica, Woinarski John C. Z., Caddy‐Retalic Stefan

Global Change Biology. 2021 27(24). p.6551

Limitations to Propagule Dispersal Will Constrain Postfire Recovery of Plants and Fungi in Western Coniferous Forests

Gill Nathan S, Turner Monica G, Brown Carissa D, Glassman Sydney I, Haire Sandra L, Hansen Winslow D, Pansing Elizabeth R, St Clair Samuel B, Tomback Diana F

BioScience. 2022 72(4). p.347

Eucalyptus obliqua seedling growth in organic vs. mineral soil horizons

Barry Karen M., Janos David P., Nichols Scott, Bowman David M. J. S.

Frontiers in Plant Science. 2015 6

Forestcheck: the response of epigeous macrofungi to silviculture in jarrah (Eucalyptus marginata) forest

Robinson Richard M., Williams Matthew R.

Australian Forestry. 2011 74(4). p.288

Wood charcoal analysis in tropical rainforest: a pilot study identifying firewood used at toxic nut processing sites in northeast Queensland, Australia

King Fleur, Dotte-Sarout Emilie

Vegetation History and Archaeobotany. 2019 28(2). p.163

Fire Severity Causes Temporal Changes in Ground-Dwelling Arthropod Assemblages of Patagonian Araucaria–Nothofagus Forests

Zúñiga Alfredo H., Rau Jaime R., Fierro Andrés, Vergara Pablo M., Encina-Montoya Francisco, Fuentes-Ramírez Andrés, Jaksic Fabian M.

Fire. 2022 5(5). p.168

Biodiversity monitoring informs forest management in south-west Western Australia: Ten-year findings of Forestcheck

Robinson Richard, McCaw Lachlan, Wills Allan

Forest Ecology and Management. 2023 529 p.120659

Fire shapes fungal guild diversity and composition through direct and indirect pathways

Greenwood Leanne, Nimmo Dale G., Egidi Eleonora, Price Jodi N., McIntosh Rachel, Frew Adam

Molecular Ecology. 2023 32(17). p.4921

How belowground interactions contribute to the coexistence of mycorrhizal and non-mycorrhizal species in severely phosphorus-impoverished hyperdiverse ecosystems

Lambers Hans, Albornoz Felipe, Kotula Lukasz, Laliberté Etienne, Ranathunge Kosala, Teste François P., Zemunik Graham

Plant and Soil. 2018 424(1-2). p.11

Consequences of fire and other prairie management treatments for macrofungi in the Pacific Northwest of the U. S. A.

Roy Bitty A., Hamman Sarah T., Soukup Hannah, Messinger Wes, Vandegrift Roo, Blount Keyyana, Giles Denise E.L., Kaye Thomas N.

Fungal Ecology. 2023 65 p.101279

Review: The History of Iran  Elton L. Daniel

Perry John R.

Journal of Islamic Studies. 2003 14(1). p.84

Context dependent fungal and bacterial soil community shifts in response to recent wildfires in the Southern Appalachian Mountains

Brown Shawn P., Veach Allison M., Horton Jonathan L., Ford Emerald, Jumpponen Ari, Baird Richard

Forest Ecology and Management. 2019 451 p.117520

Heavy livestock grazing negatively impacts a marsupial ecosystem engineer

Neilly H., Schwarzkopf L.

Journal of Zoology. 2018 305(1). p.35