Jorg-Peter Schnitzler

Overview

Explore the profile of Jorg-Peter Schnitzler including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 113

Citations 2442

Followers 0

Related Specialties

Biology

Physiology

Environmental Health

Top 10 Co-Authors

Andrea Ghirardo

Ina Zimmer

Maaria Rosenkranz

Andrea Polle

Heinz Rennenberg

Philippe Schmitt-Kopplin

Jurgen Kreuzwieser

Francesco Loreto

Jorg Durner

Andreas Albert

Published In

Plant Physiol

Plant Cell Environ

New Phytol

Front Plant Sci

Tree Physiol

Affiliations

Soon will be listed here.

Recent Articles

Blumeria hordei affects volatile emission of susceptible and resistant barley plants and modifies the defense response of recipient plants

Laupheimer S, Ghirardo A, Kurzweil L, Weber B, Stark T, Dawid C, et al.

Physiol Plant . 2024 Dec; 176(6):e14646. PMID: 39648862

The barley powdery mildew disease caused by the biotrophic fungus Blumeria hordei (Bh) poses enormous risks to crop production due to yield and quality losses. Plants and fungi can produce...

Integration of fungal transcriptomics and metabolomics provides insights into the early interaction between the ORM fungus Tulasnella sp. and the orchid Serapias vomeracea seeds

De Rose S, Sillo F, Ghirardo A, Perotto S, Schnitzler J, Balestrini R

IMA Fungus . 2024 Oct; 15(1):31. PMID: 39456087

In nature, germination of orchid seeds and early plant development rely on a symbiotic association with orchid mycorrhizal (ORM) fungi. These fungi provide the host with the necessary nutrients and...

The decision for or against mycoparasitic attack by Trichoderma spp. is taken already at a distance in a prey-specific manner and benefits plant-beneficial interactions

Stange P, Kersting J, Sivaprakasam Padmanaban P, Schnitzler J, Rosenkranz M, Karl T, et al.

Fungal Biol Biotechnol . 2024 Sep; 11(1):14. PMID: 39252125

Background: The application of plant-beneficial microorganisms as bio-fertilizer and biocontrol agents has gained traction in recent years, as both agriculture and forestry are facing the challenges of poor soils and...

Air monitoring by nanopore sequencing

Reska T, Pozdniakova S, Borras S, Perlas A, Sauerborn E, Canas L, et al.

ISME Commun . 2024 Jul; 4(1):ycae099. PMID: 39081363

While the air microbiome and its diversity are essential for human health and ecosystem resilience, comprehensive air microbial diversity monitoring has remained rare, so that little is known about the...

Jasmonic acid and heat stress induce high volatile organic compound emissions in Picea abies from needles, but not from roots

Meischner M, Dumberger S, Daber L, Haberstroh S, Kreuzwieser J, Schnitzler J, et al.

Tree Physiol . 2024 May; PMID: 38795340

Plants emit diverse volatile organic compounds (VOCs) from their leaves and roots for protection against biotic and abiotic stress. An important signaling cascade activated by aboveground herbivory is the jasmonic...

Interaction with the entomopathogenic fungus influences tomato phenome and promotes resistance to infection

Russo A, Winkler J, Ghirardo A, Monti M, Pollastri S, Ruocco M, et al.

Front Plant Sci . 2024 Jan; 14:1309747. PMID: 38173923

Plants are central to complex networks of multitrophic interactions. Increasing evidence suggests that beneficial microorganisms (BMs) may be used as plant biostimulants and pest biocontrol agents. We investigated whether tomato...

Part-night exposure to artificial light at night has more detrimental effects on aphid colonies than fully lit nights

Heinen R, Sanchez-Mahecha O, Bezemer T, Dominoni D, Knappe C, Kollmann J, et al.

Philos Trans R Soc Lond B Biol Sci . 2023 Oct; 378(1892):20220357. PMID: 37899021

Artificial light at night (ALAN) threatens natural ecosystems globally. While ALAN research is increasing, little is known about how ALAN affects plants and interactions with other organisms. We explored the...

Blue-green fluorescence during hypersensitive cell death arises from phenylpropanoid deydrodimers

Kanawati B, Bertic M, Moritz F, Habermann F, Zimmer I, Mackey D, et al.

Plant Direct . 2023 Sep; 7(9):e531. PMID: 37705693

Infection of Arabidopsis with avirulent and exposure to nitrogen dioxide (NO) both trigger hypersensitive cell death (HCD) that is characterized by the emission of bright blue-green (BG) autofluorescence under UV...

Automatization of metabolite extraction for high-throughput metabolomics: case study on transgenic isoprene-emitting birch

Bertic M, Zimmer I, Andres-Montaner D, Rosenkranz M, Kangasjarvi J, Schnitzler J, et al.

Tree Physiol . 2023 Jul; 43(10):1855-1869. PMID: 37418159

Metabolomics studies are becoming increasingly common for understanding how plant metabolism responds to changes in environmental conditions, genetic manipulations and treatments. Despite the recent advances in metabolomics workflow, the sample...

10.

Inter-laboratory comparison of plant volatile analyses in the light of intra-specific chemodiversity

Eckert S, Eilers E, Jakobs R, Anaia R, Aragam K, Bloss T, et al.

Metabolomics . 2023 Jun; 19(7):62. PMID: 37351733

Introduction: Assessing intraspecific variation in plant volatile organic compounds (VOCs) involves pitfalls that may bias biological interpretation, particularly when several laboratories collaborate on joint projects. Comparative, inter-laboratory ring trials can...