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
person
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
agent
The differential impact of a native and a non-native ragwort species (Senecioneae) on the first and second trophic level of the rhizosphere food webQuantifying global soil carbon losses in response to warmingSoil networks become more connected and take up more carbon as nature restoration progressesCompetition and predation as possible causes of bacterial rarityRelationships between fungal community composition in decomposing leaf litter and home-field advantage effectsCoordinated responses of soil communities to elevation in three subarctic vegetation typesNatural epigenetic variation contributes to heritable flowering divergence in a widespread asexual dandelion lineageRange-expansion effects on the belowground plant microbiomeCommunity-level interactions between plants and soil biota during range expansionIntegrating quantitative morphological and qualitative molecular methods to analyse soil nematode community responses to plant range expansionDisentangling the genetic basis of rhizosphere microbiome assembly in tomatoBelowground Consequences of Intracontinental Range-Expanding Plants and Related Natives in Novel EnvironmentsRelatedness with plant species in native community influences ecological consequences of range expansionsThe epigenetic footprint of poleward range-expanding plants in apomictic dandelionsDrought legacy effects on the composition of soil fungal and prokaryote communitiesSoil microbial legacies differ following drying-rewetting and freezing-thawing cyclesWidespread Genomic Incompatibilities in Caenorhabditis elegansField cricket genome reveals the footprint of recent, abrupt adaptation in the wildRegulatory network construction in Arabidopsis by using genome-wide gene expression quantitative trait lociGenetical Genomics Reveals Large Scale Genotype-By-Environment Interactions in Arabidopsis thalianaDynamic Response of Pseudomonas putida S12 to Sudden Addition of Toluene and the Potential Role of the Solvent Tolerance Gene trgINematode endogenous small RNA pathwaysERECTA controls low light intensity-induced differential petiole growth independent of phytochrome B and cryptochrome 2 action in Arabidopsis thalianaFungal root endophytes influence plants in a species-specific manner that depends on plant's growth stageEthylene-induced hyponastic growth in Arabidopsis thaliana is controlled by ERECTALoss-of-function of beta-catenin bar-1 slows development and activates the Wnt pathway in Caenorhabditis elegansA fitness assay for comparing RNAi effects across multiple C. elegans genotypesA rapid and massive gene expression shift marking adolescent transition in C. elegansLatitudinal variation in soil nematode communities under climate warming-related range-expanding and native plantsConstruction of a High-Density Genetic Map from RNA-Seq Data for an Arabidopsis Bay-0 x Shahdara RIL PopulationGenetic background modifies phenotypic and transcriptional responses in a C. elegans model of α-synuclein toxicityThe laboratory domestication of Caenorhabditis elegansGenotype-dependent lifespan effects in peptone deprived Caenorhabditis elegansPHYTOCHROME B and HISTONE DEACETYLASE 6 Control Light-Induced Chromatin Compaction in Arabidopsis thalianaTemporal dynamics of gene expression in heat-stressed Caenorhabditis elegansThe Arabidopsis bZIP transcription factor family-an updateFungi play a home matchGenetic variation for stress-response hormesis in C. elegans lifespanNatural Genetic Variation Influences Protein Abundances in C. elegans Developmental Signalling PathwaysThe interaction between genotype and maternal nutritional environments affects tomato seed and seedling quality
author
education
occupation
Assistant Professor (universitair docent)
type
label
sameAs
firstName
lastName
name
employeeId
externalPositions
workforce_id
staffOrganisationAssociations
visibility
Public - No restriction
@en
Publiek - Geen beperking
@nl
relatedLink
title
dr.
@en