Quality of substrate and forest structure determine macrofungal richness along a gradient of management intensity in beech forests

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Quality of substrate and forest structure determine macrofungal richness along a gradient of management intensity in beech forests. / Atrena, Anita; Banelytė, Gaia Giedrė; Læssøe, Thomas; Riis-Hansen, Rasmus; Bruun, Hans Henrik; Rahbek, Carsten; Heilmann-Clausen, Jacob.

In: Forest Ecology and Management, Vol. 478, 118512, 2020.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Atrena, A, Banelytė, GG, Læssøe, T, Riis-Hansen, R, Bruun, HH, Rahbek, C & Heilmann-Clausen, J 2020, 'Quality of substrate and forest structure determine macrofungal richness along a gradient of management intensity in beech forests', Forest Ecology and Management, vol. 478, 118512. https://doi.org/10.1016/j.foreco.2020.118512

APA

Atrena, A., Banelytė, G. G., Læssøe, T., Riis-Hansen, R., Bruun, H. H., Rahbek, C., & Heilmann-Clausen, J. (2020). Quality of substrate and forest structure determine macrofungal richness along a gradient of management intensity in beech forests. Forest Ecology and Management, 478, [118512]. https://doi.org/10.1016/j.foreco.2020.118512

Vancouver

Atrena A, Banelytė GG, Læssøe T, Riis-Hansen R, Bruun HH, Rahbek C et al. Quality of substrate and forest structure determine macrofungal richness along a gradient of management intensity in beech forests. Forest Ecology and Management. 2020;478. 118512. https://doi.org/10.1016/j.foreco.2020.118512

Author

Atrena, Anita ; Banelytė, Gaia Giedrė ; Læssøe, Thomas ; Riis-Hansen, Rasmus ; Bruun, Hans Henrik ; Rahbek, Carsten ; Heilmann-Clausen, Jacob. / Quality of substrate and forest structure determine macrofungal richness along a gradient of management intensity in beech forests. In: Forest Ecology and Management. 2020 ; Vol. 478.

Bibtex

@article{d425cdc435d2472489a6b9cf6432dcd4,
title = "Quality of substrate and forest structure determine macrofungal richness along a gradient of management intensity in beech forests",
abstract = "The richness of saproxylic species is commonly found to be compromised in managed forests. However, it is often less clear if this reflects local scarcity of high quality deadwood objects or changes to the overall forest structure. Further, anthropogenic and natural drivers working at the landscape scale may have a strong impact. Hence, it is difficult to give detailed advice on how to conserve biodiversity in a cost-effective manner. Here we explored macrofungal richness on deadwood across a gradient of forest management intensity in Danish Fagus sylvatica forests. We aimed to disentangle the importance of habitat quality per se from the effects of variables recorded at the forest stand and landscape scales. Data was collected from 40 beech stands, each representing one of four broad management types: conventionally managed, near-to-nature managed, recently unmanaged and long unmanaged. Stands were aggregated within six larger forest clusters, to account for variation at the landscape scale. Fungal species were recorded as fruitbodies on deadwood at five decay stages. We found that the four management types showed strong differences in fungal richness, deadwood volume and forest structure, with long unmanaged stands having notably higher structural complexity and species richness. Fungal species richness and presence of red-listed fungi appeared to be mainly driven by deadwood volume, tree species and decay stage, but some stand-level variables such as canopy gaps, basal area and stand age were also of importance. Lying coarse deadwood had the highest species richness while standing coarse woody debris and fine deadwood had lower species density. Saproxylic fungal richness on individual deadwood objects was largely affected by resource quality and size, which is often limited in managed forests. Our results indicate that the best measure to increase fungal species richness, especially in managed stands, is to increase the amount of large diameter deadwood.",
keywords = "Deadwood, European beech forests, Forest management, Forest structure, Saproxylic fungi, Substrate quality",
author = "Anita Atrena and Banelytė, {Gaia Giedrė} and Thomas L{\ae}ss{\o}e and Rasmus Riis-Hansen and Bruun, {Hans Henrik} and Carsten Rahbek and Jacob Heilmann-Clausen",
year = "2020",
doi = "10.1016/j.foreco.2020.118512",
language = "English",
volume = "478",
journal = "Forest Ecology and Management",
issn = "0378-1127",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Quality of substrate and forest structure determine macrofungal richness along a gradient of management intensity in beech forests

AU - Atrena, Anita

AU - Banelytė, Gaia Giedrė

AU - Læssøe, Thomas

AU - Riis-Hansen, Rasmus

AU - Bruun, Hans Henrik

AU - Rahbek, Carsten

AU - Heilmann-Clausen, Jacob

PY - 2020

Y1 - 2020

N2 - The richness of saproxylic species is commonly found to be compromised in managed forests. However, it is often less clear if this reflects local scarcity of high quality deadwood objects or changes to the overall forest structure. Further, anthropogenic and natural drivers working at the landscape scale may have a strong impact. Hence, it is difficult to give detailed advice on how to conserve biodiversity in a cost-effective manner. Here we explored macrofungal richness on deadwood across a gradient of forest management intensity in Danish Fagus sylvatica forests. We aimed to disentangle the importance of habitat quality per se from the effects of variables recorded at the forest stand and landscape scales. Data was collected from 40 beech stands, each representing one of four broad management types: conventionally managed, near-to-nature managed, recently unmanaged and long unmanaged. Stands were aggregated within six larger forest clusters, to account for variation at the landscape scale. Fungal species were recorded as fruitbodies on deadwood at five decay stages. We found that the four management types showed strong differences in fungal richness, deadwood volume and forest structure, with long unmanaged stands having notably higher structural complexity and species richness. Fungal species richness and presence of red-listed fungi appeared to be mainly driven by deadwood volume, tree species and decay stage, but some stand-level variables such as canopy gaps, basal area and stand age were also of importance. Lying coarse deadwood had the highest species richness while standing coarse woody debris and fine deadwood had lower species density. Saproxylic fungal richness on individual deadwood objects was largely affected by resource quality and size, which is often limited in managed forests. Our results indicate that the best measure to increase fungal species richness, especially in managed stands, is to increase the amount of large diameter deadwood.

AB - The richness of saproxylic species is commonly found to be compromised in managed forests. However, it is often less clear if this reflects local scarcity of high quality deadwood objects or changes to the overall forest structure. Further, anthropogenic and natural drivers working at the landscape scale may have a strong impact. Hence, it is difficult to give detailed advice on how to conserve biodiversity in a cost-effective manner. Here we explored macrofungal richness on deadwood across a gradient of forest management intensity in Danish Fagus sylvatica forests. We aimed to disentangle the importance of habitat quality per se from the effects of variables recorded at the forest stand and landscape scales. Data was collected from 40 beech stands, each representing one of four broad management types: conventionally managed, near-to-nature managed, recently unmanaged and long unmanaged. Stands were aggregated within six larger forest clusters, to account for variation at the landscape scale. Fungal species were recorded as fruitbodies on deadwood at five decay stages. We found that the four management types showed strong differences in fungal richness, deadwood volume and forest structure, with long unmanaged stands having notably higher structural complexity and species richness. Fungal species richness and presence of red-listed fungi appeared to be mainly driven by deadwood volume, tree species and decay stage, but some stand-level variables such as canopy gaps, basal area and stand age were also of importance. Lying coarse deadwood had the highest species richness while standing coarse woody debris and fine deadwood had lower species density. Saproxylic fungal richness on individual deadwood objects was largely affected by resource quality and size, which is often limited in managed forests. Our results indicate that the best measure to increase fungal species richness, especially in managed stands, is to increase the amount of large diameter deadwood.

KW - Deadwood

KW - European beech forests

KW - Forest management

KW - Forest structure

KW - Saproxylic fungi

KW - Substrate quality

U2 - 10.1016/j.foreco.2020.118512

DO - 10.1016/j.foreco.2020.118512

M3 - Journal article

AN - SCOPUS:85090245826

VL - 478

JO - Forest Ecology and Management

JF - Forest Ecology and Management

SN - 0378-1127

M1 - 118512

ER -

ID: 249946132