7 results on '"PIERATTINI, Erika Carla"'
Search Results
2. A molecular characterization of the invasive fig weevil Aclees taiwanensis in Italy.
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BERNARDI, Rodolfo, GROSSI, Lucia, CAVALLINI, Andrea, MASCAGNI, Flavia, MEREGALLI, Massimo, PIERATTINI, Erika Carla, SCARAMOZZINO, Pier Luigi, LUCCHI, Andrea, and CONTI, Barbara
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FIG ,MOLECULAR genetics ,GENETIC techniques ,CURCULIONIDAE ,GENETIC profile ,ORCHARDS ,PLANT nurseries - Abstract
An economically important pest of Ficus carica L. is causing severe infestations in many fig nurseries and orchards in Italy. Belonging to the genus Aclees spp. (Coleoptera Curculionidae), this Asiatic species was accidentally introduced in Europe about 15 years ago, in a Tuscan nursery. Originally identified as Aclees cribratus Gyllenhal, it has been then reported as Aclees sp.cf. foveatus Voss and, more recently, identified as Aclees taiwanensis Kono. A serious damage to fig plants is caused mainly by the larvae, which drill tunnels into the wood and by adults that feed on buds, leaves and young fruits. The present survey applies molecular genetics techniques to reconstruct the genetic profile of the species. To this purpose, the partial sequence of the 18S rRNA gene and the hypervariable region ITS2 of the ribosomal cistron were used as molecular markers for specimens of A. taiwanensis collected in Italy and Aclees hirayamai Kono from Philippines. The analysis of the partial sequences of the 18S rRNA allowed the distinction of two haplotypes for each insect, except for a sample from Philippines, for which one haplotype does exist. The use of the ITS2 hypervariable region highlighted the existence of only one haplotype in the Italian accessions. Only in the sample collected in Lucca (2LU) two haplotypes were highlighted in ITS2. These results are discussed with the occurrence of A. taiwanensis in Italy. [ABSTRACT FROM AUTHOR]
- Published
- 2022
3. Pharmaceuticals and Personal Care Products: Populus alba Phenotyping and Uptake
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Pierattini, Erika Carla, Francini, Alessandra, Andrea, Raffaelli, and Sebastiani, Luca
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- 2016
4. Poplar and diclofenac pollution: A focus on physiology, oxidative stress and uptake in plant organs.
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Pierattini, Erika Carla, Francini, Alessandra, Huber, Christian, Sebastiani, Luca, and Schröder, Peter
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DICLOFENAC , *OXIDATIVE stress , *PLANT organelles , *PLANT species , *NONSTEROIDAL anti-inflammatory agents , *ENZYME activation - Abstract
Poplar plants may have an important role in the removal of pharmaceuticals from contaminated waters. In this context, plant uptake of the non-steroidal anti-inflammatory drug diclofenac, as well as physiological response in terms of growth traits and stress enzymes activity was assessed in Populus alba Villafranca clone, in order to establish the effectiveness of this species against pharmaceutical active compounds pollution. This evaluation was conducted in mesocosms with 1 mg L −1 of this pharmaceutical for a maximum period of 28 days. Root appears to be the organ with clear uptake of diclofenac (14.76 ± 2.42 ng g −1 fresh weight after 1 day of treatment), and presence of products derived from its metabolism. Indeed, 4-OH-diclofenac metabolite was detected in root tissues, indicating diclofenac uptake and metabolism inside the plants, already after 1 day of treatment. Regarding enzyme activities, glutathione-S-transferases increased in roots after long-term exposure to diclofenac, while an increase in activity of ascorbate peroxidase and glutathione reductase was detected in short and medium-term exposure, as a result of abiotic stress caused by diclofenac. Results suggest the ability of poplar to actively participate in the removal of diclofenac from water when used for phytoremediation purpose. [ABSTRACT FROM AUTHOR]
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- 2018
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5. Morpho-physiological response of Populus alba to erythromycin: A timeline of the health status of the plant.
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Pierattini, Erika Carla, Francini, Alessandra, Raffaelli, Andrea, and Sebastiani, Luca
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POPULUS alba , *ERYTHROMYCIN , *HEALTH status indicators , *ANTIBIOTICS , *LIQUID chromatography-mass spectrometry - Abstract
Populus alba Villafranca clone was chosen for a proof of concept study to determine the potential uptake and accumulation of antibiotics by trees. Plants were grown hydroponically and irrigated with a recirculating Hoagland's nutrient solution (control) and Hoagland's nutrient solution fortified with erythromycin at 0.01, 0.1 and 1 mg L − 1 . After 3 and 28 days of treatment, poplar plants were separated into roots, stem, and leaves. Plants showed good health all over the period of treatment, and no differences in poplar growth for all the concentrations of erythromycin tested were observed. Quantification of erythromycin was performed using liquid chromatography electrospray ionization tandem mass spectrometry (LC-MS/MS) in positive ion mode using multiple reaction ion monitoring. Erythromycin was detected in all organs analyzed. Roots showed an erythromycin concentration tenfold higher than leaves. The photochemical efficiency of photosystem II did not show a dose-dependant trend. From the quenching analysis of chlorophyll fluorescence, low nonphotochemical quenching (NPQ) and high photochemical quenching (qP) for the first week of erythromycin exposure was observed, depending on leaves position along the stem. Results suggest a short term adaptation of the photosynthetic apparatus of Populus alba in response to environmental realistic erythromycin concentrations. [ABSTRACT FROM AUTHOR]
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- 2016
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6. Essential Oils as Post-Harvest Crop Protectants against the Fruit Fly Drosophila suzukii: Bioactivity and Organoleptic Profile.
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Bedini, Stefano, Cosci, Francesca, Tani, Camilla, Pierattini, Erika Carla, Venturi, Francesca, Lucchi, Andrea, Ioriatti, Claudio, Ascrizzi, Roberta, Flamini, Guido, Ferroni, Giuseppe, Taglieri, Isabella, and Conti, Barbara
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DROSOPHILA suzukii ,ESSENTIAL oils ,OILSEED plants ,FRUIT flies ,MANDARIN orange ,SMELL ,TEA growing - Abstract
Simple Summary: The spotted-wing drosophila Drosophila suzukii is an invasive small fruit fly that causes extensive damage to many fruit crops. To control this pest, the use of aromatic plants essential oils (EOs) is gaining importance since they are bioactive, biodegradable, and ecologically safe. However, despite of the EOs proved efficacy, they still do not have a widespread application due to their high volatility, composition variability and especially their strong smell. In this study we evaluated not only the EOs bioactivity but also their effects on the organoleptic profile of treated fruits. We tested two EOs extracted from mandarin (Citrus reticulata) and tea tree (Melaleuca alternifolia) very different for composition and smell. Both the EOs were effective in repelling D. suzukii. However, while no negative effects on the organoleptic profiles were detected for the fruits treated with Citrus reticulata EO, the fruits treated with M. alternifolia EO were defined by the panel of experts as "not suitable for consumption". Overall, our findings indicate that the use of EOs for the post-harvest protection of small fruits is feasible, provided that the EOs have been selected not only for their bioactivity against the insect pest but also for their affinity with the consumers' sensorial system. The essential oils extracted from mandarin (Citrus reticulata Blanco) fruits, and from tea tree (Maleleuca alternifolia (Maiden and Betche) Cheel) leaves have been chemically analyzed and tested for their bioactivity against D. suzukii. Besides, to estimate consumers' acceptability of the essential oil (EO) treatments, we evaluated their impact on the organoleptic characteristics of the EO-treated fruits. The main chemical constituents of the two EOs were 1,8-cineole and 4-terpineol for M. alternifolia (22.4% and 17.6% of the total components, respectively), and limonene (83.6% of the total components) for C. reticulata. The behavioral tests indicate that the two EOs are able to deter D. suzukii oviposition and that D. suzukii shows positive chemotaxis to low concentrations of the EOs and negative chemotaxis when the EO concentration increases. While no negative effects on the organoleptic profiles were detected for fruits treated with C. reticulata EO, the olfactory profile of fruits treated with M. alternifolia EO was so negative that they were defined as "not suitable for consumption" by panellists. Overall, our findings indicate that the use of EOs for the post-harvest protection of small fruits is feasible, provided that the essential oils are selected not only for their bioactivity against the insect pest but also for their affinity with the consumers' sensorial system. [ABSTRACT FROM AUTHOR]
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- 2020
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7. Sensory Quality of Essential Oils and Their Synergistic Effect with Diatomaceous Earth, for the Control of Stored Grain Insects.
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Pierattini, Erika Carla, Bedini, Stefano, Venturi, Francesca, Ascrizzi, Roberta, Flamini, Guido, Bocchino, Rossella, Girardi, Jessica, Giannotti, Paolo, Ferroni, Giuseppe, and Conti, Barbara
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DIATOMACEOUS earth , *ESSENTIAL oils , *FENNEL , *GRAIN , *INSECT pests , *INSECTS , *FUMIGANTS - Abstract
Essential oils (EOs) have gained increasing interest as a low-toxic, eco-friendly alternative to synthetic repellents and insecticides against insect pests. However, they have scarce practical application in the protection of stored grain because of their limited efficacy and their interference with the organoleptic properties of the grain. In this study, we evaluated the olfactory profile of the EOs of Foeniculum vulgare, Pistacia lentiscus, and Ocimum basilicum, and their toxicity against the main stored grain pest Sitophilus granarius. Trained assessors identified O. basilicum and F. vulgare, as more suitable than the P. lentiscus EO for the wheat treatment. In laboratory tests, the most toxic EO was the P. lentiscus (LC50 = 36.36 μL∙kg−1) while, the least toxic, was the F. vulgare one (LC50 = 77.59 μL∙kg−1). The EOs were also tested combined with diatomaceous earths (DEs) showing synergistic effects (co-toxicity coefficient values ranging from 1.36 to 3.35 for O. basilicum and F. vulgare EOs, respectively). Overall, O. basilicum resulted as the best EO for the wheat treatment, considering its insect toxicity and olfactory profile. In real storage conditions, the wheat co-treated with O. basilicum EO and DEs showed a significantly lower mean infestation (1.5 insect kg−1) than the non-treated wheat (7.0 insect kg−1). [ABSTRACT FROM AUTHOR]
- Published
- 2019
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