about
Alien species in a warmer world: risks and opportunitiesSpecies-specific traits plus stabilizing processes best explain coexistence in biodiverse fire-prone plant communities.Country, cover or protection: what shapes the distribution of red deer and roe deer in the Bohemian Forest Ecosystem?Intraspecific variation buffers projected climate change impacts on Pinus contortaBiotic interactions in the face of climate change: a comparison of three modelling approaches.Models for forest ecosystem management: a European perspective.Natural enemy interactions constrain pest control in complex agricultural landscapes.Adding structure to land cover - using fractional cover to study animal habitat useIntegrating movement ecology with biodiversity research - exploring new avenues to address spatiotemporal biodiversity dynamics.Statistical inference for stochastic simulation models--theory and application.Road traffic and nearby grassland bird patterns in a suburbanizing landscape.Scale-dependent effects of landscape composition and configuration on natural enemy diversity, crop herbivory, and yields.Extensive management of field margins enhances their potential for off-site soil erosion mitigation.Moving in the Anthropocene: Global reductions in terrestrial mammalian movements.Classification of rare land cover types: Distinguishing annual and perennial crops in an agricultural catchment in South Korea.Mechanistic modelling of animal dispersal offers new insights into range expansion dynamics across fragmented landscapesMethods to account for spatial autocorrelation in the analysis of species distributional data: a reviewClimatic turning point for beech and oak under climate change in Central EuropeCurrent measures for distance decay in similarity of species composition are influenced by study extent and grain sizeModelling Forest α-Diversity and Floristic Composition — On the Added Value of LiDAR plus Hyperspectral Remote SensingComparing modelling approaches at two levels of biological organisation - Climate change impacts on selected Natura 2000 habitatsProjection of climatic suitability for Aedes albopictus Skuse (Culicidae) in Europe under climate change conditionsCollinearity: a review of methods to deal with it and a simulation study evaluating their performanceHow can we bring together empiricists and modellers in functional biodiversity research?Using dynamic vegetation models to simulate plant range shiftsUnderstanding species and community response to environmental change – A functional trait perspectiveDo small-grain processes matter for landscape scale questions? Sensitivity of a forest landscape model to the formulation of tree growth rateDid soil development limit spruce (Picea abies) expansion in the Central Alps during the Holocene? Testing a palaeobotanical hypothesis with a dynamic landscape modelLong-term effects of increment coring on Norway spruce mortalityEnvironmental determinants of lightning-v.human-induced forest fire ignitions differ in a temperate mountain region of SwitzerlandDisappearing refuges in time and space: how environmental change threatens species coexistenceGrowth–mortality relationships as indicators of life-history strategies: a comparison of nine tree species in unmanaged European forestsPredicting tree mortality from growth data: how virtual ecologists can help real ecologistsPredicting tree death for Fagus sylvatica and Abies alba using permanent plot dataModeling the Impact of Climate and Vegetation on Fire Regimes in Mountain LandscapesOptimisation of tree mortality models based on growth patternsThe virtual ecologist approach: simulating data and observersThe relative importance of seed competition, resource competition and perturbations on community structureDaily Based Morgan–Morgan–Finney (DMMF) Model: A Spatially Distributed Conceptual Soil Erosion Model to Simulate Complex Soil Surface ConfigurationsHabitat selection by a large herbivore at multiple spatial and temporal scales is primarily governed by food resources
P50
Q22162492-9703D9BA-9888-4891-B3B7-7CF107B52D97Q27317358-6B836E42-C659-40BB-B271-28A2DCA688F5Q28652256-3EFA813D-1562-4885-B3DD-20B037353DBEQ28705766-8BF66B24-3AF8-47EA-930F-60E7F582D580Q30581350-93274E73-3013-49C7-8CDF-AA9FEE9A87DCQ31133966-48E61681-26DD-493D-AAC6-B3055DC8D11FQ34628237-6A2D4E9B-2ED6-497A-892A-0F9DCC9803DDQ35111590-02A412EA-F180-40DF-A934-0D73F88A4D30Q35111635-67E10507-CE3C-4E74-8E9B-0685DBDAE3C0Q37890472-7FA38BE8-1A51-4565-AB54-41D23FDD7F81Q39601484-15598BE0-0204-4B1E-8FE1-B6720CA1D5E9Q39746190-B1CC997D-CDF5-42F7-8720-CB6C64BE3543Q46794651-2C687528-4126-4848-8C1A-FDF660A59F7CQ47556311-5AF5C09B-D80E-4F5F-BE56-19592A55C12CQ47556462-6EC4ECCE-2860-43C9-B32D-8B0CDAC09EB9Q56444108-DC905DF1-2F3D-4158-BEDD-99AD00CD2DC6Q56817176-57E0D879-B934-4FEE-A4A6-6D295528F403Q56879783-93BF11FB-3747-4196-85F7-A14AF076212FQ56879800-BF74ECBE-2BAB-459B-A9B7-C228DB2AD8C7Q56879810-F4EC591A-F55C-4B3D-9C58-312AA732DAB6Q56879818-28532C3E-7D35-4AF8-8D3D-568BAFF45CFAQ56879826-3C46EB48-7E05-4A7A-BADD-F301E8FC3767Q56923875-D6FD5574-6E76-4F94-9530-C73DDFDCF3AFQ57013056-76D82A20-BBC2-46F8-8AF1-061915DF6292Q57054738-254BDE5C-F205-4AC1-9C0F-BF2101E0C7B8Q57060332-7A731FBC-013B-4BCB-AAE8-A8654BCD105FQ57069260-9BE5F2E8-9283-4B3C-9142-7514BBBA4D5BQ57069305-56FDAAD5-633A-49B3-BB76-CAE82692605BQ57069311-EB287CCA-5288-427D-B5DA-E623CD9C32F4Q57069333-6B53DA96-D3B8-49B3-8FCC-776A508F4108Q57069341-615A1DE3-8278-4D9B-97A6-D0F75C39C106Q57069376-021B87C3-D59E-4502-AE59-6C808016BCE1Q57069379-1D5BE06A-7A1E-44E4-9CCC-4EC89DA84B2FQ57069401-53E2A5A0-5EF6-46A9-88B7-3FA118BD62F7Q57069436-06771F9B-719A-4809-93B2-21B6FB6EF8A3Q57069442-A77DB45C-715D-4D80-AAB3-FCBADA6174F3Q57123835-5CD0F542-3EA6-4B34-8F10-BF7DB66E147BQ57261552-DAA9FBD2-CE0F-4DD3-8018-86FEEA3F9EA1Q57528444-B333737E-B91E-4CA7-9E1D-04D01FB8A3A6Q58478866-38571FCE-62D4-4E58-ACA6-BE1A4E7063AC
P50
description
onderzoeker
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
Björn Reineking
@ast
Björn Reineking
@en
Björn Reineking
@es
Björn Reineking
@nl
type
label
Björn Reineking
@ast
Björn Reineking
@en
Björn Reineking
@es
Björn Reineking
@nl
prefLabel
Björn Reineking
@ast
Björn Reineking
@en
Björn Reineking
@es
Björn Reineking
@nl
P214
P106
P21
P214
P31
P4012
P496
0000-0001-5277-9181
P7859
viaf-190971156