Related articles by
Review Article
Other versions:
- ContentsContents
- Article InfoArticle Info
- CiteCite
- MetricsMetrics
- CommentComment
- RelatedRelated
- FigsFigs
- TabsTabs
- TaxaTaxa
- RefsRefs
- CitedCited
- NanopubsNanopubs
Climate and land use primarily drive the diversity of multi-taxonomic communities in agroecosystems. Basic and Applied Ecology 79: 65.
The impact of hedge-forest connectivity and microhabitat conditions on spider and carabid beetle assemblages in agricultural landscapes. Journal of Insect Conservation 17: 1027.
Contrasting effects of altitude on species groups with different traits in a non-fragmented montane temperate forest. Nature Conservation 37: 99.
Effects of natural and seminatural elements on the composition and dispersion of carabid beetles inhabiting an agroecosystem in Northern Italy. Ecology and Evolution 11: 10526.
Ground beetle (Coleoptera: Carabidae) communities on green roofs in Switzerland: synthesis and perspectives. Urban Ecosystems 21: 119.
Influence of Climate and Local Habitat Characteristics on Carabid Beetle Abundance and Diversity in Northern Chinese Steppes. Insects 11: 19.
Ground beetles (Carabidae) of field margin habitats. Biologia 75: 1631.
Consumer identity but not food availability affects carabid diet in cereal crops. Journal of Pest Science 97: 281.
Results-based agri-environmental schemes can reflect habitat integrity for a non-target taxonomic group: Carabidae. Ecological Indicators 154: 110492.
Changes in ground beetle assemblages above and below the treeline of the Dolomites after almost 30 years (1980/2009). Ecology and Evolution 4: 1284.
Ground beetles (Coleoptera, Carabidae) of the Hanford Nuclear Site in south-central Washington State. ZooKeys 396: 13.
How good are carabid beetles (Coleoptera, Carabidae) as indicators of invertebrate abundance and order richness?. Biodiversity and Conservation 21: 763.
Local and Landscape Drivers of Carabid Activity, Species Richness, and Traits in Urban Gardens in Coastal California. Insects 10: 112.
Convergent evolution of specialized generalists: Implications for phylogenetic and functional diversity of carabid feeding groups. Ecology and Evolution 10: 11100.
Long‐term drought triggers severe declines in carabid beetles in a temperate forest. Ecography 2024: .
Heathland management effects on carabid beetle communities: the relationship between bare ground patch size and carabid biodiversity. Journal of Insect Conservation 16: 523.
Niche partitioning in carabids: single‐tree admixtures matter. Insect Conservation and Diversity 12: 131.
Arthropod diversity and assemblage structure response to deforestation and desertification in the Sahel of western Senegal. Global Ecology and Conservation 11: 165.
The Modeling and Forecasting of Carabid Beetle Distribution in Northwestern China. Insects 12: 168.
Beetles on the move: Not‐just‐a‐technical review of beetles' radio‐tracking. Entomologia Experimentalis et Applicata 171: 82.
Effects of metal pollution on survival and physiological responses in Carabus (Chaetocarabus) lefebvrei (Coleoptera, Carabidae). European Journal of Soil Biology 61: 80.
Differences in Mobility and Dispersal Capacity Determine Body Size Clines in Two Common Alpine-Tundra Arthropods. Insects 11: 74.
Influence of Cover Crop Termination on Ground Dwelling Arthropods in Organic Vegetable Systems. Insects 11: 445.
Drivers of the composition and diversity of carabid functional traits in UK coniferous plantations. Forest Ecology and Management 359: 300.
Predacious Natural Enemies Associated With Suppression of Onion Thrips, Thrips tabaci (Thysanoptera: Thripidae), in Intercropped Onion-Barley Agroecosystems. Environmental Entomology 52: 183.
Ground beetle assemblages inhabiting various age classes of Norway spruce stands in north-eastern Poland. PeerJ 11: e16502.
Direct and indirect effects of landscape and field management intensity on carabids through trophic resources and weeds. Journal of Applied Ecology 59: 176.
Carabid diversity in alpine environments: Investigating biogeographic and ecological traits of the communities living in the Dolomites (Italy). European Journal of Entomology 121: 219.
Design for ground beetle abundance and diversity sampling within the National Ecological Observatory Network. Ecosphere 8: .
Effects of plant diversity, habitat and agricultural landscape structure on the functional diversity of carabid assemblages in the North China Plain. Insect Conservation and Diversity 8: 163.
Carabus Population Response to Drought in Lowland Oak Hornbeam Forest. Water 12: 3284.
Ground beetle (Coleoptera: Carabidae) taxocoenoses from high-altitude Pinus peuce and Pinus heldreichii forests in Bulgaria. Historia naturalis bulgarica 45: 187.
Carabids.org – a dynamic online database of ground beetle species traits (Coleoptera, Carabidae). Insect Conservation and Diversity 7: 195.
Fallows benefit beetle conservation in a traditionally managed grassland landscape. Agriculture, Ecosystems & Environment 327: 107829.
Rove beetles (Coleoptera: Staphylinidae) in an apple orchard. Plant Protection Science 48: 116.
A DNA barcode library for ground beetles (Insecta, Coleoptera, Carabidae) of Germany: The genus Bembidion Latreille, 1802 and allied taxa. ZooKeys 592: 121.
Focusing on the role of abiotic and biotic drivers on cross-taxon congruence. Ecological Indicators 151: 110323.
Strong trait correlation and phylogenetic signal in North American ground beetle (Carabidae) morphology. Ecosphere 12: .
Carabid beetles and spiders as bioindicators for the evaluation of montane heathland restoration on former spruce forests. Biological Conservation 178: 185.
Impact of Years in Bahiagrass and Cultivation Techniques in Organic Vegetable Production on Epigeal Arthropod Populations. Florida Entomologist 103: 151.
Modelling potential natural pest control ecosystem services provided by arthropods in agricultural landscapes. Agriculture, Ecosystems & Environment 342: 108250.
Climate‐driven divergent long‐term trends of forest beetles in Japan. Ecology Letters 25: 2009.
Life in harsh environments: carabid and spider trait types and functional diversity on a debris‐covered glacier and along its foreland. Ecological Entomology 42: 838.
Integrative phylogenomics reveals a Permian origin of Adephaga beetles. Systematic Entomology 46: 968.
Raised bog biodiversity loss: A case‐study of ground beetles (Coleoptera, Carabidae) as indicators of ecosystem degradation after peat mining. Land Degradation & Development 33: 3511.
Altitudinal diversity patterns of ground beetles (Coleoptera: Carabidae) in the forests of Changbai Mountain, Northeast China. Insect Conservation and Diversity 7: 161.
Carabids species diversity in Mediterranean beech forests. Biodiversity Data Journal 10: .
Book review of ecology and conservation of the dutch ground beetle fauna – lessons from 66 years of pitfall trapping. Journal of Insect Conservation 27: 523.
Urbanization drives community shifts towards thermophilic and dispersive species at local and landscape scales. Global Change Biology 23: 2554.
A comparative analysis of the community of carabid beetles associated with two native xerophytic shrub species (Atriplex halimus L. and Artemisia herba alba L.) in the semi-arid zone of Algeria. African Entomology 28: 164.
Importance of grassy and forest non-crop habitat islands for overwintering of ground-dwelling arthropods in agricultural landscapes: A multi-taxa approach. Biological Conservation 275: 109757.
Hierarchical models for describing space-for-time variations in insect population size and sex-ratio along a primary succession. Ecological Modelling 329: 18.
Consequences of Urban Living: Urbanization and Ground Beetles. Current Landscape Ecology Reports 6: 9.
Indirect and mitigated effects of pulsed resources on the population dynamics of a northern rodent. Journal of Animal Ecology 82: 814.
Organic vs. organic – soil arthropods as bioindicators of ecological sustainability in greenhouse system experiment under Mediterranean conditions. Bulletin of Entomological Research 108: 625.
Taxonomic error rates affect interpretations of a national‐scale ground beetle monitoring program at National Ecological Observatory Network. Ecosphere 11: .
Contribution to the knowledge of the Romanian Sphodrina (Order Coleoptera, Family Carabidae, Subfamily Platyninae, Tribus Sphodrini). Travaux de l`Institut de Spéologie "Émile Racovitza" 2023: 33.
Fluctuating asymmetry indicates levels of disturbance between agricultural productions: An example in Croatian population of Pterostichus melas melas (Coleptera: Carabidae). Zoologischer Anzeiger 276: 42.
Application of propylene glycol in DNA-based studies of invertebrates. Metabarcoding and Metagenomics 5: .
Use of Carabids for the Post-Market Environmental Monitoring of Genetically Modified Crops. Toxins 9: 121.
Hay meadows' overriding effect shapes ground beetle functional diversity in mountainous landscapes. Ecosphere 13: .
Fauna Europaea: Coleoptera 2 (excl. series Elateriformia, Scarabaeiformia, Staphyliniformia and superfamily Curculionoidea). Biodiversity Data Journal 3: e4750.
Tamarisk Alters Arthropod Composition, but has Little Negative Effect on Richness and Abundance in Southwestern Colorado. Southwestern Entomologist 45: .
Ecological value of different vegetated strip types in providing valuable insect-rich habitats for grey partridge chicks. Irish Journal of Agricultural and Food Research 60: .
Impacts of Dryland Farm Management Systems on Weeds and Ground Beetles (Carabidae) in the Northern Great Plains. Sustainability 10: 2146.
Changes in the Body Size of Carabid Beetles Along Elevational Gradients: A Multispecies Study of Between- and Within-Population Variation. Environmental Entomology 48: 583.
Dispersal limitation and environmental filtering effects: The taxonomic and functional beta diversity of ground beetles along the altitudinal gradient in Chinese warm‐temperature forests. Ecology and Evolution 14: .
Emergent Rarity Properties in Carabid Communities From Chinese Steppes With Different Climatic Conditions. Frontiers in Ecology and Evolution 9: .
Immune challenges trigger cellular and humoral responses in adults of Pterostichus melas italicus (Coleoptera, Carabidae). Arthropod Structure & Development 44: 209.
Successful overwintering of arthropods in roadside verges. Journal of Insect Conservation 16: 511.
Cross-taxon congruence between predatory arthropods and plants across Mediterranean agricultural landscapes. Ecological Indicators 123: 107366.
Soil Arthropods in the Douro Demarcated Region Vineyards: General Characteristics and Ecosystem Services Provided. Sustainability 13: 7837.
Representative taxa in field trials for environmental risk assessment of genetically modified maize. Bulletin of Entomological Research 103: 724.
Behaviour‐driven micro‐scale niche differentiation in carabid beetles. Entomologia Experimentalis et Applicata 155: 39.
Elevational Distribution of Flightless Ground Beetles in the Tropical Rainforests of North-Eastern Australia. PLOS ONE 11: e0155826.
Effects of river restoration on riparian ground beetles (Coleoptera: Carabidae) in Europe. Hydrobiologia 769: 93.
Rejuvenation and restoration measures foster specialised and threatened carabid beetle species in montane heathland ecosystems. Insect Conservation and Diversity 15: 348.
Wildlife conservation through forestry abandonment: responses of beetle communities to habitat change in the Eastern Alps. European Journal of Forest Research 134: 511.
Ground beetles respond to grazing at assemblage level, rather than species-specifically: the case of Cretan shrublands. Journal of Insect Conservation 17: 681.
Ground-dwelling arthropods as biodiversity indicators in maize agroecosystems of Northern Italy. Ecological Indicators 152: 110352.
The responses of leaf litter invertebrates to environmental gradients along road edges in subtropical island forests. Pedobiologia 56: 137.
Field scale biodiversity in relation to the intensity grade of agricultural practices on dairy farms. European Journal of Agronomy 145: 126777.
Fluctuating Asymmetry in Ground Beetles (Coleoptera, Carabidae) and Conditions of Its Manifestation. Symmetry 11: 1475.
Communicating carabids: Engaging farmers to encourage uptake of integrated pest management. Pest Management Science 78: 2477.
Urban Beetle Diversity in Natural History Collections—A Hundred-Year Perspective. Diversity 15: 1224.
Annotated checklist of the ground beetles (Coleoptera: Carabidae) of Jordan. Zoology and Ecology 27: 269.
NEON terrestrial field observations: designing continental‐scale, standardized sampling. Ecosphere 3: 1.
Red deer (Cervus elaphus Linnaeus, 1758) increasing density effects on species assemblage of ground beetles (Coleoptera: Carabidae) in Alpine forests. European Journal of Wildlife Research 64: .
Types of Carabidae (Insecta: Coleoptera) deposited at the entomological collection of Instituto- Fundación Miguel Lillo, Tucumán, Argentina. Zootaxa 5311: 151.
Cross-taxon relationships in Mediterranean urban ecosystem: A case study from the city of Trieste. Ecological Indicators 125: 107538.
Effects of stream restorations on riparian mesohabitats, vegetation and carabid beetles. Biodiversity and Conservation 20: 3147.
Resilience of insect assemblages to climate change in mature temperate mountain forests of NE China. Journal of Insect Conservation 19: 1163.
Contrasting beta diversity of spiders, carabids, and ants at local and regional scales in a black soil region, northeast China. Soil Ecology Letters 3: 103.
Species matter when considering landscape effects on carabid distributions. Agriculture, Ecosystems & Environment 285: 106631.
Does forest management abandonment matter more than habitat characteristics for ground beetles?. Biological Conservation 157: 215.
Species and functional diversity of arthropod assemblages (Araneae, Carabidae, Heteroptera and Orthoptera) in grazed and mown salt grasslands. Agriculture, Ecosystems & Environment 273: 70.
Effects of Bait Presence and Type of Preservative Fluid on Ground and Carrion Beetle Samples Collected by Pitfall Trapping. Environmental Entomology 45: 1022.
Carabid adaptation to a collembolan diet: hunting efficiency and nutritional value. Ecological Entomology 47: 242.
Carabid patterns in olive orchards and woody semi-natural habitats: first implications for conservation biological control against Bactrocera oleae. BioControl 62: 71.
Using a multi-scale approach to examine the effects of field margins and landscape features on predatory carabid communities in crop fields. Agriculture, Ecosystems & Environment 373: 109115.
Local and landscape effects of agricultural intensification on Carabid community structure and weed seed predation in a perennial cropping system. Landscape Ecology 31: 2163.
Effects of prescribed burning on carabid beetle diversity in coastal anthropogenic heathlands. Biodiversity and Conservation 24: 2565.
Habitat preferences of the mountain population of the endangered beetle Carabus variolosus ssp. variolosus indicate its vulnerability to climate change. Global Ecology and Conservation 46: e02601.
Inventory of tiger- and ground-beetles (Coleoptera, Caraboidea, Cicindelidae and Carabidae) in two sampling seasons of the Gorongosa National Park, Mozambique. Biodiversity Data Journal 11: .
Wing morphology is linked to stable isotope composition of nitrogen and carbon in ground beetles (Coleoptera: Carabidae). European Journal of Entomology 112: 810.
Ground Beetles (Carabidae) in the Short-Rotation Coppice Willow and Poplar Plants—Synergistic Benefits System. Agriculture 10: 648.
Above‐ and below‐ground assessment of carabid community responses to crop type and tillage. Agricultural and Forest Entomology 23: 1.
Catalog Learning: Carabid Beetles Learn to Manipulate with Innate Coherent Behavioral Patterns. Evolutionary Psychology 11: 513.
A DNA barcode library for ground beetles of Germany: the genus Pterostichus Bonelli, 1810 and allied taxa (Insecta, Coleoptera, Carabidae). ZooKeys 980: 93.
A DNA barcode library for ground beetles of Germany: the genus Amara Bonelli, 1810 (Insecta, Coleoptera, Carabidae). ZooKeys 759: 57.
Spatial and temporal variation of epigaeic beetle assemblages (Coleoptera, Carabidae, Staphylinidae) in aspen-dominated mixedwood forests across north-central Alberta. ZooKeys 1044: 951.
Vegetation succession and changes in carabid beetle (Coleoptera: Carabidae) communities in vineyards. Scientific Review Engineering and Environmental Sciences (SREES) 33: 289.
Lepidoptera Papilionoidea communities as a sentinel of biodiversity threat: the case of wild boar rooting in a Mediterranean habitat. Journal of Insect Conservation 20: 353.
Quantifying the Role of Ground Beetles for the Dispersal of Fusarium and Alternaria Fungi in Agricultural Landscapes. Journal of Fungi 7: 863.
Prediction of abundance of beetles according to climate warming in South Korea. Journal of Asia-Pacific Biodiversity 8: 7.
Carabid specialists respond differently to nonnative plant invasion in urban forests. Urban Ecosystems 26: 377.
Species–area relationships are modulated by trophic rank, habitat affinity, and dispersal ability. Ecology 96: 518.
Annual Activity Density of groundbeetles (Coleoptera: Carabidae) of a Celtis ehrenbergiana (Rosales: Celtidaceae) Forest of Buenos Aires Province, Argentina. Journal of Insect Science 14: .
Spatial patterns of saproxylic beetles in a relic silver fir forest (Central Italy), relationships with forest structure and biodiversity indicators. Forest Ecology and Management 381: 217.
Effects of intensive human management on the taxonomic and functional diversity of ground beetles in a planted forest landscape. Biodiversity and Conservation 30: 3717.
Potential use of an arthropod database to support the non-target risk assessment and monitoring of transgenic plants. Transgenic Research 23: 995.
Long droughts decrease tiger- and ground-beetle’ beta diversity and community body size in savannas of the Gorongosa National Park (Mozambique). Journal of Insect Conservation 27: 927.
Hand searching versus pitfall trapping: how to assess biodiversity of ground beetles (Coleoptera: Carabidae) in high altitude equatorial Andes?. Journal of Insect Conservation 22: 533.
Progressively excluding mammals of different body size affects community and trait structure of ground beetles. Oikos 127: 1515.
Restoration of insect communities after land use change is shaped by plant diversity: a case study on carabid beetles (Carabidae). Scientific Reports 13: .
Rediscovery of the endangered species Harpalus flavescens (Coleoptera: Carabidae) in the Loire River. Insect Conservation and Diversity 10: 488.
Agri‐environmental schemes promote ground‐dwelling predators in adjacent oilseed rape fields: Diversity, species traits and distance‐decay functions. Journal of Applied Ecology 56: 10.
The role of sheltered habitats in biodiversity conservation of species sensitive to drought: a case study using ground beetles (Coleoptera, Carabidae) in the Gorongosa National Park. Biodiversity and Conservation 33: 2345.
Carabid beetles dataset from the Parco Regionale di Paneveggio e Pale di S. Martino (Dolomites: Italian Alps). Biodiversity Data Journal 12: .
Intra-annual variations in abundance and species composition of carabid beetles in a temperate forest in Northeast China. Journal of Insect Conservation 18: 85.
The consumption pattern of 28 species of carabid beetles (Carabidae) to a weed seed,Viola arvensis. Bulletin of Entomological Research 109: 229.
The Role of Ground Beetles (Coleoptera: Carabidae) in Weed Seed Consumption: A Review. Weed Science 63: 355.
Where have all the beetles gone? Long‐term study reveals carabid species decline in a nature reserve in Northern Germany. Insect Conservation and Diversity 12: 268.
Evergreen gymnosperm tree abundance drives ground beetle density and community composition in eastern US temperate forests. Pedobiologia 102: 150930.
Effects of abiotic factors on co-occurring Carabus (Coleoptera: Carabidae) species. Biologia 76: 663.
Competing Vegetation Structure Indices for Estimating Spatial Constrains in Carabid Abundance Patterns in Chinese Grasslands Reveal Complex Scale and Habitat Patterns. Insects 11: 249.
Riparian Vegetation Structure Influences Terrestrial Invertebrate Communities in an Agricultural Landscape. Water 13: 188.
Early successional dynamics of ground beetles (Coleoptera, Carabidae) in the tropical dry forest ecosystem in Colombia. ZooKeys 1044: 877.
Broad‐scale geographic patterns in body size and hind wing development of western Palaearctic carabid beetles(Coleoptera: Carabidae). Ecography 36: 166.
About Notiophilus Duméril, 1806 (Coleoptera, Carabidae): Species delineation and phylogeny using DNA barcodes. Deutsche Entomologische Zeitschrift 66: 63.
A century of chasing the ice: delayed colonisation of ice‐free sites by ground beetles along glacier forelands in the Alps. Ecography 37: 33.
Ecological Sustainability of an Organic Four-Year Vegetable Rotation System: Carabids and Other Soil Arthropods as Bioindicators. Agroecology and Sustainable Food Systems 39: 295.
Middle Stone Age foragers resided in high elevations of the glaciated Bale Mountains, Ethiopia. Science 365: 583.
Ground beetles (Coleoptera: Carabidae) inhabiting anthropogenic habitats in the lower delta of the Paraná river, Argentina: geographic distribution and ecological characteristics. Austral Entomology 56: 244.
Landscape type affects the functional diversity of carabid beetles in agricultural landscapes. Insect Conservation and Diversity 16: 441.
Carabid community structure in northern China grassland ecosystems: Effects of local habitat on species richness, species composition and functional diversity. PeerJ 6: e6197.
Effects of Ground Cover Management on Insect Predators and Pests in a Mediterranean Vineyard. Insects 10: 421.
Large carabid beetle declines in a United Kingdom monitoring network increases evidence for a widespread loss in insect biodiversity. Journal of Applied Ecology 49: 1009.
Large carabids enhance weed seed removal in organic fields and in large-scale, but not small-scale agriculture. Landscape Ecology 36: 427.
Responses of diversity and morphometric traits of ground beetles to soil chemical properties in industrial city of China. Ecological Indicators 154: 110575.
Challenging assumptions about burial ground biodiversity using flying beetles as indicators in urban areas. Journal of Urban Ecology 8: .
Behavioural Studies ofHarpalus rufipesDe Geer: an Important Weed Seed Predator in Northeastern US Agroecosystems. International Journal of Ecology 2012: 1.
Communities of ground beetles (Carabidae, Coleoptera) in broad-leaved forests of protected and urban areas of the Kaluga Oblast (European Russia). Biodiversity Data Journal 8: .
Beetle assemblage dynamics after invasive ice plant (Carpobrotus) removal on a small Mediterranean island. Restoration Ecology 29: .
Effects of Microclimatic Thresholds on the Activity-Abundance and Distribution Patterns of Alpine Carabidae Species. Annales Zoologici Fennici 55: 25.
Urbanization drivers differentially affect ground arthropod assemblages in the city of Turin (NW-Italy). Urban Ecosystems 23: 617.
Can reed harvest be used as a management strategy for improving invertebrate biomass and diversity?. Journal of Environmental Management 300: 113637.
Body size and the urban heat island effect modulate the temperature–size relationship in ground beetles. Journal of Biogeography 49: 1618.
Combining organic and conservation agriculture to restore biodiversity? Insights from innovative farms in Belgium and their impacts on carabids and spiders. Frontiers in Sustainable Food Systems 6: .
Traditional prescribed burning of coastal heathland provides niches for xerophilous and sun-loving beetles. Biodiversity and Conservation 32: 4083.
Results from two sampling techniques for carabid beetles (Coleoptera: Carabidae) in temporarily flooded and terra firme rainforest of western Amazonia. Studies on Neotropical Fauna and Environment 51: 78.
Only habitat specialists become smaller with advancing urbanization. Global Ecology and Biogeography 29: 1978.
Climate warming effects in the tropical Andes: first evidence for upslope shifts of Carabidae (Coleoptera) in Ecuador. Insect Conservation and Diversity 9: 342.
Family Carabidae (Coleoptera) in an Algerian salt wetland: taxonomic diversity, functional traits and effect of environmental drivers on their structure and composition. Oriental Insects 57: 1061.
Real-Time Polymerase Chain Reaction For Detection Of Optimal Thermal Profile For DNA Templates From Air-Dried Insect Collection Material. Proceedings of the Latvian Academy of Sciences. Section B. Natural, Exact, and Applied Sciences. 69: 33.
Using radio telemetry to track ground beetles: Movement of Carabus ullrichii. Biologia 71: 924.
Ground beetles (Coleoptera; Carabidae) as an indicator of ongoing changes in forest habitats due to increased water retention. PeerJ 8: e9815.
Habitat specialization, distribution range size and body size drive extinction risk in carabid beetles. Biodiversity and Conservation 28: 1267.
The effect of forest management on endangered insects assessed by radio-tracking: The case of the ground beetle Carabus olympiae in European beech Fagus sylvatica stands. Forest Ecology and Management 406: 125.
Assessing Arthropod Communities during Bermudagrass Pasture Conversion to Diverse Native Grassland on the Southern Great Plains of North America. Southwestern Entomologist 47: .
The use of traits to interpret responses to large scale - edge effects: a study of epigaeic beetle assemblages across a Eucalyptus forest and pine plantation edge. Landscape Ecology 31: 1815.
Species trait selection along a prescribed fire chronosequence. Insect Conservation and Diversity 9: 446.
Predation by the carabid beetle Harpalus rufipes on the pest slug Deroceras reticulatum in the laboratory. Annals of Applied Biology 170: 251.
Microhabitat mosaics are key to the survival of an endangered ground beetle (Carabus nitens) in its post-industrial refugia. Journal of Insect Conservation 22: 321.
Impact of cutting date on carabids and spiders in a wet meadow. Agriculture, Ecosystems & Environment 185: 1.
Role of reclamation in the formation of functional structure of beetle communities: A different approach to restoration. Ecological Engineering 94: 537.
Morphometry and eye morphology of three scaritine ground beetles relate to habitat demands and behavioural traits (Coleoptera, Carabidae, Scaritinae). Zoologischer Anzeiger 277: 190.
Long-term data reveal unimodal responses of ground beetle abundance to precipitation and land use but no changes in taxonomic and functional diversity. Scientific Reports 11: .
The effect of cover plants management on soil invertebrate fauna in vineyard in Northern Italy. BioControl 63: 795.
Supporting non-target arthropods in agroecosystems: Modelling effects of insecticides and landscape structure on carabids in agricultural landscapes. Science of The Total Environment 774: 145746.
Composition and diversity of ground beetles within wooded pastures and alternative land-use systems in Swiss Jura mountains. Agroforestry Systems 98: 2411.
Impact of livestock grazing on the terrestrial arthropod diversity in the arid zone of Mongolia. The European Zoological Journal 90: 487.
Life history traits of five ground beetle (Coleoptera: Carabidae) species common in Honshu Island, Japan. Acta Zoologica Academiae Scientiarum Hungaricae 66: 185.
Siagona europaeaDejean andPoecilus(Metapedius)pantanelliiA. Fiori (Coleoptera: Carabidae): two clay-soil dwelling species with different uses of the space. The European Zoological Journal 86: 210.
Study of insect diversity in areas surrounding The Central Marsh in southern Iraq. IOP Conference Series: Earth and Environmental Science 1002: 012002.
Effects of Ground Cover Management, Landscape Elements and Local Conditions on Carabid (Coleoptera: Carabidae) Diversity and Vine Vitality in Temperate Vineyards. Agronomy 12: 1328.
Seasonal dynamics of carabid beetles (Coleoptera: Carabidae) in areas with anthropogenic disturbances: The case of Uzungwa scarp nature forest reserve, Tanzania. International Journal of Tropical Insect Science 44: 689.
The rapid response of the ground beetle communities to the meadow steppe habitat loss in West Podillia (Ukraine) . Biosystems Diversity 32: 233.
Evidence for regional-scale declines in carabid beetles in old lowland beech forests following a period of severe drought. Landscape Ecology 39: .
Dispersal capacity underlies scale‐dependent changes in species richness patterns under human disturbance. Ecology 104: .
Carabid community stability is enhanced by carabid diversity but reduced by aridity in Chinese steppes. Acta Oecologica 99: 103450.
Epigeic Carabids (Coleoptera, Carabidae) as Bioindicators in Different Variants of Scots Pine Regeneration: Implication for Forest Landscape Management. Sustainability 15: 13322.
The Effects of Wild Boar Rooting on Epigeic Arthropods in Oak Forests. Forests 15: 1169.
It’s a matter of design—how pitfall trap design affects trap samples and possible predictions. PeerJ 6: e5078.
Species composition and ecological structure of ground beetles (Coleoptera, Carabidae) communities as biological indicators of the agro-environmental sustainability. Environmental Research 234: 116030.
Response of ground beetles (Coleoptera: Carabidae) to forest gaps formed by a typhoon in a red pine forest at Gwangneung Forest, Republic of Korea. Journal of Forestry Research 28: 173.
Habitat–trait interactions that control response to climate change: North American ground beetles (Carabidae). Global Ecology and Biogeography 32: 987.
Comparing the efficacy and cost-effectiveness of two sampling methods for monitoring carabid beetle diversity, species assemblages and conservation status in an alpine grassland. Journal of Insect Conservation 28: 701.
Temperature effects on pitfall catches of epigeal arthropods: a model and method for bias correction. Journal of Applied Ecology 50: 181.
Supportive effect of uncut refuge strips on grassland arthropods may depends on the amount and width of strips. Journal of Applied Ecology 61: 1894.
Diversity and seasonal changes in carabid assemblages of a mature, secondary and plantation forest mosaic in the Zhangguangcai Mountains in northeastern China. Insect Conservation and Diversity 13: 340.
Restoring tree species mixtures mitigates the adverse effects of pine monoculture and drought on forest carabids. Insect Conservation and Diversity 15: 725.
The Carabidae (Coleoptera) of Shada Al-A’Ala Nature Reserve, Southwestern Saudi Arabia, with description of a new species of Paussinae. ZooKeys 812: 93.
The associations between ground beetle (Coleoptera: Carabidae) communities and environmental condition in floodplain forests in the Pannonian Basin. European Journal of Entomology 118: 14.
Predicting beta diversity of terrestrial and aquatic beetles using ecogeographical variables: insights from the replacement and richness difference components. Journal of Biogeography 46: 304.
Mating marks on museum specimens reveal breeding patterns in species of Pterostichus Bonelli (Carabidae, Pterostichini). Biodiversity Data Journal 9: .
Use of taxonomic and chorological diversity to highlight the conservation value of insect communities in a Mediterranean coastal area: the carabid beetles (Coleoptera, Carabidae) of Castelporziano (Central Italy). Rendiconti Lincei 26: 625.
Land-use intensification reduces multi-taxa diversity patterns of Small Woodlots Outside Forests in a Mediterranean area. Agriculture, Ecosystems & Environment 340: 108149.
Specialist carabids in mixed montane forests are positively associated with biodiversity-oriented forestry and abundance of roe deer. Global Ecology and Conservation 50: e02821.
Ground Beetle (Coleoptera: Carabidae) Responses to Cattle Grazing, Grassland Restoration, and Habitat across a Precipitation Gradient. Insects 13: 696.
Monitoring carabid indicators could reveal environmental impacts of genetically modified maize. Agricultural and Forest Entomology 18: 238.
Red deer structure the ground-dwelling beetle community in boreal forest. Biodiversity and Conservation 27: 2507.
Corridors and barriers in biodiversity conservation: a novel resource-based habitat perspective for butterflies. Biodiversity and Conservation 22: 2709.
Effects of undergrowth removal and edge proximity on ground beetles and vascular plants in urban boreal forests. Journal of Urban Ecology 5: .
High Niche Overlap in the Stable Isotope Space Of Ground Beetles. Annales Zoologici Fennici 51: 301.
The Effects of Vegetation Structure and Timber Harvesting on Ground Beetle (Col.: Carabidae) and Arachnid Communities (Arach.: Araneae, Opiliones) in Short-Rotation Coppices. Land 13: 145.
Carabid beetles in solar parks: assemblages under solar panels are severely impoverished compared to gaps between panel rows and edge areas. Journal of Insect Conservation 28: 763.
Interference competition, not predation, explains the negative association between wood ants (Formica rufa) and abundance of ground beetles (Coleoptera: Carabidae). Ecological Entomology 38: 315.
Hay-bait traps are a useful tool for sampling of soil dwelling millipedes and centipedes. ZooKeys 510: 197.
Assemblages of carabid beetles (Col. Carabidae) and ground-dwelling spiders (Araneae) in natural and artificial regeneration of pine forests. Community Ecology 19: 156.
Differences in arthropod communities between grazed areas and grazing exclosures depend on arthropod groups and vegetation types. Agriculture, Ecosystems & Environment 341: 108222.
Incomplete species lists produced by pitfall trapping: How many carabid species and which functional traits are missing?. Biological Conservation 245: 108545.
Effect of plant protection on assemblages of ground beetles (Coleoptera, Carabidae) in sugar beet crops in four-year rotation. Acta Zoologica Academiae Scientiarum Hungaricae 66: 49.
The complete mitochondrial genomes of Notiophilus quadripunctatus Dejean, 1826 and Omophron limbatum (Fabricius, 1777): New insights into the mitogenome phylogeny of the Carabidae (Insecta, Coleoptera). Insect Systematics & Evolution 53: 242.
Change of Ellipsoid Biovolume (EV) of Ground Beetles (Coleoptera, Carabidae) along an Urban–Suburban–Rural Gradient of Central Slovakia. Diversity 12: 475.
Soil fauna through the landscape window: factors shaping surface-and soil-dwelling communities across spatial scales in cork-oak mosaics. Landscape Ecology 30: 1511.
Assessing human impact on fen biodiversity: effects of different management regimes on butterfly, grasshopper, and carabid beetle assemblages. Biodiversity and Conservation 23: 309.
The conservation value of forests and tree plantations for beetle (Coleoptera) communities: A global meta-analysis. Forest Ecology and Management 491: 119201.
Integrative Taxonomy for Continental-Scale Terrestrial Insect Observations. PLoS ONE 7: e37528.
Does wing morphology affect recolonization of restored farmland by ground‐dwelling beetles?. Restoration Ecology 25: 234.
How informative is the response of Ground Beetles' (Coleoptera: Carabidae) assemblages to anthropogenic land use changes? Insights for ecological status assessments from a case study in the Neotropics. Science of The Total Environment 636: 1219.
Morphometric Differences in Populations of Carabus lefebvrei Dejean, 1826. Entomological News 129: .
Habitat structure and neighbor linear features influence more carabid functional diversity in olive groves than the farming system. Ecological Indicators 79: 128.
Diversity of carabids (Coleoptera: Carabidae) from the state of Hidalgo, Mexico, determined using two complementary approaches. Biologia 79: 1367.
Relationships between Plant Diversity and the Abundance and α-Diversity of Predatory Ground Beetles (Coleoptera: Carabidae) in a Mature Asian Temperate Forest Ecosystem. PLoS ONE 8: e82792.
A high‐quality carabid genome assembly provides insights into beetle genome evolution and cold adaptation. Molecular Ecology Resources 21: 2145.
Fluctuación y Distribución del Género Ips spp.1 y Asociados Capturados con Atrayente en la Cara Noreste del Cofre de Perote. Southwestern Entomologist 47: .
Niche differentiation of arthropods and plants along small-scale gradients in temporary wetlands (kettle holes). Basic and Applied Ecology 73: 10.
Multiscale drivers of carabid beetle (Coleoptera: Carabidae) assemblages in small European woodlands. Global Ecology and Biogeography 30: 165.
Macroecology of ground beetles: Species richness, range size and body size show different geographical patterns across a climatically heterogeneous area. Journal of Biogeography 46: 2548.
Distinct patterns suggest that assembly processes differ for dominant arthropods in above-ground and below-ground ecosystems. Pedobiologia 69: 17.
Forest harvest causes rapid changes of maternal investment strategies in ground beetles. Ecology 105: .
Identifying insect predators using camera traps reveal unexpected predator communities in oilseed rape fields. Biological Control 198: 105636.
Decrease in Carabid Beetles in Grasslands of Northwestern China: Further Evidence of Insect Biodiversity Loss. Insects 13: 35.
The impact of pastoral activities on animal biodiversity in Europe: A systematic review and meta-analysis. Journal for Nature Conservation 56: 125863.
Microhabitat heterogeneity promotes soil fertility and ground-dwelling arthropod diversity in Mediterranean wood-pastures. Agriculture, Ecosystems & Environment 233: 192.
Ground Beetle (Coleoptera: Carabidae) Assemblages and Slug Abundance in Agricultural Fields Under Organic and Low-Input Conventional Management Within a Long-Term Agronomic Trial in Central Italy. Environmental Entomology : .
Accompanying vegetation in young Pinus radiata plantations enhances recolonization by Ceroglossus chilensis (Coleoptera: Carabidae) after clearcutting. Journal of Insect Conservation 21: 943.
Trends in monthly abundance and species richness of carabids over 33 years at the Kaiserstuhl, southwest Germany. Basic and Applied Ecology 50: 107.
Impact of Water Retention Practices in Forests on the Biodiversity of Ground Beetles (Coleoptera: Carabidae). Sustainability 14: 15068.
A complex relationship between cropping systems and soil macrofauna: Influence of practice intensity, taxa and traits. Pedobiologia 105: 150974.
Mutual and Opposing Responses of Carabid Beetles and Predatory Wasps to Local and Landscape Factors in Vineyards. Insects 11: 746.
Carabid beetles (Coleoptera: Carabidae) and biological control of agricultural pests in Latin America. Annals of the Entomological Society of America 114: 175.
Converting land into golf courses – effects on ground beetles (Coleoptera, Carabidae). Insect Conservation and Diversity 8: 247.
Epigeic spider and ground beetles (Carabid) communities of semi-natural and natural habitats in agricultural landscape in Slovakia. Folia Oecologica 51: 221.
Individual movement of large carabids as a link for activity density patterns in various forestry treatments. Acta Zoologica Academiae Scientiarum Hungaricae 67: 77.
Earth and field observations underpin metapopulation dynamics in complex landscapes: Near-term study on carabids. Proceedings of the National Academy of Sciences 117: 12877.
Spatio-Temporal Distribution of Carabids Influenced by Small-Scale Admixture of Oak Trees in Pine Stands. Diversity 12: 398.
Exploring cross-taxon congruence between carabid beetles (Coleoptera: Carabidae) and vascular plants in sites invaded by Ailanthus altissima versus non-invaded sites: The explicative power of biotic and abiotic factors. Ecological Indicators 103: 145.
Temporal changes in the spatial distribution of carabid beetles around arable field-woodlot boundaries. Scientific Reports 9: .
Assemblage Characteristics of Butterflies and Carabid Beetles as a Function of Soil Characteristics and Plant Diversity in Differently Managed Fields, Forests and Ecotones: A Case Study in Tuczno Forest District, Poland. Land 11: 25.
Biodiversity functions of short rotation coppice stands - results of a meta study on ground beetles (Coleoptera: Carabidae). Biomass and Bioenergy 132: 105416.
Ground beetle assemblages in Beijing’s new mountain forests. Forest Ecology and Management 334: 369.
The Influence of Vegetation and Landscape Structural Connectivity on Butterflies (Lepidoptera: Papilionoidea and Hesperiidae), Carabids (Coleoptera: Carabidae), Syrphids (Diptera: Syrphidae), and Sawflies (Hymenoptera: Symphyta) in Northern Italy Farmland. Environmental Entomology 44: 1299.
Increasing landscape heterogeneity as a win–win solution to manage trade-offs in biological control of crop and woodland pests. Scientific Reports 13: .
Trait‐modulated decline of carabid beetle occurrence along elevational gradients across the European Alps. Journal of Biogeography 47: 1030.
Glaciers and the Polar Environment. Chapter 8: .
Environmental Indicators. Chapter 24: 395.
Restoration of Ecosystems – Bridging Nature and Humans. Chapter 14: 315.
Umweltinformationssysteme - Wie trägt die Digitalisierung zur Nachhaltigkeit bei?. Chapter 12: 201.
Subscribe to email alerts for current Article's categories