Users never pay zero. Gasless UX abstractions like ERC-4337 Account Abstraction or intent-based systems (UniswapX, CowSwap) shift the gas fee burden to third-party actors. These actors—bundlers, solvers, or relayers—front the transaction costs.
mev-the-hidden-tax-of-crypto
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Who Bears the MEV Burden When Users Don't Pay Gas?
An analysis of how sponsored transaction models via Account Abstraction (ERC-4337) invisibly socialize MEV extraction costs, creating a hidden subsidy that funds 'free' user experiences and distorts market incentives.
introduction
THE COST DISTRIBUTION
Introduction: The Illusion of a Free Lunch
Gasless transactions shift the MEV burden from users to a new class of professional extractors, creating hidden costs.
The subsidy creates a market. These actors must be compensated, so they monetize execution by extracting Maximum Extractable Value (MEV). The user's 'free' transaction is paid for via worse execution prices, captured arbitrage, or sandwich attacks.
The burden shifts, not disappears. The MEV burden moves from a transparent gas auction to opaque order flow auctions. Protocols like Flashbots SUAVE aim to democratize this, but the economic cost is now borne by all liquidity providers, not just the transacting user.
Evidence: In Q1 2024, intent-based DEX aggregators like 1inch and CowSwap processed billions in volume where users paid no gas, while solvers competed in backend auctions, capturing tens of millions in MEV to fund the subsidy.
key-trends
WHO PAYS WHEN THE USER DOESN'T?
The Sponsored Transaction Stack
Sponsored transactions shift the gas fee burden from end-users to applications, creating new MEV and economic dynamics.
01
The Problem: MEV Extracts Value from Sponsored Gas
When an app pays for a user's transaction, it becomes the economic counterparty for any MEV extracted. This creates a direct cost center, turning user acquisition spend into MEV searcher profit.
- Backrunning and sandwich attacks drain the sponsor's wallet.
- Sponsored transactions on EIP-4337 account abstraction bundles are vulnerable to bundle-level MEV.
- Without protection, sponsors face unpredictable and often negative ROI on gas subsidies.
>90%
Of Sponsored TXs Exploitable
-ROI
On Gas Subsidies
02
The Solution: MEV-Aware Sponsorship Protocols
New protocols like Ethereum's Pimlico and Solana's Ottersec allow sponsors to define rules and constraints, ensuring their gas spend isn't siphoned by MEV.
- Conditional Sponsorship: Only pay for transactions that meet specific outcome guarantees (e.g., no price slippage beyond X%).
- MEV Rebates: Use a shared sequencer or order flow auction (like Flashbots SUAVE intent) to capture and redistribute MEV value back to the sponsor.
- Intent-Based Routing: Route the sponsored transaction through private mempools or CowSwap-style solvers to eliminate harmful MEV.
~0%
MEV Leakage
+Value
Captured for Sponsor
03
The Arbiter: Programmable Paymasters & Settlement
The paymaster contract (EIP-4337) or sponsored transaction program becomes the critical enforcement layer. It must validate transaction intent and outcome before releasing payment.
- Post-Execution Checks: Verify state changes (e.g., user received NFT, swap succeeded) before reimbursing the bundler.
- Integration with Solvers: Connect to Across, Socket, or LayerZero for cross-chain sponsored actions, managing gas liability across domains.
- Dynamic Gas Pricing: Use oracles to sponsor gas only when network conditions are favorable, avoiding Top-of-Block premium fees.
100%
Intent Enforcement
-40%
Gas Cost Volatility
04
The New Business Model: Sponsored MEV as a Service
Forward-thinking protocols are bundling sponsorship with MEV protection to create a SaaS-like model for dApps. This turns a cost center into a predictable, value-accretive user onboarding tool.
- Biconomy and Stackup offer gas sponsorship with built-in private RPCs to obscure tx origin from public mempools.
- Alchemy's "Gas Manager" uses account abstraction to let dApps set policies and caps on sponsored gas.
- The endgame is sponsored intents, where the user expresses a desired outcome and the sponsor pays for the most efficient, MEV-optimized path to achieve it.
10x
Higher Conversion
Fixed Cost
Per Acquired User
deep-dive
THE HIDDEN TAX
The MEV Subsidy Pipeline
When users pay zero gas, the MEV extraction burden shifts to other network participants, creating a cross-subsidy.
Subsidy from LPs and Stakers: Users on gasless intent-based systems like UniswapX or CowSwap do not pay gas. The solvers who execute their transactions front the gas costs and profit by extracting MEV. This profit is a direct subsidy from the liquidity providers whose trades are sandwiched or arbitraged.
The Validator's Dilemma: In chains with proposer-builder separation (PBS), builders pay validators for block space via priority fees. Zero-gas user transactions reduce this fee pool, forcing validators to rely more on MEV bribes from builders to maintain revenue, centralizing block building power.
Evidence: On Arbitrum, over 30% of transaction volume is processed via private mempools or Flashbots Protect, indicating widespread MEV-aware routing that subsidizes user costs. This creates a regressive tax where sophisticated players profit at the expense of passive LPs.
WHO PAYS WHEN THE USER DOESN'T?
MEV Extraction vs. Sponsored Gas: A Comparative Burden
Compares the economic and security trade-offs when transaction costs are subsidized or externalized, focusing on who ultimately bears the MEV burden.
| Feature / Burden | Traditional MEV Extraction (User-Pays-Gas) | Sponsored Gas (Protocol-Pays-Gas) | Intent-Based / SUAVE-Like Systems |
|---|---|---|---|
Direct Gas Cost Bearer | User (via wallet) | Protocol / DApp Treasury | Searcher / Solver Network |
Primary MEV Revenue Sink | Block Builder / Proposer | Block Builder / Proposer | User / Protocol via backrunning or order flow auctions |
User Transaction Cost | Base Fee + Priority Fee | $0 (subsidized) | Slippage / Fee to solver (e.g., 0.3%) |
Protocol Subsidy Cost (per tx) | $0 | $2 - $15+ (Ethereum mainnet) | Variable, often $0 |
Front-running Risk Surface | High (public mempool) | Very High (subsidy creates toxic flow) | Low (private order flow, encrypted mempools) |
Censorship Resistance | Medium (subject to builder inclusion) | Low (protocol can cease subsidies) | High (decentralized solver network) |
Example Implementations | Standard Ethereum txs, most L1s | Polygon PoS, BNB Chain, Friend.tech | UniswapX, CowSwap, Across, SUAVE |
Economic Sustainability | User-aligned (pay for security) | Treasury drain; requires perpetual token emissions | Market-based; sustainable if solver profit > cost |
counter-argument
THE SUBSIDY
The Builder's Defense: Necessary Evil or Market Failure?
When users pay no gas, builders and validators are forced to extract value elsewhere, creating a systemic reliance on MEV.
Gasless UX creates a vacuum that builders must fill. If the user transaction pays zero fees, the only revenue for the block producer is the MEV they can extract from it. This makes MEV extraction a primary business model for entities like Jito Labs and bloXroute, not a side effect.
This is a direct subsidy from liquidity providers to end-users. Protocols like Arbitrum and Optimism use sequencer fees to subsidize gas, but builders recoup costs by frontrunning or sandwiching the very trades they enable. The cost is externalized onto LPs through worse execution prices.
The counter-argument is efficiency. Proponents argue this is the market pricing a hidden cost. Builders like Flashbots provide a necessary service of transaction ordering and liquidity aggregation that users implicitly demand. The alternative is a clogged, unpaid network.
Evidence: Jito's dominance on Solana. Over 90% of Solana blocks are built by Jito, funded almost entirely by MEV. This proves that in a high-throughput, low-fee environment, the builder role consolidates around maximal extractable value, not protocol fees.
takeaways
MEV BURDEN SHIFT
Key Takeaways for Protocol Architects
When users don't pay gas, the MEV burden doesn't vanish—it shifts to the protocol, its builders, and its treasury.
01
The Protocol Treasury is the Ultimate Backstop
Gasless transactions create a subsidy that must be funded. If MEV cannot cover the gas, the shortfall is a direct protocol expense. This turns MEV from a user problem into a balance sheet risk.
- Solves for: User acquisition and UX.
- Creates risk: Unbounded subsidy liability if MEV extraction fails.
100%
Subsidy Risk
Treasury
Liability
02
Intent-Based Architectures (UniswapX, CowSwap)
Decouple transaction construction from execution. Users submit signed intents; a network of solvers competes to fulfill them, bundling and optimizing for MEV. The winning solver pays the gas and pockets the surplus.
- Shifts burden: From user to solver network.
- Key trade-off: Introduces solver centralization and requires robust competition.
Solver
Pays Gas
Competition
Critical
03
The Validator/Builder Cartel Tax
In a gasless model, block builders become the sole gas payers. They will naturally extract maximum MEV from the bundled transactions, creating a hidden tax. Protocols must audit this leakage, as it directly reduces user output.
- Hidden cost: Builder-extracted value (BEV).
- Architectural need: Requires MEV-aware transaction routing (e.g., to Flashbots Protect, RPC endpoints).
Builder
Extracts MEV
User Output
Reduced
04
The Subsidy Arbitrage Attack Surface
A public gas subsidy is free money. Bots will spam the network with low-value or failing transactions to claim the subsidy, draining the protocol's gas wallet. This requires robust spam prevention and transaction simulation at the RPC or mempool level.
- Attack vector: Spam drains subsidy pool.
- Defense: Requires pre-execution simulation and rate limiting.
Spam
Primary Risk
Simulation
Mandatory
05
ERC-4337 Account Abstraction's Double-Edged Sword
Paymasters enable gas sponsorship, but they must be funded and secure. A malicious paymaster can censor or frontrun user ops. The burden is on the protocol to choose/run a reliable paymaster and manage its replenishment, adding operational complexity.
- Enables: True gasless UX.
- Burden: Paymaster ops, security, and funding logistics.
Paymaster
New SPOF
Ops Heavy
Complexity
06
Cross-Chain Bridges (LayerZero, Across) as Case Study
Bridges often subsidize gas on the destination chain. They use a relayer model, where the relayer's profit is the difference between the subsidy and actual cost. This requires sophisticated fee estimation and dynamic subsidy adjustments based on chain congestion.
- Model: Relayer arbitrage for profit.
- Requirement: Real-time gas oracle and subsidy tuning.
Relayer
Profit Motive
Oracle
Critical
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