« Previous AbstractThe Evolution of Endophagy in Herbivorous Insects    Next AbstractAssessing the Fate of an Aromatic Hydrocarbon Fluid in Agricultural Spray Applications Using the Three-Stage ADVOCATE Model Framework »

Planta

Title:		Leaf rust induced volatile organic compounds signalling in willow during the infection
Author(s):		Toome M; Randjarv P; Copolovici L; Niinemets U; Heinsoo K; Luik A; Noe SM;
Address:		"Institute of Agricultural and Environmental Sciences, Estonian University of Life Sciences, Tartu, Estonia"
Journal Title:		Planta
Year:		2010
Volume:		20100424
Issue:		1
Page Number:		235 - 243
DOI:		10.1007/s00425-010-1169-y
ISSN/ISBN:		1432-2048 (Electronic) 0032-0935 (Linking)
Abstract:		"Plants are known to emit volatile organic compounds (VOC) in response to various biotic or abiotic stresses. Although the VOC emission in the case of insect attacks is well described, there is only little known about the impact of pathogens on plant emission. In the present study, we used a willow-leaf rust system to describe the effects of a biotrophic fungal infection on the VOC emission pattern of willow leaves. We detected that isoprene emissions from rust-infected leaves decreased threefold compared to control. The total monoterpene emissions did not change although a stress-signalling compound (Z)-beta-ocimene showed an increase in infected plants on several days. The infection also increased the emission of sesquiterpenes and lipoxygenase products (LOX) by factors of 175-fold and 10-fold, respectively. The volatile emission signals showed two clear peaks during the experiment. At 6, 7 and 12 days post-infection (dpi), the relative volatile emission signal increased to about sixfold compared to uninfected plants. These time points are directly connected to rust infection since at 6 dpi the first rust pustules appeared on the leaves and at 12 dpi necrosis had developed around several pustules. We present correlations between LOX and sesquiterpene emission signals, which suggest at least two different steps in eliciting the volatile emission"
Keywords:		Fungi/*physiology Gas Chromatography-Mass Spectrometry Photosynthesis Plant Diseases Plant Leaves/*microbiology Salix/metabolism/*microbiology/physiology *Signal Transduction Volatile Organic Compounds/*metabolism;
Notes:		"MedlineToome, Merje Randjarv, Pille Copolovici, Lucian Niinemets, Ulo Heinsoo, Katrin Luik, Anne Noe, Steffen M eng Research Support, Non-U.S. Gov't Germany 2010/04/27 Planta. 2010 Jun; 232(1):235-43. doi: 10.1007/s00425-010-1169-y. Epub 2010 Apr 24"