Access the full text.
Sign up today, get DeepDyve free for 14 days.
Anders Lindhe, Å. Lindelöw, N. Åsenblad (2005)
Saproxylic Beetles in Standing Dead Wood Density in Relation to Substrate Sun-exposure and DiameterBiodiversity & Conservation, 14
H. Moeck, D. Wood, K. Lindahl (2004)
Host selection behavior of bark beetles (Coleoptera: Scolytidae) attackingPinus ponderosa, with special emphasis on the western pine beetle,Dendroctonus brevicomisJournal of Chemical Ecology, 7
C. Bouget, A. Brin, H. Brustel (2011)
Exploring the last biotic frontier : Are temperate forest canopies special for saproxylic beetles?Forest Ecology and Management, 261
D. Maguire, K. Robert, Kristen Brochu, Maxim Larrivée, C. Buddle, T. Wheeler (2014)
Vertical Stratification of Beetles (Coleoptera) and Flies (Diptera) in Temperate Forest Canopies, 43
Q.‐H. Zhang, J. Byers, X.‐D. Zhang (1993)
Influence of bark thickness, trunk diameter and height on reproduction of the longhorned beetle, Monochamus sutor (Col., Cerambycidae) in burned larch and pineJournal of Applied Entomology, 115
A. Ruchin, L. Egorov (2021)
Vertical Stratification of Beetles in Deciduous Forest Communities in the Centre of European RussiaDiversity
J. Foit, J. Kašák, J. Nevoral (2016)
Habitat requirements of the endangered longhorn beetle Aegosoma scabricorne (Coleoptera: Cerambycidae): a possible umbrella species for saproxylic beetles in European lowland forestsJournal of Insect Conservation, 20
J. Foit (2010)
Distribution of early‐arriving saproxylic beetles on standing dead Scots pine treesAgricultural and Forest Entomology, 12
Barry Hynum, A. Berryman (1980)
DENDROCTONUS PONDEROSAE (COLEOPTERA: SCOLYTIDAE): PRE-AGGREGATION LANDING AND GALLERY INITIATION ON LODGEPOLE PINEThe Canadian Entomologist, 112
J. Horák (2017)
Insect ecology and veteran treesJournal of Insect Conservation, 21
M. Gossner (2009)
Light intensity affects spatial distribution of Heteroptera in deciduous forests.European Journal of Endocrinology, 106
J. Foit (2019)
Factors affecting the occurrence of bark- and wood-boring beetles on Scots pine logging residues from pre-commercial thinningEntomologica Fennica
J. Horák, Jiří Kout, Štěpán Vodka, D. Donato (2016)
Dead wood dependent organisms in one of the oldest protected forests of Europe: Investigating the contrasting effects of within-stand variation in a highly diversified environmentForest Ecology and Management, 363
(2016)
2016) Interacting effects
M. Jonsell, J. Weslien, B. Ehnström (1998)
Substrate requirements of red-listed saproxylic invertebrates in SwedenBiodiversity & Conservation, 7
J. Kašák, J. Foit (2018)
Shortage of declining and damaged sun-exposed trees in European mountain forests limits saproxylic beetles: a case study on the endangered longhorn beetle Ropalopus ungaricus (Coleoptera: Cerambycidae)Journal of Insect Conservation, 22
Søren Højsgaard, U. Halekoh, Jun Yan (2005)
The R Package geepack for Generalized Estimating EquationsJournal of Statistical Software, 15
M. Gossner, T. Lachat, J. Brunet, G. Isacsson, C. Bouget, H. Brustel, R. Brandl, W. Weisser, Jörg Müller (2013)
Current Near‐to‐Nature Forest Management Effects on Functional Trait Composition of Saproxylic Beetles in Beech ForestsConservation Biology, 27
A. Floren, T. Müller, M. Dittrich, M. Weiss, K. Linsenmair (2014)
The influence of tree species, stratum and forest management on beetle assemblages responding to deadwood enrichmentForest Ecology and Management, 323
O. Alinvi, J. Ball, K. Danell, J. Hjältén, R. Pettersson (2007)
Sampling saproxylic beetle assemblages in dead wood logs: comparing window and eclector traps to traditional bark sieving and a refinementJournal of Insect Conservation, 11
B. Cantwell, S. Marginson (2018)
Vertical StratificationHigh Participation Systems of Higher Education
Claudia Normann, T. Tscharntke, C. Scherber (2016)
Interacting effects of forest stratum, edge and tree diversity on beetlesForest Ecology and Management, 361
J. Holuša, T. Fiala, J. Foit (2021)
Ambrosia Beetles Prefer Closed Canopies: A Case Study in Oak Forests in Central EuropeForests
Remarkable interstrata diversification of saproxylic beetle assemblages reflecting distribution of breeding substrates in the forest stand was observed
S. Seibold, Jonas Hagge, Jörg Müller, A. Gruppe, R. Brandl, C. Bässler, S. Thorn (2018)
Experiments with dead wood reveal the importance of dead branches in the canopy for saproxylic beetle conservationForest Ecology and Management, 409
J. Procházka, L. Čížek, J. Schlaghamerský (2018)
Vertical stratification of scolytine beetles in temperate forestsInsect Conservation and Diversity, 11
Yannick Cadorette-Breton, C. Hébert, J. Ibarzabal, R. Berthiaume, É. Bauce (2016)
Vertical distribution of three longhorned beetle species (Coleoptera: Cerambycidae) in burned trees of the boreal forestCanadian Journal of Forest Research, 46
Sönke Ardersen, Gianfranco Urletti, Lucien Eseigneur, Giuseppe Latia, Gianfranco Iberti, EO PieroL, Paolo Ornacchia, Enzo Atti (2014)
Spatio-temporal analysis of beetles from the canopy and ground layer in an Italian lowland forestBulletin of Insectology, 67
M. Ulyshen, J. Hanula (2007)
A Comparison of the Beetle (Coleoptera) Fauna Captured at Two Heights Above the Ground in a North American Temperate Deciduous Forest, 158
C. Vance, K. Kirby, J. Malcolm, Sandy Smith (2003)
Community Composition of Longhorned Beetles (Coleoptera: Cerambycidae) in the Canopy and Understorey of Sugar Maple and White Pine Stands in South-Central Ontario, 32
J. Horák, Štěpán Vodka, Jiří Kout, J. Halda, P. Bogusch, P. Pech (2014)
Biodiversity of most dead wood-dependent organisms in thermophilic temperate oak woodlands thrives on diversity of open landscape structuresForest Ecology and Management, 315
M.D. Ulyshen (2011)
Arthropod vertical stratification in temperate deciduous forests: implications for conservation‐oriented management, 261
S. Seibold, R. Brandl, J. Buse, T. Hothorn, J. Schmidl, S. Thorn, Jörg Müller (2015)
Association of extinction risk of saproxylic beetles with ecological degradation of forests in EuropeConservation Biology, 29
J. Stokland, J. Siitonen, B. Jonsson (2012)
Biodiversity in dead wood.
M. Peltonen, K. Heliövaara (1999)
Attack density and breeding success of bark beetles (Coleoptera, Scolytidae) at different distances from forest‐clearcut edgeAgricultural and Forest Entomology, 1
O. Ovaskainen, G. Tikhonov, A. Norberg, F. Blanchet, L. Duan, D. Dunson, Tomas Roslin, Nerea Abrego (2017)
How to make more out of community data? A conceptual framework and its implementation as models and software.Ecology letters, 20 5
J. Brattli, Johan Andersen, A. Nilssen (1998)
Primary attraction and host tree selection in deciduous and conifer living Coleoptera: Scolytidae, Curculionidae, Cerambycidae and LymexylidaeJournal of Applied Entomology, 122
H. Kappes, W. Topp (2004)
Emergence of Coleoptera from deadwood in a managed broadleaved forest in central EuropeBiodiversity & Conservation, 13
T. Hirao, M. Murakami, Akira Kashizaki (2009)
Importance of the understory stratum to entomofaunal diversity in a temperate deciduous forestEcological Research, 24
J. Albert, M. Platek, L. Čížek (2012)
Vertical stratification and microhabitat selection by the Great Capricorn Beetle (Cerambyx cerdo) (Coleoptera: Cerambycidae) in open-grown, veteran oaksEuropean Journal of Endocrinology, 109
Marlene Graf, Ludwig Lettenmaier, J. Müller, Jonas Hagge (2021)
Saproxylic beetles trace deadwood and differentiate between deadwood niches before their arrival on potential hostsInsect Conservation and Diversity
Štěpán Vodka, L. Čížek (2013)
The effects of edge-interior and understorey-canopy gradients on the distribution of saproxylic beetles in a temperate lowland forestForest Ecology and Management, 304
M. Gossner, A. Floren, W. Weisser, K. Linsenmair (2013)
Effect of dead wood enrichment in the canopy and on the forest floor on beetle guild compositionForest Ecology and Management, 302
M. Ulyshen, J. Hanula, Scott Horn, J. Kilgo, C. Moorman (2004)
Spatial and temporal patterns of beetles associated with coarse woody debris in managed bottomland hardwood forests.Forest Ecology and Management, 199
Maria Widerberg, T. Ranius, I. Drobyshev, U. Nilsson, M. Lindbladh (2012)
Increased openness around retained oaks increases species richness of saproxylic beetlesBiodiversity and Conservation, 21
J. Horák, K. Rébl (2013)
The species richness of click beetles in ancient pasture woodland benefits from a high level of sun exposureJournal of Insect Conservation, 17
P. Martikainen, J. Siitonen, P. Punttila, L. Kaila, J. Rauh (2000)
Species richness of Coleoptera in mature managed and old-growth boreal forests in southern FinlandBiological Conservation, 94
M. Saint‐Germain, C. Buddle, P. Drapeau (2007)
Primary attraction and random landing in host‐selection by wood‐feeding insects: a matter of scale?Agricultural and Forest Entomology, 9
B. Wermelinger, P. Flückiger, M. Obrist, P. Duelli (2007)
Horizontal and vertical distribution of saproxylic beetles (Col., Buprestidae, Cerambycidae, Scolytinae) across sections of forest edgesJournal of Applied Entomology, 131
K. Tunset, A. Nilssen, Johan Andersen (1993)
Primary attraction in host recognition of coniferous bark beetles and bark weevils (Col., Scolytidae and Curculionidae)Journal of Applied Entomology, 115
Štěpán Vodka, M. Konvička, L. Čížek (2009)
Habitat preferences of oak-feeding xylophagous beetles in a temperate woodland: implications for forest history and managementJournal of Insect Conservation, 13
Thomas Sheehan, M. Ulyshen, Scott Horn, E. Hoebeke (2018)
Vertical and horizontal distribution of bark and woodboring beetles by feeding guild: is there an optimal trap location for detection?Journal of Pest Science, 92
F. Lieutier, K. Day, A. Battisti, J. Grégoire, H. Evans (2004)
Bark and Wood Boring Insects in Living Trees in Europe, a Synthesis
S. Grove (2002)
Saproxylic Insect Ecology and the Sustainable Management of ForestsAnnual Review of Ecology, Evolution, and Systematics, 33
Maria Åström, L. Pettersson, Erik Öckinger, J. Hedin (2013)
Habitat preferences and conservation of the marbled jewel beetle Poecilonota variolosa (Buprestidae)Journal of Insect Conservation, 17
M. Ulyshen (2011)
Arthropod vertical stratification in temperate deciduous forests: Implications for conservation-orieFuel and Energy Abstracts
The spatial distribution of saproxylic beetles landing and climbing stems of 12 grown and healthy Scots pine trees (Pinus sylvestris L.) was examined in detail during a 3‐year trial. The beetles were sampled using sticky traps attached to the tree trunk at three tree parts (i.e., the trunk base, middle part of the trunk, and trunk in crown). Each tree part was sampled using two sticky traps facing opposite cardinal directions (north and south). In total, 4063 individuals representing 169 taxa of saproxylic beetles were yielded in the 1405 obtained samples. Remarkable interstrata diversification of saproxylic beetle assemblages reflecting distribution of breeding substrates in the forest stand was observed. Overall, species richness decreased considerably from the trunk base to the crown, with intermediate values for the middle part of the trunk. However, the abundance of mycetophages and saproxylophages decreased from the trunk base to the crown, with xylophages being the most abundant in the tree crown. The cardinal direction exhibited overall weak effects on abundance, species richness, and composition, but the occurrence of a few particular species was significantly associated with the south (13 species) or north (3 species) facing part of the trunk. Our results suggest that primary attraction and random landing strategies are combined during the substrate selection by many species. High variability in the importance of the studied explanatory variables was observed among taxa, which shows how the species composition recorded in any study might alter its general outcomes.
Agricultural and Forest Entomology – Wiley
Published: Nov 1, 2023
Keywords: cardinal direction; diversity; guilds; Pinus sylvestris; species composition; sticky traps; tree part; vertical
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.