Terrestrial invertebrates as bioindicators: an overview of available taxonomic groups
about
Old Lineage on an Old Island: Pixibinthus, a New Cricket Genus Endemic to New Caledonia Shed Light on Gryllid Diversification in a Hotspot of BiodiversityTowards a DNA Barcode Reference Database for Spiders and Harvestmen of Germany.Multitrophic diversity in a biodiverse forest is highly nonlinear across spatial scales.A Tank Bromeliad Favors Spider Presence in a Neotropical Inundated ForestHome range, movement, and distribution patterns of the threatened dragonfly Sympetrum depressiusculum (Odonata: Libellulidae): a thousand times greater territory to protect?The importance of microhabitat for biodiversity sampling.Equine grazing in managed subalpine wetlands: effects on arthropods and plant structure as a function of habitat.Comparing the natural variation of oribatid mite communities with their changes associated with anthropogenic disturbance.Environmental filtering is the main assembly rule of ground beetles in the forest and its edge but not in the adjacent grassland.Responses of Euglossine Bees (Hymenoptera, Apidae, Euglossina) to an Edge-Forest Gradient in a Large Tabuleiro Forest Remnant in Eastern Brazil.Richness and Composition of Ground-dwelling Ants in Tropical Rainforest and Surrounding Landscapes in the Colombian Inter-Andean Valley.Optimising Methods for Dung Beetle (Coleoptera: Scarabaeidae) Sampling in Brazilian Pastures.Spider diversity and community composition in native broadleaf–podocarp forest fragments of northern Hawke’s Bay, New ZealandResponses of ground living arthropods to landscape contrast and context in a forest-grassland mosaicInvertebrate community turnover following control of an invasive weedDecreasing negative impacts of harvesting over insect communities using variable retention in southern Patagonian forestsPrioritizing non-marine invertebrate taxa for Red ListingThe LEGATO cross-disciplinary integrated ecosystem service research framework: an example of integrating research results from the analysis of global change impacts and the social, cultural and economic system dynamics of irrigated rice productionConserving a variety of ancient forest patches maintains historic arthropod diversitySurrounding vegetation matters for arthropods of small, natural patches of indigenous forestConserving natural heterogeneity is crucial for designing effective ecological networksLandscape ecological networks are successful in supporting a diverse dragonfly assemblageShould invertebrates receive greater inclusion in wildlife research journals?Conservation status of the only representative of infraorder Mygalomorphae (Araneae) in cultivated regions of Central EuropeEffects of a fast-burning spring fire on the ground-dwelling spider assemblages (Arachnida: Araneae) in a central South African grassland habitatNeotropical dragonflies (Insecta: Odonata) as indicators of ecological condition of small streams in the eastern AmazonSusceptibility of pollinators to ongoing landscape changes depends on landscape historyRevealing hidden species distribution with pheromones: the case of Synanthedon vespiformis (Lepidoptera: Sesiidae) in SwedenBaseline data for automated acoustic monitoring of Orthoptera in a Mediterranean landscape, the Hymettos, Greece
P2860
Q28601664-C9A6F4E4-AA99-4383-8D73-64A1FD6B9DFEQ28828633-68C503B4-93E4-47B3-ACA3-16FD08BCBB64Q30315893-6272C5F9-4F1D-4D25-B798-81251509FFE5Q30877046-8893A290-9314-472C-9DF4-CB35BF28B665Q33875039-C233C84F-6FEE-4AC0-BE11-4EA3609554C8Q34627445-ECB1E112-1D3D-41E3-A9E9-C2B614164F10Q34977486-E0AC517A-973E-41E1-991D-28A43BB06D93Q36330706-5A5A5AE5-44AC-41EF-9F17-56EE2B7828B5Q38694497-98E82BFA-9874-46C3-B7A1-A25A2D2D205AQ38765999-CC3A0D08-5A94-4C08-88CD-A5474DC68E41Q46251171-97F0F95C-1681-4D26-B8DE-2815C75F78B9Q51160398-AC3C24E5-FEFD-42C8-89DE-B2B61AF2A0E2Q54802628-23655B62-9332-4702-A20D-844D0A37CDA1Q56336262-1243B101-8CD0-421D-9BDC-55300AEB8B42Q56424007-121367C7-7221-4E2F-8D31-20D552059B45Q57023448-0142C138-1C5C-483F-8B76-05412272D0FFQ57041835-B54E898E-442A-4235-9035-6A56505CEE9EQ57061055-CC625339-DD62-4057-A793-E737EF794176Q57228684-F7DB9A70-9BC7-4C05-BF49-D629E9EDE4D7Q57228711-B5E96F3E-CA99-495B-9B4E-286C36149F62Q57228723-EAE21815-4B50-4AC4-A047-C09F3EF334F8Q57228730-350005B1-E5E7-4218-8663-EA768A65AAE2Q57437765-25A91277-AE2B-4373-9704-ED94CD264C33Q57750232-344D3A2F-FA0F-44DF-9711-B62D0CABC4CFQ58000612-2A6D48DB-5B99-4951-ACDC-D1C25390EA28Q58040263-66331195-A5EE-4748-AD57-AB9FCEEC2927Q58510097-1D97DBCB-043C-4F6F-9B9C-5864894591E4Q58643954-8771061D-902C-4161-9B0A-6AF4E48A0CE6Q59265119-F88E180E-41D3-47EC-AEB2-0D8695C948B5
P2860
Terrestrial invertebrates as bioindicators: an overview of available taxonomic groups
description
wetenschappelijk artikel
@nl
наукова стаття, опублікована у квітні 2013
@uk
name
Terrestrial invertebrates as bioindicators: an overview of available taxonomic groups
@en
Terrestrial invertebrates as bioindicators: an overview of available taxonomic groups
@nl
type
label
Terrestrial invertebrates as bioindicators: an overview of available taxonomic groups
@en
Terrestrial invertebrates as bioindicators: an overview of available taxonomic groups
@nl
prefLabel
Terrestrial invertebrates as bioindicators: an overview of available taxonomic groups
@en
Terrestrial invertebrates as bioindicators: an overview of available taxonomic groups
@nl
P2860
P50
P1476
Terrestrial invertebrates as bioindicators: an overview of available taxonomic groups
@en
P2860
P2888
P304
P356
10.1007/S10841-013-9565-9
P577
2013-04-07T00:00:00Z