ProfessorsProfessors of Friedrich-Schiller-Universität JenaMatthew T. Agler

Matthew T. Agler

Friedrich-Schiller-Universität Jena

H-index: 18

Europe-Germany

About Matthew T. Agler

Matthew T. Agler, With an exceptional h-index of 18 and a recent h-index of 15 (since 2020), a distinguished researcher at Friedrich-Schiller-Universität Jena, specializes in the field of Microbial Ecology, Microbial Interactions, Plant-Microbe Interactions.

His recent articles reflect a diverse array of research interests and contributions to the field:

Beyond defense: Glucosinolate structural diversity shapes recruitment of a metabolic network of leaf-associated bacteria

Cross-feeding niches among commensal leaf bacteria are shaped by the interaction of strain-level diversity and resource availability

The Leaf Microbiome of Arabidopsis Displays Reproducible Dynamics and Patterns throughout the Growing Season

Leaf bacterial community structure and variation in wild ruderal plants are shaped by the interaction of host species and defense chemistry with environment

Life on leaves: uncovering temporal dynamics in Arabidopsis’ leaf microbiota

Niche separation in cross-feeding sustains bacterial strain diversity across nutrient environments and may increase chances for survival in nutrient-limited leaf apoplasts

Obtaining deeper insights into microbiome diversity using a simple method to block host and nontargets in amplicon sequencing

Matthew T. Agler Information

University	Friedrich-Schiller-Universität Jena
Position	Plant Microbiosis Lab Dept. of Microbiology Jena Germany
Citations(all)	4151
Citations(since 2020)	2989
Cited By	2371
hIndex(all)	18
hIndex(since 2020)	15
i10Index(all)	22
i10Index(since 2020)	18
Email	Access Email
University Profile Page	Friedrich-Schiller-Universität Jena
Google Scholar	View Google Scholar Profile

Matthew T. Agler Skills & Research Interests

Microbial Ecology

Microbial Interactions

Plant-Microbe Interactions

Top articles of Matthew T. Agler

Title	Journal	Author(s)	Publication Date
Beyond defense: Glucosinolate structural diversity shapes recruitment of a metabolic network of leaf-associated bacteria	bioRxiv	Kerstin Unger Syed Ali Komail Raza Teresa Mayer Michael Reichelt Johannes Stuttmann ...	2023
Cross-feeding niches among commensal leaf bacteria are shaped by the interaction of strain-level diversity and resource availability	The ISME Journal	Mariana Murillo-Roos Hafiz Syed M Abdullah Mossaab Debbar Nico Ueberschaar Matthew T Agler	2022/9
The Leaf Microbiome of Arabidopsis Displays Reproducible Dynamics and Patterns throughout the Growing Season	mbio	Juliana Almario Maryam Mahmoudi Samuel Kroll Mathew Agler Aleksandra Placzek ...	2022/6/28
Leaf bacterial community structure and variation in wild ruderal plants are shaped by the interaction of host species and defense chemistry with environment	bioRxiv	Teresa Mayer Michael Reichelt Jonathan Gershenzon Matthew Agler	2022/3/16
Life on leaves: uncovering temporal dynamics in Arabidopsis’ leaf microbiota	bioRxiv	Juliana Almario Maryam Mahmudi Samuel Kroll Mathew Agler Aleksandra Placzek ...	2021/7/6
Niche separation in cross-feeding sustains bacterial strain diversity across nutrient environments and may increase chances for survival in nutrient-limited leaf apoplasts	bioRxiv	Mariana Murillo-Roos Hafiz Syed M Abdullah Mossaab Debbar Nico Ueberschaar Matthew T Agler	2021/11/7
Obtaining deeper insights into microbiome diversity using a simple method to block host and nontargets in amplicon sequencing	Molecular ecology resources	Teresa Mayer Alfredo Mari Juliana Almario Mariana Murillo‐Roos Hafiz Syed M. Abdullah ...	2021/8