Phytopathogenic Mollicutes
SCOPUS
  • Year: 2023
  • Volume: 13
  • Issue: 1

Development of multilevel monitoring systems for the identification of phytoplasma diseases in German viticultural areas

  • Author:
  • Barbara Jarausch1,*, Elias Alisaac2, Petra Schumacher3, Pascal Gauweiler3, Robin Gruna3, Laura Zabawa4, Lasse Klingbeil4, Sonja Rechkemmer5, Wolfgang Jarausch6, Michael Maixner1, Anna Kicherer2
  • Total Page Count: 2
  • Page Number: 133 to 134

1Julius Kuhn-Institute, Institute for Plant Protection in Fruit crops and Viticulture, Siebeldingen, Germany

2Julius Kuhn-Institute, Institute for Grapevine Breeding, Siebeldingen, Germany

3Fraunhofer Institute of Optronics, System Technologies and Image Exploitation, Karlsruhe, Germany

4University of Bonn, Institute of Geodesy and Geoinformation, Bonn, Germany

5State Research Institute for Viticulture and Pomiculture, Weinsberg, Germany

6RLP Agro Science, Neustadt an der Weinstrasse, Germany

*Corresponding author e-mail: Barbara Jarausch (barbara.jarausch@julius-kuehn.de)

Online published on 23 May, 2023.

Abstract

“Flavescence doree” (FD) and “bois noir” (BN) are the most important phytoplasma diseases of grapevine. While BN is widespread in German winegrowing regions, only one single grapevine plant infected with FD phytoplasma has been reported and eradicated in 2020. Although the main vector of FD, Scaphoideus titanus, is not present in Germany, the FD phytoplasma is classified as quarantine pest because of its epidemic potential and a systematic monitoring of the disease and the vector is mandatory in Germany. Furthermore, a non-epidemic strain Palatinate grapevine yellows (PGY), with the same symptomatology as FD and BN is present in Germany. For large scale monitoring digital multilevel monitoring systems for grapevine yellows (GY) are being developed. Reference plots with infection by either BN or PGY in risk zones in southwestern Germany and Wurttemberg have been visually monitored and symptomatic grapevines were analysed by molecular means. In parallel, the same samples were examined with different sensor-based methods to define a correlation between phytoplasma presence and specific spectral signatures. A spectral distinction to similar symptoms due to virus infection, insect damage, and nutritional deficiencies was investigated for the system validation.

Keywords

Grapevine yellows, Multispectral analysis, Hyperspectral analysis, Remote sensing