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Must

Must is the unfermented juice extracted from freshly crushed s, typically including the skins, seeds, and sometimes stems, which forms the foundational material in the process. This mixture, known as when referring to the solid components, originates from the Latin term vinum mustum, meaning "young wine," and is essential for initiating . The of must varies based on grape variety, ripeness, , and conditions, but it generally consists of , sugars (ranging from 170–220 g/L), organic acids (9–27 g/L), (0.1–1 g/L), minerals, polyphenols, vitamins, and aromatic precursors that influence the final wine's flavor, color, and stability. In , the inclusion of skins and seeds imparts and color during , while wines often use clarified must from free-run juice or gentle pressing to avoid excessive bitterness. Must weight, measured by scales like (typically 21–25° for table wines), indicates potential content, as each degree Brix roughly converts to 0.55% alcohol upon full . During , must undergoes alcoholic driven by such as , which consumes sugars and produces , , and heat; the and in must serve as critical nutrients for this process. Insufficient can hinder , sometimes requiring additions like (up to 96 g/hL ). Beyond grapes, must can derive from other fruits like apples or berries for or fruit wines, though grape must remains central to worldwide.

Etymology and definition

Etymology

The term "must" in the context of derives from the Latin mustum, literally meaning "new" or "young wine," a neuter form of mustus denoting something fresh or undiluted, possibly linked to a meus- implying dampness or wetness. This usage appears in ancient texts, with one of the earliest detailed references found in Pliny the Elder's Naturalis Historia (77 CE), where he describes various types of must, including semper mustum (ever-fresh must), a non-fermenting preserved for . The word's application to unfermented reflects viticultural practices, where mustum was the starting point for wine production. In the evolution of English, the noun "must" entered the language in the period, derived from Latin mustum. Earlier attestations in Old English exist for the sense of , but the winemaking meaning specifically denotes unfermented fruit juice. This linguistic path parallels developments in other , such as mosto and mosto, both direct descendants of mustum and retaining the core idea of fresh, pressed liquid. Related terms appear in earlier Indo-European languages, including oinos gleukos, translating to "sweet wine" or new, unfermented , used in classical texts to describe a similar fresh product. Over time, the shifted from these classical to modern oenological usage, where "must" consistently refers to the pre-fermentation stage in fruit processing, maintaining its association with novelty and freshness across centuries of viticultural literature.

Definition

Must is the freshly pressed liquid obtained from fruits, primarily grapes, that includes the juice along with pulp, skins, seeds, and sometimes stems. The solid components, collectively known as , typically comprise 10–20% of the must's total weight. This unfermented mixture serves as the starting material in various beverage productions, retaining the solids to facilitate the extraction of flavors, colors, and other compounds during subsequent processes. Unlike clarified juice, from which solids have been separated, must preserves these elements for their contributory role in the final product; it is distinct from fermented beverages such as wine or distilled spirits like . The term derives from the Latin mustum, meaning "young wine" or "new wine." According to the International Organisation of Vine and Wine (OIV), grape must is specifically the liquid product resulting from fresh s through physical means like crushing or . In , must is categorized by the extent of skin contact: white must is produced by pressing s immediately to minimize color and extraction from the skins; red must involves in the presence of skins to impart color via anthocyanins and structure from ; rosé must receives limited skin contact, often just a few hours, to achieve a pale pink hue. Legally, under regulations aligned with OIV standards, must is recognized as an unfermented product from fresh s, and in (PDO) specifications—such as for of or —it must derive from designated varieties with controlled yields ensuring adequate sugar content for concentration and aging.

Production

Grape must production

Grape must production begins with harvesting, where timing is determined by grape ripeness, typically measured using the scale to assess sugar content. For most still wines, grapes are harvested at 21-25° to achieve optimal balance of sugars, acids, and flavors, while grapes are picked earlier at 18-20° . Harvesting methods vary by scale and terrain: hand-picking is preferred in steep vineyards or for premium quality to select only ripe clusters and avoid damage, whereas mechanical harvesters are used in flatter, large-scale operations for efficiency, though they may include unripe berries or MOG (material other than grapes). Following , the grapes undergo crushing and destemming to release the while minimizing seed breakage, which could introduce bitter . Modern crushers-destemmers employ rubber rollers or paddles to gently break the berry skins, producing a must consisting of free-run , , skins, and , with typical juice yields of 70-80% by weight depending on variety and processing. This step is crucial for wines, where destemmed grapes may be pressed immediately to limit skin contact and oxidation, unlike reds where whole clusters might be included for flavor enhancement. Pressing extracts additional from the crushed grapes, with techniques varying by wine type to preserve quality. For white wines, gentle pneumatic presses apply controlled air to separate juice without excessive phenolics or oxidation, often yielding clearer must suitable for early . In contrast, traditional or vertical screw presses are favored for reds post-maceration, as their slower, firmer action extracts colored juice while allowing some integration, though modern producers may use pneumatic presses for both to standardize efficiency. Contemporary practices incorporate and additives to stabilize the must before . Grapes are often chilled during transport and processing to 10-15°C, inhibiting indigenous yeasts and enzymes that could cause premature or spoilage. (SO₂) is routinely added at 25-75 mg/L to the must for action and to prevent enzymatic , particularly in whites, ensuring microbial stability without altering flavor profiles. Yield factors significantly influence must volume and quality, varying by grape variety and regional traditions. Thin-skinned varieties generally produce higher juice yields than thick-skinned ones due to a lower skin-to-pulp , affecting overall . Regional practices, such as foot-treading in Portugal's Douro Valley for , involve treading grapes in shallow stone lagares to gently crush berries and initiate color extraction, a method retained for its ability to enhance structure over mechanical alternatives.

Must from other fruits

Must from fruits other than grapes is produced through adapted pressing and extraction techniques that account for variations in fruit texture, sugar content, and composition. For apple must used in production, apples are first milled into a —a pulpy mash—that facilitates juice release during pressing. Hydraulic presses are commonly employed to apply controlled pressure, extracting 65-75% juice by weight from the pomace, depending on apple variety and ripeness. Specific varieties, such as bittersweets like Dabinett, are selected for their balanced and acidity, contributing to the must's structure without overpowering astringency. Pear must for perry follows a similar to apple must but requires adjustments due to the fruit's softer texture. Pears are milled into and pressed, often using hydraulic or presses, though gentler pressure is applied to prevent excessive extraction of that could impart unwanted bitterness. Perry pears, like Huffcap or Barland, are typically harvested late and allowed to soften slightly before ing to optimize yield while minimizing astringency. For other fruits, extraction methods vary to suit their properties. Berry must, such as from blackcurrants used in liqueurs, is often produced via steam juicing, where heat vaporizes water from the berries to collect condensed , avoiding direct crushing that could oxidize delicate flavors. Tropical fruits like and , which have high and content, undergo enzymatic treatment with pectinases and cellulases to break down cell walls and facilitate juice release, improving and clarity. Producing must from non-grape fruits presents challenges, including higher levels in many varieties that cause cloudiness and , necessitating fining agents like enzymes to clarify the . Additionally, some fruits have lower natural sugars, requiring concentration techniques such as or to achieve suitable levels for . Historically, must from fruits like mulberries and quinces was utilized in medieval for beverages and preserves, with records indicating mulberry-based wines and quince conserves in monastic and noble households.

Main components

Must, the freshly crushed grape juice including skins, seeds, and pulp, contains several key chemical components that influence its fermentation and the resulting wine quality. The primary soluble solids are sugars, predominantly glucose and , which typically constitute 10-25% of the must by weight, equivalent to 100-250 g/L. These sugars are measured using scales such as (degrees , where 1°Brix approximates 1% sugar) or Oechsle, providing an estimate of ripeness and potential yield. During fermentation, yeasts convert these sugars to , with the theoretical potential (ABV) calculated as sugar content (in °Brix) multiplied by approximately 0.55, though actual yields vary due to fermentation efficiency. Organic acids form another major component, accounting for 0.5-1.2% of the must (5-12 g/L total acidity), primarily tartaric and malic acids (comprising about 90% of the total), with smaller amounts of ; ranges vary by climate and ripeness. These acids contribute to a range of 3.0-4.0 in typical grape must, which is crucial for microbial stability by inhibiting the growth of spoilage bacteria and unwanted yeasts. Suspended solids, known as , make up 7-23% of the must weight, depending on the extent of crushing and grape variety, and include skins, , and . These solids are rich in phenolics and extracted from the skins and seeds, which provide structure, color, and astringency to the wine, as well as pectins from the pulp that can affect clarity if not managed. Additional minor components include proteins and enzymes at 0.1-0.5 g/L (0.01-0.05%), which can influence formation and enzymatic reactions during processing. Trace minerals such as (around 1,000 mg/L) and (yeast assimilable nitrogen, YAN, at 60-500 mg/L) support nutrition and vigor. Aroma precursors, including (e.g., for floral notes) and cysteine-bound thiols (precursors to aromas like 3-mercaptohexanol), are present in trace amounts and are released during to define character. The composition of must varies significantly; late-harvest grapes yield higher levels (up to 30% or more), increasing potential, while cool-climate regions produce must with elevated acidity (higher tartaric and malic content) for better and preservation.

Physical properties

Must is a cloudy obtained from crushed s, characterized by including pulp, skins, and seeds that contribute to its opacity and texture. For white grape varieties, the must appears as a pale , while red grape must, often including macerated skins, takes on a deep purple hue. Turbidity levels, arising from these , can range from hundreds to several thousand NTU in raw must, with white must typically up to around 1,000 NTU and red must up to 5,000 NTU or more, influencing clarity and processing decisions. The of must, also known as specific gravity, typically ranges from 1.08 to 1.12 g/cm³, largely due to dissolved that increase its mass relative to . This is routinely measured with a to assess must weight, providing an indicator of sugar concentration and potential alcohol yield after . in must exceeds that of , generally falling between 3 and 5 at ambient temperatures (around 20°C), owing to the presence of pectins and that thicken the ; unclarified must with higher solids content may be more viscous. This elevated affects practical handling, such as pumping through equipment and the rate of settling during clarification. Must exhibits sensitivity critical to preservation, with optimal handling and occurring between 10 and 20°C to limit microbial activity and oxidative changes. Temperatures above 25°C heighten the risk of enzymatic , mediated by , which oxidizes and results in undesirable discoloration. The sensory profile of must includes a prominent aroma of fruity and grapey notes, primarily from naturally occurring esters that evoke fresh characteristics. Uncontrolled wild yeasts, however, may introduce off-flavors if not managed promptly during . These physical traits are shaped by underlying chemical components like sugars and organic acids.

Role in winemaking

Fermentation process

The fermentation process transforms grape must into wine primarily through alcoholic fermentation, where yeasts convert the sugars present in the must—typically 22–26° Brix—into ethanol and carbon dioxide. This biochemical reaction is initiated by the addition of yeast, most commonly Saccharomyces cerevisiae, which is either inoculated commercially at concentrations of 10^6–10^7 cells per milliliter for controlled and reliable fermentation or relies on native yeasts naturally occurring on grape skins for a more spontaneous process that can introduce varietal flavors but risks inconsistency. The fermentation begins once yeast is active, with the must's anaerobic environment favoring the glycolytic pathway that yields approximately 1% alcohol per 1.8° Brix of sugar consumed. Alcoholic fermentation proceeds in stages, starting with the primary phase, which is vigorous and lasts 5–10 days, during which the bulk of sugar conversion occurs at temperatures of 18–28°C for red wines to optimize extraction and flavor development. This phase generates significant heat and foam from CO₂ release, requiring to prevent off-flavors from excessive warmth. Following primary fermentation, a secondary phase may occur, often involving conducted by such as Oenococcus oeni, which converts sharper malic acid to softer , reducing acidity and enhancing , typically at cooler temperatures of 18–20°C over 2–8 weeks. For white wines, must is typically clarified by or gentle pressing to separate the liquid from the early, minimizing contact with skins and to avoid excessive and bitterness, with proceeding at similar temperatures but without extended . For red wines, must management is crucial during to maximize color and extraction from the skins. The floating of skins, , and pulp—known as the —is regularly submerged through punching down, typically twice daily, or pumped over to ensure even contact with the fermenting liquid, promoting release while preventing the cap from drying out and harboring spoilage microbes. After 7–21 days of , depending on desired extraction levels, the wine is racked off the pomace to separate the liquid from the solids, marking the end of primary skin contact. Fermentation progress is closely monitored by tracking the decline in , from an initial 22° to approximately -2° for dry wines, indicating near-complete sugar depletion, alongside daily measurements of , temperature, and alcohol levels using hydrometers and refractometers. To avert or sluggish fermentations—where activity halts prematurely due to deficiencies or stress—additions of (SO₂) at 30–50 mg/L provide antimicrobial protection without inhibiting , while assimilable (YAN) nutrients, often 150–250 mg/L, support robust metabolism. Successful completion yields wine with 11–15% (ABV), varying with initial sugar content and strain efficiency, alongside the formation of lees—sediment primarily composed of dead cells and cellular debris that settle at the bottom, influencing subsequent clarification steps. This process not only preserves the must's inherent qualities but also shapes the wine's sensory profile through controlled microbial activity.

Pomace utilization

Grape , the solid residue remaining after pressing or of must, primarily consists of grape skins, , and . It is rich in and dietary fibers, with contributing up to 35-40% fibers and 7-20% on a dry weight basis, while the overall contains such as procyanidins and anthocyanins. Additionally, retains 5-15% residual sugars on a dry basis, depending on the processing stage, which can support further microbial activity if not managed promptly. A primary industrial application of is to produce pomace brandies, where the residue undergoes of its residual sugars before direct without water addition to concentrate and flavors. In , this yields , a clear spirit traditionally made from fermented in copper pot stills, capturing volatile aromas from the skins and seeds. Similarly, in , marc is produced through double of fermented , resulting in a robust used in regional cuisines and aperitifs. These processes valorize what would otherwise be waste, with enhancing and higher profiles critical to the spirits' quality. Beyond , serves as , particularly for ruminants and , due to its and protein content, which can replace up to 20-30% of conventional grains while providing antioxidants that improve gut health and reduce emissions in by 10-11%. As a or additive, its levels—up to 1,400 mg/100 g—enrich nutrients, with a carbon-to-nitrogen ratio of 17:1 to 30:1 making it suitable for aerobic composting in vineyards to enhance microbial activity and structure. also supports production through , yielding 250-850 mL of per gram of volatile solids, with comprising 55-65%, offering a source from waste. Recycling through these uses significantly reduces , which can account for 20-30% of processed mass, minimizing disposal and environmental impact. The , via the Waste Framework Directive (2008/98/EC) and Regulation (EC) No 479/2008, mandates sustainable management of organic residues like , encouraging alternatives to such as composting or to promote practices in vineyards.

Other beverages

In mead production

In mead production, the base consists of diluted in to form a fermentable analogous to must, with must often incorporated to create flavored variants known as melomels. must, derived from grapes, apples, or other , is typically added at ratios of approximately 1 part by weight to 1.15 parts , or equal volumes when using , providing natural sugars that contribute to content and complexity while diluting the high of the . This addition is essential for melomels, where the must supplies acidity and lacking in pure , balancing the beverage's sweetness and enhancing structural . The process mirrors but emphasizes lower temperatures of 15–21°C to preserve delicate honey aromas and flavors, with such as Lalvin 71B pitched into the combined must after and supplementation to manage high gravities (often 1.090–1.130). Pectic enzyme is commonly added to clarify the must and prevent from , followed by primary lasting 10–14 days, then secondary aging for several weeks to integrate flavors. Historical medieval recipes, such as those from , blended with at proportions of about two-thirds honey to one-third juice, simmering the mixture before to extract flavors and stabilize the must. Modern craft meadmakers adapt these traditions, employing specific fruits like berries or stone fruits in melomels to achieve nuanced profiles. Key variations include pyment, which combines as the primary fermentable with must or juice for a wine-like character, and cyser, where apple must forms the base augmented by 1.75–2.5 pounds of per to add body and residual sweetness. A primary challenge arises from 's inherent properties—stemming from high osmolarity, low (3.2–4.5), , and —which can delay starts or cause "stuck" batches when diluted by fruit must, necessitating careful yeast nutrition and monitoring to balance microbial introduction from the must with controlled activity.

In cider and perry

In cider production, apple must—obtained by crushing and pressing apples—is the primary for , typically using either naturally present on the skins and equipment or commercial yeast strains such as Saccharomyces uvarum or S. bayanus for more controlled outcomes. fermentations often yield complex, variable flavors but carry risks of off-flavors or ferments, while commercial yeasts ensure consistency and complete conversion of sugars to . styles vary based on extent: dry ciders result from full , reaching 10-12% (ABV) as sugars are exhausted, whereas sweet styles involve arrested to retain residual sugars, typically around 5.5% ABV. Perry, the fermented beverage from pear must, shares similarities with but features distinct characteristics due to pears' higher content, which contributes to greater astringency and structure in the final product. pears, such as Barland or varieties, often exhibit elevated levels compared to , influencing and requiring careful blending with lower- dessert pears like Comice for balance. in typically proceeds more slowly, lasting 3-6 months to allow natural settling and clarity, as the higher and unfermentable sugars like promote a protracted process that enhances stability without . Must for both and is frequently amended with additives to optimize and flavor; sugars such as or are added to boost potential content and sweetness, while acids like malic are incorporated to adjust and acidity for microbial stability. is commonly achieved through secondary in bottles or tanks, where added sugars feed residual activity to produce natural CO₂, distinguishing traditional sparkling styles from force-carbonated industrial products. Regional variations highlight must handling differences: in traditional English keeved cider, the must undergoes keeving—a process where binds nutrients to limit activity—retaining natural cloudiness and enabling a slow, incomplete for semi-sweet, sparkling results without added sugars. In contrast, methods often clarify the must early through or fining to promote rapid, clean and early bottling. Production scale influences must extraction: artisanal methods rely on manual rack-and-cloth or basket presses, yielding about 70% from apples while preserving complexity through gentle pressure, whereas industrial operations employ hydraulic or pneumatic presses—and occasionally centrifuges for —to achieve higher yields up to 80% and process large volumes efficiently.

Culinary uses

Historical applications

In ancient Greece and Rome, boiled grape must was a primary sweetener and preservative in culinary applications, reduced to syrups known as defrutum (a one-third reduction) and sapa (a two-thirds reduction) for use in sauces, desserts, and meat dishes. These syrups provided a concentrated source of sweetness derived from natural grape sugars, often flavored with spices or herbs to enhance flavors in savory preparations. In Roman cuisine, defrutum and sapa appeared frequently in recipes alongside fermented fish sauce (garum), such as in stews and sauces where the syrup balanced umami and acidity. The production of these syrups involved boiling fresh grape must in large vessels to evaporate water and concentrate sugars, reducing the volume to one-third for sapa to ensure long-term preservation without fermentation. Solar evaporation was occasionally employed in sunnier regions to gently reduce must before final boiling, minimizing spoilage during processing. The resulting syrups were stored in sealed amphorae, often coated with resin to prevent leakage and contamination, allowing transport and year-round use in households and trade. A key cultural role for these must-derived syrups is evident in the cookbook Apicius (compiled in the late 4th or early ), where defrutum features in dishes like braised pork, glazed biscuits, and steak sauces, underscoring its versatility in elite banquets. In the , concentrated grape must known as pekmez served as a traded commodity, taxed as an unfermented syrup and integral to regional economies for sweetening and preservation. During the medieval period in , must-based sweeteners persisted in spiced wines like hypocras, where reduced grape syrups complemented spices such as cinnamon and ginger to create medicinal and festive beverages. In the , dibs—a thick syrup from boiled grape or date must—functioned as a staple predating widespread or cane sugar use, applied in desserts, breads, and preserves across cuisines. The prominence of must syrups in cooking declined after the , as European imports of refined cane sugar from the and provided a cheaper, more stable alternative, gradually supplanting local fruit-based concentrates in both elite and everyday applications.

Modern applications

In contemporary culinary practices, grape must serves as a foundational ingredient in the production of , particularly Aceto Balsamico di Modena PDO, which is crafted exclusively from cooked and concentrated must derived from Trebbiano, , and Ancellotta grapes grown in the region. This must undergoes slow aging in a series of wooden barrels for a minimum of 12 years, often extending to over 100 years, resulting in a dense, syrupy prized for its complex sweet-sour profile and used to enhance salads, cheeses, and desserts. The process preserves the must's natural sugars and acidity, making it a staple in since its protected designation in 2000. Grape must is also transformed into versatile syrups across various cultures, providing a natural sweetener for both sweet and savory dishes. In , petimezi is produced by boiling down fresh grape must and is commonly drizzled over , pastries, or used in marinades. This thick molasses-like syrup maintains the fruit's caramelized notes and has seen renewed popularity in modern Mediterranean diets for its properties. Similarly, in , pekmez—made by concentrating grape must through evaporation—features prominently in , where it replaces or complements sugar syrup to bind layers of phyllo and nuts, offering a deeper, fruit-forward in this iconic dessert. In , moskonfyt, a reduced grape must syrup traditionally from Hanepoot grapes, is a key filling for tarts and , evoking colonial-era recipes while adapting to contemporary baking with its tangy viscosity. On the savory side, reduced grape must forms the base for glazes that elevate roasted or grilled meats, such as or , by caramelizing during cooking to create a glossy, umami-rich coating often balanced with vinegar or spices. In , mostarda di frutta incorporates grape must as a cooking for candied fruits like or pears, infused with essence to yield a piquant served alongside boiled meats or cheeses, with regional variations from emphasizing its sweet-heat contrast. Innovations in culinary techniques have expanded must's role, particularly through reductions applied in to intensify flavors in foams, gels, or emulsions, where concentrated must enhances wine-based sauces without overpowering delicate proteins. Additionally, unpasteurized grape must products have gained traction under certifications, such as USDA Organic standards, which require 100% certified organic grapes and prohibit synthetic additives, appealing to health-conscious consumers seeking raw, enzyme-rich ingredients for home cooking or . Global trade in grape must derivatives underscores its modern economic significance, with exporting approximately 19 million liters in 2024, primarily as concentrated must for and production, while contributes through petimezi and related exports to and North American markets. To facilitate this commerce, many products are pasteurized for shelf stability, extending usability up to several years without , as seen in pure must concentrates that retain varietal aromas for or direct culinary use.

Health and historical aspects

Roman lead poisoning hypothesis

The lead poisoning hypothesis posits that chronic exposure to lead, particularly through the processing of must into sweetened grape syrups, contributed significantly to issues among the and possibly to the empire's decline. Proposed by geochemist Jerome O. Nriagu in 1983, the theory highlights the practice of boiling must in lead vessels or lead-lined pots to produce defrutum (reduced to half volume) or sapa (reduced to one-third volume), which concentrated —a sweet compound known as " of lead"—used as a and in wine and cuisine. agricultural writers like , in his 1st-century treatise De Re Rustica, explicitly recommended lead pots for this reduction process, noting their superiority for achieving a desirable , while and also referenced similar methods. Supporting evidence comes from archaeometric analyses of skeletal remains, which reveal elevated lead levels in s, often up to 70-100 times higher than modern pre-industrial baselines, indicating widespread chronic exposure among urban and elite populations. For instance, studies of femora from Roman-era burials in show median bone lead concentrations of 26.5 μg/g, exceeding toxic thresholds and correlating with reduced and . Nriagu estimated that defrutum and sapa could account for 5-10% of daily lead intake for heavy wine consumers—such as aristocrats imbibing up to 2 liters daily—leading to blood lead levels around 50 μg/dL, sufficient to cause symptoms like (termed "saturnine gout"), , , and . These effects disproportionately affected the upper classes, who favored sweetened wines, potentially exacerbating political instability through impaired among leaders. However, the hypothesis has faced substantial counterarguments from historians and scientists. Critics like John Scarborough and Hugo A. Waldron contended that Nriagu overstated the prevalence of lead vessels and misinterpreted literary sources, arguing that was not endemic but limited to specific occupations or accidental exposures. Recent isotopic analyses, such as a 2014 study of sediments from Rome's systems, indicate that while lead pipes (fistulae) contributed to environmental contamination, their impact on potable was minimal due to protective lime scales, suggesting plumbing as a dominant source over cookware if exposure occurred at all. Additionally, archaeological evidence points to or vessels being more common for boiling must in many regions, with lead linings not universally applied, further diluting the role of sapa production in widespread toxicity. The legacy of Nriagu's hypothesis remains debated, with some scholars linking it to broader health declines in the late —such as increased prevalence among emperors—but others dismissing it as a minor factor amid economic, military, and epidemiological pressures. A January 2025 study in PNAS analyzed ice cores and found that atmospheric lead pollution peaked during the Roman Imperial period, resulting in average blood lead levels of 15–25 μg/dL empire-wide, potentially causing a 2.5–3 point IQ reduction and contributing to health issues like reduced , though not solely responsible for the empire's fall. While it underscored the dangers of ancient metallurgical practices, modern reassessments emphasize multifactorial causes for Rome's fall rather than lead alone.

Nutritional profile

Grape must, the unfermented juice extracted from pressed grapes, is rich in antioxidants, particularly polyphenols derived from grape skins and seeds, which contribute to its potential health benefits. Resveratrol, a key stilbenoid polyphenol concentrated in grape skins at levels of 50–100 μg/g, is present in must at concentrations typically ranging from 1 to 5 mg/L, especially in red varieties where maceration allows greater extraction. These compounds, including flavonoids and anthocyanins, exhibit strong antioxidant properties that help combat oxidative stress. Additionally, must provides notable amounts of vitamins, such as vitamin C (12–30 mg/100 g in fresh grape juice equivalents) and vitamin K (approximately 0.2–0.3 μg/100 g), supporting immune function and blood clotting, respectively. The polyphenols in grape must have been linked to cardiovascular health improvements, with studies on purple grape juice—a close analog to fresh must—demonstrating enhanced endothelial function and reduced susceptibility of (LDL) to oxidation in patients with after short-term consumption. Research indicates that regular intake of polyphenol-rich grape products may lower risk by up to 20% through mechanisms like reduced and improved vascular reactivity, though direct must-specific trials are limited. Calorically, must derives 60–100 kcal per 100 mL primarily from natural sugars (15–20 g/100 mL), with negligible fat (0.1–0.3 g/100 mL) and protein (0.5–1 g/100 mL), making it a low-fat, carbohydrate-dense beverage. Despite these benefits, consuming grape must carries risks, particularly its high natural sugar content, which can elevate blood glucose levels and pose challenges for individuals with . Potential contamination, such as from molds on damaged grapes, introduces hepatotoxic and nephrotoxic hazards, with levels varying by conditions and processing. Unpasteurized must also presents microbial risks, including pathogens like E. coli, due to possible fecal contamination during harvesting or pressing, necessitating for safety. Recent research in the 2020s highlights must's prebiotic potential, with grape-derived fibers selectively enhancing beneficial such as in dysbiotic patients, promoting short-chain production and intestinal barrier integrity. These findings support must's incorporation into functional foods, like fortified beverages, to leverage its fibers and polyphenols for gut health modulation. Compared to processed wine, fresher must retains higher levels of heat-sensitive nutrients like and certain polyphenols, as and aging can degrade up to 50% of these compounds.

Religious and liturgical uses

In Christian liturgy

In , particularly within the Roman Catholic Church, unfermented must—known as mustum—serves as a valid substitute for fermented wine in the for individuals unable to consume alcohol due to medical conditions such as or intolerance. This practice is governed by the , Canon 924 §3, which requires that the wine be natural, derived from grapes, pure, and incorrupt, a criterion that extends to mustum as grape juice either fresh or preserved by methods like freezing that suspend without altering its nature. The Congregation for Divine Worship and the Discipline of the Sacraments clarified in a 2017 that mustum constitutes valid for consecration, ensuring the sacrament's integrity while accommodating needs. Requirements for mustum emphasize its purity: it must be a natural, unpasteurized product from grapes with no additives beyond minimal preservatives like sulfites, and fermentation must be halted early, resulting in less than 1% content. In the , the United States Conference of Catholic Bishops (USCCB) has approved specific brands of mustum, such as those produced by Benedictine communities, for liturgical use after verifying compliance with these standards. Permission to use mustum is granted by the local ordinary () for priests celebrating or for lay faithful receiving , and this authority may be delegated to pastors under Canon 137 §1; no medical certification is required, but the permission applies only to those with a persistent condition. For minors or others without diagnosed intolerance, widespread use is prohibited, though individual dispensations may be considered for grave reasons. In practice, mustum is employed during the consecration of the , where it undergoes —the Catholic doctrine by which its substance becomes the while retaining the accidents of . It is typically stored as frozen concentrate to preserve its unfermented state without spoilage, then thawed and mixed with a small amount of as required by liturgical norms. Debates on the validity of mustum versus fully fermented wine persist among some theologians and , centering on interpretations of scriptural references to "wine" (oinos in , implying fermentation) and the potential for mustum to fully effect . However, official Church documents affirm its licitness, provided it meets the specified criteria, and its use remains rare but has increased alongside sobriety movements and greater awareness of alcohol-related health issues.

In other traditions

In Jewish tradition, must, or unfermented , serves as an acceptable alternative to wine in various liturgical rituals, particularly when alcoholic beverages are unsuitable for participants such as children or those observing health restrictions. This practice aligns with halakhic (Jewish legal) guidelines that prioritize the symbolic act of sanctification over fermentation, allowing grape juice to fulfill the (commandment) of reciting blessings over grape products. A primary use occurs during , the ritual blessing recited to usher in the or , where a cup of may be used to recite the blessing "Borei p'ri hagafen" (Who creates the fruit of the vine). is especially common in home settings or educational contexts to include all family members, maintaining the ritual's communal and joyful essence without the effects of . During the , the consumption of four cups of wine or symbolizes the four expressions of redemption in narrative from the . Unfermented is permitted and often preferred in observant households to avoid any trace of (leavened substances) or intoxication, ensuring the ritual's focus on storytelling and freedom remains undiluted; rabbinic authorities like Rabbi Moshe Feinstein have even ruled on blending minimal fermented elements with juice to enhance flavor while adhering to laws. In the ceremony concluding the , grape juice can substitute for wine in the cup over which blessings are recited to separate the holy from the mundane, emphasizing sensory rituals like smelling spices and lighting a multi-wick . This flexibility underscores Judaism's emphasis on accessibility in worship, with kosher certification required for to prevent idolatrous associations from non-Jewish production processes, as mandated in texts like the ( 29b). Beyond these core rituals, appears in lifecycle events such as (circumcision ceremonies) or (pre-wedding Sabbath honors), where it supports the festive blessing, though wine remains the traditional preference for its deeper symbolic ties to joy and in Jewish theology. In many Protestant Christian denominations, particularly those influenced by the 19th-century , unfermented is used instead of wine for the Lord's Supper or Holy Communion. This practice, popularized by in 1869 who developed a method to prevent , allows participants to commemorate the without alcohol, aligning with abstinence principles while fulfilling the biblical command to use "fruit of the vine."

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