New Insight into the Identity of Italian Grapevine Varieties: The Case Study of Calabrian Germplasm

Calabria is a region located in Southern Italy and it is characterized by a long tradition of viticulture practices and favorable pedoclimatic conditions for grapevine cultivation. Nevertheless, less than 2% of cultivated land is dedicated to grapevine growing in Calabria. The characterization of local grapevine accessions is crucial to valorize the local and peculiar Italian products and boost the Calabrian winemaking sector. With this purpose, we performed a deep characterization of two widespread Calabrian grapevine varieties—Magliocco Dolce and Brettio Nero, of which very little is known. In particular, a genetic and morphological analysis, a berry physico-chemical and polyphenolic compositions assessment, and oenological evaluation of monovarietal wines were carried out. Our results allowed us to demonstrate that Magliocco Dolce and Brettio Nero are unique and distinct varieties with peculiar morphological and chemical characteristics and show the suitability of these two varieties in high-quality wine production. Moreover, the obtained molecular profiles will be useful for authentication and traceability purposes.


Introduction
Calabria is a region located at the extreme south of Italy between the Ionian and the Tyrrhenian seas. It is one of the most ancient regions of Southern Italy for grape cultivation [1], being supposed as a secondary center of grapevine domestication along with Sicily [2]. Indeed, the Greek colonization strongly influenced agriculture in Southern Italy, giving Calabria and Sicily an important role for the establishment of new grapevine varieties coming from the Eastern Mediterranean Sea and for their spreading through Northern Italy and France [3]. Moreover, the Calabria region is prevalently hilly or mountainous (90% of the territory) with a wide range of altitudes making Calabria a favorable region for growing grapes as the altitude is directly associated with environmental factors, such as temperature and humidity, that can strongly influence the wine terroir [4].
Although the long tradition of viticulture practices and the favorable pedoclimatic conditions for cultivating grapevine, as at March 2021 only 9160 ha in Calabria are cultivated with grapevine, representing less than 2% of the Calabrian cultivated area [5]. This percentage is very low compared to other Italian regions; however, an increase in Calabrian PDO (Protected Designated of Origin) wine production was observed in the last years, implying the intention to boost the Calabrian winemaking sector. Nine and ten Calabrian wines are designated as PDO and PGI (Protected Geographical Indication), respectively. Among the Calabrian PDO wines, Terre di Cosenza is gaining in popularity following the success achieved in some popular wine exposition such as Vinitaly. Terre di Cosenza is a relatively new entry in PDOs since it was introduced in 2011, and it includes red, white, and rose variants. According to the disciplinary of production, Terre di Cosenza red wine is produced with the variety Magliocco in a minimal percentage of 60% [6]. The name Magliocco is used to indicate two different grapevine varieties: Magliocco Dolce and Magliocco Canino. These are two of the most widespread grapevine varieties in Calabria, cultivated mainly in the provinces of Crotone, Catanzaro, and Cosenza [7].
The name Mantonico Nero was used for a long time to indicate a black variety genetically different from Mantonico Bianco [2]. The use of the same name followed by a different adjective related to the color of berry skin is used to indicate varieties sharing the same genotype with a somatic mutation affecting fruit color, as observed for some grapevine varieties [8,9]. Therefore, the name Mantonico cannot be used to indicate both, Mantonico "Bianco" and Mantonico "Nero" (standing for white and black in Italian, respectively). Consequently, the name Brettio Nero, instead of Mantonico Nero, was indicated for the recent registration of this variety into the Italian National Registry of Grape Varieties. Mantonico Nero is used as synonymous of Magliocco Dolce in the disciplinary of production of Terre di Cosenza; although a distinct genetic profile was observed for this cultivar [2,10]. Mantonico and Magliocco are used also in the production of another Calabrian PDO wine, Lamezia, whose production has increased slightly over the last two years. According to the disciplinary of production, Lamezia red wine could be produced using Magliocco variety along with other Calabrian black varieties. Lamezia Mantonico-type wine is produced with Mantonico variety in a minimal percentage of 85%.
In grapevine, it is not unusual to come across varietal confusion with the occurrence of many synonymies and homonymies. To overcome this problem, over the last 10 years the research on grapevine genotyping through DNA-based analysis has increased [11][12][13]. Due to the great economic value of grapevine cultivation, the first draft of the grapevine genome was published in 2007 by Jaillon et al. [14] and by Velasco et al. [15] of the highly homozygous clone Pinot Noir PN40024 and highly heterozygous Pinot Noir ENTAV115 respectively. The availability of these resources and the development of next-generation sequencing techniques have also facilitated the large-scale genotyping of grape collections [16,17], the functional genomics studies [18], the marker-assisted selection plans [19,20], the transcriptomic analyses [21], and the development of genome walking methods [22].
Grapevine genetic diversity can be assessed through ampelographic and molecular characterization; these methods are useful to identify and study local cultivars and reveal cases of synonymy and homonymy. For a long time, ampelography has been the only technique used for grapevine characterization [23]; however, it is strongly affected by the operator's experience. The "Organisation Internationale de la Vigne et du Vin" (OIV) set a list of descriptors in order to standardize the ampelographic evaluation among different operators [24]. Nevertheless, the morphological traits are influenced by several factors including environmental conditions, thus ampelography has been gradually integrated by molecular techniques that are highly reliable and reproducible since they are not influenced by environmental factors [25]. The most used molecular markers are Single Sequence Repeat (SSR) and Single Nucleotide Polymorphism (SNP) because they have a codominant nature, a high degree of polymorphism, and are distributed across the whole genome [26].
The molecular characterization of local and peculiar accessions is fundamental also for traceability and authentication purposes. Being a high-value product, wine is subjected to different kinds of fraud, such as the addition of coloring and flavoring substances, the use of undeclared varieties and mislabeling. Among the different analytical approaches used for food traceability and authentication, the isotopic ratio-based methods, the mass spectrometry, and the nuclear magnetic resonance (NMR) are the most used in wine surveil-lance [27]. All these methods have been proven to be highly efficient in the identification of the geographical origin and detection of adulterants added to a product; however, they present remarkable limitations in the detection of contaminant species or variety. Conversely, molecular marker-based traceability allows the univocal identification of a specific variety making possible the authentication and traceability of wine products [28].
Many studies about the grapevine genetic diversity were performed about the authentication of Calabrian varieties [2,[29][30][31], allowing to unravel several cases of misnaming. As for Magliocco Dolce and Brettio Nero varieties, the identification remains unsolved. Pellerone et al. [29] obtained SSR profiles of variety Magliocco Canino, highlighting a genetic similarity to variety Perricone. Afterward, several synonymies for both Magliocco Dolce and Magliocco Canino were identified [11,30]; among these, a synonymy between Magliocco and Notardomenico, a variety commonly used in the production of several Apulian PGI wines, was identified. More recently, Sunseri et al. [2] affirmed that Magliocco Dolce is synonymous of Greco Nero, a variety widely cultivated in Southern Italy and used in many Calabrian PDO and PGI wines production. About the variety Mantonico, which indicates two color variants, white (Bianco) and black (Nero), only a few studies were performed to clarify the identity of this cultivar [2,10].
In our study, we intended to carry out a deep study through a multidisciplinary approach about the varieties Magliocco Dolce and Brettio Nero to define their main characteristics, as these two varieties were recently registered into the Italian National Registry of Grape Varieties (INRGV) [32] and the available information about them was limited. Genetic analysis, ampelographic evaluation, berry chemical, and polyphenolic assessment were used in the past with the purpose to characterize and valorize local and peculiar Italian grapevine varieties [11,[33][34][35]; however, this is the first time that a combined approach based on a multidisciplinary analysis is used to deeply characterize and valorize two local varieties. In detail, we verified if Magliocco Dolce and Brettio Nero were unique and distinct varieties and if they were synonymous of any other Italian variety. We evaluated several ampelographic characters related to shoot, leaf, bunch, and berry. Moreover, we measured some chemical and polyphenolic compounds in berries at maturity assessing the effect of their levels on chemical and polyphenolic composition and sensory characteristics of monovarietal red wine. In addition, a genetic analysis of different Calabrian and Italian accessions was performed, comparing the obtained molecular profiles with those available in the Italian Vitis Database (IVD) [36], INRGV [32], and the European Vitis Database (EVD) [37] with the purpose to clarify the correct denomination of different neglected Calabrian varieties. The ultimate goal was the valorization of these two local grapevine varieties through a deep definition of their main characteristics and their oenological properties and the production of a molecular profile useful for their traceability and the protection of their identity.

Plant Material
Fresh leaves of Magliocco Dolce, Brettio Nero, Greco Nero, and Guarnaccia Bianca provided by Agenzia Regionale per lo Sviluppo dell'Agricoltura in Calabria (ARSAC) were used for genetic analysis. In addition, 60 Italian grape genotypes sampled in different areas of Italy were also included in the analysis (Table 1). Among these, 24 samples were collected in Calabria region, and 36 were sampled in other Italian regions. In addition, morphological evaluation was performed on 50 plants for each accession, Magliocco Dolce and Brettio Nero, in four different localities of Cosenza province: Saracena, Bisignano, San Marco Argentano and Cosenza (district Donnici). Finally, chemical characterization and polyphenolic content evaluation of berries were conducted on 24 plants for each accession.

DNA Extraction and Microsatellite Analysis
DNA was extracted from young leaves collected in the field and stored at −80 • C until extraction. The extraction was carried out following the protocol of Spadoni et al. [38] Quantity and quality of extracted DNA were checked through Nano-Drop™ 2000C Spectrophotometer (Thermo Scientific, Waltham, MA, USA) and 0.8% agarose gel electrophoresis.
The cycling program consisted of a touchdown protocol: 5 min of initial denaturation at 94 • C, followed by 10 cycles composed by (i) denaturation at 94 • C for 45 s; (ii) annealing at 60 • C for 45 s, with a decrement of 0.5 • C per cycle to reach 55 • C; and (iii) extension at 72 • C for 30 s. Then, the annealing temperature was maintained at 54 • C for the 25 successive cycles.
Amplification products (2 µL) were mixed with 14 µL of formamide and 0.5 µL of the GeneScan 600 LIZ size standard (Life Technologies, Carlsbad, CA, USA), and then used for capillary electrophoresis. This was performed by the ABI PRISM 3100 Genetic Analyzer (Life Technologies, Carlsbad, CA, USA) and allele sizes were assigned through the GeneMapper Software version 3.7 (Life Technologies, Carlsbad, CA, USA).

Genetic Diversity Assessment
The molecular profiles of Magliocco Dolce and Brettio Nero were compared with the genetic profile obtained by the other Calabrian and Italian accessions and with the molecular profiles of 33 varieties available in three different databases (Italian Vitis database, Italian National Registry of Grape Varieties and European Vitis Database) ( Table 1). For each marker, the following parameters were calculated by the GENALEX software version 6.51b2 [43]: number of alleles (Na), effective number of alleles (Ne), Shannon's information index (I), observed (Ho) and expected (He) heterozygosity, and fixation index (F). Moreover, the polymorphic information content (PIC) and the frequency of null alleles (Nu) were calculated using Cervus version 3.0 [44]. Frequency-based genetic distances were calculated in order to construct an unweighted neighbor-joining dendrogram for all the grapevine accessions, using DARWIN version 6.0.010 [45].  [24].

Morphological Evaluation and Chemical Characterization of Berries
Ripening curves referred to sugar concentration, pH, and total acidity were built for both Magliocco Dolce and Brettio Nero varieties. Analysis was performed on berries collected at 4 distinct stages of ripening: beginning of veraison (E-L 35), middle veraison (E-L 36), end of veraison (E-L 37), and maturity (E-L 38). Samples were collected for three seasons (2016-2018). Moreover, the following parameters were measured in berries at maturity: total anthocyanins were measured in the skin, total flavonoids, total polyphenols, proanthocyanidins, and flavans were estimated in skin and seed, and hydroxycinnamic acids were measured in the pulp. These compounds were determined by spectrophotometric methods [46]. Analysis was performed for two seasons (2016-2017).

Chemical and Sensorial Analysis of Wines
Magliocco Dolce and Brettio Nero were used to produce two monovarietal red wines at the experimental wine cellar of Center for Research, Experimentation and Training in Agriculture (CRSFA) Basile Caramia (Locorotondo, Italy), through the following winemaking process. Whole grapes were refrigerated for 24 h at 4-6 • C, then destemmed with the addition of 8 g/hl of potassium metabisulphite. Cryomaceration was performed for 6 h at 4 • C followed by natural heating of the crushed grapes up to 20 • C. Afterward, ammonia salts with thiamine (10 g/hl) were added and yeasts were inoculated. After reaching 4-5 • and 9 • alcohol, oxygenation of the whole mass and addition of ammonia salts with thiamine (15 g/hl) was performed. Afterward, a pressing at the complete exhaustion of sugars was carried out. The wine was subjected to static clarification at 0 • C for one week and, then, naturally heated up to 20 • C. Then, lactic acid bacteria were inoculated and malolactic fermentation was monitored. Finally, the wine was transferred with oxygenation and integrated with free SO2 at 25 mg/L. Refinement and stabilization of the wine with controlled oxygenation were performed every 15 days.
For each of the two wines, the following physico-chemical parameters were determined: alcoholic degree, total acidity, pH, density, dry extract, volatile acidity, ash, malic acid, tartaric acid, citric acid, glycerol, potassium and sulfates, and polyphenols (total anthocyanins, total flavonoids, total polyphenols, proanthocyanidins, and flavans). Methods of analysis used for measuring each parameter are listed in the Official Journal of the European Union C 43/01 [47]. Determination of polyphenolic compounds was performed using spectrophotometric determination as described by Di Stefano et al. [48]. Six replicates of each wine were used for analysis.
A sensorial analysis was also carried out approximately six months after bottling. Hedonic sensory evaluation of wines was performed with a panel of consumers from 18 to 65 years old who have been asked to evaluate the two wines based on 24 parameters related to their color, odor, flavor, hit in mouth, persistence and overall liking on a 10-point hedonic scale. The scale of values ranged from "extremely high" to "extremely low" corresponding to the highest and lowest scores of "10" and "1", respectively. Consumers tasted the two samples of wines served in a glass cup adequately coded and served in a randomized order. Water was available for rinsing.

Statistical Analysis
The statistical significance of the data was analyzed using standard unpaired Student's t-test. p < 0.05 was considered to indicate a statistically significant difference.

Genetic Diversity Analysis
A high overall genetic diversity was observed among the 97 Italian grape accessions, supporting the effectiveness of the selected SSR markers set in discriminating among the accessions ( Table 2). The total number of alleles (Na) was 120, ranging from 7 at the VRZAG21 locus to 14 at the VVMD28 locus. The number of effective alleles (Ne) ranged from 3.88 to 7.58 for VVMD21 and VVMD28 markers, respectively. Shannon's information index (I) ranged from 1.54 (VRZAG21) to 2.20 (VVMD28). The null allele frequencies were estimated lower than 0.05 for all the loci, ranging between −0.050 and 0.038, for VVS2 and VVMD32 markers, respectively. The mean observed heterozygosity (Ho) was 0.83 and expected heterozygosity (He) was estimated as 0.81, determining a mean value for the fixation index (F) of −0.03. The efficiency of the SSR markers in distinguishing the genotypes was estimated by calculating the PIC index. This value indicated a powerful discrimination ability of markers. In fact, it ranged from 0.71 (VVMD21) and 0.85 (VVMD28) with a mean value of 0.78.
The dendrogram constructed through the unweighted neighbor-joining method clustered the accessions in three main groups (I, II, III) ( Figure 1).
Group I split into two sub-clusters (I-a and I-b) containing, respectively, 50 and 14 accessions. The cluster I-a may be in turn divided into two sub-cluster (I-a1 and I-a2). The sub-cluster I-a1 contained most of the Calabrian accessions, highlighting several cases of homonymies and synonymies (Table S1). The samples Guarnaccia and Guarnaccia Nera showed a different profile compared with Guarnaccia Nera present in the Italian Vitis database, indicating a possible case of misnaming. Mantonico Nero and Brettio Nero shared identity, showing also a high similarity with Mantonico d'Alessandria and Mantonico di Roggiano. The samples named Guarnaccia Bianca and Guarnaccia Bianca-like clustered with the Guarnaccia Bianca registered into the Italian Vitis database but differed from Guarnaccia Bianca present in the Italian National Registry of Grape Varieties. A similar discrepancy was observed for the variety Montonico Bianco in the Italian National Registry of Grape Varieties and the European Vitis database, located in cluster I-b and sub-cluster I-a2, respectively. The accession Greco Nero provided by ARSAC showed a different profile compared with Greco Bianco indicating misuse of the same name followed by "Bianco" and "Nero" designation to indicate different varieties.
The sub-cluster I-a2 consisted mostly of profiles retrieved from the molecular databases corresponding to accessions cultivated in different Italian regions and included the Calabrian accessions Canino and Altamura 2. markers. In fact, it ranged from 0.71 (VVMD21) and 0.85 (VVMD28) with a mean value of 0.78.
The dendrogram constructed through the unweighted neighbor-joining method clustered the accessions in three main groups (I, II, III) ( Figure 1). Group I split into two sub-clusters (I-a and I-b) containing, respectively, 50 and 14 accessions. The cluster I-a may be in turn divided into two sub-cluster (I-a1 and I-a2). The sub-cluster I-a1 contained most of the Calabrian accessions, highlighting several cases of homonymies and synonymies (Table S1)  The cluster I-b contained several Calabrian accessions. Arvino, Lagrima Nera, and Magliocco Dolce shared the same molecular profile indicating a case of synonymy. Their profile is completely different compared to that of Greco Nero provided by ARSAC.
Group II consisted of 21 samples collected in different Italian regions, including several members of the "Moscato family". Among these, Moscato Reale and Moscato Bianco represent a case of synonymy (Table S1). The samples named Guarnaccia Saracena and Mantonico-like shared the same molecular profile of Guarnaccia Bianca provided by ARSAC and they are different from both Guarnaccia Bianca retrieved in the Italian National Registry of Grape Varieties and Italian Vitis database. Finally, group III contained 12 samples and included most of the Apulian accessions.
To verify the profile of Greco Nero, Guarnaccia Bianca, Magliocco Dolce, and Brettio Nero provided by ARSAC, we checked it into the Vitis International Variety Catalogue Agronomy 2021, 11, 1538 9 of 18 (VIVC) [49]. For Magliocco Dolce and Brettio Nero, the molecular profile was identical to the one obtained in our study. The VIVC profile of Guarnaccia Bianca was different from the other profiles of Guarnaccia Bianca and the VIVC profile of Greco Nero was different from both Greco Nero ARSAC and Greco Bianco indicating a widespread confusion on the identity of these two varieties (Table S2).

Ampelographic Characterization and Chemical Analysis of Berries
The phenotypic profile of Magliocco Dolce and Brettio Nero based on 45 OIV descriptors was developed ( Table 3). The two accessions exhibited very similar phenotypes, with some differences in mature leaf characters (OIV code 070, 072, and 079) and berry length and shape (OIV code 220 and 223).  Ripening curves referred to sugar concentration, pH, and total acidity were built for the two varieties, considering 4 distinct stages of ripening (from E-L 35 to E-L 38). In both varieties, during veraison sugar concentration increases rapidly, also pH increases as total acidity decreases. Both, Brettio Nero and Magliocco Dolce exhibited similar profiles reaching approximately the same value of sugar concentration and pH at maturity (Figure 2). The principal compounds responsible for berry phenolic profile and representing some of the principal factors affecting red wine quality were also measured in the two varieties ( Figure 3).   In general, Magliocco Dolce showed higher levels of polyphenolic compounds in the skin compared to Brettio Nero, in particular, a significant difference was observed for total flavonoids and proanthocyanidins (p < 0.05), whereas the levels of polyphenolic compounds were comparable between the two varieties in the seed. Finally, hydroxycinnamic acids in berry pulp were slightly lower in Brettio Nero compared to Magliocco Dolce.

Oenological Parameters and Wine Sensory Analysis
A total of 20 oenological parameters were analyzed in the two monovarietal wines obtained from Magliocco Dolce and Brettio Nero. Both wines showed similar values for all parameters with only two exceptions of ashes, lower in Brettio Nero compared to Magliocco Dolce, and malic acid, higher in Brettio Nero compared to Magliocco Dolce (Table  4).  In general, Magliocco Dolce showed higher levels of polyphenolic compounds in the skin compared to Brettio Nero, in particular, a significant difference was observed for total flavonoids and proanthocyanidins (p < 0.05), whereas the levels of polyphenolic compounds were comparable between the two varieties in the seed. Finally, hydroxycinnamic acids in berry pulp were slightly lower in Brettio Nero compared to Magliocco Dolce.

Oenological Parameters and Wine Sensory Analysis
A total of 20 oenological parameters were analyzed in the two monovarietal wines obtained from Magliocco Dolce and Brettio Nero. Both wines showed similar values for all parameters with only two exceptions of ashes, lower in Brettio Nero compared to Magliocco Dolce, and malic acid, higher in Brettio Nero compared to Magliocco Dolce (Table 4).
In general, the polyphenols content (except flavans) showed to be higher in Magliocco Dolce wine than Brettio Nero wine, according to polyphenols content observed in berry skin of the two varieties. Although, it should also be noted that the standard deviation of data (especially the one related to total proanthocyanidins and flavans) showed very high values, indicating a high variation of data in analyzed replicates ( Table 4).
The wine sensory evaluation of the two monovarietal wines, performed on 24 sensorial parameters, indicated a higher limpidity and color intensity of Brettio Nero wine compared to Magliocco Dolce one. In general, Brettio Nero wine showed to be more aromatic than Magliocco Dolce, while no differences were observed in smell intensity, persistency, and quality. The 50% of tasters indicated a much higher acidity and tasteness of Brettio Nero wine, while no significant differences were observed in other flavor features of the two wines ( Figure 4). In general, the polyphenols content (except flavans) showed to be higher in Magliocco Dolce wine than Brettio Nero wine, according to polyphenols content observed in berry skin of the two varieties. Although, it should also be noted that the standard deviation of data (especially the one related to total proanthocyanidins and flavans) showed very high values, indicating a high variation of data in analyzed replicates ( Table 4).
The wine sensory evaluation of the two monovarietal wines, performed on 24 sensorial parameters, indicated a higher limpidity and color intensity of Brettio Nero wine compared to Magliocco Dolce one. In general, Brettio Nero wine showed to be more aromatic than Magliocco Dolce, while no differences were observed in smell intensity, persistency, and quality. The 50% of tasters indicated a much higher acidity and tasteness of Brettio Nero wine, while no significant differences were observed in other flavor features of the two wines ( Figure 4).

Discussion
The increase in Calabrian wine production along with the growing interest shown by consumers towards local and peculiar Italian products make crucially important the characterization of local grapevine varieties along with the clarification of naming of these cultivars since a general variety name confusion is rather widespread. Our work has covered a series of genetic, viticultural, and oenological analyses in order to unequivocally characterize two widespread Calabrian grapevine varieties: Magliocco Dolce and Brettio Nero.
ARSAC-authenticated plants of the varieties Magliocco Dolce and Brettio Nero were genotyped with 12 SSR markers. The obtained molecular profiles were compared with that of 26 popular Calabrian accessions and 36 Italian varieties. Moreover, a comparison with some of the most spread Italian cultivars available in three different molecular databases was also made. The dendrogram built through the unweighted neighbor-joining

Discussion
The increase in Calabrian wine production along with the growing interest shown by consumers towards local and peculiar Italian products make crucially important the characterization of local grapevine varieties along with the clarification of naming of these cultivars since a general variety name confusion is rather widespread. Our work has covered a series of genetic, viticultural, and oenological analyses in order to unequivocally characterize two widespread Calabrian grapevine varieties: Magliocco Dolce and Brettio Nero.
ARSAC-authenticated plants of the varieties Magliocco Dolce and Brettio Nero were genotyped with 12 SSR markers. The obtained molecular profiles were compared with that of 26 popular Calabrian accessions and 36 Italian varieties. Moreover, a comparison with some of the most spread Italian cultivars available in three different molecular databases was also made. The dendrogram built through the unweighted neighbor-joining method highlighted the presence of three principal groups (Figure 1), with most of the Calabrian accessions clustered together in the sub-cluster I-a1 and the cluster I-b. Mantonico Nero accession sampled in Calabria resulted to be genetically identical to the ARSAC-authenticated Brettio Nero confirming to be a specific genotype different from any other accession included Mantonico Bianco. Despite the general practice to use the same varietal name for berry colors variant, derived from a somatic mutation affecting fruit color [8,9], in the case of the name Mantonico this could not be used to indicate the white "Bianco" and black "Nero" variants. Thus, the new name Brettio Nero was proposed instead of Mantonico Nero for the registration of this variety into the Italian National Registry of Grape Varieties. The misuse of the same name followed by "Bianco" and "Nero" designation to indicate different varieties is not uncommon. Indeed, Greco Bianco showed a different molecular profile compared to Greco Nero and the same situation is observed for Bombino Bianco and Bombino Nero (Figure 1).
ARSAC-authenticated Magliocco Dolce (cluster I-b) showed to be completely different from ARSAC-authenticated Greco Nero (sub-cluster I-a1) which, thus, cannot be considered synonymous of Magliocco Dolce [2]. In the same way, it showed a different molecular profile from that of Notardomenico retrieved from INRGV, excluding also, in this case, the hypothesis that Magliocco Dolce and Notardomenico are synonymous [11]. By contrast, the names Lagrima Nera, Arvino, and Magliocco Dolce were confirmed as synonymies [31]. The genetic analysis showed different molecular profiles for Magliocco Dolce and Magliocco Canino and genetic similarity of the latter with the variety Perricone, in accord with Pellerone et al. [29]. Based on our results, we can sustain that Magliocco Dolce and Brettio Nero represent two unique varieties not matching with any other registered Calabrian variety. Moreover, we highlighted the necessity to define the new name Brettio Nero instead of Mantonico Nero in order to clearly distinguish this cultivar from the Mantonico Bianco variety.
For a long time, ampelography was the only methodology used to identify grape varieties [50,51]. Today, despite the introduction of more reliable genetic methods, it is still fundamental for the identification and description of grape cultivars. We used 45 OIV descriptors to morphologically describe Magliocco Dolce and Brettio Nero varieties (Table 3), including all that required for registration of a new variety into the Italian National Registry of Grape Varieties. Magliocco Dolce and Brettio Nero varieties were investigated also for physico-chemical parameters of berry, including the content of some classes of polyphenols. Grape berries are a non-climacteric fruit, and the ripening process involves numerous physiological and metabolic activities occurring during the whole veraison phase till the berry reaches maturity making them suitable for vinification. These changes make the ripening process a determining factor in the quality of grapes and wines [52]. For both Magliocco Dolce and Brettio Nero varieties, several chemical parameters were measured in berries at different ripening stages. The ripening curves showed a sigmoidal trend with a rapid increase of sugar concentration reaching the highest value at maturity (about 23 • Brix for both varieties). Simultaneously, total acidity decreases inducing an increase of pH from about 3.1 at the beginning of veraison to about 3.4 at maturity (Figure 2).
The evaluation of the sugar content and acidity level alone does not fully express the real oenological potential of a grape accession. The knowledge of the polyphenolic profile of grapes allows careful planning of the winemaking process and the exploitation of the full potentiality of a variety [53]. In red wines, the polyphenolic content of berry at maturity (grape phenolic maturity) is one of the major factors affecting quality. Most of the wine's sensory characteristics, such as color, astringency, and bitterness, are directly associated with the profile of anthocyanins and proanthocyanidins [54,55]. We evaluated the grape phenolic maturity of Magliocco Dolce and Brettio Nero through the measurement of principal phenolic compounds. Our results showed to be highly variable, being more affected by climatic conditions and viticulture practices than the grape cultivar. Nevertheless, they are in line with findings obtained by other authors [33,56,57].
Wine quality and flavor are affected by several factors including the physico-chemical characteristics of berries at harvesting and the operating conditions adopted during grape maceration that can strongly influence the amount of extracted phenols. In order to evaluate the effects of berry composition on the content and flavor of wine during the winemaking process, 20 oenological parameters were checked in Magliocco Dolce and Brettio Nero monovarietal wines. Moreover, a sensorial analysis based on the detection of 24 parameters was performed by six consumer volunteers. The two wines reached the minimum percentage for the volume of alcohol established by law (>9% volume; Council Regulation (EC) No 1234/2007) [47] and a high alcoholic sensation in the sensory analysis was perceived. Acidity, which plays an important role in wine tasting, as it confers crispness and freshness to the wine, reached similar levels in the two varieties. Both wines showed normal values of total acidity (between 5 e 8 g/L) and pH (between 3 and 3.7) and low volatile acidity (<1 g/L) [58]. Although both wines showed a comparable level of acidity (Table 4), acidity was perceived more in Brettio Nero wine compared to Magliocco Dolce. Color intensity and tonality, which are mostly determined by anthocyanin content [59], showed, as expected, very high values; in particular, color intensity showed to be higher in Magliocco Dolce wine compared to Brettio Nero wine, according to the higher content of anthocyanins in berry skin; nevertheless, Brettio Nero wine was judged more intensely colored by consumers. Phenolic compounds play an important antioxidant activity in wines, especially in red ones [60]. The levels of polyphenols compounds found in the two monovarietal wines are comparable with that observed commonly in red wines [61]. In general, a higher polyphenols content was observed in Magliocco Dolce wine compared to Brettio Nero wine, as well as a higher polyphenols content was observed in Magliocco Dolce berries. Regarding the sensorial analysis, in general, both wines were judged as harmonious and tasty. The wine produced with Brettio Nero variety presented an intense floral and fruity smell while Magliocco Dolce wine was judged slightly perfumed.

Conclusions
In our study, we deeply characterized two Calabrian varieties-Magliocco Dolce and Brettio Nero-with the purpose to valorize them and boost their use in wine production. The genetic analysis allowed us to verify that they are unique and distinct accession and to define a genetic profile useful for molecular traceability purposes. The morphological evaluation highlighted the peculiar characteristics of Magliocco Dolce and Brettio Nero allowing their discrimination from any other Calabrian variety. Finally, the chemical analysis of berry and the evaluation of oenological properties of Magliocco Dolce and Brettio Nero demonstrated the suitability of these varieties in high-quality wine production.
In the future, the characterization of other Calabrian grapevine samples following the same multidisciplinary approach will allow the valorization of local and peculiar accessions and their registration in the Italian National Registry of Grape Varieties. This will contribute to promote the quality and value of the wine produced with these new varieties and highlight the potential of Calabria region in the wine sector.
Supplementary Materials: The following are available online at https://www.mdpi.com/article/10 .3390/agronomy11081538/s1, Table S1: List of synonyms found in our study and comparison with synonyms recognized by the Italian National Registry of Grape Varieties, Table S2