E. Ladurner scite author profile

-The delayed and acute toxicity of benomyl (Benlate), captan (Captan 50WP), iprodione (Rovral), propiconazole (Orbit), and neem oil (Trilogy) to two crop pollinators, A. mellifera and O. lignaria, was evaluated. Survival after contact and oral single exposure to high doses of the pesticides was compared to survival of controls with the dosing vehicle. LD 50 values at 24, 48 and 72 h from exposure were determined. Contact and oral exposure to benomyl and iprodione did not affect survival of any of the two species. Contact exposure to neem oil affected survival of A. mellifera. Orally administered propiconazole showed delayed and acute toxicity to both species. Captan severely limited survival of O. lignaria. The tested fungicides seemed to be safe to both bee species at the recommended rates, with the exception of captan to O. lignaria. To our knowledge, this is the first complete contact and oral toxicity test on an Osmia species.Osmia lignaria / Apis mellifera / toxicity / fungicide / LD 50

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Managing the vine mealybug, Planococcus ficus, through pheromone-mediated mating disruption

Lucchi

Suma

Ladurner³

et al. 2019

Environ Sci Pollut Res

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Eco-friendly pheromone dispensers—a green route to manage the European grapevine moth?

Lucchi

Ladurner²,

Iodice³

et al. 2018

Environ Sci Pollut Res

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The development of environmentally sustainable control strategies to fight insect pests is a key challenge nowadays. Pheromone-mediated mating disruption (MD) is based on the release of synthetic sex attractants into a crop, interfering with mate finding of a given pest species. However, a limited number of research items have been published on the optimization of MD strategies against the European grapevine moth, Lobesia botrana, as well as on the use of biodegradable dispensers to reduce waste production in vineyards, despite the high economic importance of this pest. Therefore, the present study evaluated the efficacy of the MD products Isonet® L TT and the biodegradable Isonet® L TT BIO, applied at various densities, in reducing L. botrana damage on grapevine in comparison to an untreated control and the reference MD product Isonet® L. Experiments were conducted in three different areas of grapevine cultivation, located in Central and Northern Italy, over three different years. Our MD approach allowed a reliable control of the three generations of L. botrana during the whole grape growing season, leading to a significant reduction in the infested flower clusters and bunches, as well as in the number of nests per flower cluster and bunch, if compared to the untreated control. The performances of Isonet® L TT BIO, Isonet® LTT, and Isonet® L did not differ in terms of infested flower clusters/bunches, as well as nests per flower cluster/bunch. This was confirmed in all experimental sites over 3 years of field experiments. Overall, the present research provides useful information for the optimization of MD programs against L. botrana, highlighting the interesting potential of biodegradable pheromone dispensers that can be easily applied at low densities in vineyards, reducing the use of chemical pesticides to control moth pests.

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Foraging and Nesting Behavior of Osmia lignaria (Hymenoptera: Megachilidae) in the Presence of Fungicides: Cage Studies

Ladurner

Bosch²,

Kemp

et al. 2008

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During orchard pollination studies in California, we observed dramatic changes in nesting and foraging behavior of Osmia lignaria Say (Hymenoptera: Megachilidae) after sprays with tank mixtures containing fungicides. A characteristic pattern of postspray events observed includes erratic behavior and interrupted foraging and nesting activity for several days. In an effort to determine whether fungicidal sprays were disruptive to bee foraging and thus to pollination, we exposed O. lignaria females nesting in field cages planted with lacy scorpionweed, Phacelia tanacetifolia Benth (Hydrophyllaceae), to selected spray mixtures normally encountered in California orchard production systems: iprodione (Rovral), propiconazole (Orbit), benomyl (Benlate), and captan (Captan 50 WP); the surfactant Dyne-Amic, alone and mixed with Rovral; and the tank mixture IDB (Rovral + Dyne-Amic + the foliar fertilizer Bayfolan Plus). An additional cage sprayed with an equal volume of water acted as control, and a cage sprayed with the insecticide dimethoate as a toxic standard. For each female O. lignaria, we recorded time spent inside the nest depositing pollen-nectar loads, foraging time, cell production rate, and survival. All females in the dimethoate treatment died postspray + 1 d. Before death, some of these females behaved similarly to our previous orchard observations. A high proportion of females in the IDB cage were inactive for a few hours before resuming normal foraging and nesting activity. No lethal or behavioral effects were found for any of the other compounds or mixtures tested. Our results indicate that the fungicide applications that we tested are compatible with the use of O. lignaria as an orchard pollinator.

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E. Ladurner

Assessing delayed and acute toxicity of five formulated fungicides to Osmia lignaria Say and Apis mellifera

Managing the vine mealybug, Planococcus ficus, through pheromone-mediated mating disruption

Eco-friendly pheromone dispensers—a green route to manage the European grapevine moth?

Foraging and Nesting Behavior of Osmia lignaria (Hymenoptera: Megachilidae) in the Presence of Fungicides: Cage Studies

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