Destabilizing Capital Flows amid Global Inflation

Layer 1 — Overview

Research Question

Bengui and Coulibaly ask whether the pattern of capital flows observed during the 2021–2023 global monetary tightening cycle — whereby capital flowed from low-inflation to high-inflation countries — was a stabilizing or destabilizing force for the global economy’s adjustment to cost-push shocks. Among the G7 and a broader sample of 26 jurisdictions, those with higher average CPI inflation (October 2021–March 2023) and larger cumulative interest rate hikes ran more negative current account balances over the same period, with the slope of the cross-sectional relationship between cumulative hikes and the current account equal to −1.29 (significant at 1%) and the slope between average inflation and the current account equal to −0.99 (significant at 1%), and over 75% of the top two quartile hikers running deficits while over 75% of the bottom two quartiles ran surpluses.

Model and Methodology

The authors build a standard continuous-time two-country general equilibrium model with nominal rigidities (Calvo price-setting), internationally traded bonds, and cost-push shocks modeled as wage markup shocks that create an output-inflation trade-off. The baseline model features no home bias (equal weights on domestic and foreign goods) and two tradable goods. Extensions introduce (i) consumption home bias (parameter α ∈ [0, 1/2]) and (ii) non-tradable goods. Policy is analyzed under two regimes: (a) free capital mobility (no taxes on financial transactions) with optimal cooperative monetary policy, and (b) a managed capital flow regime in which a planner jointly optimizes both monetary policy and a tax wedge on the international bond (τ^D_t). A second-order approximation of household utility yields a loss function penalizing world and cross-country output gaps, PPI inflation differentials, and the demand imbalance term θ_t. The quantitative section replaces optimal monetary policy with standard Taylor rules (φ_π = 1.5, φ_y = 0.25) and calibrates a Home cost-push shock to generate a peak CPI inflation rate of about 7%, with an annual autocorrelation of 0.65.

Main Findings

The paper’s central theoretical result (Proposition 2, “Topsy-Turvy Capital Flows”) is that, under the Marshall-Lerner condition (trade elasticity η > 1), a free capital mobility regime channels capital into the country with the most acute inflationary pressures — the very country whose central bank is most aggressively tightening — while the constrained-efficient managed regime would channel capital in the opposite direction. The mechanism operates through the supply side: capital inflows raise domestic households’ wealth, reducing their labor supply and thereby raising real wages and firms’ marginal costs. In the presence of non-tradable goods, an additional channel operates through the real exchange rate — capital inflows appreciate the domestic real exchange rate and inflate tradable-sector firms’ marginal costs independently of labor supply. Both channels worsen the central bank’s output-inflation trade-off.

In the quantitative exercise (Taylor rule setting, home bias α = 0.25, trade elasticity χ = 3), following the calibrated inflationary cost-push shock in Home:

• Under free capital mobility: Home inflation rises to 8% on impact; Home output gap reaches −8.4%; Foreign output gap reaches +2.4%; Home runs a trade deficit of 2.5% of GDP on impact; Home’s initial policy rate hike is nearly 10% while Foreign’s is less than 1%.
• Under the managed capital flow regime (capital flows reversed to outflows from Home): Home inflation on impact falls to nearly 6% (a reduction of approximately 2 percentage points); Home output gap is −6.8% (improvement of about 1.5 percentage points); Foreign output gap is 0.8% (improvement of about 1.5 percentage points); Home runs a trade surplus of 0.6% of GDP; Home’s initial hike falls to approximately 8% (roughly 2 percentage points lower) while Foreign’s rises to approximately 2.5% (roughly 1.5 percentage points higher).
• The managed regime delivers average welfare gains of 0.78% of current consumption (0.03% of permanent consumption). Welfare gains are increasing in the trade elasticity η: at η = 10 (consistent with Yi 2003’s bilateral trade flow estimates), gains reach approximately 0.08% of permanent consumption or 1.9% of current consumption.

Scope Conditions

The topsy-turvy result (free mobility channels capital in the wrong direction) holds conditional on the Marshall-Lerner condition (η > 1 in the baseline; equivalently, the trade elasticity χ > 1). With consumption home bias, the condition weakens to: the trade elasticity exceeds the degree of home bias (χ > 1 − 2α, which is weaker than Marshall-Lerner). When home bias is strong relative to the trade elasticity, a purchasing power effect may dominate the wealth effect, and free capital mobility may instead deliver too little capital flow toward the depressed country — the opposite inefficiency. The welfare analysis throughout assumes symmetric initial net foreign asset positions. The key insight is specific to environments in which monetary policy faces an output-inflation trade-off from cost-push shocks; it is directionally opposite to the aggregate demand externality prescription that arises in demand-shortage environments (e.g., currency unions with productivity shocks), where optimal policy instead calls for capital to flow toward the more depressed country.

Layer 2 — Q&A

Q1: What is the empirical motivation for the paper, and how is the stylized fact documented?

A1: During October 2021–March 2023, jurisdictions with higher average CPI inflation and larger cumulative policy rate hikes ran more negative current account balances. The cross-sectional slope between average inflation and the current account-to-GDP ratio is −0.99 (R² = 0.22, significant at 1%), while the slope between cumulative hikes and the current account is −1.29 (R² = 0.27, significant at 1%). Among the top two quartiles of cumulative hikers, over 75% of jurisdictions ran current account deficits, while among the bottom two quartiles over 75% ran surpluses. Data come from the BIS (inflation and policy rates) and the OECD Main Economic Indicators (quarterly current accounts), covering 26 jurisdictions excluding Argentina, Russia, and Turkey.

Q2: What is the core externality the paper identifies, and why do atomistic agents fail to internalize it?

A2: When a household in the high-inflation country borrows from abroad for consumption smoothing (as the domestic central bank tightens), it raises domestic consumption and thereby reduces labor supply through a wealth effect, pushing up real wages and firms’ marginal costs. The central bank must then tighten further to achieve the same inflation stabilization, or accept a worse inflation outcome. Because this effect operates through economy-wide wages and prices (general equilibrium), atomistic households do not internalize it when making individual borrowing decisions. The paper shows formally that a marginal increase in Home borrowing dθ_t raises welfare losses by an amount proportional to the product of the Phillips curve slope κ, the co-state variable φ^D_t (equal to the cross-country output gap differential y^D_t under optimal monetary policy), and the direct effect on cross-country marginal cost differences (1/2). When output is more depressed in Home (y^D_t < 0), additional borrowing by Home tightens the constraint and lowers welfare.

Q3: What does the optimal capital flow management targeting rule say, and what is its economic interpretation?

A3: Proposition 1 states that under jointly optimal monetary and capital flow management, the demand imbalance (relative consumption) should satisfy θ_t = 2y^D_t. This means the planner generates a demand imbalance in favor of the less depressed country, reallocating spending away from the country with the most acute inflationary pressure. This is counterintuitive from a pure output stabilization view: policy deliberately shifts demand away from the country with the most depressed output. The logic is that reducing the domestic wealth of the high-inflation country lowers real wages, reduces firms’ marginal costs, and thereby relaxes the output-inflation trade-off for that country’s central bank.

Q4: What is the “topsy-turvy” capital flows result (Proposition 2), and under what condition does it hold?

A4: Under free capital mobility, standard neoclassical consumption-smoothing motives lead capital to flow into the country with the most depressed output (the high-inflation country): the trade deficit equals [(η−1)/η]·y^D_t. Under managed capital flows, the optimal regime instead mandates a trade surplus for the most depressed country: the trade balance equals −(1/η)·y^D_t. Comparing signs, the direction of capital flows is literally reversed — hence “topsy-turvy.” The result holds whenever Assumption 1 (η > 1, the Marshall-Lerner condition in the baseline model) is satisfied, which the authors argue has compelling empirical support (trade elasticities estimated at 7–17 in the literature).

Q5: How does the presence of home bias in consumption affect the externality and the topsy-turvy result?

A5: With home bias (α < 1/2), capital inflows also appreciate the terms of trade, which lowers the relative price of imports in terms of domestic goods and reduces marginal costs for domestic tradable firms — a “purchasing power effect” that partially offsets the wealth effect. The optimal capital flow targeting rule becomes θ_t = [1 − (1−2α)/(2(1−α)η)]·2y^D_t. Under the condition that the trade elasticity exceeds the degree of home bias (χ > 1 − 2α, strictly weaker than Marshall-Lerner), the wealth effect dominates the purchasing power effect and the topsy-turvy result is preserved. Below a knife-edge curve in the (α, η) parameter space, the purchasing power effect dominates and free capital mobility results in too little rather than too much capital flowing toward the high-inflation country.

Q6: Does the externality always imply excessive capital flow volatility?

A6: No — this is a novel contribution relative to the prior literature. In the limiting case of a unit intratemporal elasticity (η → 1, the Cole-Obstfeld case), trade is balanced at all times under free capital mobility. Under managed capital flows, however, capital should flow from the most depressed to the least depressed country. This means the externality can result in too little rather than too much capital flow. The standard normative literature (e.g., Bianchi 2011) has focused on excessive capital flow volatility; the supply-side channel identified here shows that market failures can sometimes lead to insufficient external imbalances.

Q7: How does the paper’s mechanism differ from aggregate demand externalities as in Farhi and Werning (2016)?

A7: Farhi and Werning (2016) study demand-shortage environments (fixed exchange rates or zero lower bound) where constraints on monetary policy mean output is demand-constrained. Their prescription is to channel capital toward the most depressed country to stimulate demand for undersupplied goods. In Bengui and Coulibaly, monetary policy is unconstrained but faces an output-inflation trade-off from cost-push shocks. Here, the depressed output reflects the central bank’s deliberate demand contraction to fight inflation, not an inability to stimulate. The optimal response is therefore to shift spending away from the high-inflation (most depressed) country to reduce supply pressure — the opposite direction. Formally, in the demand-shortage case with unit elasticity and home bias, the optimal trade balance targeting rule is nxt = [(1−2α)/(4(1−α))]·ỹ^D_t (trade deficit for most depressed country), while in the supply pressure case it is nxt = −[α/(1−α)]·y^D_t (trade surplus for most depressed country).

Q8: What does the non-tradable goods extension add to the baseline mechanism?

A8: The baseline model (two tradable goods, no home bias) transmits the externality only through the wealth effect on labor supply: capital inflows raise consumption, reduce labor supply, and raise real wages and marginal costs. In the non-tradable goods extension, a second channel operates through the real exchange rate. Capital inflows raise demand for non-tradable goods, appreciating the domestic real exchange rate and inflating the price of the consumption basket relative to domestically produced tradable goods. This raises marginal costs for tradable-sector firms independently of any labor supply response, and is therefore unaffected by whether preferences exhibit a wealth effect on labor supply. The paper shows that the optimal policy problem in this extension is isomorphic to the baseline: the loss decomposition (equation 42) yields two additive terms proportional to the share of tradable goods (wealth effect on labor supply) and the share of non-tradable goods (wealth effect on demand for non-tradables), respectively.

Q9: What does the quantitative exercise show about cross-country policy rate dispersion?

A9: Under free capital mobility with Taylor rules, the initial policy rate hike in Home following the calibrated shock is nearly 10%, while in Foreign it is less than 1% — a cross-country dispersion of roughly 9 percentage points. Under managed capital flows, Home’s initial hike falls to approximately 8% and Foreign’s rises to approximately 2.5% — a dispersion of roughly 5.5 percentage points. The authors interpret this as evidence that free capital mobility leads high-inflation countries to tighten excessively and low-inflation countries to tighten too little, generating an inefficiently large cross-country dispersion in monetary policy.

Q10: How does the welfare gain from managed capital flows vary with the trade elasticity?

A10: Welfare gains are increasing in the elasticity of substitution between domestic and foreign goods (η). At the baseline calibration of η = 2 (trade elasticity χ = 3, near the lower bound of empirical estimates), the gain is 0.78% of current consumption (0.03% of permanent consumption). At η = 10 (consistent with Yi 2003’s estimate needed to match bilateral trade flows), the gain rises to approximately 1.9% of current consumption (0.08% of permanent consumption). The welfare gain is defined as the percentage increase in permanent consumption required by a household under free capital mobility to be as well off as under managed capital flows.

Q11: What is the role of Lemma 1 (irrelevance of capital flow regime for world variables)?

A11: Lemma 1 shows that under optimal cooperative monetary policy, the paths of world output gap and world inflation are independent of the capital flow regime (i.e., independent of the path of θ_t). This follows because the “world” block of the model can be solved independently of the “difference” block and the demand imbalance. As a result, the entire normative analysis of capital flows reduces to the behavior of cross-country difference variables (y^D_t, π^D_t, and θ_t), greatly simplifying the analysis. It also implies that switching capital flow regimes does not affect the global total of output or inflation, only its distribution across countries.

Q12: What extensions do the authors suggest would enrich the analysis without invalidating the main insight?

A12: Three extensions are noted. First, additional monetary policy constraints — discretionary (non-commitment) policy, non-cooperative policy setting, or a currency union — would introduce extra stabilization constraints and generate additional terms in the capital flow management targeting rule but would not overturn the supply-side channel. Second, alternative goods pricing specifications (local currency pricing, deviations from the law of one price) would make additional variables like cross-country consumer price differentials relevant measures of policy tightness, again adding terms to the rule. Third, the insight is argued to apply more generally in heterogeneous-agent or multi-sector closed-economy models with nominal rigidities whenever private financial decisions affect the economy’s supply side through general equilibrium price effects.

Key Concepts

Cost-push shock (wage markup shock): In the paper’s model, a cost-push shock is a positive deviation of the wage markup (µ^w_t) from its steady-state value. It shifts the New Keynesian Phillips curve, creating an output-inflation trade-off: the central bank must accept either higher inflation or a larger negative output gap. It is not a demand shock; its policy implications are directionally opposite to demand shortage shocks.

Demand imbalance (θ_t): The log ratio of Home to Foreign consumption, defined as c_t − c^*_t = θ_t in the linearized model. Under free capital mobility and symmetric initial wealth, θ_t = 0 (consumption shares are equalized). Under managed capital flows, θ_t is the instrument of capital flow policy: setting θ_t > 0 shifts spending toward Home; θ_t < 0 shifts it toward Foreign. The loss function penalizes deviations of θ_t from zero as an independent inefficiency (cross-country consumption misallocation).

Topsy-turvy capital flows: The paper’s central finding that, following a cost-push shock, the direction of capital flows prescribed by constrained-efficient policy is opposite to the direction that free capital mobility generates. Under free mobility, capital flows into the high-inflation country (trade deficit there); under managed flows, capital should flow out of the high-inflation country (trade surplus there). The term is used to describe the directional reversal, not merely excessive magnitude.

Macroeconomic externality (supply-side): The failure of atomistic agents to internalize the general equilibrium effect of their borrowing decisions on domestic firms’ marginal costs (via real wages or the real exchange rate). This is the paper’s label for the source of inefficiency. It is classified as a supply-side externality to distinguish it from aggregate demand externalities (Farhi and Werning 2016), where the operative mechanism runs through demand for specific goods rather than through factor costs.

Trade elasticity (χ): In the baseline model, χ = η (elasticity of substitution between domestic and foreign tradable goods). With home bias, χ = 2(1−α)η. The trade elasticity plays the key role in determining whether the topsy-turvy result holds: the result requires χ > 1 (Marshall-Lerner in baseline) or, with home bias, χ > 1 − 2α (weaker condition). At χ = 1 (Cole-Obstfeld case), trade is balanced under free mobility, and managed flows call for capital to move from the most to the least depressed country — implying insufficient rather than excessive capital flows under free mobility.

Purchasing power effect: In the model with home bias, a capital inflow appreciates the terms of trade (the relative price of exports over imports), which raises the purchasing power of domestic firms and lowers their marginal costs. This effect partially offsets the wealth-effect-driven rise in marginal costs. Its strength is proportional to the degree of home bias (1−2α) relative to the trade elasticity 2(1−α)η. Under the paper’s weaker-than-Marshall-Lerner condition, the wealth effect dominates the purchasing power effect.

Managed capital flow regime: A policy regime in which the government imposes taxes on international financial transactions (τ_t for Home, τ^_t for Foreign) to control the demand imbalance θ_t, subject to the targeting rule θ_t = 2y^D_t (or its home-bias-adjusted counterpart). This regime accounts for the macroeconomic externality and delivers a constrained-efficient allocation given the presence of nominal rigidities. The tax wedge τ^D_t = (τ_t − τ^_t)/2 represents the gap in returns on the international bond faced by Home versus Foreign households.

World and difference formulation: Following Engel (2011) and Groll and Monacelli (2020), the model is decomposed into “world” variables (averages: y^W_t, π^W_t) and “difference” variables (cross-country gaps: y^D_t, π^D_t). The targeting rules and Phillips curves separate additively into world and difference blocks, and Lemma 1 establishes that the capital flow regime affects only the difference block. This decomposition is the analytical device that isolates the role of capital flows.