Journal of Plant EcologyJan 13

Fangling Ma et al. found that #SoilChemistry exerts a more significant influence on bacterial responses to nitrogen disturbances than #RootExudates.

#NitrogenAddition | #CessationOfNAddition | #Bacteria | #Life_historyStrategies | #Plant_microbialInteractions | #RootTraits

https://doi.org/10.1093/jpe/rtaf107

Journal of Plant EcologyDec 28

๐Ÿ”Ž Historical nitrogen (N) enrichment โžก๏ธ Soil microbial communities: Effects & regulatory mechanisms

Results:
#SoilChemistry exerts a more significant influence on bacterial responses to nitrogen disturbances than #RootExudates.

#NitrogenAddition | #EssationofNAddition | #Bacteria | #Life_historyStrategies | #Plant_microbialInteractions | #RootTraits

https://doi.org/10.1093/jpe/rtaf107

Journal of Plant EcologyNov 21, 2025

ใ€๐ŸŽ‰Latest accepted articleใ€‘
#RootExudates increase #MicrobialBiomass but decrease #Diversity and #Richness: a #Meta_analysis

#MicrobialStructure

https://doi.org/10.1093/jpe/rtaf187

Root exudates increase microbial biomass but decrease diversity and richness: a meta-analysis

Abstract. While plant root exudates play a crucial role in regulating soil microbial communities, their complex composition, low concentration and degradab

OUP Academic
Journal of Plant EcologySep 13, 2025

Yanwen Bo et al. investigated the #LittleEffects of #SolidagoCanadensis, a common #InvasivePlants in China, on #SoilMicrobialCommunities under natural conditions.

#Allelopathy | #RootExudates | #High_throughputSequencing

https://doi.org/10.1093/jpe/rtaf017

Journal of Plant EcologyJul 25, 2025

ใ€๐ŸŽ‰Latest accepted articleใ€‘
#SoilChemistry exerts a more significant influence on bacterial responses to nitrogen disturbances than #RootExudates

#NitrogenAddition | #CessationOfNitrogenAddition | #Bacteria | #Life_historyStrategies | #Plant_microbialInteractions | #RootTraits

https://doi.org/10.1093/jpe/rtaf107

NIOO-KNAWJun 27, 2025
New publication: Foliar Herbivory Suppresses Arbuscular Mycorrhizal Colonisation by Weakening Symbiosis Signalling in Root Exudates. #arbuscularmycorrhizalfungi #flavonoids #insectherbivory #biodiversity #rootexudates
https://doi.org/10.1111/pce.70024
PLOS BiologyApr 26, 2024
Plants secrete #RootExudates into the #rhizosphere to attract microbes. @albapacmo &co show that #barley genotype exerts multi-level selective pressure on soil #Pseudomonas, affecting abundance, genotype & gene expression @JohnInnesCentre #PLOSBiology https://plos.io/4aQX4Oy
The genotype of barley cultivars influences multiple aspects of their associated microbiota via differential root exudate secretion

Plants secrete root exudates into the rhizosphere to attract beneficial microbes. This study shows that barley genotype exerts multi-level selective pressure on the soil Pseudomonas population, affecting overall abundance, genotype and individual genetic features as well as expression of specific genes.

Show threadPeer Community JournalMar 14, 2023
@PeerCommunityIn Now published in Peer Community Journal, #microbiology section: Comparative genomics and transcriptomic response to #rootexudates of six rice root-associated #Burkholderia sensu lato species https://doi.org/10.24072/pcjournal.252
Comparative genomics and transcriptomic response to root exudates of six rice root-associated Burkholderia sensu lato species

Peer Community InMar 2, 2023
First #preprint #OpenScience #PeerReview and recommended by #PCI_Microbiol โœจ Wallner A, Klonowska A, Guigard L, King E, Rimbault I, Ngonkeu E, Nguyen P, Bรฉna G, Moulin L (2022) Comparative genomics and transcriptomic response to #rootexudates of six rice root-associated #Burkholderia sensu lato species. #BioRxiv #microbiology https://doi.org/10.1101/2022.10.04.510755