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Era

An era is a span of time marked by distinctive events, developments, or conditions that set it apart from adjacent periods in chronology or historiography.^[1] It typically originates from a fixed point or memorable event that initiates a new phase, such as the beginning of a calendar system or a transformative historical occurrence.^[2] The term "era" entered English in the early 17th century from Late Latin aera, denoting "counters" or "items of account," originally referring to brass coins (aes) used in Roman computations.^[3] Over time, this evolved to signify a starting point for reckoning years, as seen in systems like the Christian Era, which dates from the presumed birth of Jesus Christ.^[1] In historical studies, eras provide a framework for organizing human events, often defined by shared cultural, political, or technological traits; examples include the Industrial Era, characterized by mechanization and urbanization from the late 18th to early 19th centuries, and the Information Era, driven by digital advancements since the mid-20th century.^[4] These divisions help scholars analyze patterns of change, such as shifts in governance or societal norms, across broad timelines.^[5] In geology, an era constitutes a primary subdivision of the geologic time scale, nested within eons and above periods, representing vast intervals of Earth's history often tied to evolutionary milestones in life forms.^[6] Notable examples from the Phanerozoic Eon include the Paleozoic Era ("ancient life"), spanning roughly 541 to 252 million years ago and featuring the rise of marine invertebrates and early vertebrates; the Mesozoic Era ("middle life"), from about 252 to 66 million years ago, dominated by dinosaurs and reptiles; and the Cenozoic Era ("recent life"), beginning 66 million years ago and continuing to the present, marked by the emergence and diversification of mammals.^[7] These eras are delineated based on fossil evidence and rock strata, aiding in the reconstruction of planetary and biological evolution.^[8]

Concept and Definition

Defining an Era

An era constitutes a protracted division of time distinguished by profound and lasting transformations across domains such as society, science, culture, or geological and biological processes, typically encompassing durations from decades to millions of years.^[9]^[10] In historiographical contexts, an era unifies disparate events and developments under a cohesive conceptual framework or ongoing process, underscoring internal coherence while delineating contrasts with preceding and succeeding phases.^[9] Similarly, in geological science, it denotes a major stratigraphic unit defined by characteristic assemblages of fossils, rock types, and environmental conditions that reflect evolutionary and tectonic shifts.^[10] Central attributes of eras include overarching themes, groundbreaking innovations, or catalytic events that exert enduring influence on future trajectories. These elements create a "dominant note" that permeates the period, fostering interconnected patterns of change rather than isolated occurrences.^[9] For example, the Industrial Era is characterized by the mechanization of production, which revolutionized economic structures, labor organization, and urbanization on a global scale.^[11] Identification of eras relies on evaluative criteria that highlight transformative breakpoints or cumulative evolutions. Pivotal events, such as the advent of writing systems around 3200 BCE, often signal the onset of eras by enabling new forms of societal documentation and complexity, as seen in the demarcation between prehistory and the historical era.^[12] In contrast, geological eras emerge from gradual, evidence-based indicators like shifts in fossil records or isotopic signatures in sediments, illustrating adaptive responses to climatic or biotic pressures.^[10] At a conceptual level, eras function as interpretive models that capture qualitative ruptures or accelerations in temporal progressions, transcending simple calendrical segmentation to illuminate causal interconnections and paradigm shifts.^[9] This approach prioritizes thematic depth over rigid chronology, allowing scholars to analyze how dominant forces—be they technological, ecological, or cultural—reconfigure the underlying dynamics of change.^[9]

Distinction from Periods and Ages

In historiography and chronology, eras represent overarching thematic spans of time characterized by profound cultural, social, or technological transformations, often encompassing multiple shorter subdivisions known as periods.^[13] For instance, an era like the Victorian Era denotes a broad historical phase marked by industrial and imperial shifts, while a period within it might refer to a more delimited segment, such as the mid-19th-century reform movements.^[14] This distinction highlights eras as integrative frameworks that synthesize interconnected developments across decades or centuries, rather than isolated intervals. Periods, by contrast, denote more specific and neutral segments of time, frequently used to delineate phases within an era based on particular events or trends, without implying the same level of epochal change.^[15] In scale, periods are typically shorter and more granular, serving as building blocks for larger constructs like eras; for example, the Regency period falls within the broader Georgian era in British history.^[14] Ages, meanwhile, often emphasize extended phases defined by dominant natural, climatic, or material characteristics, particularly in geological or prehistoric contexts, where they function as subdivisions of epochs and contrast with the human-centered focus of historical eras. The Ice Age, for instance, represents a climatic age nested within the Quaternary period of the Cenozoic era.^[16] Terminologically, "era" carries connotations of human or cosmic significance, frequently tied to pivotal events that redefine societal paradigms, setting it apart from the more utilitarian "period," which simply marks any measurable span in timelines.^[13] Ages, in turn, evoke enduring qualities like technological stages (e.g., the Bronze Age), underscoring material or environmental dominance over purely chronological neutrality. This nuanced usage reflects historiography's aim to capture transformative scope in eras, tactical divisions in periods, and thematic persistence in ages. In popular discourse, these terms are commonly misused interchangeably, blurring distinctions—for example, referring to the "Victorian period" as synonymous with the "Victorian era" without regard for scale—whereas academic contexts insist on precision to maintain analytical clarity and avoid anachronistic generalizations.^[14] Such corrections ensure that eras highlight paradigm shifts, periods facilitate detailed sequencing, and ages delineate specialized evolutionary arcs.

Etymology and Historical Development

Linguistic Origins

The linguistic roots of the word "era" lie in the Proto-Indo-European (PIE) root *h₂éyos, denoting "metal, copper, or bronze," which evolved into the Latin noun aes (genitive aeris), referring to brass, copper, money, or metallic objects used as counters in calculations.^[17] This PIE term is cognate with Sanskrit ayas ("iron, metal") and Greek khalcos ("copper, bronze"), reflecting an ancient association with valued materials that facilitated record-keeping and exchange.^[3] The plural form aera initially described such bronze items or numerical counters, implying a sense of ordered sequence or summation in early Indo-European conceptualizations of value and time.^[18] In classical Latin, aera retained its material connotation, often denoting durable bronze artifacts for inscribing significant information. Marcus Tullius Cicero, in the 1st century BCE, used aera to refer to the bronze tablets (aera legum) on which Roman laws were engraved, emphasizing their role in preserving legal and historical reckonings for posterity.^[19] This usage underscored the term's connection to fixed points of reference, as these tablets served as authoritative markers of societal order and chronology. By Late Latin (around the 5th century CE), aera shifted semantically to signify an epoch or starting point for time reckoning, derived from its accounting origins where fiscal years or dates were computed using metal counters or coin inscriptions. The earliest documented chronological application appears in the aera Hispanica, a system originating in Roman Hispania from 38 BCE—possibly tied to an imperial census or tax levy—and attested in provincial inscriptions and calendars as a numbered cycle for dating events.^[3] This evolution marked the term's transition from tangible objects to abstract temporal divisions, with further evidence in Roman-era legal and administrative texts. The word later surfaced in Byzantine Latin chronicles, such as those compiling Eastern Roman histories, where aera denoted sequential year counts in narrative annals.^[20]

Evolution of the Term

During the medieval period, the concept of an "era" was predominantly tied to ecclesiastical reckonings, with the Anno Domini (AD) system serving as a foundational example of a Christian chronological starting point. Invented in 525 by the Scythian monk Dionysius Exiguus to calculate the date of Easter and replace the Roman Diocletian era, this framework marked time from the presumed birth of Jesus Christ, embedding religious significance into temporal measurement.^[21] By the Enlightenment in the 18th century, the term shifted toward secular applications in historiography, as scholars sought rational, non-theological frameworks for understanding history. Historians like Edward Gibbon exemplified this transition in his The History of the Decline and Fall of the Roman Empire (1776–1789), where he employed "era" to denote distinct historical phases, such as the "era of the Antonines," portraying it as a golden age of Roman prosperity from 96 to 180 AD characterized by stability and cultural flourishing.^[22] In the 19th century, the term "era" underwent standardization, particularly influenced by advancements in geology and historiography. James Hutton's Theory of the Earth (1795) laid the groundwork by conceptualizing vast geological timescales through uniformitarianism, implying cyclical "eras" of formation, erosion, and renewal driven by observable processes over immense periods, which challenged biblical chronologies and emphasized deep time.^[23] This geological perspective intersected with historical uses, as seen in Gibbon's earlier divisions of Roman history into eras, which inspired 19th-century historians to apply the term more systematically to delineate epochs of societal change, such as the Victorian era, reflecting broader Enlightenment ideals of progress and periodization.^[24] The 20th century marked a significant expansion of "era" beyond traditional chronology, incorporating it into cosmology and technology to describe transformative phases in scientific understanding. In cosmology, the term gained prominence with the development of Big Bang models in the mid-20th century, describing phases such as the radiation-dominated era, when the early universe was dominated by photon energy shortly after the initial singularity, evolving into matter-dominated eras as outlined in Friedmann-Lemaître-Robertson-Walker metrics.^[25] Similarly, in technology, the late 20th century saw "era" applied to paradigm shifts, such as the "digital era" or Information Age emerging in the 1970s with the advent of personal computing and the internet, signifying a transition from analog to information-based systems that reshaped global economies and communication.^[26] Cultural adaptations of "era" in non-Western contexts further diversified its meaning, often blending chronological and socio-political connotations. In Chinese, the term shidai (时代), literally meaning "time-generation," has been used since the early 20th century to denote historical or cultural epochs, such as the "May Fourth era" (Wǔsì shídài) referring to the 1919 intellectual movement, adapting Western periodization to emphasize generational and ideological shifts in modern Chinese history.^[27]

Chronological Applications

Geological Eras

In geology, eras constitute the primary subdivisions of the Phanerozoic Eon, encompassing vast intervals of tens to hundreds of millions of years that are delineated primarily through shifts in the fossil record and significant tectonic or climatic events.^[28] These divisions facilitate the organization of Earth's biological and geological history from about 538.8 million years ago (Ma) to the present, emphasizing the progression of life forms preserved in sedimentary rocks.^[28] Unlike smaller units such as periods or epochs, eras capture broad-scale evolutionary and environmental transformations that reshaped the planet's biosphere and geosphere.^[16] The three principal geological eras of the Phanerozoic are the Paleozoic, Mesozoic, and Cenozoic, each defined by distinctive assemblages of organisms and geological processes. The Paleozoic Era (538.8–251.902 Ma) witnessed the explosive diversification of marine life, including the emergence of jawed fish, early tetrapods, and vast coal-forming forests, setting the stage for terrestrial ecosystems.^[28] The Mesozoic Era (251.902–66.0 Ma), often termed the "Age of Reptiles," featured the radiation of dinosaurs, the first appearances of mammals and birds, and the evolution of gymnosperms and early angiosperms amid continental drift and variable sea levels.^[28] The ongoing Cenozoic Era (66.0 Ma–present), known as the "Age of Mammals," is marked by rapid mammalian diversification, the rise of primates and hominids, and ongoing ice age cycles influencing global climates and biomes.^[28] Era boundaries are formally ratified by the International Commission on Stratigraphy using Global Boundary Stratotype Sections and Points (GSSPs), which anchor transitions to specific stratigraphic layers often tied to mass extinctions or evolutionary radiations.^[28] For example, the end-Paleozoic boundary at 251.902 Ma corresponds to the Permian-Triassic extinction, the most severe biotic crisis in Earth's history, while the Mesozoic-Cenozoic transition at 66.0 Ma reflects the Cretaceous-Paleogene event that eliminated non-avian dinosaurs.^[28] These criteria ensure a standardized, evidence-based chronology that integrates biostratigraphy, radiometric dating, and magnetostratigraphy for global correlation.^[29] Geological eras underpin paleontological research by providing a temporal scaffold for interpreting fossil successions and reconstructing ancient ecosystems, with index fossils from specific eras enabling precise biostratigraphic dating across continents.^[29] In applied geology, this framework guides resource exploration by identifying era-specific sedimentary basins rich in hydrocarbons, such as Mesozoic reservoirs in major oil fields, or Paleozoic formations hosting coal and mineral deposits, thereby informing drilling and extraction strategies.^[29]

Cosmological Eras

In cosmology, eras refer to distinct phases in the evolution of the universe as described by the Big Bang model, which posits an initial hot, dense state expanding over approximately 13.8 billion years. These eras are delineated based on dominant physical processes, energy densities, and scales, derived from general relativity and quantum field theory. The model integrates observations of the universe's expansion and composition to reconstruct this timeline, emphasizing transitions from quantum-dominated beginnings to large-scale structure formation.^[30] The earliest phase, the Planck Era, spans from the Big Bang singularity to about 10^{-43} seconds, when the universe's temperature exceeded the Planck scale of 10^{32} K, unifying all four fundamental forces into a single entity under quantum gravity effects. During this epoch, space-time itself was ill-defined, with classical descriptions failing due to extreme densities where gravitational singularities prevailed. Following this, the Inflationary Era occurred from roughly 10^{-36} to 10^{-32} seconds, marked by exponential expansion driven by a hypothetical inflaton field, enlarging the observable universe by a factor of at least 10^{26} and smoothing initial irregularities to explain the observed cosmic flatness and homogeneity. This rapid growth transitioned the universe from subatomic scales to macroscopic ones, setting the stage for particle formation.^[31] Subsequent eras include the radiation-dominated phase up to about 47,000 years, where relativistic particles like photons and neutrinos governed expansion, followed by the matter-dominated era until around 9.8 billion years ago, when baryonic and dark matter clustered to form stars and galaxies. The current Stelliferous Era, lasting from approximately 10^5 to 10^{14} years after the Big Bang, is characterized by ongoing star formation from interstellar gas, with nuclear fusion powering stellar evolution; low-mass stars like M dwarfs dominate, comprising the bulk of galactic luminosity. In the distant future, the Degenerate Era (post-10^{14} years) will see the exhaustion of fusible material, leaving remnants such as white dwarfs, neutron stars, and black holes, with energy derived from proton decay and collisions rather than fusion. This gives way to the Black Hole Era (around 10^{40} to 10^{100} years), dominated by evaporating black holes via Hawking radiation, and ultimately the Dark Era (beyond 10^{100} years), a dilute expanse of photons, leptons, and gravitons in an accelerating expansion driven by dark energy.^[33] These cosmological eras are supported by key observational evidence, including the cosmic microwave background (CMB) radiation, a uniform 2.725 K glow relic from 380,000 years post-Big Bang when the universe cooled enough for neutral atoms to form, decoupling photons and revealing density fluctuations that seeded galaxy formation. Missions like COBE and WMAP mapped these anisotropies, confirming Big Bang predictions with high precision. Additionally, Edwin Hubble's 1929 observations of galactic redshifts, refined by the Hubble Space Telescope, demonstrate the universe's expansion at a rate of about 70 km/s/Mpc, tracing back to a hot origin and validating the timeline's extrapolation.^[34]^[35]

Calendar and Historical Eras

Calendar eras provide standardized systems for dating events relative to a fixed epoch, facilitating global chronology without ties to specific rulers or religions. The Common Era (CE), equivalent to the Anno Domini (AD) system, begins from year 1, marking the traditionally calculated birth year of Jesus Christ, and is used alongside Before Common Era (BCE) for pre-year 1 dates in the Gregorian calendar.^[36] This notation emerged in the 17th century for scholarly purposes and gained widespread adoption in the 19th and 20th centuries to promote secular dating in international contexts.^[37] Another example is the Holocene Era (HE), or Human Era, a proposed calendar that adds 10,000 years to the CE system, setting its epoch at approximately 10,000 BCE to align with the start of the Holocene geological epoch and emphasize human history's scale.^[38] Though not officially adopted, it has been suggested by scientists like Cesare Emiliani for interdisciplinary use in fields such as geology and anthropology.^[39] Historical eras divide broad spans of human history into named periods based on significant cultural, political, or technological shifts, often using the CE/BCE framework for dating. In Western historiography, the Ancient Era typically spans from around 3000 BCE (the rise of early civilizations) to 476 CE (the fall of the Western Roman Empire), encompassing classical civilizations like Greece and Rome.^[5] The Medieval Era follows from 476 CE to 1453 CE (the fall of Constantinople), characterized by feudalism, the spread of Christianity and Islam, and the Byzantine and Islamic Golden Ages.^[40] The Modern Era begins after 1453 CE, extending through the Renaissance, Enlightenment, and Industrial Revolution up to the present, marked by global exploration, scientific advancements, and nation-state formation.^[41] These divisions, while Eurocentric, serve as foundational tools for organizing world history in educational and analytical contexts. The establishment of such eras owes much to the Gregorian calendar's role in standardizing temporal measurement worldwide. Introduced in 1582 by Pope Gregory XIII to correct the Julian calendar's drift from the solar year, it adjusted leap years to align more precisely with equinoxes, reducing the annual discrepancy from about 11 minutes to 26 seconds.^[38] By the 20th century, the Gregorian calendar had become the international civil standard, enabling consistent application of CE dating across cultures and supporting the delineation of historical eras through uniform chronology.^[39] Global variations in calendar eras reflect diverse cultural starting points while often interfacing with the Gregorian system for practical purposes. The Islamic Hijri Era, or AH (Anno Hegirae), commences from 622 CE, the year of the Prophet Muhammad's migration (Hijra) from Mecca to Medina, and structures a purely lunar calendar of 12 months totaling 354 or 355 days.^[42] Formally established in 638 CE under Caliph Umar ibn al-Khattab, it governs religious observances like Ramadan and is used alongside the Gregorian calendar in many Muslim-majority countries for civil and fiscal matters.^[43] Other non-Western examples include the Hebrew calendar, which dates from the traditional year of creation in 3761 BCE and combines lunar months with solar adjustments for festivals, remaining central to Jewish religious life.^[38] These systems highlight how calendar eras adapt to local traditions while contributing to a multifaceted global timeline.

Regnal Eras

Regnal eras refer to chronological periods defined by the reign of a specific monarch or dynasty, serving as a framework for dating events, documents, and historical records tied to that ruler's authority. Unlike fixed calendar systems, these eras typically begin with the ruler's accession and end with their death, abdication, or overthrow, allowing for variable lengths that reflect political continuity or disruption. This system originated in ancient monarchies where the sovereign's legitimacy was central to governance and record-keeping, enabling precise temporal references without a universal year count.^[44]^[45] In ancient Egypt, pharaonic regnal years formed the backbone of chronology from the Early Dynastic Period onward, with dates inscribed on monuments, papyri, and administrative texts as "year X of the reign of Pharaoh Y," often including the season, month, and day for granularity. For instance, records from the reign of Ramesses II (1279–1213 BCE) frequently cite events in his 66-year rule, such as "year 38" for military campaigns, highlighting how these eras facilitated the synchronization of civil, religious, and economic activities under divine kingship. Similarly, in imperial China, the nianhao (reign era) system, formalized during the Han dynasty around 140 BCE, assigned auspicious titles to each emperor's rule for year numbering, as seen in the Qin dynasty's short-lived era (221–206 BCE) under Qin Shi Huang, which emphasized unification, or the Ming dynasty's Hongwu era (1368–1398 CE) marking the founder's restoration efforts. These examples underscore the role of regnal eras in embedding imperial ideology into timekeeping.^[46]^[45]^[47] The primary purpose of regnal eras was to provide a practical and symbolic method for dating in pre-modern societies lacking standardized global calendars, allowing scribes and officials to reference time relative to a living authority figure, which reinforced loyalty and order in records like treaties, taxes, and annals. This approach was often retrospective in historiography, where later scholars grouped reigns into broader eras for narrative coherence. In Europe, the Elizabethan era (1558–1603) exemplifies this, encompassing Queen Elizabeth I's reign and evoking cultural flourishing in literature and exploration, though officially dated by regnal years in statutes. Likewise, Japan's Meiji era (1868–1912), named "enlightened rule" by Emperor Mutsuhito, marked modernization and the adoption of a "one reign, one era" policy, blending tradition with reform.^[48]^[49] With the rise of nation-states and adoption of the Gregorian calendar in the 16th–19th centuries, official reliance on regnal eras waned in favor of continuous secular dating, diminishing their administrative use in places like England and China after 1912. However, they persist in ceremonial and cultural contexts, such as Japan's ongoing nengō system for official documents and holidays, and in retrospective historical labeling to denote transformative reigns. This evolution reflects a shift from personalized monarchy to impersonal state chronology while retaining regnal eras' value in capturing the imprint of individual rulers on history.^[49]^[44]

Role in Historiography and Periodization

Frameworks for Historical Analysis

Frameworks for historical analysis rely on periodization, the process of dividing the past into discrete eras to organize and interpret events thematically and chronologically, enabling scholars to identify patterns and transformations across time.^[50] This approach structures historiography by grouping events around key shifts, such as intellectual or social developments, rather than arbitrary dates, facilitating comparative studies and causal explanations.^[51] For instance, the Axial Age, conceptualized by Karl Jaspers as spanning approximately 800–200 BCE, marks a pivotal era of philosophical and ethical innovations across Eurasia, including the rise of Confucianism, Buddhism, and Greek rationalism, which organized diverse historical events around a theme of demythologization and human-centered thought.^[52] Theoretical approaches to era-based periodization vary significantly, with materialist and cultural frameworks offering contrasting lenses. Marxist historiography, rooted in historical materialism, delineates eras through successive modes of production—such as primitive communism, slavery, feudalism, capitalism, and socialism—positing that economic base determines superstructure, including politics and culture, and drives historical progression via class conflict.^[53] In contrast, cultural theories like Oswald Spengler's in The Decline of the West (1918) view civilizations as organic entities cycling through eras of spring-like growth, summer maturity, autumn culture, and winter decline, emphasizing morphological patterns in art, religion, and politics over economic determinism.^[54] Historians employ tools such as timelines to visualize era transitions, meta-narratives to weave overarching interpretations of change, and interdisciplinary models integrating archaeology for material evidence that corroborates textual accounts. Timelines, for example, sequence events within eras to highlight causal links, while meta-narratives provide synthetic explanations, like progress toward modernity. Archaeological integration enriches these frameworks by supplying empirical data on daily life and technologies, bridging gaps in written records and testing era boundaries through artifact dating and site analysis.^[55] The benefits of era frameworks include enhanced pattern recognition, such as recurring cycles of innovation and decay, improved understanding of causality between social forces and events, and a clearer narrative of historical progress or rupture, ultimately aiding interdisciplinary synthesis and predictive insights into societal dynamics.^[50]

Debates on Era Delimitation

The delimitation of historical eras frequently encounters subjectivity, as boundaries depend on interpretive choices rather than universally agreed-upon markers. A prominent example is the end of the Classical Era, where traditional views anchor it to the fall of the Western Roman Empire in 476 CE, emphasizing political collapse, while others extend the period into Late Antiquity up to the 7th-century rise of Islam, portraying the transition as a phase of cultural and economic continuity across the Mediterranean rather than a decisive rupture. This debate underscores how scholars like Andrea Giardina critique the expansive use of "Late Antiquity" (spanning the 2nd to 10th centuries) for diluting the significance of Rome's fall, treating it as a mere side effect of broader transformations.^[56] Scholarly disputes further reveal tensions between Eurocentric global frameworks and regional perspectives in era definition. Eurocentrism in periodization often universalizes European timelines—such as the Renaissance or Enlightenment—as normative milestones, marginalizing non-Western histories by framing them as exceptional or derivative, which reinforces asymmetries where European narratives drive broad debates while others supply supporting data. This approach naturalizes European hegemony, extending its influence backward and forward in time while overlooking contingencies in global interactions, as critiqued by scholars advocating for "provincializing" Europe to treat it as one regional case among many. In contrast, regional perspectives emphasize localized continuities, challenging the imposition of synchronized global eras that ignore diverse cultural rhythms.^[57] A core contention involves whether era transitions represent gradual evolutions or event-based discontinuities. Proponents of discontinuous models tie boundaries to pivotal events, such as battles or inventions, viewing history as a series of sharp breaks that redefine structures, as seen in traditional accounts of the Renaissance marking a rupture from the Middle Ages. Conversely, advocates for gradualism, like Jacques Le Goff, argue that such divisions are artificial, proposing instead a "long Middle Ages" extending to the 18th century to capture slow shifts in economics, politics, and culture, where changes like the broadening after 1492 emerge incrementally rather than abruptly. This debate extends to methodological typologies, where continuous approaches treat history as a seamless web of evolving norms, while discontinuous ones risk teleological narratives that impose modern progress on the past.^[58]^[59] In modern contexts, the proposed Anthropocene era exemplifies ongoing challenges in delimiting boundaries based on human impact thresholds, though its formal recognition as a geological epoch was rejected in March 2024. The Anthropocene Working Group initially favored a start around 1950, citing the "Great Acceleration" in population growth, industrialization, and nuclear testing as the point when human activities unequivocally altered global systems, leaving detectable stratigraphic markers like plutonium spikes. However, critics like Erle Ellis argue for an earlier onset, potentially in the 16th century with European colonization, mass slavery, and deforestation events such as the "Great Dying" in the Americas, which caused measurable CO2 drops from forest regrowth and initiated planetary-scale changes. The proposal, submitted in 2023, was voted down 12–4 by the Subcommission on Quaternary Stratigraphy and upheld by the International Commission on Stratigraphy, primarily due to concerns over its short duration and precise boundary definition, though the concept continues to inform discussions on human environmental impact. This controversy matters for establishing scientific precision in recognizing anthropogenic thresholds, informing environmental policy, and broadening public awareness of humanity's long-term ecological footprint beyond recent industrialization.^[60]^[61] Methodological critiques highlight how periodization relies on hindsight and embeds cultural biases, distorting historical analysis. Historians' contemporary vantage points often inflate or diminish past events' significance based on later outcomes, leading to teleological interpretations that project modern values onto eras, as in the "rise of the state" narrative critiqued for oversimplifying Europe's political complexity. Cultural biases further skew boundaries, such as Anglo-centric emphases on Western ascendancy that portray periods like the Victorian era through lenses of racial or gender superiority, rendering non-dominant perspectives invisible. These issues underscore periodization's provisional nature, shaped by subjective judgments and educational imperatives, yet essential for organizing inquiry while demanding vigilance against imposed coherence.^[51]^[62]

Broader Uses in Culture and Science

Cultural and Artistic Eras

Cultural and artistic eras refer to distinct periods in history characterized by dominant styles, themes, and expressions in visual arts, literature, music, and other creative forms, often reflecting broader societal values and innovations. These eras are typically defined by shared aesthetic principles and cultural contexts that emerge from collective artistic movements, spanning decades or centuries and influencing global creative output. For instance, such periods emphasize stylistic dominance where particular techniques or philosophies, like naturalism or emotional depth, prevail across multiple disciplines. The Renaissance era, spanning the 14th to 17th centuries, exemplified a revival of classical humanism in European art, focusing on individualism, anatomical precision, and secular themes alongside religious motifs. Humanism, grounded in the rediscovery of ancient Greek and Roman texts, drove artists like Leonardo da Vinci and Michelangelo to portray human potential and emotion with unprecedented realism, marking a shift from medieval symbolism to perspective and proportion in painting and sculpture. Similarly, the Baroque era in music, from approximately 1600 to 1750, featured elaborate ornamentation, dynamic contrasts, and emotional intensity, influenced by the Catholic Counter-Reformation's desire to inspire awe through grandeur in compositions by figures such as Johann Sebastian Bach and George Frideric Handel. In literature, the Romantic era of the late 18th to mid-19th centuries prioritized emotion, nature, and individualism over rationalism, as seen in the works of William Wordsworth and Mary Shelley, which celebrated the sublime and personal introspection amid industrialization. Beyond Europe, the Edo period in Japan (1603–1868) represented a flourishing of artistic expression under the Tokugawa shogunate's stability, with ukiyo-e woodblock prints capturing urban life, theater, and fleeting pleasures in vibrant, accessible styles. This era's art, including paintings and crafts, perpetuated refined Heian aesthetics while embracing merchant-class patronage, leading to innovative forms like kabuki theater and decorative screens that highlighted everyday beauty and social commentary. These eras were shaped by intersecting social changes, such as urbanization and class mobility, which expanded audiences and themes; patronage from wealthy merchants, nobility, and institutions that funded grand projects; and technological advances in media, like improved printing techniques that democratized art dissemination during the Renaissance and Edo periods.

Technological and Scientific Eras

Technological and scientific eras are periods in human history delineated by pivotal advancements in tools, methodologies, and knowledge systems that fundamentally alter production, communication, and exploration capabilities. These eras are characterized by the widespread adoption of transformative technologies that enable new forms of societal organization and problem-solving, often building cumulatively on prior innovations. For instance, the Atomic Age, commencing in 1945 with the detonation of nuclear weapons during World War II, marked a shift toward harnessing atomic energy for both destructive and generative purposes, influencing global power dynamics and energy policies.^[63] Similarly, the Information Age, emerging in the 1970s with the advent of microprocessors and personal computing, is defined by the digitization and rapid dissemination of data, fostering interconnected networks that redefine information access and economic structures.^[64] The historical progression of these eras traces a trajectory from rudimentary material manipulations to sophisticated computational and exploratory paradigms. Prehistoric technological eras began with the Stone Age, spanning approximately 3.3 million years ago to around 3000 BCE, where humans relied on lithic tools for hunting, shelter, and early agriculture, laying the groundwork for settled societies, with dates varying by region.^[65] This evolved into the Bronze Age around 3300 BCE, characterized by the alloying of copper and tin into bronze for superior tools, weapons, and trade goods, which facilitated urbanization and expanded commerce across regions like the Mediterranean, with dates varying by region.^[66] Subsequent eras, such as the Iron Age from around 1200 BCE, introduced stronger iron implements that boosted agricultural yields and military capabilities, accelerating societal complexity, with dates varying by region.^[67] In the modern context, the Space Age initiated on October 4, 1957, with the Soviet Union's launch of Sputnik 1, the first artificial satellite, propelling advancements in rocketry, telecommunications, and remote sensing that integrated space into human endeavors.^[68] These eras profoundly drive societal transformations by embedding technological capabilities into daily life, economy, and governance, while raising ethical and policy challenges. The Atomic Age, for example, spurred the development of nuclear deterrence policies during the Cold War, reshaping international relations through arms control treaties like the 1968 Nuclear Non-Proliferation Treaty, yet it also prompted ethical debates on radiation risks and weapons proliferation.^[69] The Space Age catalyzed investments in STEM education and infrastructure, such as NASA's Apollo program, which not only achieved the 1969 Moon landing but also generated spin-off technologies like satellite navigation and medical imaging that enhanced global connectivity and health outcomes.^[70] In the Information Age, digital revolutions have democratized knowledge but exacerbated issues like data privacy and digital divides, leading to policies such as the European Union's 2018 General Data Protection Regulation to mitigate surveillance risks.^[71] Overall, these shifts compel interdisciplinary policy frameworks to balance innovation with equity and sustainability. Looking to future projections grounded in current trajectories, experts anticipate an emerging AI Era, potentially intensifying from the 2020s onward, where machine learning systems automate complex decision-making and augment human cognition, as evidenced by advancements in neural networks and large language models. This could evolve into a Post-Human Era by mid-century, characterized by human-machine symbiosis through cybernetic enhancements and genetic editing, driven by trends in biotechnology and neural interfaces, though such developments hinge on resolving ethical concerns around autonomy and inequality.^[72] These projections underscore the need for proactive governance to steer technological eras toward inclusive progress.

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Geologic Time | College of Science and Engineering
Eras within the Phanerozoic Eon are distinguished and named on the basis of life forms preserved as fossils: Paleozoic ("old life"), Mesozoic ("middle life"), ...
[8]
Change Over Time | manoa.hawaii.edu/ExploringOurFluidEarth
Scientists use the geological time scale to describe Earth's history from its formation to the present day. The time span of 4.5 billion years is divided into ...
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Periodization - International Society for Knowledge Organization
May 22, 2020 · Much of the scholarly discourse on periodization focuses on the periodization of human history. ... era in which they are said to occur” ( ...
[10]
Geological Era - an overview | ScienceDirect Topics
A geological era is a significant time span in Earth's history with distinctive geological and paleontological events. The current era is the Holocene.
[11]
The Industrial Revolution - ScienceDirect.com
The Industrial Revolution thus represents the single great event of world economic history, the change between two fundamentally different economic systems. The ...
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era noun - Definition, pictures, pronunciation and usage notes
/ˈerə/ a period of time, usually in history, that is different from other periods because of particular characteristics or events. the Victorian/modern/post- ...
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Art History: Difference Between Era, Period, and Movement
Feb 13, 2019 · A period is generally shorter than an era, though they are sometimes used interchangeably. Going by the dictionary, a period should mean "any portion of time."<|separator|>
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period noun - Definition, pictures, pronunciation and usage notes
(geology) a length of time which is a division of an era. A period is divided into epochs. the Jurassic period; Dinosaurs died out during ...
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Geologic Time Scale - Geology (U.S. National Park Service)
Oct 5, 2021 · One way to distinguish and define each segment of time is by the occurrence of major geologic events and the appearance (and disappearance) of ...<|control11|><|separator|>
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https://www.nps.gov/subjects/geology/time-scale.htm
[17]
aera - Wiktionary, the free dictionary
### Summary of 'aera' in Latin (Time Reckoning)
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https://www.perseus.tufts.edu/hopper/text?doc=Perseus:text:1999.04.0059:entry=aera
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https://www.perseus.tufts.edu/hopper/text?doc=Perseus:text:1999.04.0059:entry=aera
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Anno Domini: the Origins of the Christian Era (review) - Project MUSE
Aug 3, 2005 · The dating system we use every day, based on 'the Year of the Lord' (Anno Domini), was, of course, invented in the medieval Christian West.
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James Hutton, Geologic Cycle, Time - Geochronology - Britannica
Hutton's formulation of the principle of uniformitarianism, which holds that Earth processes occurring today had their counterparts in the ancient past, while ...
[23]
Vestiges of James Hutton | American Scientist
Here Hutton laid out his thesis that the present land and geological strata are not original but were "formed by the operation of secondary causes"; that the ...This Article From Issue · May-June 2001 · Page 212
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A Century of Changing Perspectives in Cosmology - NASA ADS
The first, in the first half of this century, came with the discovery of the expansion of the universe and the rise of general relativity theory; the second, in ...
[25]
The Origins of 20th-Century Progress | American Scientist
The internal combustion engine, the electric motor and the steam engine dominated the world's mechanical power capacity in the 20th century, but all had their ...
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English translation of 时代 ( shidai / shídài ) - age in Chinese
The Chinese word shidai - 时代 - shídài (age in Chinese) ; English translations. age, time, era ; Chinese characters: Chinese characters ( shidai / shídài ) with ...
[27]
Chronostratigraphic Chart - International Commission on Stratigraphy
This page contains the latest version of the International Chronostratigraphic Chart (v2024-12) which visually presents the time periods and hierarchy of ...
[28]
7 Geologic Time - OpenGeology
Relative dating is the process of determining if one rock or geologic event is older or younger than another, without knowing their specific ages.
[29]
The Big Bang - NASA Science
Feb 28, 2024 · Study how the universe evolved, learn about the fundamental forces, and discover what the cosmos is made of.
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Big Bang models back to Planck time - HyperPhysics
Before a time classified as a Planck time, 10 -43 seconds, all of the four fundamental forces are presumed to have been unified into one force.
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Cosmic History - NASA Science
Oct 22, 2024 · New ideas and major discoveries made during the 20th century transformed cosmology – the term for the way we conceptualize and study the ...
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[PDF] arXiv:astro-ph/9701131v1 18 Jan 1997
Eras of the Future Universe. Our current understanding of the universe suggests that we can organize the future into distinct eras, somewhat analogous to ...
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COBE's Top Discoveries - NASA Science
Aug 15, 2024 · It came from all parts of the sky with equal intensity: the CMB (cosmic microwave background). The 2-year COBE anisotropy map. After ...
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Hubble Cosmological Redshift - NASA Science
Sep 17, 2024 · Edwin Hubble's observations showed the expansion of our universe, while the Hubble Space Telescope vastly improved the precision of measurements ...
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What Do CE and BCE Mean? - Time and Date
What Is the Meaning of CE and BCE? · CE is an abbreviation for Common Era. It means the same as AD (Anno Domini) and represents the time from year 1 and onward.Missing: eras origin
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The Origin & History of the BCE/CE Dating System
Mar 27, 2017 · The BCE/CE dating system was first used in the 17th century and has been used since in scholarly publications read by people of all faiths ...
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Calendars and their History - NASA Eclipse
Oct 14, 2012 · The Gregorian calendar today serves as an international standard for civil use. In addition, it regulates the ceremonial cycle of the Roman ...
[38]
History of the Standard Gregorian Calendar - The ANSI Blog
The Gregorian calendar has become the standard for measuring the progression of time since Pope Gregory XIII first introduced it in the year 1582.
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Modern Age | History, Time Periods & Facts - Study.com
The Modern Era, also known as the Modern Age or Modern Period, was a historical time period that spanned the years 1500 to 1945.<|separator|>
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THE ISLAMIC (HIJRI) CALENDAR - Islam Awareness
The Islamic calendar, which is based purely on lunar cycles, was first introduced in 638 CE by the close companion of the Prophet and the second Caliph, `Umar ...
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History - IslamCal
The Hijri Calendar The Islamic calendar, which is based purely on lunar cycles, was introduced in 638 CE (Common Era) by Umar ibn Al Khattab رضي الله عنه, ...
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Regnal Years in England - FamilySearch
Dec 6, 2023 · Some ancient cultures calculated their dating systems by the rule of a monarch ("In the tenth year of the reign of King ___"). This calendering ...Missing: Egypt China Japan
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Other Ancient Calendars - Webexhibits
Thus a full civil date would be: "Regnal year 1, fourth month of Inundation, day 5, under the majesty of King So-and-So." In the lunar calendar, however, each ...Missing: Japan England
[45]
Chronology of Ancient Egypt - Pharaoh.se
Dates were usually expressed by the regnal year of a pharaoh, followed by the month, followed by the day, like so: reign of Ramesses II, year 38, III Akhet, ...
[46]
GLOSSARY: Nianhao, reign title - Gotheborg.com
The Nianhao (reign name) of for example the Chenghua period of the Ming dynasty was "accomplished change" and would usually read Da Ming Chenghua Nianzhi ...<|separator|>
[47]
Elizabethan rule - homework help for year 7, 8 and 9. - BBC Bitesize
Elizabeth I reigned over England for a long time, from 1558 to 1603. During her reign, Elizabeth came to be known as 'Gloriana.'
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May 19, 2017 · It was during the reign of Emperor Meiji (1867–1912) that the government adopted the current “one reign, one era name” practice, meaning that a ...Missing: regnal | Show results with:regnal
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Full article: Periodisation and modernity: an introduction
Jul 23, 2024 · Dividing time into distinct epochs is fundamental to historical research. Identifying historical periods gives meaning to the past;1 it also ...
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3. How Historians Approach History: Fields and Periodization
Because the point of establishing accepted historical periods is to help facilitate historical analysis, historians hope to identify periods that have stable ...
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The Axial Age and Its Consequences on JSTOR
It is an undisputed fact that Karl Jaspers invented the term “Axial Age” in his 1949 book Vom Ursprung und Ziel der Geschichte, but it is also uncontested ...
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Karl Marx's Theory of History - 1000-Word Philosophy
Nov 4, 2022 · In The Communist Manifesto Marx and his colleague Friedrich Engels (1820–1895) proclaim, “The history of all hitherto existing society is the ...1. What Is Historical... · 3. Capitalism · Notes<|separator|>
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The Decline of the West - Project Gutenberg
The Decline of the West form and actuality by Oswald Spengler authorized translation with notes by Charles Francis Atkinson.
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Nov 22, 2023 · The present article strives toward an integrated History of Archaeology, uniting human and non-human elements. Tools and instruments bridge the gap between ...
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Late Antiquity on the Eve of Islam. The formation of the classical ...
Apr 21, 2014 · A broad consensus prefers “Late Antiquity” to “Early Byzantium” for the pre-Islamic centuries, perceives both underlying Mediterranean unity in ...
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Eurocentrism and Its Discontents – AHA
Jan 1, 2001 · An end to Eurocentric history can, she argued, facilitate the production of more compelling histories of western Europe, enriched by an even- ...
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None
Summary of each segment:
[58]
The Problem of Periodization in the History of International Law
Jan 31, 2019 · The first part of the article presents a six-tiered typology of conventional approaches to historical periodization in international law.
[59]
Did the Anthropocene start in 1950 – or much earlier? Here's why ...
Jul 18, 2023 · Ellis believes pinning the start of our sizeable impact on the planet to 1950 is an error, given we've been changing the face of the planet for much longer.
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James J. Sheehan – AHA - American Historical Association
From the start, therefore, establishing boundaries that defined and delimited spheres of power was a central part of the problem of sovereignty. Throughout much ...
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The Atomic Bomb and the End of World War II
Aug 4, 2020 · The bombings were the first time that nuclear weapons had been detonated in combat operations. They caused terrible human losses and destruction.
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https://www.historians.org/presidential-address/james-j-sheehan/
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History of Technology | Overview, Timeline & Evolution - Lesson
The first of the human technological eras is the Stone Age. Over this period, humans primarily used stones in their tools. Additionally, humans developed ...
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65 Years Ago: Sputnik Ushers in the Space Age - NASA
Oct 4, 2022 · On Oct. 4, 1957, the Soviet Union inaugurated the Space Age with the launch of Sputnik, the world's first artificial satellite.
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Nuclear Weapons and the Escalation of the Cold War, 1945-1962
The nuclear age began before the Cold War. ... During World War II, three countries decided to build the atomic bomb: Britain, the United States, and the Soviet ...Missing: timeline | Show results with:timeline
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The Scientific and Technological Advances of World War II
World War II allowed for the creation of new commercial products, advances in medicine, and the creation of new fields of scientific exploration. Almost every ...
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The role of science and technology in reconstructing human social ...
May 22, 2024 · The study concludes that science and technology have made an impact on the phenomenon of human social history and society in general.
[68]
[PDF] Experts Imagine the Impact of Artificial Intelligence by 2040
Feb 29, 2024 · More than 50% said they expect the impact of the uses of AI on people's privacy, wealth inequalities, politics and elections, warfare, basic ...<|separator|>