Author:
Wallis Christopher M.,Gorman Zachary
Abstract
AbstractDrought and Pierce’s disease are common throughout many grapevine-growing regions such as Mexico and the United States. Yet, how ongoing water deficits affect infections of Xylella fastidiosa, the causal agent of Pierce’s disease, is poorly understood. Symptoms were observed to be significantly more severe in water-stressed plants one month after X. fastidiosa inoculation, and, in one experiment, titers were significantly lower in water-stressed than well-watered grapevines. Host chemistry examinations revealed overall amino acid and phenolic levels did not statistically differ due to water deficits, but sugar levels were significantly greater in water stressed than well-watered plants. Results highlight the need to especially manage Pierce’s disease spread in grapevines experiencing drought.
Funder
U.S. Department of Agriculture-Agricultural Research Service
Publisher
Springer Science and Business Media LLC
Reference21 articles.
1. Sorensen JT, Gill RJ. A range extension of Homalodisca coagulata (Say) (Hemiptera: Clypeorrhyncha: Cicadellidae) to southern California. Pan-Pacific Entomol. 1996;72:160–1.
2. Bernardo S, Dinis L, Machado N, Moutinho-Pereira J. Grapevine abiotic stress assessment and search for sustainable adaptation strategies in Mediterranean-like climates. A review. Agron Sustain Develop. 2018;38:66.
3. Gambetta GA, Herrera JC, Dayner S, Feng Q, Hochbery U, Castellarin SD. The physiology of drought stress in grapevine: towards an integrative definition of drought tolerance. J Experi Bot. 2020;71:4658–76.
4. Wallis CM, Chen J. Grapevine phenolic compounds in xylem sap and tissues are significantly altered during infection by Xylella fastidiosa. Phytopathology. 2012;102:816–26.
5. Kwon JH, Kim SB, Park KH, Lee MW. Antioxidative and anti-inflammatory effects of phenolic compounds from the roots of Ulmus macrocarpa. Arch Pharm Res. 2011;34:1459–66.