REFERENZEN

          Publikationen in
          wissenschaftlichen
          Journalen
          mit Beiträgen von N-LAB Staff
                     sortiert nach Relevanz

Landscape perspectives on agricultural intensification and biodiversity–ecosystem service management

Tscharntke T et al. (2005)

Ecology Letters

 

Landscape structure and biological control in agroecosystems

Thies C & Tscharntke T (1999)

Science

 

Effects of landscape context on herbivory and parasitism at different spatial scales

Thies C et al. (2003)

Oikos

 

Landscape moderation of biodiversity patterns and processes ‐ eight hypotheses

Tscharntke T et al. (2012)

Biological Reviews

 

Vulnerarability of forests under climate change – biotic disturbances and biogeochemical consequences.

Thies C & L-M-Arnold A (2019)

Geo-Öko

 

The effectiveness of flower strips and hedgerows on pest control, pollination services and crop yield: a quantitative synthesis

Albrecht M et al. (2020)

Ecology Letters

 

Scale‐dependent effects of landscape context on three pollinator guilds

Steffan-Dewenter et al. (2002)

Ecology

 

Persistent negative effects of pesticides on biodiversity and biological control potential on European farmland

Geiger F et al. (2010)

Basic and Applied Ecology

 

The interplay of landscape composition and configuration: new pathways to manage functional biodiversity and agroecosystem services across Europe

Martin EA et al. (2019)

Ecology Letters

 

The landscape context of cereal aphid–parasitoid interactions

Thies C et al. (2005)

Proceedings of the Royal Society of London

 

The relationship between agricultural intensification and biological control: experimental tests across Europe

Thies C et al. (2011)

Ecological Applications

 

Forest defoliator pests alter carbon and nitrogen cycles

L-M-Arnold A et al. (2016)

Royal Society Open Science

 

Contribution of small habitat fragments to consevation of insect communities of grassland-cropland landscapes

Tscharntke T et al. (2002)

Ecological Applications

 

Scaling properties of multivariate landscape structure

Purtauf T et al. (2005)

Ecological Indicators

 

Beta diversity at different spatial scales: plant communities in organic and conventional agriculture

Gabriel D et al. (2006)

Ecological Applications

 

Characteristics of insect populations on habitat fragments: a mini review

Tscharntke T et al. (2002)

Ecological Research

 

Relative importance of predators and parasitoids for cereal aphid control

Schmidt MH et al. (2003)

Proceedings of the Royal Society of London

 

The effects of landscape complexity on arable weed species diversity in organic and conventional farming

Roschewitz I et al. (2005)

Journal of Applied Ecology

 

Agricultural landscape simplification reduces natural pest control: A quantitative synthesis

Rusch A et al. (2016)

Agriculture, Ecosystems & Environment

 

Differential effects of landscape and management on diversity and density of ground‐dwelling farmland spiders

Schmidt MH et al. (2005)

Journal of Applied Ecology

 

Farming practices change food web structures in cereal aphid–parasitoid–hyperparasitoid communities

Lohaus K et al. (2013)

Oecologia

 

Landscape composition influences farm management effects on farmland birds in winter: a pan-European approach

Geiger F et al. (2011)

Agriculture, Ecosystems & Environment

 

The β‐diversity of arable weed communities on organic and conventional cereal farms in two contrasting regions

Armengot L et al. (2012)

Applied Vegetation Science

 

Increased forest soil CO2 and N2O emissions during insect infestation

Grüning MM et al. (2018)

Forests

 

Mixed effects of organic farming and landscape complexity on farmland biodiversity and biological control potential across Europe

Winqvist C et al. (2005)

Journal of Applied Ecology

 

Agricultural intensification and biodiversity partitioning in European landscapes comparing plants, carabids, and birds

Flohre A et al. (2011)

Ecological Applications

 

Food web structure and biocontrol in a four-trophic level system across a landscape complexity gradient

Gagic V et al. (2011)

Proceedings of the Royal Society of London

 

Interannual landscape changes influence plant–herbivore–parasitoid interactions

Thies C et al. (2008)

Agriculture, Ecosystems & Environment

 

Landscape context of organic and conventional farms: influences on carabid beetle diversity

Purtauf T et al. (2016)

Agriculture, Ecosystems & Environment

 

Increasing syrphid fly diversity and density in sown flower strips within simple vs. complex landscapes

Hänke S et al. (2009)

Journal of Applied Ecology

 

The influence of landscape context and farming practices on parasitism of cereal aphids

Roschewitz I et al. (2005)

Agriculture, Ecosystems, and Environment

 

Local diversity of arable weeds increases with landscape complexity

Gabriel D et al. (2005)

Perspectives in Plant Ecology, Evolution and Systematics

 

Are landscape complexity and farm specialisation related to land-use intensity of annual crop fields?

Roschewitz I et al. (2005)

Agriculture, Ecosystems & Environment

 

Contrasting responses of arable spiders to the landscape matrix at different spatial scales

Schmidt MH et al. (2008)

Journal of Applied Ecology

 

Insectivorous birds disrupt biological control of cereal aphids

Grass I et al. (2017)

Ecology

 

Small mammals in agricultural landscapes: opposing responses to farming practices and landscape complexity

Fischer C et al. (2011)

Biological Conservation 

 

Mixed effects of landscape structure and farming practice on bird diversity

Fischer C et al. (2011)

Agriculture, Ecosystems & Environment

 

Mixed effects of landscape complexity and farming practice on weed seed removal

Fischer C et al. (2011)

Perspectives in Plant Ecology, Evolution and Systematics

 

Species' traits influence ground beetle responses to farm and landscape level agricultural intensification in Europe

Winqvist C. et al. (2014)

Journal of Insect Ecology

 

Spatial distribution of flower vs. honeydew resources in cereal fields may affect aphid parasitism

Vollhardt IMG et al. (2010)

Biological Control

 

Spatial aggregation facilitates coexistence and diversity of wild plant species in field margins

Wassmuth BE et al. (2009)

Perspectives in Plant Ecology, Evolution and Systematics

 

Crop–noncrop spillover: arable fields affect trophic interactions on wild plants in surrounding habitats

Gladbach DJ et al. (2011)

Oecologia

 

Taxonomic and functional diversity of farmland bird communities across Europe: effects of biogeography and agricultural intensification

Guerrero I et al. (2011)

Biodiversity and Conservation

 

Enhancing rape pollen beetle parasitism within sown flower fields along a landscape complexity gradient

Scheid BE et al. (2011)

Agricultural and Forest Ecology

 

Nectar vs. honeydew feeding by aphid parasitoids: does it pay to have a discriminating palate?

Vollhardt IMG et al. (2010)

Entomologia Experimentalis

 

Changes in herbivore control in arable fields by detrital subsidies depend on predator species and vary in space

Von Berg K et al. (2010)

Oecologia

 

Top‐down and bottom‐up effects on the spatiotemporal dynamics of cereal aphids: testing scaling theory for local density

Hambäck PA et al. (2007)

Oikos

 

Landscape complexity is not a major trigger of species richness and food web structure of European cereal aphid parasitoids

Hawro V et al. (2015)

BioControl

 

Community variability in aphid parasitoids versus predators in response to agricultural intensification

Gagic V et al. (2014)

Insect Conservation and Diversity

 

Cereal aphid control by generalist predators in presence of belowground alternative prey: complementary predation as affected by prey density

Von Berg K et al. (2009)

Pedobiologia

 

Spiders in space: how landscape wide movement of generalist predators influences local density, species richness, and biocontrol

Schmidt MH et al. (2005)

Biological Control

 

 

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