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Deposit-refund system

A (DRS) is an tool that levies a small, refundable monetary deposit on products like beverage containers at the time of sale, which consumers reclaim by returning the empties to designated collection points for or . This structure functions as a Pigouvian mechanism, taxing consumption while subsidizing the reversal of externalities such as and suboptimal material recovery through direct financial incentives tied to behavioral compliance. Deposit-refund systems trace their practical origins to industry-led reusable packaging initiatives in the beverage sector during the late 19th and early 20th centuries, evolving into government-mandated frameworks with the enactment of Oregon's bottle bill in 1971—the first modern statutory in the United States requiring a five-cent deposit on certain containers. By design, these systems assign operational responsibilities to producers under principles, funding and handling to achieve high return rates without relying solely on curbside mandates. As of 2024, over 40 jurisdictions globally, including extensive European implementations, employ for single-use packaging, often targeting aluminum cans, glass, and plastic bottles. Empirical analyses confirm elevate recycling rates substantially, with jurisdictions like and consistently reporting collection efficiencies above 90% for covered items, far surpassing non-incentivized programs. This causal link stems from the deposit's magnitude acting as a predictable economic motivator, as modeled in econometric studies applying frameworks to behaviors. Key achievements include measurable reductions in roadside litter and enhanced material quality for processing, though system-wide costs—encompassing retailer handling fees and unclaimed deposits—can reach several cents per unit, distributed variably across actors. Debates persist over net economic impacts, with proponents citing abatement savings and critics highlighting administrative overheads and potential distortions like incentivized stockpiling or uneven burdens on small retailers; however, longitudinal data from mature schemes indicate no systematic beverage consumption declines attributable to deposits. Recent innovations, such as digital tracking via apps or reverse vending machines, address scalability challenges in expanding to broader waste streams beyond beverages.

Definition and Principles

Core Mechanism

In deposit-refund systems, consumers pay an advance refundable deposit added to the purchase price of eligible returnable products, such as beverage , at the point of sale; this deposit is fully refunded upon verified return of the empty to an authorized collection point. The deposit serves as a financial for return, with typical values ranging from 5 to 25 cents per depending on the and , such as 5 cents for carbonated soft drinks in certain jurisdictions or up to 25 cents for larger . processes involve to ensure the 's eligibility and prevent , often using reverse vending machines (RVMs) that barcodes, inspect , , or to confirm before dispensing the refund via , , or . Manual collection points may employ visual checks or counting for smaller-scale operations, particularly for reusable items. Systems distinguish between reusable , like refillable bottles intended for cleaning and repeated use, and single-use recyclables, such as aluminum cans or PET bottles directed to recovery processes after .

Economic Incentives and First-Principles Basis

The deposit-refund system operates as a two-part economic instrument that combines an initial surcharge on product purchase with a rebate upon return, effectively mirroring the incentives of a on waste disposal while avoiding direct taxation on end-use externalities such as littering and landfilling costs. By requiring consumers to pay the deposit upfront, the mechanism internalizes the societal costs of non-recovery, as failure to return the container results in forfeiture of the refund, which shifts the financial burden of disposal away from public resources and toward the individual whose choice generates the . This design promotes through a subsidy-like reward for desired behavior, ensuring that the marginal cost of improper disposal is borne by the decision-maker rather than diffused across taxpayers or producers. At its core, the system's efficacy stems from aligning individual with collective resource conservation goals, circumventing the limitations of altruism-dependent approaches. Unlike voluntary initiatives, which depend on intrinsic and often yield suboptimal compliance—such as U.S. non-deposit state beverage rates averaging approximately 26%—the refund provides a tangible, immediate monetary gain that causally drives return behavior without mandating participation through penalties. This structure harnesses rational economic , where the deposit's value exceeds the perceived hassle of return for most users, fostering high voluntary engagement rates typically exceeding 80% in established programs. The retention of unrefunded deposits further reinforces the system's self-sustaining nature, as these funds—arising from the 5-20% non-return baseline in operational schemes—directly finance collection, processing, and administration, eliminating the need for external subsidies and ensuring cost recovery through the very externalities the targets. This closed-loop financing underscores the approach's reliance on over coercive regulation, where market signals guide outcomes more efficiently than blanket mandates.

Historical Development

Early Origins and Pre-20th Century Practices

Deposit-refund practices for beverage containers emerged in the late 18th and 19th centuries, driven by the high cost of and the economic necessity to durable bottles rather than discard them. In 1803, producers in the began offering refunds for returned beverage containers to encourage reclamation and , establishing an early form of monetary incentive for returns. This system relied on consumers returning empty bottles to retailers or producers, who refunded a portion of the purchase price, reflecting the era's scarcity of materials and absence of cheap disposable alternatives. During the Victorian period in , deposit systems became normalized for soda water and other carbonated beverages, with bottles often embossed with refund amounts to prompt returns. Grocers and bottlers implemented voluntary schemes where customers paid an upfront deposit—typically a few pence per bottle—redeemable upon return, achieving high reuse rates due to the intrinsic value of the containers amid manual glassmaking limitations. These practices were not motivated by environmental concerns but by causal economic pressures: glass bottles represented a significant capital investment, and non-return led to direct losses for producers, fostering norms of low waste through market self-regulation rather than mandates. Similar voluntary deposit mechanisms took root in the late 19th century as the expanded, with bottlers charging deposits on reusable to ensure bottles circulated back for refilling and sterilization. By the early , prior to the introduction of one-way disposable containers in and , these systems routinely attained return rates exceeding 95%, as evidenced by industry data from the reflecting continuity from earlier decades. The dominance of returnable bottles stemmed from technological constraints on of cheap alternatives and the profitability of , underscoring that high recovery was a byproduct of first-principles —minimizing costs through asset recovery—rather than regulatory or ecological imperatives.

20th Century Expansion in Legislation

The expansion of deposit-refund legislation in the was primarily driven by escalating litter problems associated with single-use beverage containers, particularly following the widespread adoption of aluminum cans in the . Roadside litter surveys indicated that cans constituted approximately 28% of total debris, with bottles adding another 7%, highlighting the environmental impact of non-returnable packaging amid rising consumption. Voluntary anti-litter initiatives, such as those promoted by since the 1950s, emphasized public education and individual responsibility but proved insufficient to curb the issue, as beverage container waste continued to dominate public spaces despite national campaigns reaching millions. These efforts, often backed by industry interests to avert regulation, underscored the limitations of behavioral change without economic incentives, paving the way for mandatory systems. In the United States, pioneered mandatory deposit-refund legislation with the Beverage Container Act, enacted on July 2, 1971, and implemented on October 1, 1972, imposing a 5-cent refund on and containers to directly address from disposable . This marked the first such state law, motivated by visible pollution along highways and the failure of prior voluntary measures. Subsequent adoptions followed rapidly: and enacted similar bills in 1973, in 1979, and in 1976, with additional states including (1978), (1982), and (1982) joining by the mid-1980s, resulting in 10 states with active systems. These laws typically targeted and carbonated beverages, reflecting data on their disproportionate contribution to , and were often spurred by local environmental advocacy amid national debates on resource conservation. Europe saw initial legislative traction later in the century, with introducing a deposit system in 1984 as the region's first mandatory scheme for aluminum cans, legislated in response to growing waste concerns from one-way containers. This built on earlier voluntary refilling practices but shifted to enforced refunds to boost return rates, establishing a model that emphasized accessibility and simplicity for producers and consumers. By the late , such policies reflected a broader recognition that deposit mechanisms provided superior causal leverage over compared to alone, influencing subsequent European frameworks while the U.S. expansions demonstrated variable enforcement challenges tied to state-level politics.

21st Century Global Adoption and Policy Shifts

The European Union's Single-Use Plastics Directive, adopted in 2019, required member states to achieve a 90% separate collection for single-use plastic beverage bottles by 2029, prompting feasibility studies and subsequent national implementations of deposit-return systems () to meet these targets. This directive accelerated DRS adoption across the region, with countries like expanding coverage to aluminum cans in 2022 and preparing a nationwide scheme for plastic bottles and cans by 2023. By 2025, at least 13 additional states had committed to DRS rollouts influenced by the directive and the proposed Packaging and Packaging Waste Regulation, which mandates DRS for certain single-use plastics by 2029. In the , initial plans for a covering plastic bottles were set for 2025 across , , , and , but implementation faced delays due to regulatory harmonization challenges, shifting to October 2027 for drinks containers including plastic bottles, , and aluminum cans. 's scheme, originally legislated for July 2022 with a 20p deposit on single-use containers, underwent multiple postponements amid legal disputes and concerns, aligning with the UK-wide timeline by 2027. Asia-Pacific adoption expanded notably in the 21st century, with Australia's state-level container deposit schemes proliferating from ' Return and Earn launch on December 1, 2017 (10c refund per container), followed by in 2019, in 2020, and completing nationwide coverage on May 1, 2025. In emerging markets, initiated pilot DRS projects for PET packaging and beverage containers in select cities, evaluating refund mechanisms amid broader reforms, while India's Goa state enacted the first DRS in 2025 for plastic packaging refunds, alongside pilots like Kerala's beverage buy-back scheme achieving 40% return rates in 2025 trials. Policy shifts in the 2020s integrated with (EPR) frameworks, as seen in California's Beverage Container Recycling and Litter Reduction Act expansions effective January 1, 2024, incorporating wine, distilled spirits, and additional beverage types into the refundable deposit program previously limited to certain drinks. These changes responded to international discussions, including UN-led global treaty negotiations starting in 2022, emphasizing for high collection rates. By 2025, over 45 countries operated for beverage containers, reflecting a proliferation from fewer than 20 systems at the .

Operational Implementation

Deposit Structures and Refund Processes

Deposit levels in deposit-refund systems vary by jurisdiction, container material, size, and refillability to balance economic incentives with administrative costs and expected non-return rates. In U.S. states with bottle bills, deposits typically range from 5¢ to 10¢ per container; for instance, imposes a uniform 10¢ deposit on most carbonated and non-carbonated beverage containers under one . In contrast, Germany's system applies a €0.25 deposit to non-refillable bottles and one-way bottles, while single-use aluminum cans carry an €0.08 deposit, reflecting adjustments for higher-value reusable systems at €0.15. sets deposits at approximately 2-3 (about €0.18-0.27) for plastic bottles and cans, calibrated to achieve high recovery while minimizing unclaimed funds that finance scheme operations. These deposit amounts are determined through first-principles economic modeling, where the fee exceeds handling and transport costs but remains low enough to encourage participation, often scaled to container retail value to deter littering and incentivize returns over disposal. Variable deposits, as in , account for differential loss rates—higher for lightweight cans prone to export —ensuring the incentive aligns with causal factors like portability and . Flat-rate systems, common in many U.S. states, simplify administration but may under-incentivize returns for low-value items, leading to observed return rates of around 70-80% compared to over 90% in variable European schemes. Refund processes typically occur at points of purchase, standalone return centers, or via automated reverse vending machines (RVMs), where consumers receive immediate , vouchers, or credits upon validation. In retail-integrated systems like those in U.S. states, small retailers may handle manual returns with refunds, while larger operations use RVMs for voucher issuance redeemable on-site to streamline and reduce handling. Centralized in schemes like Germany's Pfandsystem involves RVMs at or dedicated facilities, with operators receiving handling fees—often 1-3¢ per returned item—to cover sorting and transport, funded partly by unclaimed deposits averaging 5-15% of total levies. Fraud prevention integrates material , unique digital identifiers, and machine-based checks to block duplicate redemptions or ineligible imports. RVMs employ scanning, weight sensors, and AI to confirm container authenticity and prevent counterfeits, with digital deposit systems piloted in some trials using RFID tags for traceability. Unclaimed deposit pools, bolstered by high return rates—such as 85-92% in 2023 for countries like and —fund anti- measures and operations without taxpayer burden, though lower rates in nascent systems like Romania's (84% peak in 2024) necessitate design tweaks for viability.

Infrastructure and Collection Methods

Reverse vending machines (RVMs) constitute the primary physical infrastructure for container returns in deposit-refund systems, enabling automated acceptance, validation, compaction, and initial of beverage s such as bottles and cans. introduced the first RVM prototype in 1972, followed by key 1970s advancements including self-programmable sensors in 1977 and automated handling for specific formats like cans by 1983. These devices integrate barcode scanners, optical recognition systems, and emerging algorithms to verify authenticity, detect types, and achieve precise while compacting items to optimize storage and transport. Collection networks emphasize dense integration with everyday sites, with functioning as dominant hubs due to their accessibility and consumer volume; in , this retail-embedded approach supports nationwide coverage through thousands of such points. Standalone public depots and manual return facilities supplement RVMs in areas with lower retail density, providing alternative drop-off options for bulk returns. Contemporary implementations incorporate digital enhancements, including mobile applications that allow users to locate nearby collection points, scan containers for eligibility, and track refund processing; Australia's state-level container deposit schemes, launched from 2019 through the early , exemplify this with apps facilitating both fixed-point returns and on-demand . RVM deployment addresses scalability through modular designs that withstand high-volume use, with individual units featuring robust construction for operational lifespans exceeding a decade, alongside built-in data logging for real-time monitoring of collection volumes and machine performance. Initial setup demands investment in units priced from approximately $5,000 for basic models to $25,000 for advanced configurations equipped with enhanced sorting and connectivity features.

Regulatory Frameworks and Enforcement

Deposit-refund systems are predominantly implemented through mandatory legislation to compel participation from producers, retailers, and consumers, addressing free-rider incentives that undermine voluntary approaches. In the United States, ten states—, , , , , , , , , and —have enacted bottle bills as state laws requiring minimum deposits (typically 5 or 10 cents) on carbonated soft drinks, , and other beverages, with many prohibiting sales of non-deposit containers to ensure market coverage. These statutes mandate retailers to provide reverse vending or redemption facilities, funded partly by unclaimed deposits allocated to state treasuries or environmental programs, and producer-paid handling fees to cover logistics. Enforcement in these U.S. systems relies on state environmental agencies conducting compliance audits, imposing fines for violations such as failure to accept returns or inaccurate deposit marking, though penalties vary by state and are often tied to broader statutes rather than standalone offenses. In contrast, Germany's Pfand system under the 2019 Packaging Act enforces mandatory producer registration with the central (ZSVR) and container traceability, with non-compliance penalties reaching up to €200,000 for failure to participate and €100,000 per instance for labeling errors or unreturned deposits mishandling. Audits by licensing bodies and integration with obligations, including waste taxes on non-recycled materials, provide causal for adherence, as evasion risks compound financial liabilities. Nordic implementations favor public-private partnerships, where national laws mandate scheme establishment but entrust operations to nonprofit entities formed by producers, such as Norway's Infinitum AS (established 1999 under the Product Control Act amendments), which oversees deposit collection and enforcement through mandatory barcoding and retailer agreements, achieving compliance via contractual penalties and government-backed compulsion. Similar models in (Returpack) and emphasize statutory producer financing from unclaimed funds or fees, with regulatory bodies like environmental ministries retaining oversight to impose fines or revoke licenses for systemic shortfalls, prioritizing enforced participation over purely market-driven to sustain high return volumes. The OECD's 2022 analysis of deposit-refund systems underscores enforcement challenges in fragmented jurisdictions, recommending harmonized reporting and modulation of fees based on compliance data to integrate with mandatory , thereby reducing administrative overlaps and enhancing causal effectiveness through standardized audits and penalties across policy mixes. This approach counters biases in softer voluntary frameworks, where empirical gaps in producer accountability often dilute incentives, by embedding verifiable compulsion in law.

Empirical Impacts

Environmental Outcomes from Studies

Deposit-return systems (DRS) have demonstrated high return rates for beverage containers in empirical evaluations, often surpassing 90% in mature programs. Norway's DRS achieved a 92.3% return rate for aluminum cans and plastic bottles in 2023, enabling near-complete recovery of deposited materials. Across European DRS implementations, recovery rates range from 84% to 96%, with a median of 91% as reported in recent analyses of operational schemes. These rates reflect the incentivized return mechanisms that prioritize targeted container types, such as PET, aluminum, and glass. Litter reduction studies further quantify , with pre- and post- implementation surveys in U.S. states showing beverage litter declining by 70% to 85%. Total litter volumes in these jurisdictions decreased by 35% to 65%, attributable to fewer discarded containers entering public spaces. Comparative assessments between and non- U.S. states confirm persistently lower litter from deposit-covered items in bottle bill areas. Material recovery under supports resource loops for aluminum, , and plastics, outperforming curbside systems for beverage containers. achieve collection rates up to 40% higher than non-incentivized methods for these materials, yielding cleaner, higher-quality recyclables suitable for . A 2024 meta-analysis of global evaluations found they consistently elevate recovery for targeted items compared to curbside , with effectiveness tied to deposit values and . Causal analyses indicate that deposit incentives directly alter , with refund mechanisms proving more effective than campaigns in driving returns. Empirical studies for variables like and , revealing that monetary refunds sustain higher participation independent of informational interventions. Consumer perception research corroborates this, showing refundable systems increase rates by motivating sustained effort over voluntary compliance.

Economic Analyses and Cost Structures

Operational costs of deposit-refund systems (DRS) typically range from 1 to 3 cents per redeemed container, covering handling fees paid by bottlers or distributors to retailers and redemption centers for processing returns. A 2024 meta-analysis of DRS implementations worldwide estimates total system handling and administrative costs at approximately 1-4 cents per container, varying by scale, automation, and redemption rates. These expenses are primarily funded through unredeemed deposits, which represent 5-15% of total deposits collected and provide a revenue stream for system operators without direct consumer refunds. In U.S. states with DRS, aggregate annual operating costs across programs total around $500 million, though exact figures fluctuate with volume and state-specific subsidies. Market impacts on beverage sales remain minimal, with a 2023 analysis of introductions across 10 countries finding no definitive evidence of sales declines attributable to deposit fees. However, deposits are typically passed through to consumers as upfront price increases equal to the deposit amount (e.g., 5-10 cents per container), though refunds mitigate net costs for returning participants. Economic benefits include avoided landfill and disposal costs, estimated at $50-200 per ton of diverted material, encompassing tipping fees, transportation, and externalities like groundwater contamination. A 2022 R Street Institute analysis indicates positive return on investment for DRS in high-density urban areas, where redemption infrastructure yields net savings over curbside alternatives due to higher recovery rates and reduced municipal collection burdens. Overall, societal net costs are lowered when unclaimed deposits subsidize operations, though low-redemption scenarios can shift burdens to producers via eco-fees.

Comparative Performance Against Other Systems

Deposit-refund systems () outperform curbside in beverage container recovery, with empirical data showing return rates 3 to 10 times higher for targeted materials such as aluminum cans and bottles. In U.S. jurisdictions with , recycling rates for covered containers typically range from 60% to 80%, compared to 20% to 30% in curbside-only states, as documented in analyses of state-level performance. also yield lower , averaging 5% or less due to incentivized clean sorting at return points, versus 17% to 25% in curbside streams where mixed residuals degrade material quality. Relative to (EPR) frameworks lacking deposit incentives, excel in source separation, achieving collection rates exceeding 85% and producing higher-quality recyclables, such as PET with significantly fewer microplastic particles (e.g., 130,000 versus over 1 million per sample from municipal sources). A 2024 evidence review confirms boosts plastic recycling by 5% and glass by 15% over non-deposit , attributing superiority to direct consumer rebates enhancing separation efficiency. In low-return environments, however, integrated -EPR models may prove optimal by leveraging producer financing with deposit-driven participation. DRS efficacy hinges on mandatory enforcement, as voluntary U.S. analogs—such as industry-led programs without legal compulsion—underperform by over 50%, often failing to exceed 30% recovery due to inconsistent consumer engagement. This gap underscores that incentives alone insufficiently substitute for regulatory mandates in sustaining high participation.

Criticisms and Controversies

Debates on True Recycling Efficacy

Proponents of deposit-return systems () maintain that they causally elevate diversion for targeted beverage containers, with from high-performing implementations demonstrating substantial gains. In , following the 2003 DRS rollout for single-use containers, return rates for eligible plastic and metal beverage packaging surpassed 98% by the 2020s, markedly exceeding pre-DRS levels where PET bottle recovery hovered around 50-78% in the late 1990s and early 2000s under prior voluntary systems. Similarly, Sweden's longstanding has achieved return rates over 90% for beverage containers, with 2024 data showing 2.8 billion units recycled, reflecting sustained high diversion amid deposit adjustments aimed at further elevating participation. These outcomes are attributed to the financial structure, which directly boosts consumer return behavior for incentivized items. Critics, however, contend that such gains often substitute rather than expand total recycling efforts, potentially inflating apparent efficacy while non-beverage waste streams see stagnant or declining recovery. A 1991 U.S. Government Accountability Office (GAO) analysis of state-level deposit laws found that while beverage container redemption rates reached 72-98%, overall solid waste diversion increased by only 1-6% by weight or up to 8% by volume, suggesting limited net impact on broader waste management due to focused incentives displacing attention from other recyclables. This substitution dynamic is echoed in discussions of DRS interplay with extended producer responsibility (EPR) frameworks, where a 2022 OECD working paper highlights risks of unintended shifts toward incentivized channels, potentially complicating verification of upstream recycling claims and enabling over-reporting without corresponding reductions in total discards. Verifiable gaps persist in long-term assessments of DRS-driven reductions in virgin material demand, with available studies indicating marginal global effects despite localized successes. The same GAO report concluded that deposit systems aid abatement (79-83% for beverage containers) but yield modest overall , as total and compositions remain influenced by non-container factors. Meta-analyses reinforce high container-specific recovery but underscore insufficient tracking of lifecycle virgin material offsets, particularly as beverage packaging constitutes a fraction of total plastics, limiting systemic impacts without complementary policies.

Administrative and Market Distortions

Deposit-refund systems entail substantial administrative overheads, encompassing organizational setup, for tracking deposits and returns, training for retailers, and compliance monitoring, which can total hundreds of millions in initial capital and operational expenditures as projected for national implementations. These costs often fall disproportionately on smaller retailers required to install reverse vending machines or handle manual returns, exacerbating financial strains amid already tight margins. risks further inflate effective overheads, as fragmented or cross-jurisdictional schemes enable exploitation, such as redeeming non-deposit containers or cross-border , with international examples indicating amplified vulnerabilities in integrated markets without unified verification. Market distortions emerge from regulatory mandates that privilege established large producers capable of absorbing investments, including modifications and integrations, while erecting for smaller entities lacking scale economies. In the , disparate national deposit-refund requirements compel producers to customize labels, deposits, and materials per , effectively segmenting the internal market and curtailing free movement of , as beverages compliant in one country become ineligible for refund in another without costly adaptations. This government-directed favoritism toward compliant incumbents deviates from market-driven allocation, imposing failures that elevate cross-border expenses, such as enhanced traceability systems, without harmonized standards to mitigate losses from across borders. Empirical observations from adjacent schemes, like Sweden-Norway, reveal return rate discrepancies attributable to such movements, underscoring causal inefficiencies in non-unified frameworks.

Industry and Consumer Opposition

The beverage has consistently opposed the expansion or implementation of deposit-refund systems, primarily citing increased operational costs and potential impacts on profitability. Major producers, including those represented by the American Beverage Association (), have lobbied against bottle bills in various U.S. states, arguing that such systems shift financial burdens to manufacturers and retailers through handling fees, unclaimed deposit forfeitures, and infrastructure requirements. For instance, the testified against amendments to New York's bottle bill in October 2023, emphasizing administrative complexities and costs that could exceed benefits without proportional gains. representatives have also contended that deposit systems discourage by locking in refundable containers, though operating DRS in jurisdictions like and demonstrates producer adaptation via automated return technologies. Consumer opposition often centers on perceived inconveniences, such as the need to transport and return containers to designated points rather than curbside , which can disrupt habits and require additional effort. Surveys in pilot or proposed contexts reveal barriers including spatial constraints for storage and time costs for redemption, with some respondents viewing the process as a hassle despite financial incentives. A on consumer perceptions in ahead of introduction found that while overall support was high, a subset highlighted inconvenience from modified behaviors, such as carrying empties during shopping. In , a 2023 analysis of perceptions noted similar concerns among participants, though the refund mechanism mitigated non-participation for the majority, aligning with broader European data showing return rates overriding initial resistance. Critiques from free-market oriented groups underscore deposit-refund systems as involving regulatory mandates that, while incentivizing returns via deposits, impose compliance costs and market distortions preferable only over less targeted alternatives like municipal mandates. The , in a analysis, praised for leveraging financial motives to boost —achieving higher rates than non-incentive programs—but advocated refinements to minimize government oversight, positioning it as a market-based tool amid debates on overreach. Such views contrast with advocacy for voluntary or EPR-focused approaches, reflecting tensions where mandates are seen as prioritizing environmental goals over consumer and business autonomy, even as empirical return rates in DRS jurisdictions substantiate efficacy against pure regulatory alternatives.

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