| FERENCIK, Matej, Marek SVITOK, Martin MIKOLAS, Jenyk HOFMEISTER, Linda MAJDANOVA, Ondrej VOSTAREK, Daniel KOZAK, Radek BACE, Kresimir BEGOVIC, Jan BEFAK, Vojtech CADA, Martin DUSATKO, Daniel DVOŘÁK, Michal FRANKOVIC, Rhiannon GLOOR, Pavel JANDA, Ondrej KAMENIAR, Martin KRIZ, Vladimir KUNCA, Katarina MARKULJAKOVA, Dheeraj RALHAN, Ruffy RODRIGO, Milos RYDVAL, Jakob PAVLIN, Vaclav POUSKA, Michal SYNEK, Veronika ZEMLEROVA a Miroslav SVOBODA. Spatial and temporal extents of natural disturbances differentiate deadwood-inhabiting fungal communities in spruce primary forest ecosystems. Forest Ecology and Management. Amsterdam: Elsevier, 2022, roč. 517, August, s. "120272", 10 s. ISSN 0378-1127. Dostupné z: https://dx.doi.org/10.1016/j.foreco.2022.120272. |
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@article{2245471,
author = {Ferencik, Matej and Svitok, Marek and Mikolas, Martin and Hofmeister, Jenyk and Majdanova, Linda and Vostarek, Ondrej and Kozak, Daniel and Bace, Radek and Begovic, Kresimir and Befak, Jan and Cada, Vojtech and Dusatko, Martin and Dvořák, Daniel and Frankovic, Michal and Gloor, Rhiannon and Janda, Pavel and Kameniar, Ondrej and Kriz, Martin and Kunca, Vladimir and Markuljakova, Katarina and Ralhan, Dheeraj and Rodrigo, Ruffy and Rydval, Milos and Pavlin, Jakob and Pouska, Vaclav and Synek, Michal and Zemlerova, Veronika and Svoboda, Miroslav},
article_location = {Amsterdam},
article_number = {August},
doi = {http://dx.doi.org/10.1016/j.foreco.2022.120272},
keywords = {Old-growth forest; Saproxylic fungi; Carpathians; Natural disturbance regimes; Biodiversity; Dendrochronology; Forest structure},
language = {eng},
issn = {0378-1127},
journal = {Forest Ecology and Management},
title = {Spatial and temporal extents of natural disturbances differentiate deadwood-inhabiting fungal communities in spruce primary forest ecosystems},
url = {https://doi.org/10.1016/j.foreco.2022.120272},
volume = {517},
year = {2022}
}
TY - JOUR
ID - 2245471
AU - Ferencik, Matej - Svitok, Marek - Mikolas, Martin - Hofmeister, Jenyk - Majdanova, Linda - Vostarek, Ondrej - Kozak, Daniel - Bace, Radek - Begovic, Kresimir - Befak, Jan - Cada, Vojtech - Dusatko, Martin - Dvořák, Daniel - Frankovic, Michal - Gloor, Rhiannon - Janda, Pavel - Kameniar, Ondrej - Kriz, Martin - Kunca, Vladimir - Markuljakova, Katarina - Ralhan, Dheeraj - Rodrigo, Ruffy - Rydval, Milos - Pavlin, Jakob - Pouska, Vaclav - Synek, Michal - Zemlerova, Veronika - Svoboda, Miroslav
PY - 2022
TI - Spatial and temporal extents of natural disturbances differentiate deadwood-inhabiting fungal communities in spruce primary forest ecosystems
JF - Forest Ecology and Management
VL - 517
IS - August
SP - "120272"
EP - "120272"
PB - Elsevier
SN - 03781127
KW - Old-growth forest
KW - Saproxylic fungi
KW - Carpathians
KW - Natural disturbance regimes
KW - Biodiversity
KW - Dendrochronology
KW - Forest structure
UR - https://doi.org/10.1016/j.foreco.2022.120272
N2 - Understanding the processes shaping the composition of assemblages at multiple spatial scales in response to disturbance events is crucial for preventing ongoing biodiversity loss and for improving current forest management policies aimed at mitigating climate change and enhancing forest resilience. Deadwood-inhabiting fungi represent an essential component of forest ecosystems through their association with deadwood decomposition and the cycling of nutrients and carbon. Although we have sufficient evidence for the fundamental role of deadwood availability and variability of decay stages for fungal species diversity, the influence of long-term natural disturbance regimes as the main driver of deadwood quantity and quality has not been sufficiently documented. We used a dendroecological approach to analyse the effect of 250-years of historical natural disturbance and structural habitat elements on local (plot-level) and regional (stand-level) species richness of deadwood-inhabiting fungi. We used data collected from 51 study plots within nine best-preserved primary spruce forest stands distributed across the Western Carpathian Mountains. Historical disturbances shaped the contemporary local and regional species richness of fungi, with contrasting impacts of disturbance regime components at different spatial scales. While local diversity of red-listed species has increased due to higher disturbance frequency, regional diversity of all species has decreased due to higher severity historical disturbances. The volume of deadwood positively influenced the species richness of deadwood-inhabiting fungi while canopy openness had a negative impact. The high number of observed rare species highlights the important role of primary forests for biodiversity conservation. From a landscape perspective, we can conclude that the distribution of species from the regional species pool is - at least to some extent - driven by past spatiotemporal patterns of disturbance events. Natural disturbances occurring at higher frequencies that create a mosaic forest structure are necessary for fungal species - especially for rare and endangered taxa. Thus, both the protection of intact forest landscapes and forest management practises that emulate natural disturbance processes are recommended to support habitats of diverse fungal communities and their associated ecosystem functions.
ER -
FERENCIK, Matej, Marek SVITOK, Martin MIKOLAS, Jenyk HOFMEISTER, Linda MAJDANOVA, Ondrej VOSTAREK, Daniel KOZAK, Radek BACE, Kresimir BEGOVIC, Jan BEFAK, Vojtech CADA, Martin DUSATKO, Daniel DVOŘÁK, Michal FRANKOVIC, Rhiannon GLOOR, Pavel JANDA, Ondrej KAMENIAR, Martin KRIZ, Vladimir KUNCA, Katarina MARKULJAKOVA, Dheeraj RALHAN, Ruffy RODRIGO, Milos RYDVAL, Jakob PAVLIN, Vaclav POUSKA, Michal SYNEK, Veronika ZEMLEROVA a Miroslav SVOBODA. Spatial and temporal extents of natural disturbances differentiate deadwood-inhabiting fungal communities in spruce primary forest ecosystems. \textit{Forest Ecology and Management}. Amsterdam: Elsevier, 2022, roč.~517, August, s.~''120272'', 10 s. ISSN~0378-1127. Dostupné z: https://dx.doi.org/10.1016/j.foreco.2022.120272.
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