TY  - CONF
AU  - Cvrković, Tatjana
AU  - Jović, Jelena
AU  - Jakovljević, Miljana
AU  - Krstić, Oliver
AU  - Marinković, Slavica
AU  - Mitrović, Milana
AU  - Tosevski, Ivo
PY  - 2024
UR  - https://plantarum.izbis.bg.ac.rs/handle/123456789/1214
AB  - “Flavescence dorée” (FD) is a European quarantine disease affecting grapevines,
associated with the “flavescence dorée” phytoplasma and transmitted by
the North American leafhopper, Scaphoideus titanus. This pathogen has a
significant impact on the major viticultural areas across Europe, as well as all
wine-producing regions in Serbia. The occurrence of S. titanus was initially
recorded in Serbian vineyards in 2002 (Magud and Toševski, 2004). However,
the high population density observed at that time suggests that the vector’s
presence likely dates back to the 1990s (Ivo Toševski, unpublished data).
Despite the extensive measures to contain the pathogen, the encompassing
disease and vector surveillance, the mandatory insecticidal treatments against
S. titanus, and the utilization of certified phytoplasma-free planting material,
the disease continues to spread. Presently, FD affects vineyards in all districts of
Serbia (Krstić et al., 2022). A recent two-year survey (2022-2023) on S. titanus
distribution in both wild and cultivated areas within vineyard ecosystems
revealed widespread prevalence of the vector across all grapevine-growing
regions in Serbia. High population densities were observed in districts where
Map-FD3 genotypes are common. These include grape-producing regions all
over Serbia where the autochthonous M51 genotype is dominant, hosted by
grapevine, along with reservoir plants Clematis vitalba and Ailanthus altissima.
Additionally, substantial S. titanus populations were registered in northern
Serbia, where multiple outbreaks of the M12 genotype occurred, and central
Serbia, where five new genotypes (M150-M154) were detected in grapevines,
indicating a high endemic potential for new outbreaks in these regions. Finally,
significant populations of the insect vector were discovered in riparian habitats
near rivers in Podunavlje and Mačva, where two “flavescence dorée” endemic genotypes of the Map-FD2 (M89 and M148) were found in grapevines (Krstić
et al., 2022). The current phytosanitary situation in Serbian vineyards provides
evidence that, despite measures implemented over the past two decades, there
has been no substantial reduction in the population density and spread of S.
titanus. Due to the high complexity of the “flavescence dorée” epidemiological
cycle caused by natural reservoir plants and native or introduced insect vectors,
linking natural habitats with adjacent vineyard ecosystems, managing ongoing
epidemics and preventing new outbreaks in the Balkans remains a challenge.
C3  - European workshop on "Flavescence dorée", Recent acquisitions and management strategies, 25-26 January 2024, Verona, Italy
T1  - Status of Scaphoideus titanus in Serbia vineyards two decades later
EP  - 42
SP  - 41
ER  - 

@conference{
author = "Cvrković, Tatjana and Jović, Jelena and Jakovljević, Miljana and Krstić, Oliver and Marinković, Slavica and Mitrović, Milana and Tosevski, Ivo",
year = "2024",
abstract = "“Flavescence dorée” (FD) is a European quarantine disease affecting grapevines,
associated with the “flavescence dorée” phytoplasma and transmitted by
the North American leafhopper, Scaphoideus titanus. This pathogen has a
significant impact on the major viticultural areas across Europe, as well as all
wine-producing regions in Serbia. The occurrence of S. titanus was initially
recorded in Serbian vineyards in 2002 (Magud and Toševski, 2004). However,
the high population density observed at that time suggests that the vector’s
presence likely dates back to the 1990s (Ivo Toševski, unpublished data).
Despite the extensive measures to contain the pathogen, the encompassing
disease and vector surveillance, the mandatory insecticidal treatments against
S. titanus, and the utilization of certified phytoplasma-free planting material,
the disease continues to spread. Presently, FD affects vineyards in all districts of
Serbia (Krstić et al., 2022). A recent two-year survey (2022-2023) on S. titanus
distribution in both wild and cultivated areas within vineyard ecosystems
revealed widespread prevalence of the vector across all grapevine-growing
regions in Serbia. High population densities were observed in districts where
Map-FD3 genotypes are common. These include grape-producing regions all
over Serbia where the autochthonous M51 genotype is dominant, hosted by
grapevine, along with reservoir plants Clematis vitalba and Ailanthus altissima.
Additionally, substantial S. titanus populations were registered in northern
Serbia, where multiple outbreaks of the M12 genotype occurred, and central
Serbia, where five new genotypes (M150-M154) were detected in grapevines,
indicating a high endemic potential for new outbreaks in these regions. Finally,
significant populations of the insect vector were discovered in riparian habitats
near rivers in Podunavlje and Mačva, where two “flavescence dorée” endemic genotypes of the Map-FD2 (M89 and M148) were found in grapevines (Krstić
et al., 2022). The current phytosanitary situation in Serbian vineyards provides
evidence that, despite measures implemented over the past two decades, there
has been no substantial reduction in the population density and spread of S.
titanus. Due to the high complexity of the “flavescence dorée” epidemiological
cycle caused by natural reservoir plants and native or introduced insect vectors,
linking natural habitats with adjacent vineyard ecosystems, managing ongoing
epidemics and preventing new outbreaks in the Balkans remains a challenge.",
journal = "European workshop on "Flavescence dorée", Recent acquisitions and management strategies, 25-26 January 2024, Verona, Italy",
title = "Status of Scaphoideus titanus in Serbia vineyards two decades later",
pages = "42-41"
}

Cvrković, T., Jović, J., Jakovljević, M., Krstić, O., Marinković, S., Mitrović, M.,& Tosevski, I.. (2024). Status of Scaphoideus titanus in Serbia vineyards two decades later. in European workshop on "Flavescence dorée", Recent acquisitions and management strategies, 25-26 January 2024, Verona, Italy, 41-42.

Cvrković T, Jović J, Jakovljević M, Krstić O, Marinković S, Mitrović M, Tosevski I. Status of Scaphoideus titanus in Serbia vineyards two decades later. in European workshop on "Flavescence dorée", Recent acquisitions and management strategies, 25-26 January 2024, Verona, Italy. 2024;:41-42..

Cvrković, Tatjana, Jović, Jelena, Jakovljević, Miljana, Krstić, Oliver, Marinković, Slavica, Mitrović, Milana, Tosevski, Ivo, "Status of Scaphoideus titanus in Serbia vineyards two decades later" in European workshop on "Flavescence dorée", Recent acquisitions and management strategies, 25-26 January 2024, Verona, Italy (2024):41-42.

TY  - CONF
AU  - Jović, Jelena
AU  - Cvrković, Tatjana
AU  - Krstić, Oliver
AU  - Mitrović, Milana
AU  - Jakovljević, Miljana
AU  - Marinković, Slavica
AU  - Toševski, Ivo
PY  - 2024
UR  - https://plantarum.izbis.bg.ac.rs/handle/123456789/1215
AB  - “Flavescence dorée” (FD) outbreaks in Serbian vineyards first emerged in the
early 2000s and were directly correlated with dense populations of the North
American insect vector Scaphoideus titanus. The FD phytoplasma associated
with the disease was first treated as alien and introduced, like it happens for
its insect vector. However, the genetic peculiarities of FD phytoplasma strains
from Serbia, as well as their occurrence in native alder trees in riparian areas
and clematis plants in vineyard surroundings and in natural habitats, proved
otherwise. Molecular data on the ecological properties of epidemiological
cycles driving the epidemic outbreaks of FD in Serbia today indicated the
importance of alders as reservoir plants for the epidemics (Krstić et al., 2022).
Riparian habitats hosting alder trees, alongside wild Vitis, Salix sp., clematis,
tree of heaven, and other FD phytoplasmas reservoir plants, were screened for
native leafhopper vectors as well as for Orientus ishidae, a newly established
vector of Asian origin in Serbia (Cvrković et al., 2021). Leafhopper Allygus
modestus and A. mixtus were commonly found in association with alders
in many sites, with the former being the dominant species. An established
population of O. ishidae feeding on alders was found in a single location of
riparian habitat in eastern Serbia. Among the analyzed leafhopper specimens,
using epidemiologically informative map gene typing, nearly all A. modestus
individuals were found carrying FD or -related phytoplasmas, while nearly
50% of O. ishidae were found infected at the same location. However,
A. modestus specimens had a lower phytoplasma load (Cq > 25) than O. ishidae
(Cq < 20 in 50% of infected individuals), even though they were collected in
the same period of the year. When comparing the map genotypes carried
by each of the putative vector species, A. modestus most often carried AldY genotypes, while O. ishidae was dominantly found harboring FD phytoplasma
genotypes of both Map-FD1 and FD2 clusters. The experimental verification
of the transmission capability and role in FD phytoplasma epidemiology for
each of the leafhopper species is under study.
C3  - European workshop on "Flavescence dorée", Recent acquisitions and management strategies, 25-26 January 2024, Verona, Italy
T1  - Insect vectors of "flavescence dorée" and related phytoplasmas in natural areas of riparian habitats in Serbia
EP  - 54
SP  - 53
ER  - 

@conference{
author = "Jović, Jelena and Cvrković, Tatjana and Krstić, Oliver and Mitrović, Milana and Jakovljević, Miljana and Marinković, Slavica and Toševski, Ivo",
year = "2024",
abstract = "“Flavescence dorée” (FD) outbreaks in Serbian vineyards first emerged in the
early 2000s and were directly correlated with dense populations of the North
American insect vector Scaphoideus titanus. The FD phytoplasma associated
with the disease was first treated as alien and introduced, like it happens for
its insect vector. However, the genetic peculiarities of FD phytoplasma strains
from Serbia, as well as their occurrence in native alder trees in riparian areas
and clematis plants in vineyard surroundings and in natural habitats, proved
otherwise. Molecular data on the ecological properties of epidemiological
cycles driving the epidemic outbreaks of FD in Serbia today indicated the
importance of alders as reservoir plants for the epidemics (Krstić et al., 2022).
Riparian habitats hosting alder trees, alongside wild Vitis, Salix sp., clematis,
tree of heaven, and other FD phytoplasmas reservoir plants, were screened for
native leafhopper vectors as well as for Orientus ishidae, a newly established
vector of Asian origin in Serbia (Cvrković et al., 2021). Leafhopper Allygus
modestus and A. mixtus were commonly found in association with alders
in many sites, with the former being the dominant species. An established
population of O. ishidae feeding on alders was found in a single location of
riparian habitat in eastern Serbia. Among the analyzed leafhopper specimens,
using epidemiologically informative map gene typing, nearly all A. modestus
individuals were found carrying FD or -related phytoplasmas, while nearly
50% of O. ishidae were found infected at the same location. However,
A. modestus specimens had a lower phytoplasma load (Cq > 25) than O. ishidae
(Cq < 20 in 50% of infected individuals), even though they were collected in
the same period of the year. When comparing the map genotypes carried
by each of the putative vector species, A. modestus most often carried AldY genotypes, while O. ishidae was dominantly found harboring FD phytoplasma
genotypes of both Map-FD1 and FD2 clusters. The experimental verification
of the transmission capability and role in FD phytoplasma epidemiology for
each of the leafhopper species is under study.",
journal = "European workshop on "Flavescence dorée", Recent acquisitions and management strategies, 25-26 January 2024, Verona, Italy",
title = "Insect vectors of "flavescence dorée" and related phytoplasmas in natural areas of riparian habitats in Serbia",
pages = "54-53"
}

Jović, J., Cvrković, T., Krstić, O., Mitrović, M., Jakovljević, M., Marinković, S.,& Toševski, I.. (2024). Insect vectors of "flavescence dorée" and related phytoplasmas in natural areas of riparian habitats in Serbia. in European workshop on "Flavescence dorée", Recent acquisitions and management strategies, 25-26 January 2024, Verona, Italy, 53-54.

Jović J, Cvrković T, Krstić O, Mitrović M, Jakovljević M, Marinković S, Toševski I. Insect vectors of "flavescence dorée" and related phytoplasmas in natural areas of riparian habitats in Serbia. in European workshop on "Flavescence dorée", Recent acquisitions and management strategies, 25-26 January 2024, Verona, Italy. 2024;:53-54..

Jović, Jelena, Cvrković, Tatjana, Krstić, Oliver, Mitrović, Milana, Jakovljević, Miljana, Marinković, Slavica, Toševski, Ivo, "Insect vectors of "flavescence dorée" and related phytoplasmas in natural areas of riparian habitats in Serbia" in European workshop on "Flavescence dorée", Recent acquisitions and management strategies, 25-26 January 2024, Verona, Italy (2024):53-54.