Short-term response of ground-dwelling arthropods to storm-related disturbances is mediated by topography and dispersal

[1]  P. Legendre,et al.  New measures for quantifying directional changes in presence-absence community data , 2022, Ecological Indicators.

[2]  Wolfgang Nentwig,et al.  The World Spider Trait database: a centralized global open repository for curated data on spider traits , 2021, Database J. Biol. Databases Curation.

[3]  H. Jactel,et al.  Impact of Stand and Landscape Management on Forest Pest Damage. , 2021, Annual review of entomology.

[4]  L. Marini,et al.  Role of abandoned grasslands in the conservation of spider communities across heterogeneous mountain landscapes , 2021 .

[5]  M. Dovciak,et al.  Harvestmen (Opiliones) community structure varies across forest-meadow ecotones in a biodiverse karst region , 2021, Biodiversity and Conservation.

[6]  J. Gégout,et al.  Windstorm‐induced canopy openings accelerate temperate forest adaptation to global warming , 2020, Global Ecology and Biogeography.

[7]  Anthony R. Taylor,et al.  Globally consistent climate sensitivity of natural disturbances across boreal and temperate forest ecosystems , 2020, Ecography.

[8]  T. Tscharntke,et al.  Species-habitat networks elucidate landscape effects on habitat specialisation of natural enemies and pollinators. , 2020, Ecology letters.

[9]  L. Marini,et al.  Using species-habitat networks to inform agricultural landscape management for spiders , 2019, Biological Conservation.

[10]  E. Andrieu,et al.  Strength of forest edge effects on litter‐dwelling macro‐arthropods across Europe is influenced by forest age and edge properties , 2019, Diversity and Distributions.

[11]  R. Cavalli,et al.  Stima dei danni della tempesta “Vaia” alle foreste in Italia , 2019 .

[12]  Z. Elek,et al.  Taxon-specific responses to different forestry treatments in a temperate forest , 2018, Scientific Reports.

[13]  T. Hothorn,et al.  Impacts of salvage logging on biodiversity: a meta-analysis. , 2018, The Journal of applied ecology.

[14]  J. Kašák,et al.  Succession of ground beetle (Coleoptera: Carabidae) communities after windthrow disturbance in a montane Norway spruce forest in the Hrubý Jeseník Mts. (Czech Republic) , 2017 .

[15]  Jarosław J. Skłodowski,et al.  Three phases of changes in carabid assemblages during secondary succession in a pine forest disturbed by windthrow – results from the first 10 years of observations , 2017 .

[16]  M. Obrist,et al.  Impact of windthrow and salvage-logging on taxonomic and functional diversity of forest arthropods , 2017 .

[17]  F. Janžekovič,et al.  Can highland habitat type distributions replace mapping of harvestman species? , 2017, Journal of Insect Conservation.

[18]  J. Müller,et al.  Effects of natural disturbances and salvage logging on biodiversity – Lessons from the Bohemian Forest , 2017 .

[19]  J. Müller,et al.  Canopy closure determines arthropod assemblages in microhabitats created by windstorms and salvage logging , 2016 .

[20]  M. Koivula,et al.  The arthropod community of boreal Norway spruce forests responds variably to stump harvesting , 2016 .

[21]  O. Košulič,et al.  Niche differentiation of two sibling wolf spider species, Pardosa lugubris and Pardosa alacris, along a canopy openness gradient , 2016 .

[22]  P. Dolman,et al.  Multi-taxa trait and functional responses to physical disturbance. , 2014, The Journal of animal ecology.

[23]  P. Cardoso,et al.  Drivers of beta diversity in Macaronesian spiders in relation to dispersal ability , 2014 .

[24]  D. Bates,et al.  Fitting Linear Mixed-Effects Models Using lme4 , 2014, 1406.5823.

[25]  R. Pizzolotto,et al.  Changes in ground beetle assemblages above and below the treeline of the Dolomites after almost 30 years (1980/2009) , 2014, Ecology and evolution.

[26]  T. Tscharntke,et al.  The impact of hedge-forest connectivity and microhabitat conditions on spider and carabid beetle assemblages in agricultural landscapes , 2013, Journal of Insect Conservation.

[27]  J. Gerlach,et al.  Terrestrial invertebrates as bioindicators: an overview of available taxonomic groups , 2013, Journal of Insect Conservation.

[28]  R. Cruickshank,et al.  The role of habitat complexity on spider communities in native alpine grasslands of New Zealand , 2013 .

[29]  D. Langor,et al.  Responses of ground-dwelling spiders (Araneae) to variable retention harvesting practices in the boreal forest , 2012 .

[30]  B. Klausnitzer,et al.  Die Käfer Mitteleuropas , 2012 .

[31]  Dénes Schmera,et al.  A new conceptual and methodological framework for exploring and explaining pattern in presence – absence data , 2011 .

[32]  O. Ovaskainen,et al.  Increased propensity for aerial dispersal in disturbed habitats due to intraspecific variation and species turnover , 2011 .

[33]  M. Kertész,et al.  Differential ecological responses of two generalist arthropod groups, spiders and carabid beetles (Araneae, Carabidae), to the effects of wildfire , 2010 .

[34]  T. Kelly,et al.  Ground-dwelling invertebrates in reforested conifer plantations , 2010 .

[35]  J. Veech,et al.  Testing the performance of beta diversity measures based on incidence data: the robustness to undersampling , 2009 .

[36]  S. Seybold,et al.  Catastrophic windstorm and fuel-reduction treatments alter ground beetle (Coleoptera: Carabidae) assemblages in a North American sub-boreal forest , 2008 .

[37]  L. Fahrig,et al.  Edge effects created by wildfire and clear-cutting on boreal forest ground-dwelling spiders , 2008 .

[38]  M. Roth,et al.  Influence of environmental parameters on small-scale distribution of soil-dwelling spiders in forests: What makes the difference, tree species or microhabitat? , 2008 .

[39]  A. P. Schaffers,et al.  Arthropod assemblages are best predicted by plant species composition. , 2008, Ecology.

[40]  Wolfgang Nentwig,et al.  Niche properties of Central European spiders : shading, moisture and the evolution of the habitat niche , 2007 .

[41]  R. Brigham,et al.  Salvage Logging, Edge Effects, and Carabid Beetles: Connections to Conservation and Sustainable Forest Management , 2006 .

[42]  Dominique Gravel,et al.  Reconciling niche and neutrality: the continuum hypothesis. , 2006, Ecology letters.

[43]  Melinda L. Moir,et al.  Restoration of a forest ecosystem: The effects of vegetation and dispersal capabilities on the reassembly of plant-dwelling arthropods , 2005 .

[44]  H. Reuter,et al.  Dispersal of carabid beetles—emergence of distribution patterns , 2005 .

[45]  B. David,et al.  Phylogeny and biogeography , 2005 .

[46]  Robert K. Colwell,et al.  A new statistical approach for assessing similarity of species composition with incidence and abundance data , 2004 .

[47]  C. Bouget,et al.  The effects of windthrow on forest insect communities: a literature review , 2004 .

[48]  C. Buddle,et al.  Succession of boreal forest spider assemblages following wildfire and harvesting , 2000 .

[49]  Professor Dr. Hans-Ulrich Thiele Carabid Beetles in Their Environments , 1977, Zoophysiology and Ecology.