View Item 

Show simple item record

The effect of natural disturbances on forest biodiversity: an ecological synthesis
dc.contributor.authorViljur, Mari-Liis
dc.contributor.authorAbella, Scott R.
dc.contributor.authorAdámek, Martin
dc.contributor.authorAlencar, Janderson Batista Rodrigues
dc.contributor.authorBarber, Nicholas A.
dc.contributor.authorBeudert, Burkhard
dc.contributor.authorBurkle, Laura A.
dc.contributor.authorCagnolo, Luciano
dc.contributor.authorCampos, Brent R.
dc.contributor.authorChao, Anne
dc.contributor.authorChergui, Brahim
dc.contributor.authorChoi, Chang-Yong
dc.contributor.authorCleary, Daniel F. R.
dc.contributor.authorDavis, Thomas Seth
dc.contributor.authorDechnik-Vázquez, Yanus A.
dc.contributor.authorDowning, William M.
dc.contributor.authorFuentes-Ramirez, Andrés
dc.contributor.authorGandhi, Kamal J. K.
dc.contributor.authorGehring, Catherine
dc.contributor.authorGeorgiev, Kostadin B.
dc.contributor.authorGimbutas, Mark
dc.contributor.authorGongalsky, Konstantin B.
dc.contributor.authorGorbunova, Anastasiya Y.
dc.contributor.authorGreenberg, Cathryn H.
dc.contributor.authorHylander, Kristoffer
dc.contributor.authorJules, Erik S.
dc.contributor.authorKorobushkin, Daniil I.
dc.contributor.authorKöster, Kajar
dc.contributor.authorKurth, Valerie
dc.contributor.authorLanham, Joseph Drew
dc.contributor.authorLazarina, Maria
dc.contributor.authorLeverkus, Alexandro B.
dc.contributor.authorLindenmayer, David
dc.contributor.authorMarra, Daniel Magnabosco
dc.contributor.authorMartín-Pinto, Pablo
dc.contributor.authorMeave, Jorge A.
dc.contributor.authorMoretti, Marco
dc.contributor.authorNam, Hyun-Young
dc.contributor.authorObrist, Martin K.
dc.contributor.authorPetanidou, Theodora
dc.contributor.authorPons, Pere
dc.contributor.authorPotts, Simon G.
dc.contributor.authorRapoport, Irina B.
dc.contributor.authorRhoades, Paul R.
dc.contributor.authorRichter, Clark
dc.contributor.authorSaifutdinov, Ruslan A.
dc.contributor.authorSanders, Nathan J.
dc.contributor.authorSantos, Xavier
dc.contributor.authorSteel, Zachary
dc.contributor.authorTavella, Julia
dc.contributor.authorWendenburg, Clara
dc.contributor.authorWermelinger, Beat
dc.contributor.authorZaitsev, Andrey S.
dc.contributor.authorThorn, Simon
dc.date.accessioned2022-09-26T16:04:22Z
dc.date.available2023-11-26 12:04:20en
dc.date.available2022-09-26T16:04:22Z
dc.date.issued2022-10
dc.identifier.citationViljur, Mari-Liis ; Abella, Scott R.; Adámek, Martin ; Alencar, Janderson Batista Rodrigues; Barber, Nicholas A.; Beudert, Burkhard; Burkle, Laura A.; Cagnolo, Luciano; Campos, Brent R.; Chao, Anne; Chergui, Brahim; Choi, Chang-Yong ; Cleary, Daniel F. R.; Davis, Thomas Seth; Dechnik-Vázquez, Yanus A. ; Downing, William M.; Fuentes-Ramirez, Andrés ; Gandhi, Kamal J. K.; Gehring, Catherine; Georgiev, Kostadin B.; Gimbutas, Mark; Gongalsky, Konstantin B.; Gorbunova, Anastasiya Y.; Greenberg, Cathryn H.; Hylander, Kristoffer; Jules, Erik S.; Korobushkin, Daniil I.; Köster, Kajar ; Kurth, Valerie; Lanham, Joseph Drew; Lazarina, Maria; Leverkus, Alexandro B.; Lindenmayer, David; Marra, Daniel Magnabosco; Martín‐pinto, Pablo ; Meave, Jorge A.; Moretti, Marco; Nam, Hyun‐young ; Obrist, Martin K.; Petanidou, Theodora; Pons, Pere; Potts, Simon G.; Rapoport, Irina B.; Rhoades, Paul R.; Richter, Clark; Saifutdinov, Ruslan A.; Sanders, Nathan J.; Santos, Xavier; Steel, Zachary; Tavella, Julia; Wendenburg, Clara; Wermelinger, Beat; Zaitsev, Andrey S.; Thorn, Simon (2022). "The effect of natural disturbances on forest biodiversity: an ecological synthesis." Biological Reviews 97(5): 1930-1947.
dc.identifier.issn1464-7931
dc.identifier.issn1469-185X
dc.identifier.urihttps://hdl.handle.net/2027.42/174825
dc.description.abstractDisturbances alter biodiversity via their specific characteristics, including severity and extent in the landscape, which act at different temporal and spatial scales. Biodiversity response to disturbance also depends on the community characteristics and habitat requirements of species. Untangling the mechanistic interplay of these factors has guided disturbance ecology for decades, generating mixed scientific evidence of biodiversity responses to disturbance. Understanding the impact of natural disturbances on biodiversity is increasingly important due to human- induced changes in natural disturbance regimes. In many areas, major natural forest disturbances, such as wildfires, windstorms, and insect outbreaks, are becoming more frequent, intense, severe, and widespread due to climate change and land- use change. Conversely, the suppression of natural disturbances threatens disturbance- dependent biota. Using a meta- analytic approach, we analysed a global data set (with most sampling concentrated in temperate and boreal secondary forests) of species assemblages of 26 taxonomic groups, including plants, animals, and fungi collected from forests affected by wildfires, windstorms, and insect outbreaks. The overall effect of natural disturbances on α- diversity did not differ significantly from zero, but some taxonomic groups responded positively to disturbance, while others tended to respond negatively. Disturbance was beneficial for taxonomic groups preferring conditions associated with open canopies (e.g. hymenopterans and hoverflies), whereas ground- dwelling groups and/or groups typically associated with shady conditions (e.g. epigeic lichens and mycorrhizal fungi) were more likely to be negatively impacted by disturbance. Across all taxonomic groups, the highest α- diversity in disturbed forest patches occurred under moderate disturbance severity, i.e. with approximately 55% of trees killed by disturbance. We further extended our meta- analysis by applying a unified diversity concept based on Hill numbers to estimate α- diversity changes in different taxonomic groups across a gradient of disturbance severity measured at the stand scale and incorporating other disturbance features. We found that disturbance severity negatively affected diversity for Hill number q =- 0 but not for q =- 1 and q =- 2, indicating that diversity- disturbance relationships are shaped by species relative abundances. Our synthesis of α- diversity was extended by a synthesis of disturbance- induced change in species assemblages, and revealed that disturbance changes the β- diversity of multiple taxonomic groups, including some groups that were not affected at the α- diversity level (birds and woody plants). Finally, we used mixed rarefaction/extrapolation to estimate biodiversity change as a function of the proportion of forests that were disturbed, i.e. the disturbance extent measured at the landscape scale. The comparison of intact and naturally disturbed forests revealed that both types of forests provide habitat for unique species assemblages, whereas species diversity in the mixture of disturbed and undisturbed forests peaked at intermediate values of disturbance extent in the simulated landscape. Hence, the relationship between α- diversity and disturbance severity in disturbed forest stands was strikingly similar to the relationship between species richness and disturbance extent in a landscape consisting of both disturbed and undisturbed forest habitats. This result suggests that both moderate disturbance severity and moderate disturbance extent support the highest levels of biodiversity in contemporary forest landscapes.
dc.publisherBlackwell Publishing Ltd
dc.publisherWiley Periodicals, Inc.
dc.subject.otherdisturbance extent
dc.subject.otherintermediate disturbance hypothesis
dc.subject.otherforest communities
dc.subject.otherα- diversity
dc.subject.otherβ- diversity
dc.subject.otherdiversity- disturbance relationship
dc.subject.otherdisturbance severity
dc.subject.othernatural disturbance
dc.titleThe effect of natural disturbances on forest biodiversity: an ecological synthesis
dc.typeArticle
dc.rights.robotsIndexNoFollow
dc.subject.hlbsecondlevelEcology and Evolutionary Biology
dc.subject.hlbtoplevelScience
dc.description.peerreviewedPeer Reviewed
dc.description.bitstreamurlhttp://deepblue.lib.umich.edu/bitstream/2027.42/174825/1/brv12876.pdf
dc.description.bitstreamurlhttp://deepblue.lib.umich.edu/bitstream/2027.42/174825/2/brv12876_am.pdf
dc.identifier.doi10.1111/brv.12876
dc.identifier.sourceBiological Reviews
dc.identifier.citedreferencePausas, J. G. ( 2019 ). Generalized fire response strategies in plants and animals. Oikos 128, 147 - 153.
dc.identifier.citedreference* Lazarina, M., Sgardelis, S. P., Tscheulin, T., Kallimanis, A. S., Devalez, J. & Petanidou, T. ( 2016 ). Bee response to fire regimes in Mediterranean pine forests: the role of nesting preference, trophic specialization, and body size. Basic and Applied Ecology 17, 308 - 320.
dc.identifier.citedreferenceLeverkus, A. B., Lindenmayer, D. B., Thorn, S. & Gustafsson, L. ( 2018 a ). Salvage logging in the world’s forests: interactions between natural disturbance and logging need recognition. Global Ecology and Biogeography 27, 1140 - 1154.
dc.identifier.citedreferenceLeverkus, A. B., Rey Benayas, J. M., Castro, J., Boucher, D., Brewer, S., Collins, B. M., Donato, D., Fraver, S., Kishchuk, B. E., Lee, E. J., Lindenmayer, D. B., Lingua, E., Macdonald, E., Marzano, R., Rhoades, C. C., et al. ( 2018 b ). Salvage logging effects on regulating and supporting ecosystem services- a systematic map. Canadian Journal of Forest Research 48, 983 - 1000.
dc.identifier.citedreference* Lindenmayer, D. B., McBurney, L., Blair, D., Wood, J. & Banks, S. C. ( 2018 ). From unburnt to salvage logged: quantifying bird responses to different levels of disturbance severity. Journal of Applied Ecology 55, 1626 - 1636.
dc.identifier.citedreferenceLindenmayer, D. B. & Taylor, C. ( 2020 ). New spatial analyses of Australian wildfires highlight the need for new fire, resource, and conservation policies. Proceedings of the National Academy of Sciences of the United States of America 117, 12481 - 12485.
dc.identifier.citedreferenceLindenmayer, D. B., Westgate, M. J., Scheele, B. C., Foster, C. N. & Blair, D. P. ( 2019 ). Key perspectives on early successional forests subject to stand- replacing disturbances. Forest Ecology and Management 454, 1 - 10.
dc.identifier.citedreferenceMackey, B., Lindenmayer, D., Norman, P., Taylor, C. & Gould, S. ( 2021 ). Are fire refugia less predictable due to climate change? Environmental Research Letters 16, 114028.
dc.identifier.citedreferenceMackey, R. L. & Currie, D. J. ( 2001 ). The diversity- disturbance relationship: is it generally strong and peaked? Ecology 82, 3479 - 3492.
dc.identifier.citedreferenceMartin, R. E. & Sapsis, D. B. ( 1992 ). Fires as agents of biodiversity: pyrodiversity promotes biodiversity. In Proceedings of the Symposium on Biodiversity of Northwestern California (eds R. C. Harris, D. C. Erman and H. M. Kerner ), pp. 150 - 157. Wildland Resources Center, University of California, Berkeley.
dc.identifier.citedreference* Martín- Pinto, P., Vaquerizo, H., Peñalver, F., Olaizola, J. & Oria- De- Rueda, J. A. ( 2006 ). Early effects of a wildfire on the diversity and production of fungal communities in Mediterranean vegetation types dominated by Cistus ladanifer and Pinus pinaster in Spain. Forest Ecology and Management 225, 296 - 305.
dc.identifier.citedreferenceMcArdle, B. H. & Anderson, M. J. ( 2001 ). Fitting multivariate models to community data: a comment on distance- based redundancy analysis. Ecology 82, 290 - 297.
dc.identifier.citedreference* Moretti, M. & Barbalat, S. ( 2004 ). The effects of wildfires on wood- eating beetles in deciduous forests on the southern slope of the Swiss Alps. Forest Ecology and Management 187, 85 - 103.
dc.identifier.citedreference* Moretti, M., Conedera, M., Duelli, P. & Edwards, P. J. ( 2002 ). The effects of wildfire on ground- active spiders in deciduous forests on the Swiss southern slope of the Alps. Journal of Applied Ecology 39, 321 - 336.
dc.identifier.citedreference* Moretti, M., De Bello, F., Roberts, S. P. M. & Potts, S. G. ( 2009 ). Taxonomical vs. functional responses of bee communities to fire in two contrasting climatic regions. Journal of Animal Ecology 78, 98 - 108.
dc.identifier.citedreference* Moretti, M., De Càceres, M., Pradella, C., Obrist, M. K., Legendre, P. & Duelli, P. ( 2010 ). Fire- induced taxonomic and functional changes in saproxylic beetle communities in fire sensitive regions. Ecography 33, 760 - 771.
dc.identifier.citedreferenceMoretti, M. & Legg, C. ( 2009 ). Combining plant and animal traits to assess community functional responses to disturbance. Ecography 32 ( 2 ), 299 - 309.
dc.identifier.citedreferenceMoretti, M., Obrist, M. K. & Duelli, P. ( 2004 ). Arthropod biodiversity after forest fires: winners and losers in the winter fire regime of the southern Alps. Ecography 27 ( 2 ), 173 - 186.
dc.identifier.citedreferenceNagel, T. A., Mikac, S., Dolinar, M., Klopcic, M., Keren, S., Svoboda, M., Diaci, J., Boncina, A. & Paulic, V. ( 2017 ). The natural disturbance regime in forests of the Dinaric Mountains: a synthesis of evidence. Forest Ecology and Management 388, 29 - 42.
dc.identifier.citedreferenceNelson, C. R., Halpern, C. B. & Agee, J. K. ( 2008 ). Thinning and burning result in low- level invasion by nonnative plants but neutral effects on natives. Ecological Applications 18, 762 - 770.
dc.identifier.citedreferenceOksanen, J., Blanchet, F. G., Friendly, M., Kindt, R., Legendre, P., Mcglinn, D., Minchin, P. R., O’hara, R. B., Simpson, G. L., Solymos, P., Stevens, M. H. H., Szoecs, E. & Wagner, H. ( 2019 ). Vegan: community ecology package. R package version 2.5- 6. Electronic file available at https://CRAN.R-project.org/package=vegan. Accessed August 01, 2020.
dc.identifier.citedreferenceOlson, D. M., Dinerstein, E., Wikramanayake, E. D., Burgess, N. D., Powell, G. V. N., Underwood, E. C., D’Amico, J. A., Itoua, I., Strand, H. E., Morrison, J. C., Loucks, C. J., Allnutt, T. F., Ricketts, T. H., Kura, Y., Lamoreux, J. F., et al. ( 2001 ). Terrestrial ecoregions of the world: a new map of life on Earth. Bioscience 51, 933 - 938.
dc.identifier.citedreference-   Page, M. J., McKenzie, J. E., Bossuyt, P. M., Boutron, I., Hoffmann, T. C., Mulrow, C. D., Shamseer, L., Tetzlaff, J. M., Akl, E. A., Brennan, S. E., Chou, R., Glanville, J., Grimshaw, J. M., Hróbjartsson, A., Lalu, M. M., et al. ( 2021 ). The PRISMA 2020 statement: an updated guideline for reporting systematic reviews. Research Methods & Reporting 372, n71.
dc.identifier.citedreferencePaquette, A. & Messier, C. ( 2011 ). The effect of biodiversity on tree productivity: from temperate to boreal forests. Global Ecology and Biogeography 20, 170 - 180.
dc.identifier.citedreference* Parro, K., Köster, K., Jõgiste, K. & Vodde, F. ( 2009 ). Vegetation dynamics in a fire damaged forest area: the response of major ground vegetation species. Baltic Forestry 15, 206 - 215.
dc.identifier.citedreferencePausas, J. G., Bradstock, R. A., Keith, D. A., Keeley, J. E. & the GCTE (Global Change Of Terrestrial Ecosystems) Fire Network ( 2004 ). Plant functional traits in relation to fire in crown- fire ecosystems. Ecology 84, 1085 - 1100.
dc.identifier.citedreferencePickett, S. T. A. & White, P. S. ( 1985 ). The Ecology of Natural Disturbance and Patch Dynamics. Academic Press, New York.
dc.identifier.citedreferencePonisio, L. C., Wilkin, K., M’gonigle, L. K., Kulhanek, K., Cook, L., Thorp, R., Griswold, T. & Kremen, C. ( 2016 ). Pyrodiversity begets plant- pollinator community diversity. Global Change Biology 22, 1794 - 1808.
dc.identifier.citedreference* Pons, P. & Wendenburg, C. ( 2005 ). The impact of fire and forest conversion into savanna on the bird communities of West Madagascan dry forests. Animal Conservation 8, 183 - 193.
dc.identifier.citedreference* Potts, S. G., Vulliamy, B., Dafni, A., Ne, G., Toole, C. O., Roberts, S. & Willmer, P. ( 2003 ). Response of plant- pollinator communities to fire: changes in diversity, abundance and floral reward. Oikos 101, 103 - 112.
dc.identifier.citedreferenceProctor, E., Nol, E., Burke, D. & Crins, W. J. ( 2012 ). Responses of insect pollinators and understory plants to silviculture in northern hardwood forests. Biodiversity and Conservation 21, 1703 - 1740.
dc.identifier.citedreferencePullin, A. S. & Stewart, G. B. ( 2006 ). Guidelines for systematic review in conservation and environmental management. Conservation Biology 20, 1647 - 1656.
dc.identifier.citedreferencePulsford, S. A., Lindenmayer, D. B. & Driscoll, D. A. ( 2016 ). A succession of theories: purging redundancy from disturbance theory. Biological Reviews 91, 148 - 167.
dc.identifier.citedreferenceR Core Team ( 2021 ). R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna. Electronic file available at https://www.R-project.org/. Accessed August 01, 2020.
dc.identifier.citedreferenceRamos- Fabiel, M. A., Pérez- García, E. A., González, E. J., Yáñez- Ordoñez, O. & Meave, J. A. ( 2018 ). Successional dynamics of the bee community in a tropical dry forest: insights from taxonomy and functional ecology. Biotropica 51, 62 - 74.
dc.identifier.citedreference* Ratchford, J. S., Wittman, S. E., Jules, E. S., Ellison, A. M., Gotelli, N. J. & Sanders, N. J. ( 2005 ). The effects of fire, local environment and time on ant assemblages in fens and forests. Diversity and Distributions 11, 487 - 497.
dc.identifier.citedreferenceReice, S. R., Wissmar, R. C. & Naiman, R. J. ( 1990 ). Disturbance regimes, resilience, and recovery of animal communities and habitats in lotic ecosystems. Environmental Management 14, 647 - 659.
dc.identifier.citedreferenceRhoades, P. R., Davis, T. S., Tinkham, W. T. & Hoffmann, C. M. ( 2018 ). Effects of seasonality, forest structure, and understory plant richness on bee community assemblage in a Southern Rocky Mountain mixed conifer forest. Annals of the Entomological Society of America 111, 278 - 284.
dc.identifier.citedreference* Richter, C., Rejmánek, M., Miller, J. E. D., Welch, K. R., Weeks, J. M. & Safford, H. ( 2019 ). The species diversity à fire severity relationship is hump- shaped in semiarid yellow pine and mixed conifer forests. Ecosphere 10, 1 - 16.
dc.identifier.citedreferenceRodríguez, A. & Kouki, J. ( 2017 ). Disturbance- mediated heterogeneity drives pollinator diversity in boreal managed forest ecosystems. Ecological Applications 27, 589 - 602.
dc.identifier.citedreferenceRubene, D., Schroeder, M. & Ranius, T. ( 2015 ). Diversity patterns of wild bees and wasps in managed boreal forests: effects of spatial structure, local habitat and surrounding landscape. Biological Conservation 184, 201 - 208.
dc.identifier.citedreference* Saifutdinov, R. A., Gongalsky, K. B. & Zaitsev, A. S. ( 2018 ). Evidence of a trait- specific response to burning in springtails (Hexapoda: Collembola) in the boreal forests of European Russia. Geoderma 332, 173 - 179.
dc.identifier.citedreference* Salo, K., Domisch, T. & Kouki, J. ( 2019 ). Forest wildfire and 12- years of post- disturbance succession of saprotrophic macrofungi (Basidiomycota, Ascomycota). Forest Ecology and Management 451, 117454.
dc.identifier.citedreference* Salo, K. & Kouki, J. ( 2018 ). Severity of forest wildfire had a major influence on early successional ectomycorrhizal macrofungi assemblages, including edible mushrooms. Forest Ecology and Management 415- 416, 70 - 84.
dc.identifier.citedreference* Schmalholz, M., Hylander, K. & Frego, K. ( 2011 ). Bryophyte species richness and composition in young forests regenerated after clear- cut logging versus after wildfire and spruce budworm outbreak. Biodiversity and Conservation 20, 2575 - 2596.
dc.identifier.citedreferenceSchulze, K., Malek, Z. & Verburg, P. H. ( 2019 ). Towards better mapping of forest management patterns: a global allocation approach. Forest Ecology and Management 432, 776 - 785.
dc.identifier.citedreferenceSeibold, S., Bässler, C., Brandl, R., Büche, B., Szallies, A., Thorn, S., Ulyshen, M. D. & Müller, J. ( 2016 ). Microclimate and habitat heterogeneity as the major drivers of beetle diversity in dead wood. Journal of Applied Ecology 53, 934 - 943.
dc.identifier.citedreferenceSeibold, S., Rammer, W., Hothorn, T., Seidl, R., Ulyshen, M. D., Lorz, J., Cadotte, M. W., Lindenmayer, D. B., Adhikari, Y. P., Aragón, R., Bae, S., Baldrian, P., Varandi, H. B. M., Barlow, J., Bässler, C., et al. ( 2021 ). The contribution of insects to global forest deadwood decomposition. Nature 597, 77 - 84.
dc.identifier.citedreferenceSeidl, R., Thom, D., Kautz, M., Martin- Benito, D., Peltoniemi, M., Vacchiano, G., Wild, J., Ascoli, D., Petr, M., Honkaniemi, J., Lexer, M. J., Trotsiuk, V., Mairota, P., Svoboda, M., Fabrika, M., et al. ( 2017 ). Forest disturbances under climate change. Nature Climate Change 7, 395 - 402.
dc.identifier.citedreferenceSenf, C., Mori, A. S., Müller, J. & Seidl, R. ( 2020 ). The response of canopy height diversity to natural disturbances in two temperate forest landscapes. Landscape Ecology 35, 2101 - 2112.
dc.identifier.citedreferenceSolar, R. R., Barlow, J., Ferreira, J., Berenguer, E., Lees, A. C., Thomson, J. R., Louzada, J., Maués, M., Moura, N. G., Oliveira, V. H. F., Chaul, J. C. M., Schroeder, J. H., Vieira, I. C. G., Mac Nally, R. & Gardner, T. A. ( 2015 ). How pervasive is biotic homogenization in human- modified tropical forest landscapes? Ecology Letters 18, 1108 - 1118.
dc.identifier.citedreferenceSommerfeld, A., Senf, C., Buma, B., D’Amato, A. W., Després, T., Díaz- Hormazábal, I., Fraver, S., Frelich, L. E., Gutiérrez, à . G., Hart, S. J., Harvey, B. J., He, H. S., Hlásny, T., Holz, A., Kitzberger, T., et al. ( 2018 ). Patterns and drivers of recent disturbances across the temperate forest biome. Nature Communications 9, 1 - 9.
dc.identifier.citedreference* Steel, Z. L., Campos, B., Frick, W. F., Burnett, R. & Safford, H. D. ( 2019 ). The effects of wildfire severity and pyrodiversity on bat occupancy and diversity in fire- suppressed forests. Scientific Reports 9, 1 - 11.
dc.identifier.citedreferenceSteel, Z. L., Collins, B. M., Sapsis, D. B. & Stephens, S. L. ( 2021 ). Quantifying pyrodiversity and its drivers. Proceedings of the Royal Society B 288, 20203202.
dc.identifier.citedreferenceStein, A., Gerstner, K. & Kreft, H. ( 2014 ). Environmental heterogeneity as a universal driver of species richness across taxa, biomes and spatial scales. Ecology Letters 17, 866 - 880.
dc.identifier.citedreference* Strand, E. K., Satterberg, K. L., Hudak, A. T., Byrne, J., Khalyani, A. H. & Smith, A. M. S. ( 2019 ). Does burn severity affect plant community diversity and composition in mixed conifer forests of the United States Intermountain West one decade post fire? Fire Ecology 15, 25.
dc.identifier.citedreferenceStueve, K. M., Hobie Perry, C. H., Nelson, M. D., Healey, S. P., Hill, A. D., Moisen, G. G., Cohen, W. B., Gormanson, D. D. & Huang, C. ( 2011 ). Ecological importance of intermediate windstorms rivals large, infrequent disturbances in the northern Great Lakes. Ecosphere 2, 1 - 21.
dc.identifier.citedreferenceSwanson, M. E., Franklin, J. F., Beschta, R. L., Crisafulli, C. M., Dellasala, D. A., Hutto, R. L., Lindenmayer, D. B. & Swanson, F. J. ( 2011 ). The forgotten stage of forest succession: early- successional ecosystems on forest sites. Frontiers in Ecology and the Environment 9, 117 - 125.
dc.identifier.citedreference* Tavella, J. & Cagnolo, L. ( 2019 ). Does fire disturbance affect ant community structure? Insights from spatial co- occurrence networks. Oecologia 189, 475 - 486.
dc.identifier.citedreferenceThom, D. & Seidl, R. ( 2015 ). Natural disturbance impacts on ecosystem services and biodiversity in temperate and boreal forests. Biological Reviews 91, 760 - 781.
dc.identifier.citedreferenceThorn, S., Chao, A., Bernhardt- Römermann, M., Chen, Y.- H., Georgiev, K. B., Heibl, C., Müller, J., Schäfer, H. & Bässler, C. ( 2020 a ). Rare species, functional groups, and evolutionary lineages drive successional trajectories in disturbed forests. Ecology 101, e02949.
dc.identifier.citedreferenceThorn, S., Chao, A., Georgiev, K. B., Müller, J., Bässler, C., Campbell, J. L., Castro, J., Chen, Y. H., Choi, C. Y., Cobb, T. P., Donato, D. C., Durska, E., Macdonald, E., Feldhaar, H., Fontaine, J. B., et al. ( 2020 b ). Estimating retention benchmarks for salvage logging to protect biodiversity. Nature Communications 11, 1 - 8.
dc.identifier.citedreference* Thorn, S., Hacker, H. H., Seibold, S., Jehl, H., Bässler, C. & Müller, J. ( 2015 ). Guild- specific responses of forest Lepidoptera highlight conservation- oriented forest management- implications from conifer- dominated forests. Forest Ecology and Management 337, 41 - 47.
dc.identifier.citedreference* Thorn, S., Werner, S. A. B., Wohlfahrt, J., Bässler, C., Seibold, S., Quillfeldt, P. & Müller, J. ( 2016 ). Response of bird assemblages to windstorm and salvage logging- insights from analyses of functional guild and indicator species. Ecological Indicators 65, 142 - 148.
dc.identifier.citedreference* Trucchi, E., Pitzalis, M., Zapparoli, M. & Bologna, A. M. ( 2009 ). Short- term effects of canopy and surface fire on centipede (Chilopoda) communities in a semi natural Mediterranean forest. Entomologica Fennica 20, 129 - 138.
dc.identifier.citedreferenceTurner, M. G., Hargrove, W. W., Gardner, R. H. & Romme, W. H. ( 1994 ). Effects of fire on landscape heterogeneity in Yellowstone National Park, Wyoming. Journal of Vegetation Science 5, 731 - 742.
dc.identifier.citedreferenceViechtbauer, W. ( 2010 ). Conducting meta- analyses in R with the metafor package. Journal of Statistical Software 36, 1 - 48.
dc.identifier.citedreference-   Vieira, S., Trumbore, S., Camargo, P. B., Selhorst, D., Chambers, J. Q., Higuchi, N. & Martinelli, L. A. ( 2005 ). Slow growth rates of Amazonian trees: consequences for carbon cycling. Proceedings of the National Academy of Sciences of the United States of America 102, 18502 - 18507.
dc.identifier.citedreferenceWatson, J. E. M., Evans, T., Venter, O., Williams, B., Tulloch, A., Stewart, C., Thompson, I., Ray, J. C., Murray, K., Salazar, A., McAlpine, C., Potapov, P., Walston, J., Robinson, J. G., Painter, M., et al. ( 2018 ). The exceptional value of intact forest ecosystems. Nature Ecology and Evolution 2, 599 - 610.
dc.identifier.citedreference* Wermelinger, B., Moretti, M., Duelli, P., Lachat, T. G. B. & Obrist, M. K. ( 2017 ). Impact of windthrow and salvage- logging on taxonomic and functional diversity of forest arthropods. Forest Ecology and Management 391, 9 - 18.
dc.identifier.citedreferenceWernberg, T., Couraudon- réale, M., Tuya, F. & Thomsen, M. ( 2020 ). Disturbance intensity, disturbance extent and ocean climate modulate kelp forest understory communities. Marine Ecology Progress Series 651, 57 - 69.
dc.identifier.citedreferenceWhittaker, R. H. ( 1960 ). Vegetation of the Siskiyou mountains, Oregon and California. Ecological Monographs 30, 279 - 338.
dc.identifier.citedreferenceWhittaker, R. H. ( 1972 ). Evolution and measurement of species diversity. Taxon 21, 213 - 251.
dc.identifier.citedreferenceWood, S. N., Pya, N. & Saefken, B. ( 2016 ). Smoothing parameter and model selection for general smooth models (with discussion). Journal of the American Statistical Association 111, 1548 - 1575.
dc.identifier.citedreferenceWootton, J. T. ( 1998 ). Effects of disturbance on species diversity: a multitrophic perspective. The American Naturalist 152, 803 - 825.
dc.identifier.citedreferenceYeboah, D. & Chen, H. Y. H. ( 2016 ). Diversity- disturbance relationship in forest landscapes. Landscape Ecology 31, 981 - 987.
dc.identifier.citedreference* Zaitsev, A. S., Gongalsky, K. B., Persson, T. & Bengtsson, J. ( 2014 ). Connectivity of litter islands remaining after a fire and unburnt forest determines the recovery of soil fauna. Applied Soil Ecology 83, 101 - 108.
dc.identifier.citedreferenceZhang, J., Kissling, W. D. & He, F. ( 2013 ). Local forest structure, climate and human disturbance determine regional distribution of boreal bird species richness in Alberta, Canada. Journal of Biogeography 40, 1131 - 1142.
dc.identifier.citedreference* Abella, S. R. & Fornwalt, P. J. ( 2015 ). Ten years of vegetation assembly after a North American mega fire. Global Change Biology 21, 789 - 802.
dc.identifier.citedreference* Adámek, M., Hadincová, V. & Wild, J. ( 2016 ). Long- term effect of wildfires on temperate Pinus sylvestris forests: vegetation dynamics and ecosystem resilience. Forest Ecology and Management 380, 285 - 295.
dc.identifier.citedreference* Alencar, J. B. R., Da Fonseca, C. R. V., Marra, D. M. & Baccaro, F. B. ( 2021 ). Windthrows promote higher diversity of saproxylic beetles (Coleoptera: Passalidae) in a Central Amazon forest. Insect Conservation and Diversity 15, 1 - 8.
dc.identifier.citedreferenceAlencar, A. A. C., Solorzano, L. A. & Nepstad, D. C. ( 2004 ). Modeling forest understory fires in an eastern Amazonian landscape. Ecological Applications 14, S139 - S149.
dc.identifier.citedreferenceAnderson, M. J. ( 2017 ). Permutational multivariate analysis of variance (PERMANOVA). In Wiley StatsRef: Statistics Reference Online (eds N. B alakrishnan, T. C olton, B. E veritt, W. P iegorsch, F. R uggeri and J. L. T eugels ). https://doi.org/10.1002/9781118445112.stat07841.
dc.identifier.citedreferenceBanks, S. C., Mcburney, L., Blair, D., Davies, I. D. & Lindenmayer, D. B. ( 2017 ). Where do animals come from during post- fire population recovery? Implications for ecological and genetic patterns in post- fire landscapes. Ecography 40, 1325 - 1338.
dc.identifier.citedreference* Barber, N. A. & Widick, W. L. ( 2017 ). Localized effects of tornado damage on ground beetle communities and vegetation in a forested preserve. Natural Areas Journal 37, 489 - 496.
dc.identifier.citedreferenceBates, D., Maechler, M., Bolker, B. & Walker, S. ( 2015 ). Fitting linear mixed- effects models using lme4. Journal of Statistical Software 67, 1 - 48.
dc.identifier.citedreferenceBell, G., Lechowicz, M. J. & Waterway, M. J. ( 2000 ). Environmental heterogeneity and species diversity of forest sedges. Journal of Ecology 88, 67 - 87.
dc.identifier.citedreference* Beudert, B., Bässler, C., Thorn, S., Noss, R., Schröder, B., Dieffenbach- Fries, H., Foullois, N. & Müller, J. ( 2015 ). Bark beetles increase biodiversity while maintaining drinking water quality. Conservation Letters 8, 272 - 281.
dc.identifier.citedreferenceBongers, F., Poorter, L., Hawthorne, W. D. & Sheil, D. ( 2009 ). The intermediate disturbance hypothesis applies to tropical forests, but disturbance contributes little to tree diversity. Ecology Letters 12, 798 - 805.
dc.identifier.citedreference* Bowd, E. J., Lindenmayer, D. B., Banks, S. C. & Blair, D. P. ( 2018 ). Logging and fire regimes alter plant communities. Ecological Applications 28, 826 - 841.
dc.identifier.citedreference* Burkle, L. A., Myers, J. A., Belote, R. T. & Peters, D. P. C. ( 2015 ). Wildfire disturbance and productivity as drivers of plant species diversity across spatial scales. Ecosphere 6, 1 - 14.
dc.identifier.citedreferenceÄ ada, V., Trotsiuk, V., Janda, P., Mikoláš, M., BaÄ e, R., Nagel, T. A., Morrissey, R. C., Tepley, A. J., Vostarek, O., BegoviÄ , K., Chaskovskyy, O., Dušátko, M., Kameniar, O., Kozák, D., Lábusová, J., et al. ( 2020 ). Quantifying natural disturbances using a large- scale dendrochronological reconstruction to guide forest management. Ecological Applications 30, 1 - 13.
dc.identifier.citedreferenceCarbone, L. M., Tavella, J., Pausas, J. G. & Aguilar, R. ( 2019 ). A global synthesis of fire effects on pollinators. Global Ecology and Biogeography 28, 1487 - 1498.
dc.identifier.citedreference-   Chambers, J. Q., Higuchi, N. & Schimel, J. P. ( 1998 ). Ancient trees in Amazonia. Nature 391, 135 - 136.
dc.identifier.citedreferenceChao, A., Colwell, R. K., Gotelli, N. J. & Thorn, S. ( 2019 ). Proportional mixture of two rarefaction/extrapolation curves to forecast biodiversity changes under landscape transformation. Ecology Letters 22, 1913 - 1922.
dc.identifier.citedreferenceChao, A., Gotelli, N. J., Hsieh, T. C., Sander, E. L., Ma, K. H., Colwell, R. K. & Ellison, A. M. ( 2014 ). Rarefaction and extrapolation with Hill numbers: a framework for sampling and estimation in species diversity studies. Ecological Monographs 84, 45 - 67.
dc.identifier.citedreferenceChao, A., Kubota, Y., Zelený, D., Chiu, C.- H., Li, C.- F., Kusumoto, B., Yasuhara, M., Thorn, S., Wei, C.- L., Costello, M. J. & Colwell, R. K. ( 2020 ). Quantifying sample completeness and comparing diversities among assemblages. Ecological Research 35, 292 - 314.
dc.identifier.citedreferenceChase, J. M. & Myers, J. A. ( 2011 ). Disentangling the importance of ecological niches from stochastic processes across scales. Philosophical Transactions of the Royal Society B 366, 2351 - 2363.
dc.identifier.citedreference* Chergui, B., Fahd, S. & Santos, X. ( 2019 ). Are reptile responses to fire shaped by forest type and vegetation structure? Insights from the Mediterranean basin. Forest Ecology and Management 437, 340 - 347.
dc.identifier.citedreferenceChesson, P. & Huntly, N. ( 1997 ). The roles of harsh and fluctuating conditions in the dynamics of ecological communities. The American Naturalist 150, 519 - 553.
dc.identifier.citedreference* Choi, C. Y., Lee, E. J., Nam, H. Y., Lee, W. S. & Lim, J. H. ( 2014 ). Temporal changes in the breeding bird community caused by post- fire treatments after the Samcheok forest fire in Korea. Landscape and Ecological Engineering 10, 203 - 214.
dc.identifier.citedreference* Cleary, D. F. R. & Mooers, A. ( 2006 ). Burning and logging differentially affect endemic vs. widely distributed butterfly species in Borneo. Diversity and Distributions 12, 409 - 416.
dc.identifier.citedreferenceClements, F. E. ( 1916 ). Plant Succession: An Analysis of the Development of Vegetation. Carnegie Institute of Washington, Washington, DC.
dc.identifier.citedreferenceCollins, L., Bradstock, R. A., Clarke, H., Clarke, M. F., Nolan, R. H. & Penman, T. D. ( 2021 ). The 2019/2020 mega- fires exposed Australian ecosystems to an unprecedented extent of high- severity fire. Environmental Research Letters 16, 1 - 14.
dc.identifier.citedreferenceConnell, J. H. ( 1978 ). Diversity in tropical rain forests and coral reefs. Science 199, 1302 - 1310.
dc.identifier.citedreference* Ä uchta, P., Miklisová, D. & KovÃ¡Ä , Ľ. ( 2019 ). The succession of soil Collembola communities in spruce forests of the High Tatra Mountains five years after a windthrow and clear- cut logging. Forest Ecology and Management 433, 504 - 513.
dc.identifier.citedreferenceCumming, S. G. ( 2005 ). Effective fire suppression in boreal forests. Canadian Journal of Forest Research 35, 772 - 786.
dc.identifier.citedreference* Davis, T. S., Rhoades, P. R., Mann, A. J. & Griswold, T. ( 2020 ). Bark beetle outbreak enhances biodiversity and foraging habitat of native bees in alpine landscapes of the southern Rocky Mountains. Scientific Reports 10, 1 - 14.
dc.identifier.citedreference* Dechnik- Vázquez, Y. A., Meave, J. A., Pérez- García, E. A., Gallardo- Cruz, J. A. & Romero- Romero, M. A. ( 2016 ). The effect of treefall gaps on the understorey structure and composition of the tropical dry forest of Nizanda, Oaxaca, Mexico: implications for forest regeneration. Journal of Tropical Ecology 32, 89 - 106.
dc.identifier.citedreference* Dodds, K. J., DiGirolomo, M. F. & Fraver, S. ( 2019 ). Response of bark beetles and woodborers to tornado damage and subsequent salvage logging in northern coniferous forests of Maine, USA. Forest Ecology and Management 450, 1 - 14.
dc.identifier.citedreferenceDonato, D. C., Campbell, J. L. & Franklin, J. F. ( 2012 ). Multiple successional pathways and precocity in forest development: can some forests be born complex? Journal of Vegetation Science 23, 576 - 584.
dc.identifier.citedreference* Downing, W. M., Krawchuk, M. A., Coop, J. D., Meigs, G. W., Haire, S. L., Walker, R. B., Whitman, E., Chong, G., Miller, C. & Tortorelli, C. ( 2020 ). How do plant communities differ between fire refugia and fire- generated early- seral vegetation? Journal of Vegetation Science 31, 26 - 39.
dc.identifier.citedreference* Duelli, P., Obrist, M. K. & Wermelinger, B. ( 2002 ). Windthrow- induced changes in faunistic biodiversity in alpine spruce forests. Forest Snow and Landscape Research 77, 117 - 131.
dc.identifier.citedreferenceFahrig, L. ( 2020 ). Why do several small patches hold more species than few large patches? Global Ecology and Biogeography 29, 615 - 628.
dc.identifier.citedreferenceFox, J. W. ( 2013 ). The intermediate disturbance hypothesis should be abandoned. Trends in Ecology and Evolution 28, 86 - 92.
dc.identifier.citedreferenceFranco- Manchón, I., Salo, K., Oria- De- Rueda, J. A., Bonet, J. A. & Martín- Pinto, P. ( 2019 ). Are wildfires a threat to fungi in European Pinus forests? A case study of boreal and Mediterranean forests. Forests 10, 1 - 12.
dc.identifier.citedreferenceFranklin, J. F., Lindenmayer, D. B., MacMahon, J. A., McKee, A., Magnuson, J., Perry, D. A., Waide, R. & Foster, D. ( 2000 ). Threads of continuity. Conservation Biology 1, 8 - 17.
dc.identifier.citedreference* Fuentes- Ramírez, A., Salas- Eljatib, C., Gonzáles, M. E., Urrutia- Estrada, J., Arroyo- Vargas, P. & Santibanez, P. ( 2020 ). Initial response of understorey vegetation and tree regeneration to a mixed- severity fire in old- growth Araucaria- Nothofagus forests. Applied Vegetation Science 23, 210 - 222.
dc.identifier.citedreferenceGamfeldt, L., Snäll, T., Bagchi, R., Jonsson, M., Gustafsson, L., Kjellander, P., Ruiz- Jaen, M. C., Fröberg, M., Stendahl, J., Philipson, C. D., MikusiŠski, G., Andersson, E., Westerlund, B., Andrén, H., Moberg, F., et al. ( 2013 ). Higher levels of multiple ecosystem services are found in forests with more tree species. Nature Communications 4, 1 - 8.
dc.identifier.citedreference* Gandhi, K. J. K., Gilmore, D. W., Katovich, S. A., Mattson, W. J., Zasada, J. C. & Seybold, S. J. ( 2008 ). Catastrophic windstorm and fuel- reduction treatments alter ground beetle (Coleoptera: Carabidae) assemblages in a North American sub- boreal forest. Forest Ecology and Management 256, 1104 - 1123.
dc.identifier.citedreference* Georgiev, K., Beudert, B., Bässler, C., Feldhaar, H., Heibl, C., Karasch, P., Müller, J., Perlík, M., Weiss, I. & Thorn, S. ( 2021 ). Forest disturbance and salvage logging have neutral long- term effects on drinking water quality but alter biodiversity. Forest Ecology and Management 495, 119354.
dc.identifier.citedreferenceGeorgiev, K. B., Chao, A., Castro, J., Chen, Y.- H., Choi, C.- Y., Fontaine, J. B., Hutto, R. L., Lee, E.- J., Müller, J., Rost, J., Żmihorski, M. & Thorn, S. ( 2020 ). Salvage logging changes the taxonomic, phylogenetic and functional trajectories of forest bird communities. Journal of Applied Ecology 57, 1103 - 1112.
dc.identifier.citedreference* Gongalsky, K. B., Zaitsev, A. S., Korobushkin, D. I., Saifutdinov, R. A., Butenko, K. O., De Vries, F. T., Ekschmitt, K., Degtyarev, M. I., Gorbunova, A. Y., Kostina, N. V., Rakhleeva, A. A., Shakhab, S. V., Yazrikova, T. E. Wolters, V. & Bardgett, R. D. ( 2021 ). Forest fire induces short- term shifts in soil food webs with consequences for carbon cycling. Ecology Letters 24, 438 - 450.
dc.identifier.citedreference* Greenberg, C. H. ( 2001 ). Response of reptile and amphibian communities to canopy gaps created by wind disturbance in the southern Appalachians. Forest Ecology and Management 148, 135 - 144.
dc.identifier.citedreference* Greenberg, C. H. & Lanham, J. D. ( 2001 ). Breeding bird assemblages of hurricane- created gaps and adjacent closed canopy forest in the southern Appalachians. Forest Ecology and Management 154, 251 - 260.
dc.identifier.citedreference* Greenberg, C. H. & Miller, S. ( 2004 ). Soricid response to canopy gaps created by wind disturbance in the southern Appalachians. Southeastern Naturalist 3, 715 - 732.
dc.identifier.citedreferenceGrime, J. P. ( 1973 ). Competitive exclusion in herbaceous vegetation. Nature 242, 344 - 347.
dc.identifier.citedreferenceGu, Y., Liu, H., Traoré, D. D. & Huang, C. ( 2020 ). ENSO- related droughts and ISM variations during the last millennium in tropical Southwest China. Climate Dynamics 54, 649 - 659.
dc.identifier.citedreferenceHalme, P., Toivanen, T., Honkanen, M., Kotiaho, J. S., Mönkkönen, M. & Timonen, J. ( 2010 ). Flawed meta- analysis of biodiversity effects of forest management. Conservation Biology 24, 1154 - 1156.
dc.identifier.citedreferenceHastings, A. ( 1989 ). Disturbance, coexistence, history, and competition for space. Theoretical Population Biology 18, 363 - 373.
dc.identifier.citedreferenceHedges, L. V., Gurevitch, J. & Curtis, P. S. ( 1999 ). The meta- analysis of response ratios in experimental ecology. Ecology 80, 1150 - 1156.
dc.identifier.citedreferenceHedwall, P.- O. & MikusiÅ ski, G. ( 2016 ). Sprucification in protected forests: myth or veracity? Clues from 60 yrs survey data. Applied Vegetation Science 19, 317 - 380.
dc.identifier.citedreferenceHill, M. O. ( 1973 ). Diversity and evenness: a unifying notation and its consequences. Ecology 54, 427 - 432.
dc.identifier.citedreferenceHill, S. L. L., Arnell, A., Maney, C., Butchart, S. H. M., Hilton- Taylor, C., Ciciarelli, C., Davis, C., Dinerstein, E., Purvis, A. & Burgess, N. D. ( 2019 ). Measuring forest biodiversity status and changes globally. Frontiers in Forests and Global Change 2, 1 - 11.
dc.identifier.citedreferenceHilmers, T., Friess, N., Bässler, C., Heurich, M., Brandl, R., Pretzsch, H., Seidl, R. & Müller, J. ( 2018 ). Biodiversity along temperate forest succession. Journal of Applied Ecology 55, 2756 - 2766.
dc.identifier.citedreferenceHsieh, T. C., Ma, K. H. & Chao, A. ( 2016 ). iNEXT: an R package for rarefaction and extrapolation of species diversity (Hill numbers). Methods in Ecology and Evolution 7, 1451 - 1456.
dc.identifier.citedreferenceHurlbert, S. H. ( 1984 ). Pseudoreplication and the design of ecological field experiments. Ecological Monographs 54, 187 - 211.
dc.identifier.citedreference* Hylander, K. ( 2011 ). The response of land snail assemblages below aspens to forest fire and clear- cutting in Fennoscandian boreal forests. Forest Ecology and Management 261, 1811 - 1819.
dc.identifier.citedreferenceJones, G. M. & Tingley, M. W. ( 2021 ). Pyrodiversity and biodiversity: a history, synthesis and outlook. Diversity and Distributions 28, 386- 403. https://doi.org/10.1111/ddi.13280.
dc.identifier.citedreferenceKeeley, J. E. ( 2009 ). Fire intensity, fire severity and burn severity: a brief review and suggested usage. International Journal of Wildland Fire 18, 116 - 126.
dc.identifier.citedreferenceKing, W. ( 1685 ). On the bogs and loughs of Ireland. Philosophical Transactions of the Royal Society of London 15, 948 - 960.
dc.identifier.citedreferenceKomonen, A. ( 2001 ). Structure of insect communities inhabiting old- growth forest specialist bracket fungi. Ecological Entomology 26, 63 - 75.
dc.identifier.citedreferenceKortmann, M., Müller, J. C., Baier, R., Bässler, C., Buse, J., CholewiŠska, O., Förschler, M. I., Georgiev, K. B., HilszczaŠski, J., Jaroszewicz, B., Jaworski, T., Kaufmann, S., Kuijper, D., Lorz, J., Lotz, A., et al. ( 2021 ). Ecology versus society: impacts of bark beetle infestations on biodiversity and restorativeness in protected areas of Central Europe. Biological Conservation 254, 2 - 9.
dc.identifier.citedreference* Krno, I., Lánczos, T. & Šporka, F. ( 2015 ). Windstorm disturbance effects on mountain stream ecosystems and the Plecoptera assemblages. Biologia (Poland) 70, 1215 - 1227.
dc.identifier.citedreference* Kurth, V. J., Fransioli, N., Fulé, P. Z., Hart, S. C. & Gehring, C. A. ( 2013 ). Stand- replacing wildfires alter the community structure of wood- inhabiting fungi in southwestern ponderosa pine forests of the USA. Fungal Ecology 6, 192 - 204.
dc.identifier.citedreferenceLajeunesse, M. J. ( 2011 ). On the meta- analysis of response ratios for studies with correlated and multi- group designs. Ecology 92, 2049 - 2055.
dc.identifier.citedreferenceLazarina, M., Devalez, J., Neokosmidis, L., Sgardelis, S. P., Kallimanis, A. S., Tscheulin, T., Tsalkatis, P., Kourtidou, M., Mizerakis, V., Nakas, G., Palaiologou, P., Kalabokidis, K., Vujic, A. & Petanidou, T. ( 2019 ). Moderate fire severity is best for the diversity of most of the pollinator guilds in Mediterranean pine forest. Ecology 100, e02615.
dc.identifier.citedreference* Lazarina, M., Sgardelis, S. P., Tscheulin, T., Devalez, J., Mizerakis, V., Kallimanis, A. S., Papakonstantinou, S., Kyriazis, T. & Petanidou, T. ( 2017 ). The effect of fire history in shaping diversity patterns of flower- visiting insects in post- fire Mediterranean pine forests. Biodiversity and Conservation 26, 115 - 131.
dc.working.doiNOen
dc.owningcollnameInterdisciplinary and Peer-Reviewed


Files in this item

Name:
brv12876.pdf
Size:
2.483MB
Format:
PDF
View/Open
Name:
brv12876_am.pdf
Size:
2.923MB
Format:
PDF
View/Open

Show simple item record

Remediation of Harmful Language

The University of Michigan Library aims to describe library materials in a way that respects the people and communities who create, use, and are represented in our collections. Report harmful or offensive language in catalog records, finding aids, or elsewhere in our collections anonymously through our metadata feedback form. More information at Remediation of Harmful Language.

Accessibility

If you are unable to use this file in its current format, please select the Contact Us link and we can modify it to make it more accessible to you.