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1. Enhancing water use efficiency in irrigated agriculture through variable rate drip irrigation: the case of a pear orchard in Northern Italy

Author

Ortuani, B., Facchi, A., Mayer, A., Bianchi, A., Bianchi, D., and Brancadoro, L.

Subjects
Settore AGR/08 - Idraulica Agraria e Sistemazioni Idraulico-Forestali, precision agriculture, irrigation prescription map, drip irrigation system, homogeneous management zone, proximal soil sensing, drip irrigation system, homogeneous management zone, proximal soil sensing, precision agriculture, irrigation prescription map, Horticulture, Settore AGR/03 - Arboricoltura Generale e Coltivazioni Arboree
Published
2022
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2. Effect of multifunctional irrigation on grape quality: a case study in Northern Italy

Author

Bianchi, D., Bolognini, M., Brancadoro, L., Cazzaniga, S., Ferrari, D., Masseroni, D., Modina, D., Ortuani, B., Pozzoli, C., and Gandolfi, C.

Subjects
Settore AGR/08 - Idraulica Agraria e Sistemazioni Idraulico-Forestali, Settore BIO/14 - Farmacologia, Settore AGR/03 - Arboricoltura Generale e Coltivazioni Arboree
Published
2023

4. Effects of genotype and environmental conditions on grapevine (Vitis vinifera L.) shoot morphology

Author

Dinu, D. G., Bianchi, D., Mamasakhlisashvili, L., Quarta, C., Brancadoro, L., Maghradze, D., Cardinale, M., Rustioni, L., Grigorie Dinu, Daniel, Bianchi, Davide, Mamasakhlisashvili, Londa, Quarta, Claudio, Brancadoro, Lucio, Maghradze, David, Cardinale, Massimiliano, and Rustioni, Laura

Subjects
0106 biological sciences, 0301 basic medicine, leaf area, phenotyping, fungi, vegetative growth, Georgian grapevine cultivar, food and beverages, phytomer, petiole, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, adaptation strategie, stem, smart measurement, 010606 plant biology & botany
Abstract

Grapevine shoot morphology is widely studied for both ampelography and growing adaptation to environmental stresses. However, few is known concerning the relative contribution and interactions of the genotype and of the growing conditions to the vegetative growth. In this work, seven grapevine cultivars were studied in three geographically distant ampelographic collections to maximize the genotype and environment differences among samples. Phytomers were studied concerning the leaf area and the stem and petiole diameters and lengths. These measurements allowed the calculation of derivative parameters to describe the proportions among elements. Despite most of the studied parameters significantly discriminated both factors (cultivar and growing conditions), it was possible to identify, for each one of them, the most promising parameters based on their relative variance explanation. In fact, a negative correlation was observed between the roles of genotype and environment among the studied parameters. The low interaction effect suggested a stability in the plant behaviors, confirming the possibility to use vegetative descriptions for both cultivar discrimination and growing conditions. Future studies will be performed to develop specific indexes based on the phenotypical variability of shoot morphology described here., VITIS - Journal of Grapevine Research, Vol. 60 No. 2 (2021): Vitis

Published
2021

5. SNP genotyping elucidates the genetic diversity of Magna Graecia grapevine germplasm and its historical origin and dissemination

Author

De Lorenzis G., Mercati F., Bergamini C., Cardone M. F., Lupini A., Mauceri A., Caputo A. R., Abbate L., Barbagallo M. G., Antonacci D., Sunseri F., Brancadoro L., De Lorenzis G., Mercati F., Bergamini C., Cardone M.F., Lupini A., Mauceri A., Caputo A.R., Abbate L., Barbagallo M.G., Antonacci D., Sunseri F., and Brancadoro L.

Subjects
Parentage, DNA, Plant, Genotype, Greece, Mediterranean Region, SNP, Genetic Variation, Molecular marker, Georgia (Republic), Polymorphism, Single Nucleotide, Genetic diversity, Crop Production, Pedigree, Italy, Spain, Vitis, Genotyping Technique, Secondary center of domestication, History, Ancient
Abstract

Background: Magna Graecia is the ancient name for the modern geopolitical region of South Italy extensively populated by Greek colonizers, shown by archeological and historical evidence to be the oldest wine growing region of Italy, crucial for the spread of specialized viticulture around Mediterranean shores. Here, the genetic diversity of Magna Graecia grape germplasm was assessed and its role in grapevine propagation around the Mediterranean basin was underlined. Results: A large collection of grapevines from Magna Graecia was compared with germplasm from Georgia to the Iberian Peninsula using the 18 K SNP array. A high level of genetic diversity of the analyzed germplasm was determined; clustering, structure analysis and DAPC (Discriminant Analysis of Principal Components) highlighted the genetic relationships among genotypes from South Italy and the Eastern Mediterranean (Greece). Gene flow from east (Georgia) to west (Iberian Peninsula) was identified throughout the large number of detected admixed samples. Pedigree analysis showed a complex and well-structured network of first degree relationships, where the cultivars from Magna Graecia were mainly involved. Conclusions: This study provided evidence that Magna Graecia germplasm was shaped by historical events that occurred in the area due to the robust link between South Italian and Greek genotypes, as well as, by the availability of different thermal resources for cultivars growing in such different winegrowing areas. The uniqueness of this ampelographic platform was mainly an outcome of complex natural or human-driven crosses involving elite cultivars.

Published
2019

12. Grapevine breeding programs in Italy

Author

Bavaresco, Luigi, Gardiman, M., Brancadoro, L., Espen, L., Failla, O., Scienza, A., Vezzulli, S., Zulin, L., Velasco, R., Stefanini, M., Di Gaspero, G., Testolin, R., Bavaresco, Luigi (ORCID:0000-0002-1278-6587), Bavaresco, Luigi, Gardiman, M., Brancadoro, L., Espen, L., Failla, O., Scienza, A., Vezzulli, S., Zulin, L., Velasco, R., Stefanini, M., Di Gaspero, G., Testolin, R., and Bavaresco, Luigi (ORCID:0000-0002-1278-6587)

Abstract

Grapevine breeding has been actively conducted in Italy since the end of the nineteenth century, producing approximately 800 varieties (rootstocks, wine and table grapes). The major Italian rootstock, wine and table grape breeders are listed, including the main varieties they obtained, such as Pirovano (cv. Italia), Paulsen (1103P rootstock), Dalmasso (cv. Albarossa), Ruggeri (140Ru rootstock), Prosperi (cv. Clotilde Prosperi), Manzoni (cv. Manzoni bianco), Terzi (cv. Incrocio Terzi 1) and Rigotti (cv. Rebo). Current breeding programs to obtain new rootstocks, new disease-resistant varieties and crossings within Vitis vinifera cvs. to improve some technological traits are described.

Published
2015

13. Dissection of drought response mechanisms in grapevine rootstocks

Author

Emanuelli, F., Grossi, D., Simone di Lorenzo, G., Lorenzi, S., Brancadoro, L., Failla, O., Grando, M.S., and Scienza, A.

Subjects
Thermal imaging, Water stress, Vitis spp, Portinnesti, Association study, Settore AGR/07 - GENETICA AGRARIA, Studio di associazione, Vite, Stress idrico, Grapevine, Vitis, Termocamera, Rootstocks
Published
2013

15. Studying the genetic basis of drought tolerance in grapevine rootstocks

Author

Emanuelli, F., Grossi, D., Simone di Lorenzo, G.B., Lorenzi, S., Brancadoro, L., Failla, O., Grando, M.S., and Scienza, A.

Subjects
Association study, Drought stress, Settore AGR/07 - GENETICA AGRARIA, Stress tolerance, Studio di associazione, food and beverages, Stress idrico, Vitis, Portinnesti, Rootstocks
Published
2013

17. Aggiornamento Catalogo cloni 2011

Author

Moretti, G., Anaclerio, F., Brancadoro, L., Fabbro, A., Filippetti, I., Malossini, U., Mannini, F., and Mordenti G. L.

Subjects
Vite, cloni, vivaismo
Abstract

La durata e la produzione dei vigneti viene garantita con l'impianto di materiale di moltiplicazione di qualità. Il settore vivaistico è da tempo impegnato in questo programma mettendo sul mercato dei cloni (virus-esenti) che, oltre rispondere alle esigenze dei tecnici e dei viticoltori, sono indicati per la produzione di specifiche tipologie di vini. Questo risultato è connesso alla conoscenza delle piattaforme ampelografiche locali che ha permesso di individuare più biotipi nell'ambito della stessa popolazione, oltre che di produrre anche vini di nicchia. In particolare sono stati ottenuti o aggiunti cloni di vitigni diffusamente coltivati sul territorio nazionale, anche se a livello regionale, tipo Carricante, Grillo, Nebbiolo, Rebo, ... Traminer aromatico oppure presenti in ambienti ristretti come Alionza, Goldtraminer, Pignolo, Tazzalenghe,... Trebbiano modenese. Sono stati pure iscritti altri cloni di vitigni internazionali (es. Cannonau, Malbech, Syrah, Tempranillo, .. Trebbiano toscano) le cui peculiarità vanno individuate oltre nella minore dimensione del grappolo e dell'acino, nell'ottenimento di vini di maggiore struttura, quindi con possibilità di invecchiamento anche prolungato, anche nell'inferiore suscettività, rispetto alla popolazione, alle principali malattie crittogamiche pur garantendo produzioni soddisfacenti. L'aggiornamento del Catalogo nazionale dei cloni ha lo scopo di informare i potenziali utenti oltre che gli Enti operanti nel settore viticolo-enologico perché amplino le poche conoscenze disponibili. In ogni scheda descrittiva, corredata dalla foto del grappolo, sono riportate le principali caratteristiche vegeto-produttive e il giudizio organolettico del vino, con le potenziali destinazioni enologiche.

Published
2012

18. Nel Mediterraneo, uno Zibibbo per quattro terroir

Author

Rossoni, M., Brancadoro, L., Failla, O., Gusmeri, S., and Scienza, A.

Subjects
Vitis vinifera, ampelografia, chemiotassononomia, Settore AGR/03 - Arboricoltura Generale e Coltivazioni Arboree
Published
2008

23. Le sostanze aromatiche nella bacca

Author

Failla, O., Brancadoro, L., Rossoni, M., and Scienza, A.

Subjects
norisoprenoidi, terpeni, Vitis vinifera, Settore AGR/03 - Arboricoltura Generale e Coltivazioni Arboree
Published
2006

24. Ricerca pluridisciplinare per la zonazione viticola della Val Tidone (Piacenza, Italia)

Author

Fregoni, M., Zamboni, M., Boselli, Maurizio, Fraschini, P., Scienza, A., Valenti, L., Panont, A., Brancadoro, L., Bogoni, M., Failla, O., Filippi, N., Laruccia, N., Nardi, I., Lega, P., Zinoni, F., and Libè, A.

Subjects
Val Tidone (PC), Vitis vinifera, zonazione, cv. Malvasia di Candia aromatica, cv. Croatina, allocazione varietale, cv. Barbera
Published
1992

26. Phenotyping of the 'G series' Vitis hybrids: First screening of the mineral composition

Author

Lucio Brancadoro, Yang Zi Ying, D. Grossi, Giovambattista Simone Di Lorenzo, Laura Rustioni, Davide Bianchi, Bianchi, D., Grossi, D., Simone Di Lorenzo, G., Zi Ying, Y., Rustioni, L., and Brancadoro, L.

Subjects
0106 biological sciences, 0301 basic medicine, mineral nutrition, Chemistry, Water stress, Nutritional status, Horticulture, Mineral composition, viticulture, 01 natural sciences, grapevine, 03 medical and health sciences, 030104 developmental biology, Rootstock selection, breeding, plasticity, Genotype, Rootstock, Potassium level, 010606 plant biology & botany, Hybrid
Abstract

Grapevine rootstocks affect the nutritional status of plants and thus the production and the quality of grape. In this study, a screening of mineral level in vine leaves is performed to a series of 35 Vitis hybrids for rootstock selection, in two different growing conditions at two sampling times. Mineral levels were determined by elemental analyzer (N) and ICP-MS (P; K; Mg; Ca; Na; Fe; Cu; Fe) in leave samples. Generally, the effect of growing conditions was predominant, whereas genotype effect and their interaction were significant for N, K, Ca, Mg, Na, Mn and Cu. A cluster analysis was used to identify the affinity of each genotypes to K, Mg and Ca. Furthermore, response of genotypes to the different environments was assessed by a plasticity index. An elastic behavior was shown by 14 genotypes. Within this group, genotypes G.05, G.21, G.71, G.76 and G.77 reported high potassium level, beside the already demonstrated tolerance to water stress.

Published
2020

27. Water deficit effects on grapevine woody tissue pigmentations

Author

Laura Rustioni, D. Grossi, G. Simone Di Lorenzo, Lucio Brancadoro, Osvaldo Failla, Grossi, D., Rustioni, L., Simone Di Lorenzo, G., Failla, O., and Brancadoro, L.

Subjects
0106 biological sciences, Water stress, Pigmentations, Horticulture, Biology, 01 natural sciences, Water deficit, 040501 horticulture, Fight-or-flight response, Refectance spectroscopy, Botany, Water-use efficiency, 2. Zero hunger, Drought resistance, Cabernet Sauvignon, 04 agricultural and veterinary sciences, Viti, 15. Life on land, Grafting, 13. Climate action, Rootstock, 0405 other agricultural sciences, 010606 plant biology & botany
Abstract

Water availability is an important environmental factor in viticulture. In a climate change context, vineyard management should be adapted to the new conditions. Drought-resistant rootstocks need to be selected. In this paper, refectance spectroscopy is proposed as a new method to characterize the water stress efects on woody section pigmentations. Cabernet Sauvignon grafted on 4 diferent rootstocks (140Ru, 420A, M2 and M3) represented the plant material. Greenhouse controlled conditions allowed the comparison of well-watered (WW) and water-stressed (WS) plants. The physiological responses were characterized concerning daily water consumption, stem water potential, gas exchange, and plant growth. The water use eficiency was calculated and discussed as well. Spectroscopy analyses of woody sections indicated a major absorption band probably related to phenolic derivatives. Water stress produced characteristic spectrum modifications both in the Cabernet Sauvignon stem and in the rootstock xylem. These preliminary results encourage further studies addressed at the evaluation of drought-resistant genotypes, to distinguish their stress responses and to characterize the compositional aspects linked to drought tolerance.

Published
2016
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28. Multi-parameter characterization of water stress tolerance in Vitis hybrids for new rootstock selection

Author

Davide Bianchi, D. Grossi, Laura Rustioni, Lucio Brancadoro, Giovambattista Simone Di Lorenzo, Davide T.G. Tincani, Bianchi, D., Grossi, D., Tincani, D. T. G., Simone Di Lorenzo, G., Brancadoro, L., and Rustioni, L.

Subjects
0106 biological sciences, 0301 basic medicine, Genotype, Reflectance spectroscopy, Physiology, Plant Science, Biology, 01 natural sciences, Plant Roots, Interspecific hybrids, 03 medical and health sciences, Genetics, Vitis, Multi parameter, Selection (genetic algorithm), Transpiration, Hybrid, Viticulture, Drought, Dehydration, fungi, Water stress, Temperature, Reproducibility of Results, Adaptation, Physiological, Droughts, On-solid reaction, Plant Leaves, Horticulture, 030104 developmental biology, Phenotype, Phenotyping, Thermography, Hybridization, Genetic, Grapevine, Rootstock, 010606 plant biology & botany
Abstract

Drought in grapevine could be faced using tolerant rootstocks. The present work aims at the evaluation of 25 new genotypes potentially tolerant to drought by using recent methods of phenotypical screening (thermography and on-solid reaction spectroscopy). Plants were grown in well-watered and stressed field conditions. Proxi for transpiration, wood hydrophobicity and starch content were used to characterize and classify the genotypes. The predominant role of the environment was highlighted, nevertheless genotype and genotype × environment interaction showed significant variations as well. Hybrids were classified based on their steady, susceptible or adaptable behavior. The 14 most promising genotypes were identified, 5 of them showing two tolerance mechanisms. In the future, results from this experiment will support viticulture in water limited areas releasing new drought-tolerant interspecific hybrids to be tested after grafting with different scions.

Published
2018

29. Characterization of iron deficiency symptoms in grapevine (Vitis spp.) leaves by reflectance spectroscopy

Author

Laura Rustioni, Osvaldo Failla, D. Grossi, Lucio Brancadoro, Rustioni, L., Grossi, D., Brancadoro, L., and Failla, O.

Subjects
0106 biological sciences, Chlorophyll, Physiology, Mineral nutrition, Leaf pigmentation, Plant Science, Biology, Photosynthesis, 01 natural sciences, Vineyard, chemistry.chemical_compound, Pigment accumulation, Botany, Genetics, Vitis, Iron deficiency (plant disorder), Chlorosi, food and beverages, 04 agricultural and veterinary sciences, Iron Deficiencies, Apex (geometry), Plant Leaves, Spectrometry, Fluorescence, Abiotic stre, chemistry, Shoot, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Rootstock, 010606 plant biology & botany
Abstract

The work aims at the description of the iron deficiency symptoms in grapevine leaves by reflectance spectroscopy at the plant and leaf levels. 5 genotypes of Vitis spp. were selected and grown in hydroponic conditions with and without iron supply. 450 spectra were collected among basal, young and apical leaves, as well as veins and interveinal areas. Iron deficiency produced significant and characteristic modifications in the pigment accumulation, proportion and distribution in plants. Basal leaves resulted to have higher concentrations of photosynthetic pigments in stressed plants with respect to the control, probably due to compensation effects. Iron deficient plants had lower chlorophyll concentrations in young and apical leaves. In the apical zone, also the relative composition of pigments appeared to be modified, explaining the reddish-yellowish apex appearance of iron deficient vines. Finally, the pigment distribution along the shoot characterized the symptoms, as well as the spectral variations among veins and interveinal areas. These results could support future applications in vineyard management (e.g.: symptom identification and detection; precision fertilization) as well as breeding programs for new rootstock selections (e.g.: fast screenings of seedlings).

Published
2017

30. High-throughput 18K SNP array to assess genetic variability of the main grapevine cultivars from Sicily

Author

Francesco Sunseri, Attilio Scienza, Francesco Mercati, Rosario Di Lorenzo, Antonio Lupini, Gabriella De Lorenzis, Maria Rosa Abenavoli, Maria Gabriella Barbagallo, Lucio Brancadoro, Mercati, F., De Lorenzis, G., Brancadoro, L., Lupini, A., Abenavoli, M., Barbagallo, M., Di Lorenzo, R., Scienza, A., and Sunseri, F.

Subjects
0106 biological sciences, 0301 basic medicine, Germplasm, Vitis vinifera L, Parentage analysi, Biology, Horticulture, 01 natural sciences, 03 medical and health sciences, Genetic, Single nucleotide polymorphism (SNP), Genetics, Cultivar, Genetic variability, Parentage analysis, Molecular Biology, Biotype identification, Genetic diversity, food and beverages, Forestry, SNP genotyping, Settore AGR/03 - Arboricoltura Generale E Coltivazioni Arboree, 030104 developmental biology, Genetic structure, Microsatellite, 010606 plant biology & botany, SNP array
Abstract

The viticulture of Sicily, for its vocation, is one of the most important and ancient forms in Italy. Autochthonous grapevine cultivars, many of which known throughout the world, have always been cultivated in the island from many centuries. With the aim to preserve this large grapevine diversity, previous studies have already started to assess the genetic variability among the Sicilian cultivars by using morphological and microsatellite markers. In this study, simple sequence repeat (SSR) were utilized to verify the true-to-typeness of a large clone collection (101) belonging to 21 biotypes of the most 10 cultivated Sicilian cultivars. Afterwards, 42 Organization Internationale de la Vigne et du Vin (OIV) descriptors and a high-throughput single nucleotide polymorphism (SNP) genotyping array (Vitis18kSNP) were applied to assess genetic variability among cultivars and biotypes of the same cultivar. Ampelographic traits and high-throughput SNP genotyping platforms provided an accuracy estimation of genetic diversity in the Sicilian germplasm, showing the relationships among cultivars by cluster and multivariate analyses. The large SNP panel defined sub-clusters unable to discern among biotypes, previously classified by ampelographic analysis, belonging to each cultivar. These results suggested that a very large number of SNP did not cover the genome regions harboring few morphological traits. Genetic structure of the collection revealed a clear optimum number of groups for K = 3, clustering in the same group a significant portion of family-related genotypes. Parentage analysis highlighted significant relationships among Sicilian grape cultivars and Sangiovese, as already reported, but also the first evidences of the relationships between Nero d’Avola and both Inzolia and Catarratto. Finally, a small panel of highly informative markers (12 SNPs) allowed us to isolate a private profile for each Sicilian cultivar, providing a new tool for cultivar identification.

Published
2016
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31. Stem Xylem Characterization for Vitis Drought Tolerance

Author

Laura Rustioni, D. Grossi, Lucio Brancadoro, Angelo Ciacciulli, Osvaldo Failla, Rustioni, L., Ciacciulli, A., Grossi, D., Brancadoro, L., and Failla, O.

Subjects
0106 biological sciences, Stomatal conductance, phenotyping, Sudan IV, Drought tolerance, Biology, 01 natural sciences, chemistry.chemical_compound, water stress, reflectance spectroscopy, suberin, Xylem, Suberin, Botany, Vitis, Water-use efficiency, Water transport, Plant Stems, Water, Biological Transport, 04 agricultural and veterinary sciences, General Chemistry, 15. Life on land, rootstock, grapevine, Plant Leaves, chemistry, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, General Agricultural and Biological Sciences, Rootstock, 010606 plant biology & botany
Abstract

Together with stomatal conductance and root conductivity, the stem water reserve and transport systems could be regulatory mechanisms able to participate in the regulation of the plant water status. Lianas, such as Vitis spp., minimize the trunk support role, and stems have evolved to improve their ability in water transport. In this work, stems of 10 different Vitis species were studied in relation to their expected drought tolerance using reflectance spectroscopy. Spectra were measured before (T0) and after coloration with Sudan IV dye. The T0 spectral signature showed characteristic species features. The partial least squares (PLS) regression and the self-organizing map (SOM) neural network analysis were able to predict the expected drought tolerance score; thus, reflectance spectroscopy was demonstrated to be a useful technique for drought tolerance phenotyping. These methods could be applied for the preliminary selection of new rootstocks/cultivars. Wood composition variation appeared to be correlated with the water stress susceptibility. To clarify this relationship, the attention was focused on the wood hydrophobicity. Sudan IV is a microscopy dye traditionally used to underline suberin, waxes, and, in general, hydrophobic substances. Differences between rough and colored spectra evidenced the absorption band of Sudan IV with a maximum at 539 nm. The coloration intensity was used to develop a hydrophobicity index. The obtained values were correlated with the expected drought tolerance score. Therefore, hydrophobic compounds seem to play an important role in water use efficiency, and an hydrophobic barrier in the xylem tissue appears to be a protective mechanism against water stress.

Published
2016

32. Anthocyanin biosynthesis during berry development in corvina grape

Author

Gabriella De Lorenzis, Laura Rustioni, Lucio Brancadoro, Simone Parisi, Federica Zoli, De Lorenzis, G., Rustioni, L., Parisi, S. G., Zoli, F., and Brancadoro, L.

Subjects
0106 biological sciences, 0301 basic medicine, Chalcone synthase, Canopy, Flavonoid, Berry, Horticulture, Biology, 01 natural sciences, 03 medical and health sciences, Pigment, chemistry.chemical_compound, Vitis vinifera L, Botany, Wine, chemistry.chemical_classification, Viticulture, Fruit color, fungi, food and beverages, Ripening, carbohydrates (lipids), 030104 developmental biology, chemistry, visual_art, Anthocyanin, biology.protein, visual_art.visual_art_medium, Amarone wine, Gene expression, HPLC, 010606 plant biology & botany
Abstract

For the production of a highly qualitative wine, such as “Amarone”, variations in the grape (Corvina) pigment composition are not negligible. The aim of this work was the investigation of the Corvina anthocyanin profile changes during ripening. The experiment took place in 2015, in two vineyards located in Valpolicella (Italy) with different training systems (Guyot and pergola). Micro-meteorological survey, carpological characterization, chemical analysis and transcriptional studies were carried out to clarify the anthocyanin biosynthesis regulation. Air and grape temperatures and global solar radiation inside the canopy were measured during the season. Grape samples were collected at seven stages of berry development from bunches hang until harvest. Berry growth was followed by volume increase. At the beginning of the lag phase, anthocyanin quantification and characterization by spectroscopy and HPLC were carried out. The expression level of structural and regulatory genes of anthocyanin pathway was studied via real-time RT-PCR. At color appearance, the di-substituted anthocyanins prevailed. During ripening, it was observed a progressive increase of tri-substituted, methoxylated, and acylated pigments. A clear correlation among expression of anthocyanin biosynthetic gene, UDPglucose:flavonoid 3-O-glucosyltransferase (UFGT), transcription factors, MybA1 and MybA2, and total anthocyanin content during berry development has been identified. Chalcone synthase, flavonoid 3′-hydroxylase (F3′H) and flavonoid 3′,5′-hydroxylase (F3′5′H) genes of the flavonoid pathway showed high correlation as well. The proportion changes between tri- and di-substituted anthocyanins were associated with an increasing ratio of F3′5′H/F3′H gene transcription during ripening. The AOMT genes were expressed with a maximum at the onset of ripening, coherently with the rapid increase of methoxylated anthocyanin proportion in this stage.

Published
2016

33. Novel loci associated with resistance to downy and powdery mildew in grapevine.

Author

Ricciardi V, Crespan M, Maddalena G, Migliaro D, Brancadoro L, Maghradze D, Failla O, Toffolatti SL, and De Lorenzis G

Abstract

Among the main challenges in current viticulture, there is the increasing demand for sustainability in the protection from fungal diseases, such as downy mildew (DM) and powdery mildew (PM). Breeding disease-resistant grapevine varieties is a key strategy for better managing fungicide inputs. This study explores the diversity of grapevine germplasm (cultivated and wild) from Caucasus and neighboring areas to identify genotypes resistant to DM and PM, based on 13 Simple Sequence Repeat (SSR) loci and phenotypical (artificial pathogen inoculation) analysis, and to identify loci associated with DM and PM resistance, via Genome-Wide Association Analysis (GWAS) on Single Nucleotide Polymorphism (SNP) profiles. SSR analysis revealed resistant alleles for 16 out of 88 genotypes. Phenotypic data identified seven DM and 31 PM resistant genotypes. GWAS identified two new loci associated with DM resistance, located on chromosome 15 and 16 (designated as Rpv36 and Rpv37 ), and two with PM resistance, located on chromosome 6 and 17 (designated as Ren14 and Ren15 ). The four novel loci identified genomic regions rich in genes related to biotic stress response, such as genes involved in pathogen recognition, signal transduction and resistance response. This study highlights potential candidate genes associated with resistance to DM and PM, providing valuable insights for breeding programs for resistant varieties. To optimize their utilization, further functional characterization studies are recommended., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Ricciardi, Crespan, Maddalena, Migliaro, Brancadoro, Maghradze, Failla, Toffolatti and De Lorenzis.)

Published
2024
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34. Alpine Viticulture and Climate Change: Environmental Resources and Limitations for Grapevine Ripening in Valtellina, Italy.

Author

Modina D, Cola G, Bianchi D, Bolognini M, Mancini S, Foianini I, Cappelletti A, Failla O, and Brancadoro L

Abstract

The effects of the spatial and temporal variability of environmental factors on viticulture are particularly important in mountainous wine regions due to their complex geomorphology. A typical example is Valtellina, an Italian valley in the middle of the Alpine chain known for its wine production. The aim of this work was to assess the effects of the current climatic conditions on Alpine viticultural production by evaluating the relationship between sugar accumulation, acid degradation, and environmental factors. To achieve this objective, a 21-year time series of ripening curves from 15 vineyards (cv Nebbiolo) along the Valtellina wine-growing belt was collected. The ripening curves were then analysed in conjunction with meteorological data to assess the influence of geographical and climatic characteristics, as well as other limiting environmental factors, on grape ripening. Valtellina is currently characterised by a stable warm phase, with yearly precipitation slightly higher than in the past. In this context, the timing of ripening and the level of total acidity are correlated with altitude, temperature, and summer thermal excess. Precipitation shows good correlations with all the maturity indices, so higher precipitation leads to late ripening and higher total acidity. Considering the oenological goal of local wineries, the results suggest that the Alpine area of Valtellina is currently facing favourable environmental conditions, with early development and increased levels of sugar while maintaining good levels of acidity.

Published
2023
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35. Physiological and Transcriptomic Evaluation of Drought Effect on Own-Rooted and Grafted Grapevine Rootstock (1103P and 101-14MGt).

Author

Bianchi D, Ricciardi V, Pozzoli C, Grossi D, Caramanico L, Pindo M, Stefani E, Cestaro A, Brancadoro L, and De Lorenzis G

Abstract

Grapevines worldwide are grafted onto Vitis spp. rootstocks in order to improve their tolerance to biotic and abiotic stresses. Thus, the response of vines to drought is the result of the interaction between the scion variety and the rootstock genotype. In this work, the responses of genotypes to drought were evaluated on 1103P and 101-14MGt plants, own-rooted and grafted with Cabernet Sauvignon, in three different water deficit conditions (80, 50, and 20% soil water content, SWC). Gas exchange parameters, stem water potential, root and leaf ABA content, and root and leaf transcriptomic response were investigated. Under well-watered conditions, gas exchange and stem water potential were mainly affected by the grafting condition, whereas under sever water deficit they were affected by the rootstock genotype. Under severe stress conditions (20% SWC), 1103P showed an "avoidance" behavior. It reduced stomatal conductance, inhibited photosynthesis, increased ABA content in the roots, and closed the stomata. The 101-14MGt maintained a high photosynthetic rate, limiting the reduction of soil water potential. This behavior results in a "tolerance" strategy. An analysis of the transcriptome showed that most of the differentially expressed genes were detected at 20% SWC, and more significantly in roots than in leaves. A core set of genes has been highlighted on the roots as being related to the root response to drought that are not affected by genotype nor grafting. Genes specifically regulated by grafting and genes specifically regulated by genotype under drought conditions have been identified as well. The 1103P, more than the 101-14MGt, regulated a high number of genes in both own-rooted and grafted conditions. This different regulation revealed that 1103P rootstock readily perceived the water scarcity and rapidly faced the stress, in agreement with its avoidance strategy.

Published
2023
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36. Integrated Bayesian Approaches Shed Light on the Dissemination Routes of the Eurasian Grapevine Germplasm.

Author

Mercati F, De Lorenzis G, Mauceri A, Zerbo M, Brancadoro L, D'Onofrio C, Morcia C, Barbagallo MG, Bignami C, Gardiman M, de Palma L, Ruffa P, Novello V, Crespan M, and Sunseri F

Abstract

The domestication and spreading of grapevine as well as the gene flow history had been described in many studies. We used a high-quality 7k SNP dataset of 1,038 Eurasian grape varieties with unique profiles to assess the population genetic diversity, structure, and relatedness, and to infer the most likely migration events. Comparisons of putative scenarios of gene flow throughout Europe from Caucasus helped to fit the more reliable migration routes around the Mediterranean Basin. Approximate Bayesian computation (ABC) approach made possible to provide a response to several questions so far remaining unsolved. Firstly, the assessment of genetic diversity and population structure within a well-covered dataset of ancient Italian varieties suggested the different histories between the Northern and Southern Italian grapevines. Moreover, Italian genotypes were shown to be distinguishable from all the other Eurasian populations for the first time. The entire Eurasian panel confirmed the east-to-west gene flow, highlighting the Greek role as a "bridge" between the Western and Eastern Eurasia. Portuguese germplasm showed a greater proximity to French varieties than the Spanish ones, thus being the main route for gene flow from Iberian Peninsula to Central Europe. Our findings reconciled genetic and archaeological data for one of the most cultivated and fascinating crops in the world., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Mercati, De Lorenzis, Mauceri, Zerbo, Brancadoro, D'Onofrio, Morcia, Barbagallo, Bignami, Gardiman, de Palma, Ruffa, Novello, Crespan and Sunseri.)

Published
2021
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37. How Do Novel M-Rootstock ( Vitis Spp.) Genotypes Cope with Drought?

Author

Bianchi D, Caramanico L, Grossi D, Brancadoro L, and Lorenzis G

Abstract

Most of the vineyards around the world are in areas characterized by seasonal drought, where water deficits and high temperatures represent severe constraints on the regular grapevine growth cycle. Although grapevines are well adapted to arid and semi-arid environments, water stress can cause physiological changes, from mild to irreversible. Screening of available Vitis spp. genetic diversity for new rootstock breeding programs has been proposed as a way for which new viticulture challenges may be faced. In 2014, novel genotypes (M-rootstocks) were released from the University of Milan. In this work, the behavior of M1, M3 and M4 in response to decreasing water availabilities (80%, 50% and 20% soil water content, SWC) was investigated at the physiological and gene expression levels, evaluating gas exchange, stem water potential and transcript abundances of key genes related to ABA (abscisic acid) biosynthesis ( VvZEP , VvNCED1 and VvNCED2 ) and signaling ( VvPP2C4 , VvSnRK2.6 and VvABF2 ), and comparing them to those of cuttings of nine commercial rootstocks widely used in viticulture. M-rootstocks showed a change at physiological levels in severe water-stressed conditions (20% soil water content, SWC), reducing the stomatal conductance and stem water potential, but maintaining high photosynthetic activity. Water use efficiency was high in water-limiting conditions. The transcriptional changes were observed at 50% SWC, with an increment of transcripts of VvNCED1 and VvNCED2 genes. M-rootstocks showed similar behavior to 1103P and 110R rootstocks, two highly tolerant commercial genotypes. These rootstocks adopted a tolerant strategy to face water-stressed conditions., Competing Interests: The authors declare no conflict of interest.

Published
2020
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39. SNP genotyping elucidates the genetic diversity of Magna Graecia grapevine germplasm and its historical origin and dissemination.

Author

De Lorenzis G, Mercati F, Bergamini C, Cardone MF, Lupini A, Mauceri A, Caputo AR, Abbate L, Barbagallo MG, Antonacci D, Sunseri F, and Brancadoro L

Subjects
Crop Production history, DNA, Plant genetics, Genotype, Genotyping Techniques, Georgia (Republic), Greece, History, Ancient, Italy, Mediterranean Region, Pedigree, Spain, Genetic Variation genetics, Polymorphism, Single Nucleotide genetics, Vitis genetics
Abstract

Background: Magna Graecia is the ancient name for the modern geopolitical region of South Italy extensively populated by Greek colonizers, shown by archeological and historical evidence to be the oldest wine growing region of Italy, crucial for the spread of specialized viticulture around Mediterranean shores. Here, the genetic diversity of Magna Graecia grape germplasm was assessed and its role in grapevine propagation around the Mediterranean basin was underlined., Results: A large collection of grapevines from Magna Graecia was compared with germplasm from Georgia to the Iberian Peninsula using the 18 K SNP array. A high level of genetic diversity of the analyzed germplasm was determined; clustering, structure analysis and DAPC (Discriminant Analysis of Principal Components) highlighted the genetic relationships among genotypes from South Italy and the Eastern Mediterranean (Greece). Gene flow from east (Georgia) to west (Iberian Peninsula) was identified throughout the large number of detected admixed samples. Pedigree analysis showed a complex and well-structured network of first degree relationships, where the cultivars from Magna Graecia were mainly involved., Conclusions: This study provided evidence that Magna Graecia germplasm was shaped by historical events that occurred in the area due to the robust link between South Italian and Greek genotypes, as well as, by the availability of different thermal resources for cultivars growing in such different winegrowing areas. The uniqueness of this ampelographic platform was mainly an outcome of complex natural or human-driven crosses involving elite cultivars.

Published
2019
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40. Grapevine field experiments reveal the contribution of genotype, the influence of environment and the effect of their interaction (G×E) on the berry transcriptome.

Author

Dal Santo S, Zenoni S, Sandri M, De Lorenzis G, Magris G, De Paoli E, Di Gaspero G, Del Fabbro C, Morgante M, Brancadoro L, Grossi D, Fasoli M, Zuccolotto P, Tornielli GB, and Pezzotti M

Subjects
Environment, Gene Ontology, Genes, Plant genetics, Genotype, Phenotype, Vitis metabolism, Fruit genetics, Gene Expression Profiling, Gene Expression Regulation, Plant, Vitis genetics
Abstract

Changes in the performance of genotypes in different environments are defined as genotype × environment (G×E) interactions. In grapevine (Vitis vinifera), complex interactions between different genotypes and climate, soil and farming practices yield unique berry qualities. However, the molecular basis of this phenomenon remains unclear. To dissect the basis of grapevine G×E interactions we characterized berry transcriptome plasticity, the genome methylation landscape and within-genotype allelic diversity in two genotypes cultivated in three different environments over two vintages. We identified, through a novel data-mining pipeline, genes with expression profiles that were: unaffected by genotype or environment, genotype-dependent but unaffected by the environment, environmentally-dependent regardless of genotype, and G×E-related. The G×E-related genes showed different degrees of within-cultivar allelic diversity in the two genotypes and were enriched for stress responses, signal transduction and secondary metabolism categories. Our study unraveled the mutual relationships between genotypic and environmental variables during G×E interaction in a woody perennial species, providing a reference model to explore how cultivated fruit crops respond to diverse environments. Also, the pivotal role of vineyard location in determining the performance of different varieties, by enhancing berry quality traits, was unraveled., (© 2018 The Authors The Plant Journal published by John Wiley & Sons Ltd and Society for Experimental Biology.)

Published
2018
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41. Estimating Leaf Area Index (LAI) in Vineyards Using the PocketLAI Smart-App.

Author

Orlando F, Movedi E, Coduto D, Parisi S, Brancadoro L, Pagani V, Guarneri T, and Confalonieri R

Subjects
Plant Leaves physiology, Photography methods, Remote Sensing Technology methods, Vitis physiology
Abstract

Estimating leaf area index (LAI) of Vitis vinifera using indirect methods involves some critical issues, related to its discontinuous and non-homogeneous canopy. This study evaluates the smart app PocketLAI and hemispherical photography in vineyards against destructive LAI measurements. Data were collected during six surveys in an experimental site characterized by a high level of heterogeneity among plants, allowing us to explore a wide range of LAI values. During the last survey, the possibility to combine remote sensing data and in-situ PocketLAI estimates (smart scouting) was evaluated. Results showed a good agreement between PocketLAI data and direct measurements, especially for LAI ranging from 0.13 to 1.41 ( R ² = 0.94, RRMSE = 17.27%), whereas the accuracy decreased when an outlying value (vineyard LAI = 2.84) was included ( R ² = 0.77, RRMSE = 43.00%), due to the saturation effect in case of very dense canopies arising from lack of green pruning. The hemispherical photography showed very high values of R ², even in presence of the outlying value ( R ² = 0.94), although it showed a marked and quite constant overestimation error (RRMSE = 99.46%), suggesting the need to introduce a correction factor specific for vineyards. During the smart scouting, PocketLAI showed its reliability to monitor the spatial-temporal variability of vine vigor in cordon-trained systems, and showed a potential for a wide range of applications, also in combination with remote sensing., Competing Interests: The authors declare no conflict of interest.

Published
2016
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42. The Influence of Genotype and Environment on Small RNA Profiles in Grapevine Berry.

Author

Paim Pinto DL, Brancadoro L, Dal Santo S, De Lorenzis G, Pezzotti M, Meyers BC, Pè ME, and Mica E

Abstract

Understanding the molecular mechanisms involved in the interaction between the genetic composition and the environment is crucial for modern viticulture. We approached this issue by focusing on the small RNA transcriptome in grapevine berries of the two varieties Cabernet Sauvignon and Sangiovese, growing in adjacent vineyards in three different environments. Four different developmental stages were studied and a total of 48 libraries of small RNAs were produced and sequenced. Using a proximity-based pipeline, we determined the general landscape of small RNAs accumulation in grapevine berries. We also investigated the presence of known and novel miRNAs and analyzed their accumulation profile. The results showed that the distribution of small RNA-producing loci is variable between the two cultivars, and that the level of variation depends on the vineyard. Differently, the profile of miRNA accumulation mainly depends on the developmental stage. The vineyard in Riccione maximizes the differences between the varieties, promoting the production of more than 1000 specific small RNA loci and modulating their expression depending on the cultivar and the maturation stage. In total, 89 known vvi-miRNAs and 33 novel vvi-miRNA candidates were identified in our samples, many of them showing the accumulation profile modulated by at least one of the factors studied. The in silico prediction of miRNA targets suggests their involvement in berry development and in secondary metabolites accumulation such as anthocyanins and polyphenols.

Published
2016
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