Fact-checked by Grok 2 weeks ago

Bank run

A bank run occurs when numerous depositors simultaneously demand withdrawal of their funds from a , driven by concerns over its ability to repay due to perceived or actual financial distress. This mass withdrawal strains the , as institutions in fractional reserve systems maintain only a portion of deposits as reserves while lending the majority to borrowers, creating inherent vulnerability to sudden demands exceeding available liquid assets. Even fundamentally solvent can fail during runs, as forced asset sales at fire-sale prices generate losses that erode capital, transforming a into solvency problems through self-fulfilling dynamics. Bank runs have historically amplified financial , contributing to widespread economic contractions by curtailing credit and contracting , as evidenced in systemic events across two centuries where runs correlated with deposit flight and institutional failures. Mitigation strategies, including lending as and government-backed , emerged to restore confidence and prevent , though these interventions introduce by reducing depositor discipline over risk-taking.

Definition and Mechanics

Core Dynamics of a Bank Run

A bank run occurs when a large number of depositors simultaneously demand withdrawal of their funds from a bank, overwhelming its liquid reserves due to the inherent structure of . In this system, banks maintain only a fraction—typically 10% or less historically, though varying by regulation—of total deposits as cash or easily convertible reserves, while lending the remainder to longer-term, illiquid assets such as loans or investments. This maturity mismatch enables banks to perform liquidity transformation, converting short-term, demand-withdrawable deposits into funding for illiquid projects, which supports under normal conditions by providing depositors with on-demand access superior to direct investment returns. The core dynamic unfolds as a self-reinforcing driven by information asymmetries and coordination failures among depositors. Even if the bank's assets are fundamentally , a or signal of distress—such as adverse economic or peer withdrawals—can erode confidence, prompting early withdrawals to avoid anticipated losses. As withdrawals accelerate, the bank depletes reserves and must liquidate assets prematurely, often at discounted "fire-sale" prices, incurring losses that validate the initial fears and attract further withdrawals. This process, formalized in the Diamond-Dybvig model, exhibits multiple : a stable no-run state where depositors expect others to remain patient and thus do the same, versus a run equilibrium where rational anticipation of mass exodus leads to preemptive flight, regardless of underlying solvency. Propagation intensifies through contagion effects, as runs on one signal vulnerabilities elsewhere, amplified by linkages or shared exposures. Banks may resort to borrowing from central banks or selling securities, but if outflows exceed available —historically observed to reach 20-50% of deposits in severe cases—the faces of payments or , contracting and potentially triggering broader economic . Empirical instances, such as the 2023 collapse, illustrate how uninsured depositors (often comprising over 90% of balances in vulnerable banks) initiate runs via rapid digital transfers, exhausting within days. Absent intervention like or lender-of-last-resort facilities, the run's causal chain—fear to withdrawal to to confirmed distress—renders it a fundamentally informational and behavioral phenomenon overlaid on structural fragility.

Liquidity vs. Solvency Distinctions

A in banking occurs when an cannot meet short-term obligations due to insufficient immediately available funds or assets, despite the long-term value of its assets exceeding liabilities. , by contrast, assesses whether a 's assets, marked to market, cover its total liabilities, reflecting fundamental financial health over extended horizons. This distinction is critical in bank runs, where sudden deposit withdrawals create acute pressures, potentially forcing asset liquidations at depressed prices that impair . Empirical evidence from U.S. banking history (1865-2023) reveals that outright failures from liquidity runs on solvent banks are uncommon, comprising less than 2% of cases pre-FDIC; instead, most affected banks exhibited prior asset losses averaging 45% of capital, indicating underlying solvency vulnerabilities that runs exacerbate rather than originate. Runs typically target institutions with deteriorating fundamentals, such as loan defaults or economic downturns, where depositor coordination failures amplify withdrawal demands beyond reserve capacity. In solvent scenarios, central bank lender-of-last-resort facilities can bridge the gap by providing collateralized loans, as per Bagehot's dictum, preventing contagion without subsidizing insolvency. The 2007 Northern Rock episode exemplifies a liquidity-driven run: reliant on short-term , the bank faced market freeze post-subprime turmoil, leading to retail deposit outflows despite regulatory affirmation of and adequate capital. Emergency liquidity from the stabilized operations initially, but eventual highlighted risks of transition to solvency issues via sustained high funding costs. Theoretical frameworks further illustrate how aggregate liquidity shortages elevate interbank rates, rendering even viable banks temporarily insolvent through inefficient project terminations or effects. Distinguishing these crises informs policy: liquidity support averts in sound banks, while solvency deficits demand recapitalization or to avoid and resource misallocation. In practice, fire sales during runs can convert strains into losses, underscoring banks' inherent maturity mismatches in fractional-reserve systems.

Historical Context

Early Instances and Pre-Modern Runs

The collapse of the Florentine banking houses of Bardi and in the 1340s represents one of the earliest documented instances of a bank run, triggered by amid the . The Bardi and Peruzzi companies, dominant in , had extended massive loans totaling over 900,000 gold florins to III of by 1339 to fund military campaigns against ; Edward's refusal to repay these debts beginning in 1343 led to the Peruzzi firm's that year, followed by the Bardi's in 1345. This external shock precipitated panic among domestic depositors in , who rushed to withdraw funds, exacerbating liquidity shortages and contributing to the firms' total ; smaller banks survived by curtailing operations, but the crisis highlighted the vulnerability of fractional reserve practices reliant on sovereign creditworthiness. In , banking innovations amplified run risks, as seen with the Stockholms Banco in , the first European issuer of paper banknotes. Founded in 1657 by Johan Palmstruch under , the bank issued kreditivsedlar—demand notes promising redemption in copper coins—but overextended by printing notes exceeding metallic reserves to finance loans and state deficits. By 1667-1668, widespread redemption demands overwhelmed reserves, culminating in a classic run where holders exchanged notes for specie en masse, forcing suspension of payments and the bank's failure in December 1668; this event, detailed in records from the Swedish Riksbank's predecessor institutions, prompted the creation of a more conservative and underscored the perils of unbacked note issuance. English goldsmith-bankers in the late faced similar dynamics during cycles of expansion and contraction, evolving from safe-keeping precious metals to issuing deposit receipts that functioned as proto-banknotes. By the 1660s, these receipts circulated widely, but the Great Stop of the in 1672—wherein defaulted on government debts held by goldsmiths—sparked runs as depositors demanded physical gold amid fears of insolvency, leading to the failure of several prominent firms like those of Edward Backwell. This episode, rooted in over-lending to and fractional reserves, demonstrated how wartime fiscal strains could cascade into private banking panics, influencing the establishment of the in 1694 as a stabilizer.

19th and Early 20th Century Crises

The financial panics of the in the United States frequently involved mass withdrawals from banks, exacerbating liquidity shortages amid systems lacking support. These episodes often stemmed from overextension in land speculation, railroads, and imbalances, leading depositors to demand specie payments that banks could not meet. The erupted after a speculative boom in western lands collapsed, compounded by President Andrew Jackson's requiring gold or silver for public land purchases and the Bank of England's tightening of credit to British investors. On May 10, 1837, banks suspended specie payments as reserves dwindled, triggering runs across the country; over 600 banks failed by 1842, with reaching 33% in urban areas and a contraction in by about 50%. Recovery lagged until 1843, underscoring the absence of a . Subsequent crises followed similar patterns. The arose from railroad overinvestment and a global grain price drop, prompting runs on banks in and ; specie suspension occurred nationwide, with 1,000+ business failures and a five-year . The began with the failure of & Company on September 18, 1873, due to unsold railroad bonds amid European economic strain from the ; stock markets crashed, banks faced runs, and 18,000 businesses collapsed, initiating a six-year with exceeding 14%. The , triggered by railroad insolvencies like the Philadelphia and Reading Railroad's , saw depositors withdraw over $1 billion in three months, closing 500 banks and 15,000 firms; the money supply shrank by 10-15%, deepening . In , the 1866 Overend Gurney crisis highlighted vulnerabilities in discount houses financing trade and railways. On May 10, 1866, Overend, Gurney and Company, handling £11 million in bills daily, suspended payments after concealing £4 million in bad debts, sparking a liquidity panic with runs on related banks; the raised its discount rate to 10% and suspended the Bank Charter Act to issue extra notes, averting wider collapse but at the cost of firm liquidations and trade contraction. This intervention formalized the lender-of-last-resort doctrine, influencing later responses. The , bridging centuries, originated in failed attempts to corner United Copper stock, leading to runs on trusts like , which lost $8 million in deposits on ; panic spread to 46 banks and trusts, with stock prices falling 50% and national bank reserves dropping 20%. orchestrated private bailouts totaling $240 million, stabilizing markets but exposing reliance on ad hoc interventions, which spurred the Federal Reserve's creation in 1913. These crises revealed how rumors and loss of confidence could amplify solvency issues into systemic runs, absent or coordinated clearing.

Great Depression and Mid-20th Century Events

![Bank Run in Michigan, USA, February 1933.jpg][float-right] The banking panics of the early in the United States marked the most severe wave of bank runs during the , contributing significantly to economic contraction. Beginning in late with the collapse of Caldwell and Company in , on November 7, which triggered failures across the and Midwest, the initial panic subsided by early 1931 but was followed by another in June 1931 centered in . Bank suspensions escalated, with 1,350 failures in compared to an annual average of about 600 in the , peaking at over 4,000 in 1933. By March 1933, approximately 9,000 of the nation's 25,000 banks had failed, eroding $7 billion in depositor assets and contracting the money supply by more than 30 percent between 1929 and 1932. These runs were exacerbated by the absence of , rumors of , and regional economic distress, leading depositors to demand cash withdrawals that banks could not meet due to fractional reserve constraints. In response to the escalating national panic in early 1933, which saw widespread bank closures and halted transactions, President declared a nationwide on March 6 via Proclamation 2039, suspending all banking operations until March 9 to prevent further runs and allow for system assessment. Congress swiftly passed the Emergency Banking Act on March 9, empowering the federal government to reorganize solvent banks and restrict operations of insolvent ones, while Roosevelt's March 12 fireside chat reassured the public of banking stability. This intervention restored confidence, enabling most banks to reopen by March 13 with federal oversight, and laid the groundwork for the Banking Act of 1933, which established the (FDIC) to insure deposits up to $2,500 initially. The FDIC's creation fundamentally altered bank run dynamics by guaranteeing depositor funds, reducing the incentive for panic withdrawals. ![Money supply during the great depression era.png][center] Following these reforms, bank runs became rare during the mid-20th century, with annual bank failures dropping sharply to fewer than 100 by the late and remaining low through the post-World War II . The mechanism, combined with stricter federal regulation, mitigated the contagion effects observed in the early , though isolated failures occurred amid localized economic pressures. Internationally, similar vulnerabilities persisted in countries without equivalent safeguards, but major systemic runs were less documented in developed economies during this period due to wartime controls and reconstruction efforts. The experience underscored the causal link between unchecked bank runs and broader deflationary spirals, informing enduring policy frameworks for .

Post-1970s Examples

In September 2007, Northern Rock, a major UK mortgage lender, faced the country's first significant depositor run since 1866 after news emerged of its dependence on emergency funding from the Bank of England amid the emerging subprime mortgage crisis. The run began on September 14, triggered by media reports of the liquidity support, leading to long queues of retail depositors withdrawing approximately £1 billion over the following days, equivalent to about 5% of its deposits. Although the immediate panic subsided after government intervention guaranteeing all deposits, Northern Rock's vulnerability stemmed from its heavy reliance on short-term wholesale funding rather than stable retail deposits, exposing it to market-wide liquidity freezes. During the 2008 global financial crisis, runs extended beyond traditional banks to shadow banking entities, notably mutual funds (MMMFs) in the United States. On September 16, 2008, the Reserve Primary Fund "broke the buck" when its dropped to $0.97 per share due to holdings of debt following the investment bank's , eroding investor confidence in MMMFs' principal stability. This prompted a massive run, with $144 billion in outflows from prime MMMFs on alone, representing nearly 10% of total and threatening systemic as funds liquidated assets en masse. The episode highlighted coordination risks in non-bank intermediaries, prompting temporary U.S. Treasury guarantees and lending facilities to stem further contagion. The 2023 U.S. regional banking turmoil exemplified modern, digitally amplified runs, beginning with () on March 9, 2023. , catering to tech startups, experienced $42 billion in deposit withdrawals—over 25% of its total—within hours, driven by unrealized losses on its portfolio of long-duration and mortgage-backed securities amid interest rate hikes, which eroded its capital buffer. and networks accelerated the panic through rapid information dissemination, contrasting slower historical runs and underscoring uninsured depositors' vulnerability in concentrated client bases. Regulators seized on March 10, marking the second-largest U.S. bank failure by assets ($209 billion), followed by similar runs on ($110 billion in assets) and contributing to First Republic Bank's seizure on May 1 after $100 billion in outflows. These events, contained via exceptions waiving losses on uninsured deposits, revealed persistent liquidity mismatches in specialized banks despite post-2008 reforms.

Causes and Triggers

Underlying Structural Vulnerabilities

constitutes a fundamental structural vulnerability in modern banking systems, as institutions typically hold reserves equivalent to only a small fraction of total deposits—often between 0% and 10% depending on regulatory requirements—while lending out the remainder to generate returns. This practice amplifies susceptibility to runs because simultaneous demands for withdrawal exceed available liquid reserves, forcing banks to liquidate assets at potential losses or suspend operations, even if underlying assets remain solvent over longer horizons. from historical episodes, such as the U.S. National Banking Era (1863–1913), demonstrates how reserve ratios below 10% correlated with heightened panic frequency, as interbank lending could not always bridge shortfalls during clustered withdrawals. Maturity mismatch exacerbates this fragility by enabling banks to fund long-term, illiquid loans—such as mortgages with average durations of 20–30 years—through short-term, on-demand liabilities like deposits, creating inherent absent in matched portfolios. This provides economic benefits by allocating savings to productive investments but renders banks vulnerable to rollover failures, where depositors or short-term creditors refuse renewal amid , precipitating fire-sale asset disposals that convert into illiquidity. Studies of banking crises, including the 2007–2009 global financial turmoil, quantify this mismatch: affected institutions often exhibited liability durations under 1 year against asset durations exceeding 5 years, amplifying run probabilities by factors of 2–3 during stress periods. Opaque balance sheets and asymmetric information further compound these issues, as depositors lack verifiable insight into asset quality or true , fostering rational when signals of weakness emerge. Unlike equity s with continuous pricing, bank assets like commercial loans are infrequently marked to , obscuring deteriorations until crises manifest; for instance, regulatory filings often understate risks from exposures, which reached $15–20 in U.S. banks by 2008. This informational deficit incentivizes preemptive withdrawals, transforming isolated doubts into self-fulfilling crunches, as evidenced in models where even banks fail under coordinated pessimism. Interdependence within the banking sector, via interbank lending and payment systems, transmits these vulnerabilities systemically, as a single institution's distress erodes confidence across peers holding correlated exposures. Pre-1914 clearinghouse data reveal that runs on one bank prompted 20–30% deposit drains at connected institutions within days, underscoring how fractional reserves and mismatches propagate through networks without central backstops. While deposit insurance mitigates retail runs—capping insured claims at $250,000 per account in the U.S. since 1980—it leaves uninsured deposits (often 30–50% of totals at large banks) exposed, preserving structural incentives for wholesale runs among sophisticated creditors.

Immediate Precipitants and Behavioral Factors

Immediate precipitants of bank runs typically involve sudden public perceptions of a bank's , such as rumors of , announcements of substantial asset losses, or from the of interconnected financial entities. In historical cases, like the U.S. Banking Panics of the , runs were sparked by unverified rumors, as seen when the Metropolitan faced withdrawal demands after that its was misusing funds for railroad securities in 1890. Similarly, the 1866 collapse of Overend & Gurney in triggered widespread runs due to its unexpected as a discount house, amplifying fears across institutions. These triggers often stem from opaque banking operations where depositors lack full visibility into asset quality, leading to rapid loss of confidence upon any adverse signal. Behavioral factors center on depositors' rational yet panic-driven responses, characterized by of sequential losses where early withdrawers are paid in full but later ones face , incentivizing preemptive action even absent fundamental . Empirical analysis of the era reveals that depositors' fears clustered runs temporally and spatially, with panic propagating through local networks and amplifying withdrawals beyond risks. Experimental studies confirm that heightened emotional states, such as anxiety, significantly increase withdrawal rates in simulated run scenarios, underscoring how psychological priming overrides assessments of bank health. Individual traits like and impatience further exacerbate this, as depositors with higher time preferences prioritize immediate over long-term returns. Herd behavior plays a critical role, where observing others queueing or withdrawing signals potential trouble, creating a self-fulfilling cascade irrespective of underlying fundamentals. This coordination failure arises because depositors cannot perfectly observe peers' private information on bank stability, leading to overreactions to incomplete signals like media reports or peer actions. Evidence from intraday payment data during crises shows runs accelerating via real-time visibility of outflows, heightening contagion as withdrawals beget more withdrawals. While some models attribute runs solely to irrational panic, causal evidence points to bounded rationality: depositors act on imperfect information to avoid being last in line, a strategy rational under uncertainty but collectively destructive.

Theoretical Explanations

Coordination Failure Models

Coordination failure models frame bank runs as self-fulfilling prophecies arising from strategic interactions among depositors, where individual withdrawal decisions depend on expectations of others' actions, leading to multiple equilibria in a game-theoretic setting. In these models, a run occurs not because of fundamental insolvency but due to depositors' fear that others will withdraw en masse, prompting preemptive action that forces asset liquidation at a loss, even when the bank holds sufficient long-term assets to cover claims if held to maturity. This contrasts with solvency-based views by emphasizing liquidity mismatches and behavioral coordination over asymmetric information or real shocks. The foundational Diamond-Dybvig model (1983) illustrates this through a three-period (t=0,1,2) with agents facing private liquidity shocks: a fraction become "impatient" at t=1 and consume only then, while others are "patient" and can consume at t=1 or t=2 but prefer later. Banks optimally provide by investing in illiquid long-term assets yielding higher returns but pooling deposits into demand-withdrawable claims, suspending convertibility or offering fixed payouts to incentivize only impatient types to withdraw early. Under sequential service, patient depositors rationally stay if they expect no run, yielding the good ; however, if they anticipate a run, all withdraw at t=1, exhausting short-term assets and forcing costly early liquidation of long-term ones, resulting in the bad where everyone receives less than in . These models predict runs as "sunspot" events—unrelated to fundamentals—driven by coordination games with strategic complementarities, where one depositor's withdrawal raises the probability of others following, amplifying fragility. Experimental studies confirm this: in laboratory bank-run games, participants exhibit pure coordination failures, with run probabilities increasing in group size and coordination parameters, even absent informational asymmetries or solvency risks. For instance, when depositors decide simultaneously whether to roll over or withdraw, symmetric self-fulfilling runs emerge, mirroring Diamond-Dybvig predictions and validating the role of expectations over fundamentals. Extensions incorporate global games to select equilibria, replacing sunspots with noisy private signals about fundamentals, where runs occur only if is sufficiently doubtful, blending coordination with . Yet, core coordination failure persists: even solvent banks remain vulnerable to propagation if depositors cannot perfectly observe others' restraint, underscoring banks' inherent fragility from maturity . Empirical calibration to historical runs, such as those in the , shows these models explain sudden withdrawals without proportional asset deterioration, attributing them to self-reinforcing beliefs rather than exogenous triggers.

Real Shocks and Asymmetric Information Theories

Real shocks refer to fundamental economic disturbances that impair the value of a bank's assets, such as declines in borrower creditworthiness or asset prices, rendering the bank technically insolvent and prompting depositor withdrawals as a rational response to anticipated losses. In this framework, bank runs are not irrational panics but efficient market signals reflecting genuine liquidity or solvency crises triggered by exogenous events like commodity price collapses or sectoral failures; for instance, during the Panic of 1893, railroad bankruptcies and agricultural downturns generated widespread insolvencies, with failed banks exhibiting significantly higher exposure to these shocks compared to survivors. Empirical analyses of historical episodes, including the U.S. National Banking Era panics, support this view by showing that runs cluster around periods of verifiable aggregate shocks to bank portfolios, rather than random contagion. Asymmetric information theories posit that bank runs arise from depositors' inability to fully observe the quality of bank assets or managerial decisions, leading to rational withdrawals upon receiving adverse signals about hidden risks. Banks hold illiquid, informationally opaque assets like loans, creating and problems where insiders possess superior knowledge, prompting depositors to infer potential from public indicators such as peer failures or economic news, even if the bank remains solvent. This perspective, formalized in models where runs act as disciplinary mechanisms to mitigate agency costs, explains why depositors prioritize early withdrawal under sequential service constraints, as delayed claimants face higher default risks amid uncertainty. Evidence from the indicates that suspended banks had poorer pre-panic loan quality signals, consistent with depositors updating beliefs based on imperfect about aggregate versus idiosyncratic risks. These theories often intersect, as real shocks exacerbate informational asymmetries by increasing the variance in asset returns, amplifying depositor concerns about unobserved deteriorations and leading to system-wide runs when uncertainty about which institutions are affected heightens perceived risks. Unlike coordination models emphasizing self-fulfilling prophecies on healthy banks, real shocks and asymmetric information frameworks emphasize runs as information-revealing processes that, while costly due to fire-sale liquidations, can enhance overall financial discipline by weeding out underperforming intermediaries. Historical data, such as elevated rates tied to verifiable shocks in pre-deposit eras, underscore the empirical validity of these mechanisms over purely behavioral explanations.

Critiques of Prevailing Models

Prevailing models of bank runs, particularly coordination failure frameworks like the Diamond-Dybvig (DD) model, posit that runs can arise as self-fulfilling equilibria on fundamentally banks due to depositors' fears of others withdrawing first, independent of underlying asset quality. However, empirical analyses of historical and modern episodes reveal that such pure coordination failures are rare; instead, withdrawals concentrate on institutions exhibiting signs of insolvency or deteriorating fundamentals, such as high nonperforming loans or unrealized losses. For example, a 2024 study of U.S. bank failures from 1947 to 2023 found that failing banks typically displayed low asset quality and weak profitability prior to runs, undermining the notion that banks commonly trigger panics through multiple equilibria. Similarly, examinations of pre-deposit insurance era runs, including those during the U.S. period, indicate depositors rationally targeted banks with verifiable weaknesses rather than engaging in indiscriminate panics. Critics further argue that coordination models rely on unrealistic assumptions that distort their applicability, such as exogenous in depositor needs without forward planning, a closed devoid of intervention or , and an artificial sequential constraint to induce runs. These elements overlook banks' core functions like facilitation and allocation, while the model's structure embeds inevitable by mandating early payments before asset maturities realize, misrepresenting provision as inherently unstable rather than a value-creating transformation. Empirical testability remains limited, as the model's predictions of sunspot-driven runs lack robust field validation beyond controlled experiments, which may not replicate real-world incentives or information environments. Asymmetric information theories, which attribute runs to depositors inferring hidden bank weaknesses from signals like withdrawals or economic indicators, better align with selective targeting of vulnerable institutions but falter in explaining rapid, systemic propagation absent incremental adverse revelations. For instance, during the U.S. , runs correlated with regional exposures to risky silver loans, supporting informational triggers, yet models undervalue how public shocks or correlated beliefs amplify withdrawals beyond private signals. These frameworks also struggle with post-1930s dynamics under , where uninsured depositors and creditors still drive runs (e.g., in 2023) via aggregate solvency concerns rather than granular opacity. Both paradigms yield policy prescriptions favoring expansive guarantees and lender-of-last-resort interventions, yet critics contend they exacerbate by insulating banks from market discipline, ignoring historical private mechanisms like clearinghouse pools that resolved panics without systemic bailouts. Real shocks models, emphasizing distress, complement informational views but underplay mismatches' role in accelerating informed runs into panics, as evidenced by fire-sale dynamics in illiquid asset portfolios during stress events. Overall, prevailing theories' static nature and equilibrium focus inadequately capture dynamic contagion or behavioral herding observed in episodes like the 2007-2008 crisis, where runs extended via interconnected exposures despite partial disclosures.

Systemic Implications

Transmission to Broader Crises

Bank runs can escalate from institution-specific liquidity events to systemic crises through interconnected transmission channels, including asset fire sales, exposures, and curtailed credit provision. When depositors withdraw en masse, banks liquidate long-term assets prematurely, often at depressed prices, which erodes values across the and triggers issues in solvent institutions holding similar assets. This fire-sale dynamic amplifies losses, as evidenced in extensions of coordination failure models where correlated asset holdings propagate distress. Concurrently, runs disrupt wholesale funding markets, where banks rely on short-term lending; failures in these markets, as during the 2007-2008 crisis, halt flows and force broader . Contagion spreads via balance sheet interlinkages and informational cascades, where a run on one bank signals vulnerabilities in peers, prompting preemptive withdrawals elsewhere. Empirical analysis of historical episodes, such as U.S. banking panics from to 1930, demonstrates that clusters of bank failures reduced non-agricultural output by up to 4% in affected regions, with effects persisting for years due to diminished intermediation. In systemic cases, runs correlate with aggregate economic contractions; cross-country data spanning 1800-2023 identifies over 200 systemic run events, often coinciding with GDP declines exceeding 5%, as failed banks curtail lending to households and firms, contracting the and investment. For instance, during the , widespread runs contributed to a 30% drop in the U.S. between 1929 and 1933, magnifying the initial downturn into a severe depression through reduced consumption and business activity. ![Money supply contraction during the Great Depression][center] These transmissions are exacerbated in modern contexts by and exposures, where a single run can cascade via funding dependencies, as modeled in global bank networks where cross-border lending amplifies cycles. Non-systemic distress alone imposes costs—such as 2-3% output losses—but escalates to broader crises when runs overwhelm or lender-of-last-resort capacities, underscoring banking fragility's role in amplifying real shocks. Historical evidence confirms that banking disruptions systematically deepen recessions, with policy responses like suspension of historically mitigating but not eliminating spillover effects.

Empirical Evidence from Past Episodes

During the U.S. banking panics of , a wave of depositor withdrawals beginning in late affected over 8,000 banks nationwide, with failures accelerating to 1,350 in , 2,294 in , and peaking at around 4,000 in 1933; this resulted in a cumulative loss of deposits exceeding $7 billion by mid-1933 and transformed a standard into the severe contraction of the , as banks curtailed lending and the money supply shrank by approximately 27% due to panic-induced and reduced intermediation. Empirical analyses confirm that these failures directly impaired economic activity, with regions experiencing higher bank distress showing persistent declines in output growth by 1–2 percentage points annually and elevated , independent of initial recessionary pressures. ![Money supply contraction during the Great Depression][center] The provides earlier evidence of systemic contagion, where runs on institutions like the in October led to widespread liquidity shortages, stock market suspensions, and a 50% drop in New York clearinghouse loans over days; industrial production fell more sharply than in prior panics, bankruptcies reached the second-highest annual volume to date, and the episode propagated nationally through interbank networks, contracting credit availability and deepening the downturn until private interventions by figures like restored stability. Cross-state comparisons, such as between (epicenter of failures) and (minimal impact), reveal that localized runs amplified output losses by reducing loan supply and investment, with long-term GDP effects persisting for years absent support. Broader historical datasets spanning 1800–2023 across 184 countries indicate that systemic runs—defined by widespread depositor withdrawals exceeding 5% of total deposits—correlate with average GDP contractions of 2–5% in the following year, rising by 1–3 points, and heightened risks, particularly when runs coincide with real shocks like commodity busts; these effects stem from amplified credit freezes rather than isolated failures, as evidenced by models linking run intensity to collapses and disruptions. In pre-1980 crises, such as the U.S. Banking era panics (1863–1913), network analysis shows runs spreading via banking ties, multiplying failures by 2–3 times baseline rates and sustaining recessions through 6–12 months of elevated illiquidity.

Recent and Emerging Developments

2023 U.S. Regional Bank Failures

In early 2023, the experienced a series of regional bank failures triggered by rapid deposit outflows characteristic of bank runs, exacerbated by rising interest rates and vulnerabilities in asset-liability management. (SVB), the sixteenth-largest bank by assets, collapsed on March 10 after depositors withdrew approximately $42 billion—about 25% of its deposits—in a single day, prompted by the bank's disclosure of $1.8 billion in losses from selling securities to cover liquidity needs. followed on March 12, when New York regulators seized the institution amid a similar run that drained $10 billion in deposits over two days, leading to a $2.4 billion loss to the FDIC's Fund. , the fourteenth-largest, was seized by regulators on May 1 and its assets sold to , after losing over $100 billion in deposits since SVB's failure due to contagion effects and inability to stem outflows despite emergency borrowing. These events marked the second-, third-, and largest bank failures in U.S. by asset size, respectively, surpassing the 2008 crisis in speed but contained through swift intervention. The precipitating factor across these banks was the Federal Reserve's aggressive hikes from near-zero levels in 2022 to over 5% by early 2023, which devalued long-duration, fixed-rate securities like mortgage-backed bonds held in high proportions on their balance sheets. SVB's securities , comprising 40% of assets, suffered unrealized losses estimated at $15-40 billion as rates rose, with the bank having extended durations to chase amid low-rate growth in tech deposits. Bank's rapid expansion into lending and some cryptocurrency-related services amplified liquidity mismatches, though FDIC analysis attributed failure primarily to inadequate rather than crypto exposure alone, which had been reduced prior to collapse. First Republic faced similar unrealized losses on its bond holdings but was hit by reputational , with uninsured deposits—over 70% of total—fleeing amid fears of , despite $30 billion in ad hoc backing from major banks. Over 90% of deposits at SVB and were uninsured, rendering them prone to sudden withdrawals, unlike insured accounts limited to $250,000 per depositor. Bank runs in these cases unfolded digitally at unprecedented speed, facilitated by and amplification of concerns over health. SVB's run began after its March 8 announcement of capital-raising efforts, with firms advising portfolio companies to pull funds, leading to viral ; withdrawals occurred via wire transfers and apps rather than physical queues. Signature's closure was partly to halt a coordinated by clients, though broader mismanagement in planning contributed. First Republic's outflows accelerated post-SVB, with depositors shifting to larger institutions perceived as safer, highlighting asymmetric information where public disclosure of unrealized losses signaled potential . These runs exposed flaws in supervision, as reviews criticized SVB's governance for failing to model risks adequately during explosive 200% asset growth from 2019-2021. Regulatory responses invoked extraordinary measures to arrest contagion. The FDIC, with Treasury and Fed concurrence, declared a systemic risk exception on March 12, extending insurance to all SVB and Signature deposits to prevent broader runs, costing the fund $20 billion initially, later recouped via a special assessment on banks. The Fed created the Bank Term Funding Program (BTFP), offering one-year loans at par value against eligible securities to provide liquidity without forcing fire sales, averting forced realizations of losses across the sector where $620 billion in unrealized losses existed system-wide. For First Republic, no such exception was needed as JPMorgan assumed all deposits and most assets for a $10.6 billion FDIC-assisted premium, stabilizing markets but raising questions of moral hazard in backstopping uninsured funds. These failures prompted enhanced scrutiny of interest rate risk and liquidity at mid-sized banks, though no immediate recession or credit crunch materialized, underscoring the effectiveness of deposit guarantees in modern fractional reserve systems while revealing persistent vulnerabilities to coordinated digital withdrawals.

Digital and Cyber-Amplified Runs

Digital bank runs differ from historical episodes by leveraging instant online withdrawals through mobile apps and wire transfers, bypassing physical queues and enabling rapid deposit flight without spatial constraints. This mechanism was starkly evident in the March 2023 (SVB), where approximately $42 billion in deposits—nearly a quarter of its total—were withdrawn digitally within hours of panic signals, primarily via app-based transfers and payments, overwhelming liquidity buffers. platforms, particularly (now X), accelerated the contagion by facilitating real-time information dissemination and coordination among uninsured corporate depositors, such as firms and tech startups, who monitored SVB's vulnerabilities like unrealized losses on long-duration bonds amid rising interest rates. Empirical analysis shows banks with higher pre-crisis exposure experienced 4.3 percentage points greater stock value declines during the SVB run window, as posts from influential users amplified sentiment and prompted synchronized withdrawals, exacerbating coordination failures inherent in fractional reserve systems. The episode, followed by distress at and , marked the first major "social media-fueled" runs, where algorithmic amplification and echo chambers intensified fears beyond underlying fundamentals, though depositors' actions were rational given SVB's 93% uninsured deposit base and concentrated funding risks. Unlike traditional runs reliant on local rumors, digital amplification scales globally and instantaneously, with studies indicating social media heightens run propensity by increasing depositor sensitivity to peers' actions (si in coordination models), particularly for institutions with opaque assets or high uninsured exposure. Regulators have since adapted, with the and FDIC exploring social media surveillance via intelligence firms to detect early panic signals on platforms like and , aiming to preempt escalations while balancing free speech concerns. However, this dual-edged role—spreading panic but also enabling informed scrutiny by sophisticated users—suggests digital channels can both precipitate and mitigate runs, depending on and network effects. Cyber-amplified runs introduce operational disruptions as triggers, where attacks on banking could simulate by halting transactions or eroding confidence, potentially cascading into self-fulfilling withdrawals. The warned in April 2024 that severe cyberattacks on financial institutions might provoke bank runs and market selloffs by undermining trust and , with historical simulations showing a single large-bank could trigger $50-100 billion in correlated outflows via interconnected markets. analyses indicate incidents amplify solvency risks through drains, as depositors interpret outages as signs of weakness, mirroring informational asymmetries in classic run models but at electronic speeds. While no major -triggered run has materialized as of 2025, vulnerabilities persist in digitized systems, with highlighting potential for runs on rails to propagate contagiously among institutions sharing -risk exposures. efforts focus on testing and contingency funding, yet the causal chain from to underscores how threats exploit the same digital conveniences that enable routine efficiency.

Prevention and Mitigation Approaches

Deposit Insurance and Guarantees

Deposit insurance schemes, typically administered by government-backed entities, guarantee repayment of depositors' funds up to predefined limits in the event of , thereby reducing the incentive for mass withdrawals that characterize bank runs. By removing the fear that one's funds may be lost if others withdraw first, such guarantees address the coordination failure inherent in runs, where rational individual actions lead to collective inefficiency. In the United States, the (FDIC) was created by the Banking Act of 1933 on June 16, 1933, amid the Great Depression's banking crisis, which resulted in over 9,000 s from 1930 to 1933 and deposit losses exceeding $7 billion. took effect on January 1, 1934, initially covering up to $2,500 per depositor per insured bank, with subsequent increases to $5,000 in 1935, $10,000 in 1966, $100,000 in 1980, and the current $250,000 limit per depositor, per insured bank, for each account ownership category since 2008 under the Federal Deposit Insurance Reform Act and temporary enhancements. This system has ensured that no insured depositor has ever lost a penny of insured funds due to , contributing to the absence of systemic runs on insured deposits post-1934. Empirical evidence supports the stabilizing role of . Experimental studies demonstrate that partial deposit coverage significantly diminishes the incidence of panic-driven runs, though it does not eliminate them entirely when uncertainty persists about coverage or bank solvency. Analysis of the U.S. Guarantee program during the found that temporary full insurance on non-interest-bearing transaction accounts enhanced bank funding stability by curbing deposit outflows. Cross-country research indicates that well-designed explicit correlates with lower during crises by bolstering depositor confidence, though outcomes vary with regulatory environments; for instance, it tends to reduce crisis likelihood when paired with strict bank supervision. Internationally, explicit deposit insurance is widespread, with over 80% of International Association of Deposit Insurers (IADI) members maintaining schemes covering approximately 41% of eligible deposits on average. Coverage limits differ markedly: the mandates a minimum of €100,000 per depositor since 2010 under the Deposit Guarantee Schemes Directive; Canada's regime covers up to CAD $100,000 via the ; while Australia's guarantee extends fully to deposits up to AUD $250,000. Recommended benchmarks suggest limits of 2.5 to 5 times GDP per capita to cover 80% of depositors and 30% of deposits, balancing protection against over-insurance that could exacerbate fiscal burdens. These schemes have proven effective in averting runs in jurisdictions like post-2008 , where enhanced guarantees prevented contagion from failing institutions.

Lender of Last Resort Functions

The (LOLR) function enables central banks to supply emergency to facing acute funding pressures, thereby mitigating the spread of bank runs by restoring depositor confidence and preventing fire sales of assets. This role, formalized in central banking, addresses the illiquidity that banks may experience during panics when depositors demand simultaneous withdrawals, even if the institution holds adequate but illiquid . By acting as a backstop, the LOLR interrupts the self-reinforcing cycle of withdrawals, asset liquidation at depressed prices, and to other institutions. Classical principles for LOLR operations, as articulated by in his 1873 work Lombard Street, emphasize lending "freely and vigorously to the market" in unlimited quantities, but only to solvent institutions against high-quality at penalty rates above normal levels. These conditions aim to provide reassurance to markets without subsidizing imprudent behavior or depleting reserves on unviable entities; the penalty rate incentivizes banks to seek private funding first and repay promptly once normalizes. In practice, implement this through mechanisms like lending, where eligible such as government securities or high-grade loans is pledged, ensuring the LOLR extends credit rather than equity-like support. Historical precedents, including the Bank of England's interventions during the Overend Gurney crisis of 1866, demonstrated that timely LOLR action could contain runs by signaling unlimited support, though initial hesitation exacerbated losses. In contemporary settings, LOLR functions have evolved to include broader tools like standing swap lines or emergency facilities, as seen in the U.S. 's actions during the , where it provided over $900 billion in loans to depository institutions by late 2008 to stem systemic runs. Empirical analyses indicate that such interventions reduce borrowing costs and stabilize interbank lending during liquidity squeezes, with studies of swap lines showing they cap private lending rates and mitigate ex post financing risks. However, effectiveness hinges on credible enforcement of collateral and solvency assessments; failures, as in the early stages of the when the restricted lending, prolonged runs by signaling insufficient backstop support. Modern frameworks, such as those outlined by the , stress pre-positioned collateral frameworks and stigma reduction to ensure uptake without amplification.

Market Discipline and Private Solutions

Market discipline in banking arises from the incentives of depositors and creditors to monitor and penalize imprudent behavior, as the threat of withdrawals—particularly from uninsured depositors—compels banks to maintain sound asset quality and to avoid signals. Uninsured depositors, facing full loss exposure, respond to perceived risks by demanding higher interest rates or withdrawing funds, thereby imposing costs that align bank management with ; empirical studies show this effect strengthens during periods of financial stress when decreases. In the absence of full deposit guarantees, such dynamics historically limited excessive risk-taking, as banks competed on and note , with market pricing of liabilities reflecting underlying . Private solutions to mitigate bank runs have included interbank lending networks and clearing house mechanisms, which provided liquidity without relying on public backstops. During the U.S. Panic of 1907, the issued over $100 million in certificates to member banks, collateralized by diverse assets and used to settle interbank obligations, thereby conserving specie reserves and stemming depositor withdrawals across the system. These certificates, transferable among members and backed collectively, effectively acted as a private , reducing panic contagion by substituting for cash in routine transactions while preserving overall ; similar issuances occurred in prior panics of 1873, 1884, and 1893, demonstrating recurring efficacy in pre-Federal Reserve eras. In free banking systems, such as Scotland's from 1716 to 1845, market discipline manifested through competitive note issuance and rapid discounting of depreciated banknotes, which penalized overextension and minimized widespread runs; failures were isolated due to diversified holdings and private correspondent networks that facilitated liquidity sharing. Private schemes, analyzed in theoretical models, offer another approach by pooling risks among solvent institutions, though historical U.S. state-level mutuals before 1933 often collapsed amid correlated failures, underscoring the need for strict to avoid . Contractual provisions, like temporary suspension of clauses in charters, further enabled banks to weather temporary squeezes without forced asset fire sales, preserving value during localized panics. These mechanisms rely on credible collateralization and mutual among participants, fostering through decentralized incentives rather than centralized guarantees, though their success hinged on homogeneous profiles and enforceable contracts in relatively stable monetary environments. Empirical evidence from pre-1914 episodes indicates that such arrangements curtailed systemic spillovers more effectively than isolated failures, as pooled resources without distorting individual prudence.

Drawbacks and Unintended Consequences

Deposit insurance schemes, intended to prevent runs by guaranteeing depositor funds, introduce by diminishing incentives for depositors to monitor bank risk-taking, thereby encouraging institutions to pursue higher-risk investments. Empirical studies indicate that insured banks exhibit greater and riskier asset portfolios compared to uninsured counterparts, as the safety net shifts potential losses to or the insurance fund. For instance, during the U.S. of the 1980s, expanded federal coverage correlated with aggressive lending practices in commercial real estate and junk bonds, contributing to over 1,000 institutional failures and a taxpayer cost exceeding $124 billion. Lender-of-last-resort facilities, such as liquidity provision, can inadvertently foster excessive risk-taking by signaling that illiquid but solvent banks will receive emergency support, reducing the credibility of failure threats and amplifying in anticipation of . This dynamic was evident in analyses of post-2008 liquidity injections, where banks increased holdings of illiquid assets, heightening systemic vulnerability to future shocks as distorted decisions. Early or unconditional intervention further erodes market discipline, as banks anticipate rescues rather than internalizing costs of imprudence, potentially delaying necessary resolutions and inflating asset bubbles. Government-backed bailouts and guarantees exacerbate these issues by cultivating a "too big to fail" perception, where large institutions engage in riskier activities under the expectation of public support, as observed in the when rescued banks subsequently expanded leverage without proportional buffers. Such interventions undermine private market solutions like vigilant creditor oversight, leading to concentrated risks in systemically important entities and recurrent cycles of buildup and . In the 2023 U.S. regional bank failures, ad hoc expansions of deposit guarantees beyond statutory limits raised concerns over perpetuating without addressing underlying supervisory lapses. Overall, these tools, while curbing immediate panics, can propagate latent instabilities by suppressing price signals of until crises escalate.

Debates and Controversies

Benefits of Runs as Market Signals

Bank runs function as a decentralized mechanism for conveying information about a bank's underlying , where depositors' collective actions reveal asymmetries between perceived and actual risks, prompting corrective measures before problems escalate systemically. This signaling role arises because creates incentives for banks to hold illiquid assets funded by liquid liabilities; the threat of mass withdrawals forces management to prioritize and capital adequacy to avoid panic-driven liquidation. Economists such as George G. Kaufman have argued that runs enforce market discipline by deterring excessive risk-taking, as banks must respond to depositor scrutiny of balance sheets and lending practices. Prior to the introduction of federal deposit insurance in the United States in , the absence of guarantees amplified this disciplinary effect, leading banks to maintain equity capital ratios averaging approximately 25 percent by the early —far higher than post-insurance levels—and imposing double liability on shareholders for depositor losses, which further aligned incentives with prudent operations. Historical analysis indicates that such runs were typically confined to individual or regional institutions with genuine weaknesses, rarely propagating nationally except in two instances ( and –1933), and facilitated swift closures of insolvent entities, thereby containing losses and preserving overall . In the U.S. free banking era (1837–1863), the market pricing of bank-issued notes provided ongoing signals of , imposing costs on overextended issuers and curbing speculative lending without reliance on a or regulatory backstops. Empirical evidence from emerging economies supports the view that runs exert beneficial discipline under systemic pressures, with depositor withdrawals correlating strongly with indicators of bank risk, such as high nonperforming loans or , thereby pressuring undercapitalized institutions to recapitalize or contract before crises broaden. Studies of uninsured depositor behavior during distress episodes demonstrate that partial preserves sensitivity to signals, reducing compared to full coverage, which can blunt these incentives and encourage asset toward higher-yield, riskier investments. Theoretical models incorporating information-based runs, including those extending Diamond-Dybvig frameworks, highlight how depositor coordination reveals private information about asset quality, enhancing efficiency in by weeding out inefficient intermediaries.

Role of Fractional Reserve Banking

Fractional reserve banking requires commercial banks to hold only a portion of customer deposits as liquid reserves, typically 10% or less under regulatory minimums, while lending out the remainder to generate returns. This practice creates a maturity mismatch, as deposits function as short-term, on-demand liabilities, whereas loans extended from those deposits mature over longer periods, often years. Consequently, banks cannot fulfill simultaneous demands from all depositors without liquidating assets at a loss or seeking external funding, rendering the system susceptible to runs triggered by loss of confidence. Critics contend that this structure fosters inherent instability, as fractional reserves amplify premiums and enable expansion beyond actual savings, distorting signals and culminating in periodic crises. Austrian economists, such as , posit that the overissuance of fiduciary media under fractional reserves initiates business cycles, with runs serving as corrective mechanisms exposing malinvestments. Empirical models demonstrate that in fractional reserve systems, even rational depositors may withdraw preemptively if they anticipate others doing so, propagating absent in full-reserve alternatives. Proponents argue that fractional reserves efficiently intermediate savings into productive investment, fueling economic growth through the money multiplier effect, and that runs are rare due to diversified withdrawal behaviors. Historical data from pre-deposit insurance eras, however, reveal recurrent panics—such as the U.S. banking crises of and —wherein fractional reserve practices exacerbated liquidity shortfalls, necessitating interventions. While modern regulations like reserve requirements and capital buffers mitigate risks, events like the 2023 failure underscore persistent vulnerabilities from maturity transformation, where unrealized losses on longer-term assets prompted rapid outflows exceeding reserves. The debate centers on whether fractional reserves represent a net societal benefit or a causal vector for systemic fragility; full-reserve advocates propose 100% backing to eliminate run incentives, though this would contract credit availability by an estimated 80-90% based on current multipliers. analyses, informed by post-2008 reforms, emphasize that while fractional systems heighten run probabilities during , they do not preclude stability under prudent oversight, contrasting with theoretical claims of inevitability.

Government Interventions and Moral Hazard

Government interventions to avert bank runs, including deposit insurance expansions, emergency liquidity provision, and bailouts of systemically important institutions, have historically reduced the immediate threat of but fostered by diminishing banks' incentives to manage risks prudently. arises because such protections shield depositors and creditors from losses, allowing banks to pursue higher-risk strategies—such as excessive or speculative investments—under the expectation that governments will intervene to prevent failure, thereby privatizing gains while socializing losses. Empirical analyses indicate that more generous coverage correlates with elevated bank risk-taking, as institutions exploit the asymmetric incentives created by guarantees that cap depositor exposure but do not fully internalize failure costs. The U.S. Savings and Loan (S&L) crisis of the 1980s exemplifies this dynamic: federal , combined with allowing S&Ls to enter high-risk commercial lending, prompted institutions to gamble for resurrection, knowing insured deposits would flow to failing thrifts offering high yields. By , over 1,000 S&Ls had failed, with resolution costing taxpayers approximately $124 billion through the , as moral hazard incentives decoupled managerial risk decisions from equity holder discipline. When the government terminated policies in —ceasing regulatory leniency toward insolvent institutions—surviving S&Ls significantly curtailed risk-taking, evidenced by reduced asset growth and portfolio shifts away from volatile investments, underscoring the causal link between expected assistance and hazard. In the , the "" doctrine amplified , as implicit guarantees for large banks encouraged pre-crisis leverage ratios exceeding 30:1 at institutions like and , predicated on anticipated to avert systemic collapse. The (TARP), authorized on October 3, 2008, with $700 billion in funds, stabilized markets but studies show it induced post-crisis risk resumption among recipients, with bailed-out banks exhibiting higher investment in volatile assets compared to non-recipients, as executives anticipated ongoing support. While some research finds limited evidence of heightened risk-taking in the immediate post-bailout period due to regulatory overlays, the broader consensus from dynamic modeling highlights how such interventions erode market discipline, perpetuating cycles of buildup and . Debates persist on mitigating moral hazard without forgoing interventions; proponents of stricter capital requirements and resolution regimes, as in the Dodd-Frank Act of 2010, argue they can curb excesses, yet empirical reviews reveal persistent hazard in jurisdictions with expansive guarantees, as banks lobby for and exploit loopholes in coverage limits. Critics, drawing from first-principles incentive analysis, contend that no regulatory fix fully eliminates the distortion, as long as interventions prioritize stability over accountability, potentially sowing seeds for future crises by undermining the disciplinary role of runs themselves.

References

  1. [1]
    Bank Runs - Econlib
    When a run comes, a bank must quickly increase its cash to meet depositors' demands. It does so primarily by selling assets, often hastily and at fire-sale ...
  2. [2]
    [PDF] Are Bank Runs Contagious?
    In this article, we will review the basic theory and present some recent evidence on contagious bank runs. ILLIQUID ASSETS AND. LACK OF INFORMATION. One of the ...
  3. [3]
    [PDF] NBER WORKING PAPER SERIES UNDERSTANDING BANK RUNS
    The theoretical literature on bank runs has helped identify potential causes for depositor runs. The literature can broadly be divided into two classes. In ...
  4. [4]
    [PDF] Two Centuries of Systemic Bank Runs
    We study bank runs using a novel historical cross-country dataset that covers 184 countries over the past 200 years and combines a new narrative chronology ...
  5. [5]
    Preventing Bank Runs | Richmond Fed
    Overall, the D-D framework suggests three main factors that may lead to bank runs: maturity transformation, each agent having private information about its own ...Missing: scholarly | Show results with:scholarly<|separator|>
  6. [6]
    Understanding Fractional Reserve Banking: How It Fuels Economic ...
    Fractional reserve banking lets banks use deposits that would otherwise sit idle, earning returns through loans while supporting economic growth. In contrast, ...Fractional Reserve Banking · History · Advantages and Disadvantages
  7. [7]
    Bank Run - Defined, Causes, Avoid, Recover, History
    A bank run occurs when many customers simultaneously withdraw their money from deposit accounts for fear that the bank may be, or will become, insolvent.What is a Bank Run? · Bank Runs in History · Bank Run Mitigation Measures
  8. [8]
    [PDF] Banks and Liquidity Creation: A Simple Exposition of the Diamond ...
    Diamond and Dybvig (1983) develop a model to explain why banks choose to issue deposits that are more liquid than their assets and to understand why banks are ...
  9. [9]
    [PDF] Bank Runs, Deposit Insurance, and Liquidity Douglas W. Diamond
    Bank runs in the model cause real economic damage, rather than simply reflecting other problems. Contracts which can prevent runs are studied, and the analysis ...
  10. [10]
    Anatomy of the Bank Runs in March 2023 - Liberty Street Economics
    Dec 20, 2024 · In most bank run models, banks respond to deposit outflows by first using up their cash and then selling their assets. Asset sales make systemic ...
  11. [11]
    Bank Runs and Reactions | Richmond Fed
    As run banks face withdrawals, how do they avoid failure? In general, banks either allow their cash balance to drop or regain liquidity during a run in two ways ...
  12. [12]
    Solvency Ratios vs. Liquidity Ratios: What's the Difference?
    Jun 12, 2025 · Liquidity ratios focus on a firm's ability to meet short-term obligations but solvency ratios consider a company's long-term financial wellbeing.
  13. [13]
    Debt solvency vs liquidity: What's the difference?
    Liquidity focuses on short-term debt using cash, while solvency focuses on long-term financial stability and paying down long-term debt.
  14. [14]
    Why Do Banks Fail? Bank Runs Versus Solvency
    Nov 25, 2024 · The ultimate cause of bank failures and banking crises is almost always a deterioration of bank fundamentals that leads to insolvency.
  15. [15]
    [PDF] United Kingdom: Northern Rock Emergency Liquidity Program, 2007
    Apr 15, 2025 · The FSA conducted this analysis and concluded that Northern Rock was solvent, had above the minimum amount of regulatory capital, and had a ...
  16. [16]
    [PDF] Liquidity Shortages and Banking Crises
    Abstract Banks are known to fail either because they are intrinsically insolvent or because an aggregate shortage of liquidity renders them insolvent.
  17. [17]
    14th century: The Crash of Peruzzi and the Bardi family in 1345
    Mar 31, 2013 · The Peruzzi bank went into bankruptcy in 1343; the Bardi struggled on for three more years but were also liquidated. Smaller firms survived the ...
  18. [18]
    What was the first financial crack of history? - Evidence Network
    Feb 22, 2025 · A large financial crisis linked to the collapse of the banks of the Peruzzi and Bardi families, until then the flagship of European finance.
  19. [19]
    First banknotes in Europe | Sveriges Riksbank
    Stockholms Banco issued the first real banknotes in Europe. They were a great success, but it all ended in a bank failure. It was Johan Palmstruch, ...
  20. [20]
    Full article: Mastering the narrative and the dirty tricks of trade
    Jan 20, 2022 · The history of Stockholm's Banco is short: it crashed due to a bank run in 1663–1664, generally attributed to its overissuing banknotes ...
  21. [21]
    How modern banking originated: The London goldsmith-bankers ...
    Jul 7, 2011 · Modern banking originated with London goldsmith-bankers' development of paper credit-money in the 17th century, linked to the ...Missing: runs | Show results with:runs
  22. [22]
    Financial Panics of the 19th Century - ThoughtCo
    May 13, 2025 · Many 19th century financial panics were caused by speculation and failures in banking and agriculture. Each panic led to widespread job loss ...
  23. [23]
    Financial Panic of 1873 | U.S. Department of the Treasury
    One of the worst happened in 1873 – during the time of the Freedman's Bank. The panic started with a problem in Europe, when the stock market crashed.
  24. [24]
    The Panic of 1873 - This Month in Business History
    The Panic of 1873 triggered the first 'Great Depression' (also called the Long Depression) in the United States and abroad. Lasting from September 1873 until ...
  25. [25]
    [PDF] The demise of Overend Gurney - Bank of England
    On 10 May 1866, 150 years ago, Overend Gurney, one of the largest bill brokers in the City of London, failed. The run on. Northern Rock plc in September 2007 ...
  26. [26]
    The Crisis of 1866 | British Financial Crises since 1825
    When the Bank refused to bail out Overend Gurney in 1866 there was panic in the market. The Bank responded by lending freely and raising Bank rate to very high ...
  27. [27]
    The Panic of 1907 | Federal Reserve History
    The Panic of 1907 had many elements in common with the financial crisis of 2007-09. Both crises started among New York City financial institutions and markets, ...
  28. [28]
    The Financial Panic That Led to the Start of the Federal Reserve
    Sep 8, 2025 · In 1907, a virulent financial panic exposed just how fragile America's banking system was. The jolt led lawmakers to call for creating a ...
  29. [29]
    Banking Panics of 1930-31 - Federal Reserve History
    The 1930-31 banking panics began with crises in non-member banks, caused by "fictitious reserves" and limited reserve access, leading to bank failures and mass ...<|separator|>
  30. [30]
    Banking during the Great Depression: The good news - CEPR
    May 1, 2009 · The number of bank failures rose from an annual average of about 600 during the 1920s to 1,350 in 1930 before peaking in 1933 when 4,000 banks ...Missing: statistics | Show results with:statistics
  31. [31]
    banks failed - Social Security History
    In all, 9,000 banks failed--taking with them $7 billion in depositors' assets. And in the 1930s there was no such thing as deposit insurance--this was a New ...
  32. [32]
    Fear of Failure, Bank Panics, and the Great Depression | NBER
    Between 1929 and 1932, the money supply and bank lending in the United States declined by more than 30 percent. In Contagion of Fear (NBER Working Paper ...Missing: facts | Show results with:facts
  33. [33]
    Bank Holiday of 1933 | Federal Reserve History
    At 1:00 a.m. on Monday, March 6, President Roosevelt issued Proclamation 2039 ordering the suspension of all banking transactions, effective immediately. He had ...
  34. [34]
    Emergency Banking Act of 1933 | Federal Reserve History
    Roosevelt on March 9, 1933, the legislation was aimed at restoring public confidence in the nation's financial system after a weeklong bank holiday. President ...
  35. [35]
    1930–1939 | FDIC.gov
    May 15, 2025 · The banking crisis subsided in January 1931. There were 256 bank suspensions in November and 352 in December. Overall, the banking problems ...
  36. [36]
    Great Depression Economic Impact: How Bad Was It? | St. Louis Fed
    Some 7,000 banks, nearly a third of the banking system, failed between 1930 and 1933. In this video, St. Louis Fed expert David Wheelock uses data to describe ...
  37. [37]
    Bank rescues of 2007-09: outcomes and cost - Commons Library
    Oct 8, 2018 · September 2007 saw the first run on a British bank in 150 years, after news broke out that Northern Rock needed emergency support from the Bank ...
  38. [38]
    [PDF] Reflections on Northern Rock - Bank for International Settlements
    The Northern Rock depositor run, although dramatic on television, was an event in the aftermath of the liquidity crisis at Northern Rock, rather than the event.
  39. [39]
    United Kingdom: Northern Rock Emergency Liquidity Program, 2007
    Apr 15, 2025 · Northern Rock reported outstanding emergency lending of GBP 28.5 billion at the end of December 2007. In February 2008, HM Treasury took over ...
  40. [40]
    Twenty-Eight Money Market Funds That Could Have Broken the Buck
    Oct 9, 2013 · During the financial crisis in 2008, just one money market fund (MMF) “broke the buck”—that is, its share price dropped below one dollar.
  41. [41]
    Money Market Mutual Funds: Pandemic Revealed Unresolved ...
    Feb 2, 2023 · During the 2007-2009 financial crisis, investors in money market mutual funds "ran"—cashed in their shares at the same time—to avoid losses.
  42. [42]
    [PDF] Material Loss Review of Silicon Valley Bank
    Sep 25, 2023 · SVB failed due to its business model, growth emphasis, long-term investments, failure to heed market risk, and ineffective communications, ...
  43. [43]
    Lessons Learned from the U.S. Regional Bank Failures of 2023 - FDIC
    May 17, 2024 · It is worth noting that, although Silicon Valley Bank's failure was caused by a liquidity run, the loss of market confidence that precipitated ...Missing: timeline | Show results with:timeline
  44. [44]
    Fractional Reserve Banking: Definition and How It Works - NerdWallet
    Oct 20, 2023 · Fractional reserve banking is the system where banks lend out customer deposits. The role of reserves in the U.S. has changed over time.
  45. [45]
    On the instability of fractional reserve banking - ScienceDirect
    The model shows that the fractional reserve banking system can endanger stability in that equilibrium is more prone to exhibit endogenous cyclic, chaotic, and ...
  46. [46]
    [PDF] Liquidity, Part 1: Maturity Mismatch and Banking Panics: Lecture 5
    Why do the banks feature a maturity mismatch to begin with? How does this arrangement create fragility/runs/panics? What should the policy should do about this?
  47. [47]
    [PDF] Banks' Maturity Transformation: Risk, Reward, and Policy - WP/18/45
    The maturity mismatch needed to facilitate long-term investment projects while serving investors' liquidity needs should allow banks to earn a spread in an ...
  48. [48]
    What is maturity mismatch, and why is it a problem?
    Sep 11, 2015 · The high degree of maturity mismatch in banking is due to their unprecedented expansion in mortgage lending.
  49. [49]
    [PDF] Measuring Liquidity Mismatch in the Banking Sector
    In the cross section, we find that banks with more liquidity mismatch (i) experience more negative stock returns during the crisis, but more positive returns ...
  50. [50]
    Addressing banks' vulnerability to runs, part 1: Facts, arguments ...
    Oct 9, 2024 · They almost always result from a combination of weak fundamentals (concerns about the solvency or liquidity position of a bank or the banking ...
  51. [51]
    Types of Financial System Vulnerabilities and Risks
    Dec 17, 2021 · Valuations that are high relative to history or to economic fundamentals constitute a vulnerability because the unwinding of high prices can be ...
  52. [52]
    Bank Runs Aren't Madness: This Model Explained Why
    In the model, the mismatch between assets (loans) and liabilities (deposits) is simply a liquidity issue, which deposit insurance can help address.
  53. [53]
    [PDF] Addressing banks' vulnerability to deposit runs
    These failures also show that the franchise and hedging value of deposit funding is vulnerable to any force that leads depositors to withdraw their funds or ...
  54. [54]
    On the social usefulness of fractional reserve banking - ScienceDirect
    Fractional reserve banking is, to put it mildly, problematic. Banks with fractional reserves are subject to runs and panics with arguably enormous external ...
  55. [55]
    [PDF] Tracing Bank Runs in Real Time | FDIC
    We use fve sources of data: (i) balance sheet information from banks' quarterly regulatory flings, (ii) confdential transaction level data on interbank payments ...
  56. [56]
    Banking Panics of the Gilded Age | Federal Reserve History
    Eight banking panics occurred in the Gilded Age, including those in 1873, 1884, 1890, 1893, 1901, 1907, 1899, and 1908, with some spreading nationally.
  57. [57]
    Reshaping Global Trade: The Immediate and Long-Run Effects of ...
    First, it was caused by the unexpected failure of a fraudulent financial intermediary, the firm Overend & Gurney. This event triggered severe bank runs on ...
  58. [58]
    Bank run psychology - ScienceDirect.com
    We experimentally show that background emotional state has a large significant effect on withdrawals in an experimental bank run game.
  59. [59]
    [PDF] WHEN PRIME DEPOSITORS RUN ON THE BANKS
    Apr 15, 2020 · This paper examines the effect of two psychological attributes, namely an individual's risk and time preference, on withdrawal decisions.
  60. [60]
    [PDF] Preventing (Panic) Bank Runs - Chapman University Digital Commons
    Jun 18, 2022 · Panicking behaviors can also lead to bank runs in healthy banks. Experimental evidence has shown that depositors withdraw more frequently in the ...
  61. [61]
    [PDF] Tracing Bank Runs in Real Time - Federal Reserve Bank of New York
    Our use of intraday payments data adds novel insights to the empirical literature on bank runs in general and on the banking turmoil in March 2023 in particular ...
  62. [62]
    [PDF] Experimental Evidence of Bank Runs as Pure Coordination Failures
    The first view. (represented by DD) is that bank runs are the result of pure coordination failures. The bank run model in DD has two symmetric self-fulfilling ...
  63. [63]
    Experimental evidence of bank runs as pure coordination failures
    We investigate how coordination requirement, measured by the coordination parameter, affects the occurrence of miscoordination-based bank runs in controlled ...
  64. [64]
    Bank runs as coordination failures: An experimental study
    The seminal paper of Diamond and Dybvig (1983) showed how the game played by a bank's depositors naturally has multiple equilibria. In one equilibrium, the ...
  65. [65]
    [PDF] Introduction to the Special Issue on the Diamond-Dybvig Model
    This special issue of the Economic Quarterly is dedicated to the 1983 model of bank runs developed by Douglas Diamond and Philip. Dybvig.1 Their model has ...
  66. [66]
    Causes of Bank Suspensions in the Panic of 1893
    Bank runs arise if a second period consumer believes that the bank is holding insufficient reserves to meet all the period one withdrawals. Failure of the bank ...
  67. [67]
    The Fed - Causes of Bank Suspensions in the Panic of 1893
    Jan 29, 2021 · There are two competing theories explaining bank panics. One argues that panics are driven by real shocks, asymmetric information, and concerns ...
  68. [68]
    [PDF] The Origins of Banking Panics: Models, Facts, and Bank Regulation
    The second view, which we label the "asymmetric information" theory, sees panics as being caused by depositor revisions in the perceived risk of bank debt when ...
  69. [69]
    Bank runs in practice and theory - SciELO México
    According to the asymmetric information interpretation, the run is an efficient mechanism to monitor the performance of the banks, an efficient way to solve ...
  70. [70]
    https://www.nobelprize.org/prizes/economic-sciences/2022/popular-information/
  71. [71]
    [PDF] Failing Banks - MIT Sloan
    Aug 29, 2024 · Abstract. Why do banks fail? We create a panel covering most commercial banks from 1865 through 2023 to study the history of failing banks ...
  72. [72]
    My criticism of the Diamond-Dybvig model - Marginal REVOLUTION
    Nov 10, 2022 · "Virtually all the bank runs I know of stem from insolvency, not rumors, noise, and multiple equilibria." Any bank that is using Ponzi style ...
  73. [73]
    Nobel Prize in Economics 2022: The Failures of the Diamond ...
    Oct 28, 2022 · A Critique of the Diamond-Dybvig Model. The main criticisms of the model have to do with the assumptions it makes with regard to the economy ...
  74. [74]
    A Nobel Award for the Wrong Model
    Oct 18, 2022 · Due to the flawed structure, the DD model leads to flawed policy implications. It assumes that deposit insurance which redistributes the ...
  75. [75]
    Contagious bank runs - ScienceDirect.com
    It is possible that the banks experiencing the run are solvent. In imperfect capital markets the distinction between insolvency and illiquidity is crucial.
  76. [76]
    [PDF] Three Branches of Theories of Financial Crises
    This exposes banks to a risk of bank runs: when many depositors demand their money in the short term, banks will have to liquidate long-term investments at a ...<|separator|>
  77. [77]
    A model of a systemic bank run - ScienceDirect.com
    This paper provides a model of the view that the 2008 financial crisis is reminiscent of a bank run, focussing on six stylized key features.
  78. [78]
    [PDF] Wholesale Banking and Bank Runs in Macroeconomic Modeling of ...
    In fact, the recent financial crisis that triggered the Great Recession featured a disruption of wholesale funding markets, where banks lend to one another.
  79. [79]
    Bank failures and the cost of systemic risk: Evidence from 1900 to ...
    In this paper we investigate the effect of bank failures on economic activity using data from 1900 to 1930. The sample includes many episodes of bank distress, ...
  80. [80]
    [PDF] Two Centuries of Systemic Bank Runs - LSE
    Aug 13, 2024 · We study bank runs using a novel historical cross-country dataset that covers 184 countries over the past 200 years and combines a new ...
  81. [81]
    [PDF] Bank Failures in Theory and History: The Great Depression and ...
    The recent empirical literature on banking crises has tried to come to grips with the causes and effects of systemic bank failures in different places and ...<|separator|>
  82. [82]
    [PDF] Global Banks and Crisis Transmission
    We study the effect of financial integration (through banks) on the transmission of international business cycles. In a sample of 20 developed countries ...
  83. [83]
    The Historical Effects of Banking Distress on Economic Activity
    May 25, 2023 · This study documents a sizable and persistent decline in output and rise in unemployment following non-systemic financial distress.
  84. [84]
    https://www.bostonfed.org/publications/current-policy-perspectives/2023/the-historical-effects-of-banking-distress-on-economic-activity.aspx
  85. [85]
    Two centuries of systemic bank runs - CEPR
    Dec 3, 2024 · This column constructs two novel, cross-country databases on bank run events in 184 countries over 1800-2023 and bank sector outstanding deposits.
  86. [86]
    Contagion of fear: Panics, money, and the Great Depression
    We find that panics reduced the money supply by 27%, or in other words, that panics caused most of the decline in the money supply from June 1929 to December ...
  87. [87]
    [PDF] Bank Failures and the Cost of Systemic Risk - FDIC
    This paper investigates the effect of bank failures on economic growth using data from. 1900 to 1930, a period that predates active government stabilization ...
  88. [88]
    [PDF] Bank Networks and Systemic Risk: Evidence from the National ...
    Dec 6, 2016 · Financial center banks fail to repay deposits in full to their respondents, thereby causing runs and systemic liquidation. We also find that ...
  89. [89]
    [PDF] svb-review-20230428.pdf - Federal Reserve Board
    Apr 28, 2023 · SVB's failure had two stages. First, its core risk-management capacity failed to keep up with rapid asset growth, which led to steady ...
  90. [90]
    [PDF] FDIC'S SUPERVISION OF SIGNATURE BANK
    Apr 28, 2023 · SBNY's attempt to reduce its exposure to the crypto space was market- and media-driven and was not prompted by FDIC supervisory activities. In ...
  91. [91]
    JPMorgan Chase Bank, National Association, Columbus ... - FDIC
    May 1, 2023 · Customers of First Republic Bank should continue to use their existing branch until they receive notice from JPMorgan Chase Bank, National ...Missing: failure | Show results with:failure
  92. [92]
    [PDF] FDIC's Supervision of First Republic Bank - September 8, 2023
    Sep 8, 2023 · Following SVB and. Signature Bank's failures, First Republic experienced dramatic and severe contagion effects causing immediate liquidity ...
  93. [93]
    Signature Bank Failed Because of Mismanagement, Contagion ...
    Apr 28, 2023 · The federal banking regulator said Signature's exposure to crypto industry deposits was also a contributing factor to its failure.
  94. [94]
    JPMorgan Chase acquires substantial majority of assets and ...
    JPMorgan Chase acquires substantial majority of assets and assumes certain liabilities of First Republic Bank. JPMorgan Chase to protect all deposits ...
  95. [95]
    How the digital era helped speed up bank runs | PBS News
    Mar 15, 2023 · Regulators, policymakers and bankers are looking at the role that digital messaging and social media may have played in the collapse.Missing: examples | Show results with:examples
  96. [96]
    [PDF] Social Media as a Bank Run Catalyst - FDIC
    Apr 18, 2023 · We argue that greater exposure to social media increases si, which amplifies bank run risk through a novel channel. This is precisely what we ...
  97. [97]
    Social Media as a Bank Run Catalyst
    Apr 24, 2023 · During the SVB run period, banks with high pre-existing exposure to Twitter lost 4.3 percentage points more stock market value. Moreover, ...
  98. [98]
    'The first Twitter-fuelled bank run': how social media compounded ...
    Mar 16, 2023 · The speed at which Silicon Valley Bank collapsed has left experts questioning whether social media has opened up entirely new risks in the world of finance.Missing: examples | Show results with:examples
  99. [99]
    Social media spurred the last banking crisis. Can it prevent the next ...
    May 15, 2024 · A U.S. banking regulator is working with an intelligence firm to monitor social media platforms like Twitter and Discord for risk ahead of ...
  100. [100]
    Digital bank runs: social media played a role in recent financial ...
    May 4, 2023 · Digital bank runs: social media played a role in recent financial failures but could also help investors avoid panic · Author · Disclosure ...
  101. [101]
    Cyber attacks risk triggering bank runs, warns IMF - The Telegraph
    Apr 9, 2024 · Cyber attacks are becoming so frequent, malicious and costly that they risk triggering bank runs, according to the International Monetary ...
  102. [102]
    Cyber runs: How a cyber attack could affect U.S. financial institutions
    Jun 18, 2019 · Could a cyber attack on a large bank's wholesale depositors morph into a serious and contagious bank run? This Hutchins Center working paper by ...
  103. [103]
    The Fed - Implications of Cyber Risk for Financial Stability
    May 12, 2022 · This article proposes a way to assess the vulnerability of the financial system to cyber risk. The approach aligns with the existing Federal Reserve financial ...<|separator|>
  104. [104]
    [PDF] Objectives and Possible Consequences of Deposit Insurance - FDIC
    Deposit insurance removes depositor incentives to run on their bank, thereby preventing runs and avoiding the numerous costs associated with them.
  105. [105]
    Historical Timeline - FDIC
    July 5, 1934. The FDIC makes its first deposit insurance claim payments to insured depositors of the Fon Du Lac State bank in East Peoria, Illinois.
  106. [106]
    The FDIC was created exactly for this kind of crisis. Here's the history
    Mar 13, 2023 · The FDIC initially covered accounts up to $2,500 for each depositor at an insured institution in 1934, the year federal deposit insurance first ...
  107. [107]
    A Brief History Of FDIC Limits - Bankrate
    Mar 12, 2025 · FDIC limits have increased seven times, starting at $2,500 in 1933, reaching $100,000 in 1980, and $250,000 in 2010, which is the current limit.
  108. [108]
    A Brief History of U.S. Bank Failures - American Deposit Management
    Sep 10, 2025 · Devastating bank failures occur frequently in U.S. history, but government action has significantly reduced the risk of losses.
  109. [109]
    Experimental evidence on bank runs with uncertain deposit coverage
    Preventing (panic) bank runs​​ Experimental evidence also shows that deposit insurance diminishes the incidence of bank runs, albeit it does not eliminate them ...
  110. [110]
    [PDF] Deposit Insurance and Bank Funding Stability: Evidence from the ...
    Jun 12, 2025 · There has been considerable study of the potential moral hazard effects of deposit insurance, but the financial stability benefits of deposit ...
  111. [111]
    [PDF] How Does Deposit Insurance Affect Bank Risk? Evidence from the ...
    Deposit insurance can then help enhance depositor confidence and prevent systemic bank runs during the crisis, leading to lower risk and greater systemic ...
  112. [112]
    [PDF] June 2023 - International Association of Deposit Insurers
    Deposit insurers cover approximately 41% of total eligible deposits globally. Conversely, 59% of deposits are uninsured. Generally speaking, the more advanced ...
  113. [113]
    International experience on deposit insurance coverage limit
    The coverage limit should be in the range of 2.5 – 5 times GDP per capita, fully cover about 80% of eligible depositors and about 30% of eligible deposits.Missing: schemes comparison
  114. [114]
    [PDF] Deposit Insurance Around the World - EliScholar
    Oct 1, 2015 · For example, within the EU, national deposit insurance schemes nominally cover a minimum coverage limit determined at the EU level. Growing ...Missing: comparison | Show results with:comparison
  115. [115]
    [PDF] The lender of last resort and modern central banking: principles and ...
    It too can be created at will provided there is confidence that it can be redeemed, ultimately into central bank money (the core goal of financial stability).
  116. [116]
    [PDF] The lender of last resort: a 21st century approach
    Bagehot's (1873) "classical" view maintained that the LOLR policy should satisfy at least three conditions: (i) lending should be open only to solvent ...
  117. [117]
    [PDF] Bagehot and the Lender of Last Resort – 150 Years On
    Dec 14, 2023 · The earliest direct reference to the lender of last resort concept was traced to Sir Francis Baring following a wave of bank runs in 1797, when ...
  118. [118]
    [PDF] Lender of Last Resort: The Concept in History
    Averting banking panics and crises is the job of the central bank. As lender of last resort (LLR), it has the responsibility of preventing panic-induced.
  119. [119]
    The Lender of Last Resort Function in the United States
    Feb 10, 2016 · Since the Great Depression, the Fed's actions as lender of last resort were undertaken using its authority to provide discount window funding to ...
  120. [120]
    Central Bank Swap Lines: Evidence on the Effects of the Lender of ...
    Theory predicts that central-bank lending programs put ceilings on private domestic lending rates, reduce ex post financing risk, and encourage ex ante ...
  121. [121]
    [PDF] Re-thinking the lender of last resort - Bank for International Settlements
    Lender of last resort (LOLR) is perhaps a central bank's most controversial role. On the one hand, emergency liquidity assistance to financial institutions is a ...
  122. [122]
    Depositor market discipline: New evidence from selling failed banks
    Depositors withdraw indiscriminately from both insolvent and solvent banks because they lack bank-specific information about the soundness of a particular bank.
  123. [123]
    Market Discipline in Banking: A Systematic Review and Future ...
    Jan 2, 2025 · In banking literature, market discipline is based on the idea that various market agents and bank stakeholders face costs that are directly ...
  124. [124]
    [PDF] • Market discipline is the process by which market participants ...
    Market discipline is the process by which market participants—such as uninsured lenders, shareholders, and rating agencies—monitor the risks and financial ...
  125. [125]
    [PDF] The Free-Banking Era: A Lesson for Today?
    Furthermore, the continuous market pricing of a bank's notes tends to impose some discipline on a bank's risk-tak- ing. If a bank starts making too many risky ...
  126. [126]
    [PDF] Clearing House Loan Certificates in the Banking Panic of 1907
    Clearing house loan certificates allowed cash used for settlement to be freed up to satisfy other banking needs, such as meeting depositor withdrawals and.
  127. [127]
    Liquidity creation without a central bank: Clearing house loan ...
    We examine clearing house loan certificates issued during the Panic of 1907 among New York Clearing House member banks by exploiting underutilized data that ...
  128. [128]
    Liquidity Creation without a Lender of Last Resort: Clearing House ...
    Clearing house loan certificates were essentially “bridge loans” arranged between clearing house members. They enabled and were issued in anticipation of gold ...
  129. [129]
    Clearinghouse loan certificates as a lender of last resort
    This paper examines the borrowing of clearinghouse loan certificates across three crises, the panics of 1884, 1893, and 1907 in the financial center of New York ...
  130. [130]
    [PDF] Market Discipline: The Role of Uninsured Depositors and Other ...
    Dwyer and Gilbert (1989) review the evidence on bank runs and the methods adopted by banks to cope with them in the period before enactment of deposit insurance ...
  131. [131]
    [PDF] Bank Runs and Privately Funded Solutions - University of Alberta
    In this paper, we analyze three distinct privately funded approaches to mitigating the phenomenon of bank runs–deposit insurance (DI) scheme, liquidity ...
  132. [132]
    Close but not a Central Bank: The New York Clearing House and ...
    May 22, 2013 · We document bank borrowing behavior using bank-level data for clearing-house loan certificates issued to NYCH member banks. The historical ...
  133. [133]
    Clearing house loan certificates in the banking panic of 1907
    Clearing house loan certificates were extensions of credit by the New York Clearing House to its members. These certificates were transferable to other clearing ...
  134. [134]
    [PDF] Unintended Consequences of LOLR Facilities: The Case of Illiquid ...
    This unintended consequence of LOLR facilities manifests itself as excess illiquid leverage in the financial sector, can make future liquidity shortfalls more ...
  135. [135]
    The (Unintended?) consequences of the largest liquidity injection ever
    The (Unintended?) consequences of the largest liquidity injection ever☆ · LOLR Liquidity and the Collateral Trade. The theory of the LOLR is intuitive. · Data and ...
  136. [136]
    [PDF] 16 The Moral Hazard Implications of Deposit Insurance - IMF eLibrary
    Deposit insurance can give banks incentives to take unnecessary risks, creating moral hazard, which can fuel bank crises.
  137. [137]
    Deposit Insurance, Bank Resolution, and Market Discipline
    Feb 28, 2017 · Government-backed deposit insurance weakens market discipline, increases moral hazard, and leads to higher financial risk than the economy would otherwise have.
  138. [138]
    [PDF] Bailouts, Contagion, and Moral Hazard
    We revisit the link between bailouts and bank risk taking. The expectation of government intervention in favor of failing banks (bailout) creates moral.
  139. [139]
    [PDF] Deposit insurance, moral hazard and market monitoring
    First, the existing empirical evidence regarding banks' risk taking tends to use U.S. data or use rather heterogeneous samples containing developing and ...
  140. [140]
    [PDF] Bank Runs Causes, Benefits, And Costs - Cato Institute
    In the process, the paper analyzes the causes ofbank runs; examines the implications of runs for the bank(s) directly affected, other banks, the financial ...
  141. [141]
    Publication: Market Discipline Under Systemic Risk
    Publication: Market Discipline Under Systemic Risk: Evidence from Bank Runs in Emerging Economies.
  142. [142]
    Interest Rate Risk, Bank Runs and Silicon Valley Bank
    May 11, 2023 · While deposit insurance helps guard against bank runs, it has a disadvantage in that it removes a source of market discipline on banks: Insured ...
  143. [143]
    Bank Runs - an overview | ScienceDirect Topics
    Bank runs refer to events where a large number of depositors simultaneously withdraw funds from a bank, often leading to the bank's failure.
  144. [144]
    [PDF] Maturity Mismatch and Fractional-Reserve Banking - Ronaldo Carpio
    Nov 27, 2011 · Maturity mismatch is "borrowing short and lending long," where loans have longer durations than deposits, and banks don't hold enough cash to ...
  145. [145]
    [PDF] On the Instability of Fractional Reserve Banking - arXiv
    Apr 16, 2024 · According to Von Mises (1953), the overexpansion of bank credit as a result of fractional reserve banking is the root cause of business cycles.
  146. [146]
    An experiment on the causes of bank run contagions - ScienceDirect
    The driving force for a bank run is the fact that in a fractional reserve system, a bank does not hold enough liquid assets to serve all its customers should ...
  147. [147]
    https://www.sciencedirect.com/science/article/abs/pii/S0014292114001275
  148. [148]
    Bank Runs. The First Sign The Fed "Broke Something." - RIA
    Mar 14, 2023 · “Bank runs” are problematic in today's financial system due to fractional reserve banking. Under this system, only a fraction of a bank's deposits must be ...
  149. [149]
    [PDF] A critique of full reserve banking - University of Sheffield
    Mar 20, 2025 · fractional-reserve character of banking means that it is inherently fragile and vulnerable to financial instability. In fact, the whole ...
  150. [150]
    [PDF] Safety First: The Deceptive Allure of Full Reserve Banking
    Fractional reserve banking need not be equated with the cre- ation of private, defaultable, runnable "money." We know that these things are logically separable.
  151. [151]
    [PDF] Bank Runs and Moral Hazard: A Review of Deposit Insurance
    Deposit insurance promotes financial stability by preventing bank runs, but it can also encourage banks to take on excessive risk.
  152. [152]
    Government Assistance and Moral Hazard: Evidence from the ...
    Aug 11, 2022 · In 1989, the U.S. government ceased assistance to failed savings and loans, leading many of these institutions to reduce their risk-taking.
  153. [153]
    [PDF] The Economic Effects of the Savings & Loan Crisis
    Two factors help to contain the problem of moral hazard for the deposit insurance sys- tem. One is the financial institution's own capital or equity, which is ...
  154. [154]
    [PDF] Bank Bailouts and Moral Hazard? Evidence from Banks' Investment ...
    For example, a stronger belief about the possibility of a government bailout may induce the bank to behave irresponsibly. Second, the bank's behavior may ...
  155. [155]
    Systemic Risk Regulation and the "Too Big to Fail" Problem
    In recognition of the moral hazard problem this insurance creates, however, the government controls the risk-taking of these institutions through regulation and ...
  156. [156]
    Rethinking moral hazard: government protection and bank risk-taking
    Sep 21, 2023 · Overall, our results offer few indications that bank exposure to government protection predicted expanded bank risk-taking in recent decades, ...