Your search keyword '"Maria SAPONARI"' showing total 4 results

1. Draft Genome Sequence Resource of Xylella fastidiosa Strain Alm_Lz_1 Associated with a New Outbreak in Lazio, Italy

Author

Annalisa Giampetruzzi, Giuliana Loconsole, Stefania Zicca, Donato Boscia, Giorgio Mariano Balestra, and Maria Saponari

Subjects

Plant Science, Agronomy and Crop Science

Published

2023

2. Bioecological traits of spittlebugs and their implications on the epidemiology and control of Xylella fastidiosa epidemic in Apulia (Southern Italy)

Author

Nicola Bodino, Vincenzo Cavalieri, Crescenza Dongiovanni, Maria Saponari, and Domenico Bosco

Subjects

Plant Science, Agronomy and Crop Science

Abstract

Spatial-temporal dynamics of spittlebug populations, together with transmission biology, are of major importance to outline the disease epidemiology of Xylella fastidiosa (Xf) subsp. pauca in Apulian olive groves. The spread rate of Xf is mainly influenced by (i) the pathogen colonization of the host plant; (ii) the acquisition of the pathogen by the vector from an infected plant, and its inoculation to healthy plants; (iii) the vector population dynamics and abundance at different spatial scales; (iv) the dispersal of the vector. In this contribution we summarize the recent advances in research on insect vectors’ traits – points (ii), (iii), (iv) – focusing on those most relevant to Xf epidemic in Apulia. Among the vectors’ bioecological traits influencing Xf epidemic on olive trees, we emphasize: natural infectivity and transmission efficiency, phenological timing of both nymphal and adult stage, the role of semi-natural vegetation as vectors’ reservoir in the agroecosystem and landscape, preferential and directional dispersal capabilities. Despite the research on Xf vectors carried out in Europe in the last decade, key uncertainties on insect vectors remain, hampering a thorough understanding of pathogen epidemiology and the development of effective and targeted management strategies. Our goal is to provide a structured and contextualized review of knowledge on Xf vectors’ key traits in Apulian epidemic, highlighting information gaps and stimulating novel research pathways on Xf pathosystems in Europe.

Published

2023

3. Rapid Differentiation and Identification of Potential Severe Strains of Citrus tristeza virus by Real-Time Reverse Transcription-Polymerase Chain Reaction Assays

Author

P. J. Sieburth, Raymond Yokomi, and Maria Saponari

Subjects

Citrus, Genotype, Plant Science, decline, strain differentiation, Plant Viruses, law.invention, law, Plant virus, TaqMan, Closterovirus, Multiplex, Polymerase chain reaction, Plant Diseases, biology, Reverse Transcriptase Polymerase Chain Reaction, seedling yellows, Genetic Variation, Citrus tristeza virus, biology.organism_classification, Virology, Molecular biology, Reverse transcriptase, Reverse transcription polymerase chain reaction, stem pitting, Agronomy and Crop Science

Abstract

A multiplex Taqman-based real-time reverse transcription (RT) polymerase chain reaction (PCR) assay was developed to identify potential severe strains of Citrus tristeza virus (CTV) and separate genotypes that react with the monoclonal antibody MCA13. Three strain-specific probes were developed using intergene sequences between the major and minor coat protein genes (CPi) in a multiplex reaction. Probe CPi-VT3 was designed for VT and T3 genotypes; probe CPi-T36 for T36 genotypes; and probe CPi-T36-NS to identify isolates in an outgroup clade of T36-like genotypes mild in California. Total nucleic acids extracted by chromatography on silica particles, sodium dodecyl sulfate-potassium acetate, and CTV virion immunocapture all yielded high quality templates for real-time PCR detection of CTV. These assays successfully differentiated CTV isolates from California, Florida, and a large panel of CTV isolates from an international collection maintained in Beltsville, MD. The utility of the assay was validated using field isolates collected in California and Florida.

Published

2010

4. Xylella fastidiosa in Olive in Apulia: Where We Stand

Author

Donato Boscia, Annalisa Giampetruzzi, Giuliana Loconsole, Maria Saponari, and Pasquale Saldarelli

Subjects

0106 biological sciences, 0301 basic medicine, Genotype, Plant Science, Xylella, 01 natural sciences, law.invention, 03 medical and health sciences, law, Olea, Quarantine, media_common.cataloged_instance, European union, media_common, Plant Diseases, biology, Outbreak, biology.organism_classification, Pathogenicity, 3. Good health, Horticulture, 030104 developmental biology, Italy, 13. Climate action, Xylella fastidiosa, olive, outbreak, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

A dramatic outbreak of Xylella fastidiosa decimating olive was discovered in 2013 in Apulia, Southern Italy. This pathogen is a quarantine bacterium in the European Union (EU) and created unprecedented turmoil for the local economy and posed critical challenges for its management. With the new emerging threat to susceptible crops in the EU, efforts were devoted to gain basic knowledge on the pathogen biology, host, and environmental interactions (e.g., bacterial strain(s) and pathogenicity, hosts, vector(s), and fundamental drivers of its epidemics) in order to find means to control or mitigate the impacts of the infections. Field surveys, greenhouse tests, and laboratory analyses proved that a single bacterial introduction occurred in the area, with a single genotype, belonging to the subspecies pauca, associated with the epidemic. Infections caused by isolates of this genotype turned to be extremely aggressive on the local olive cultivars, causing a new disease termed olive quick decline syndrome. Due to the initial extension of the foci and the rapid spread of the infections, eradication measures (i.e., pathogen elimination from the area) were soon replaced by containment measures including intense border surveys of the contaminated area, removal of infected trees, and mandatory vector control. However, implementation of containment measures encountered serious difficulties, including public reluctance to accept control measures, poor stakeholder cooperation, misinformation from some media outlets, and lack of robust responses by some governmental authorities. This scenario delayed and limited containment efforts and allowed the bacterium to continue its rapid dissemination over more areas in the region, as shown by the continuous expansion of the official borders of the infected area. At the research level, the European Commission and regional authorities are now supporting several programs aimed to find effective methods to mitigate and contain the impact of X. fastidiosa on olives, the predominant host affected in this epidemic. Preliminary evidence of the presence of resistance in some olive cultivars represents a promising approach currently under investigation for long-term management strategies. The present review describes the current status of the epidemic and major research achievements since 2013.