A global perspective on macroprudential policy interaction with systemic risk, real economic activity, and monetary intervention

The study empirically assesses how macroprudential policy interacts with systemic risk, industrial production, and monetary intervention on a global level from January 2006 to December 2018. We adopt the aggregate proxies of these variables, capturing their global effects, and use a novel econometric technique, namely, smooth local projections. The study finds that global macroprudential policy leads the monetary policy, exhibiting a countercyclical pattern concerning industrial production. The latter has an inverse bidirectional linkage with systemic risk. Thus, an ex-ante tight macroprudential policy can indirectly mitigate global systemic risk through its pro-growth effect on industrial production, although no convincing evidence exists for the direct impact of a macroprudential intervention on systemic risk. The study results endure several extensions and a robustness check, which builds on alternative measures of global systemic stress and real economic activity, thereby legitimizing the increased importance attached to the macroprudential policy since the 2007–2009 global financial crisis.

impact on real economic activity is neutral or even positive (Andries and Melnic 2019;Belkhir et al. 2020;Boar et al. 2017;Davis et al. 2019;Kim and Mehrotra 2019;Madeira 2020;Richter et al. 2019;Rojas et al. 2020). In a cross-country framework, international spillovers of domestic macroprudential intervention should be measured properly, which would facilitate adequate policy coordination among involved countries (Kang et al. 2017;Norring 2019). 2 This study examines how macroprudential and monetary policies interact with systemic risk, industrial production, and with each other on the global level from January 2006 to December 2018. This is perhaps the first study to assess such aggregate linkages because, owing to the absence of comprehensive cross-country datasets on macroprudential policy, such a global approach has previously been constrained. The compilation of the novel monthly IMF database on macroprudential measures by Alam et al. (2019) has partly mitigated the limitation. Based on this database, we construct an index of macroprudential policy activism across the world. To capture the global monetary policy stance, we use the data from the Council on Foreign Relations (CFR) global monetary policy tracker available from January 2006 onward. This indicator is provided by the Council of Foreign Relations, a US think tank. This series aggregates the dynamics of policy interest rates and the implementation of unconventional monetary policy instruments across several countries. A worldwide measure of conditional capital shortfall (SRISK) proposed by Brownlees and Engle (2017) is our proxy for global systemic risk. We use the world industrial production index by the CPB Netherlands Bureau for Economic Policy Analysis to track the dynamics of global real economic activity.
We apply a novel econometric methodology, namely, smooth local projections by Barnichon and Brownlees (2019), to derive the impulse response functions for a system comprising the four variables. Compared with the conventional vector autoregressions (VARs), the local projections impose weaker assumptions on the dynamics of the underlying data, thereby allowing for more flexible impulse response estimation. Specifically, this methodology is more robust to data nonlinearity and model misspecification. Moreover, smooth local projections are more beneficial than the standard local projections proposed by Jordá (2005), as they do not suffer from excessive variability and thus substantially increase the precision of the impulse response estimation. When applying this econometric technique, we also depart from the premise that along with SRISK and industrial production index, the proxies of global macroprudential and monetary policies are endogenous variables.
By deriving the impulse response functions based on the smooth local projections, we find an inverse bidirectional linkage between systemic risk and industrial production at the global level, that is, an increase in SRISK dampens the dynamics of the world industrial production index, while a rise in the industrial production mitigates the systemic risk. Interestingly, no direct effect of global macroprudential policy on systemic risk is found. Nonetheless, this policy has a positive impact on industrial production, thereby indirectly ameliorating systemic risk through acceleration in real economic activity.
Moreover, global macroprudential policy leads the monetary policy. Considering that macroprudential measures produce a more immediate effect on industrial production than monetary policy, there is additional scope for global macroprudential intervention relative to monetary policy, especially in the low-interest-rate environment that has been established after the GFC. Higher levels of industrial production entail the tightening of monetary policy. However, the monetary policy tends to be relaxed when systemic risk increases. Thus, similar to global macroprudential policy, the monetary policy is countercyclical with respect to real economic activity.
Our baseline approach is extended in two ways: first, it involves decomposing systemic risk into high and low regimes. To distinguish between the two regimes, we extract a stochastic trend from the SRISK series through a one-sided Hodrick-Prescott (HP) filter and assume positive differences between the actual SRISK values and trend to capture the high-risk regime, while assuming that negative differences capture the low-risk regime. Several additional findings are derived by decomposing SRISK. For instance, the relationships running from SRISK to global industrial production, and vice versa, differ by their magnitude, conditional on a low-or high-risk regime. In the high-risk environment, the responses of both variables are stronger. Besides, the pro-growth effect of macroprudential policy is only observed in the low-risk environment, which disappears in the high-risk environment. The latter finding suggests that preemptive macroprudential policy is beneficial and welfare-enhancing when the systemic risk has not been sufficiently established to materialize.
Our second extension involves dividing the global macroprudential policy activism index into borrower-and financial institution-targeted macroprudential measures. Thus, borrower-targeted macroprudential measures are found to produce a weak dampening effect on systemic risk, while those aimed at financial institutions have no effect at all. However, both measures promote global real economic activity. The rest of the results appear qualitatively similar to our baseline estimations, emphasizing the salient role of global macroprudential policy.
The results of the two extensions corroborate the countercyclical nature of global macroprudential policy. Besides, given the total number and directions of statistically significant impulse responses in which the index of global macroprudential policy activism is involved, the global macroprudential policy played a more substantial role than the monetary policy during the observation period.
We conducted a robustness check comprising two exercises on our baseline results. First, we replaced SRISK with another systemic stress indicator, namely, the Office of Financial Research (OFR) financial stress index proposed by Monin (2019) and used by the US Financial Stability Oversight Council, to monitor global financial stability. This exercise also involves two extensions to the baseline framework, that is, decomposing the OFR financial stress index into high and low regimes and dividing the index of global macroprudential policy activism into sub-indices. In the second exercise, the world industrial production index is replaced with a composite measure of global real economic activity based on the first principal component from the shipping costs index (Hamilton 2021) and GECON, a monthly global economic conditions indicator . Both ingredients of the robustness check support the baseline results.
This study is presented as follows. Section "Data" describes the data. Section "Methodology" explains the econometric methodology. Section "Results and discussion discusses the results. Section "Robustness check" describes the robustness check. Section "Conclusions" concludes.

Data
Our index of macroprudential policy activism (iMaPP) uses the data on 17 macroprudential instruments reported by the IMF integrated Macroprudential Policy Database (Alam et al. 2019) for every country-month observation from January 2006 to December 2018. The data represent dummy-type indices of tightening (coded with 1), loosening actions (coded with − 1), or no actions (coded with 0) for every policy instrument. Thus, to construct our iMaPP index, we first sum up these indices of tightening and loosening for country i in month t, and then compute simple monthly averages of the sums across all 134 countries included in the database where MPI ik is a dummy-type index of kth macroprudential instrument for country i. The breakdown of the iMaPP index by macroprudential policy measures is reported in Table 3 of the "Appendix", while the countries and regions covered in the index are enlisted in Table 4.   (Fig. 2). It builds on the data from 54 major economies (Table 5 of the "Appendix"), capturing the overall trend in the global monetary policy, for example, whether the tightening or easing of policy prevails at that moment. The countries covered in the CFR global monetary policy tracker are fewer compared with the iMaPP index. However, among its 54 constituents, there are countries with the biggest potential to propagate their domestic monetary policy shocks globally, that is, the USA, the EU, Japan, and China. Thus, we argue that the index of global easing or tightening (MP index) based on the CFR global monetary policy tracker adequately captures the variation in the global monetary policy. The MP index assumes the values ranging from -10 (if all 54 countries loosen their monetary policy) to 10 (if they all tighten the policy). This index is unique in that it accounts for both changes in policy interest rates and unconventional policy measures (e.g., in the form of quantitative easing).
In contrast to the iMaPP index, which remained relatively stable before the GFC, the MP index exhibits a strong downward trend for 2006-2007. It reflects the long-run global decline in the interest rates interrupted by a desperate attempt to prevent the outbreak of the crisis in the early 2008. After the eventual outbreak of the crisis, the MP index started to decrease, reaching the minimum level in the spring 2009. Similar to the iMaPP index, the indicator then partly rebounded, which reflects the prevailing trend toward policy tightening after the acute phase of the GFC. However, in 2012 that trend This study adopts the conditional capital shortfall (SRISK) as a proxy of systemic risk (Brownlees and Engle 2017). SRISK can be represented as follows: where W it denotes the market value of equity, D it is the book value of debt, and k refers to the prudential capital adequacy ratio. Long-run marginal expected shortfall ( LRMES it ) measures the sensitivity of a financial institution's equity value to the severe market decline, while LVG it is the so-called quasi-leverage ratio, that is, Brownlees and Engle (2017), k is set to 8%, while severe market decline implies a 40% semiannual shrinkage in global stock market indices (e.g., MSCI world index). Based on Eq. (2), larger financial institutions, higher values of LRMES , and higher leverage involve an increase in SRISK.
The SRISK measure fares better than the alternative systemic risk measures, such as the marginal expected shortfall (MES) by Acharya et al. (2017) or delta conditional value-at-risk (∆CoVaR) by Adrian and Brunnermeier (2016), in several empirical horse races conducted to test for the relative consistency and informativeness of such measures (e.g., Dissem and Lobez 2020; Grundke and Tuchsherer 2019; Stolbov and Shchepeleva 2018). Particularly, we prefer the SRISK measure as a systemic risk indicator, as it builds on both balance sheet and market data, thereby reflecting market conditions and managerial decisions by financial institutions (Kamani, 2019). 4 Positive SRISK values are aggregated across financial institutions to build a nationwide measure. Importantly, when computing the nationwide SRISK, the contribution of institutions that exhibit capital surpluses, that is, negative capital shortfalls, is ignored because such excess capital is not easily mobilized through mergers or loans during crises. Thus, simply netting positive and negative values of SRISK across financial institutions is not feasible.
Similarly, summing up such national indicators yields the global SRISK (Fig. 3). This measure is computed on the basis of nationwide metrics for 73 countries, which are borrowed from the Volatility Laboratory at New York University. 5 Table 6 of the "Appendix" lists the countries and regions. Figure 3 shows that during the observation period, there are two significant episodes of systemic risk buildup: since autumn 2007 until early 2009 and during the European financial crisis (mid-2011 to mid-2013).
World industrial production (WIP) index is a seasonally adjusted weighted index based on industrial production in 85 countries, which account for about 97% of global industrial output. Table 7 of the "Appendix" lists the countries and regions. The index (2) 4 However, our focus on SRISK does not rule out that alternative systemic risk measures can be of significant use for other research goals. For instance, such goals may comprise capturing the connectedness of financial institutions through network analysis (Hu et al. 2015) and machine learning techniques (Kou et al. 2014(Kou et al. , 2019, assessing the contribution of individual entities to the overall stress or disentangling firm-specific factors, which underlie the systemic risk measures (e.g., Zeb and Rashid 2019). For a detailed survey of the recent literature on systemic risk measurement and the taxonomy of measures (see, e.g., Benoit et al. 2017;Silva et al. 2017 is borrowed from the CPB Netherlands Bureau for Economic Policy Analysis. 6 Its base year is 2010. Figure 4 reveals the substantial world output loss associated with the GFC and the return to a slower growth trajectory in the post-crisis period. Table 1 reports the descriptive statistics for all the data series.

Baseline approach 7
We use the smooth local projections by Barnichon and Brownlees (2019), who extended the methodology first proposed by Jordá (2005). Local projections (LPs) 7 This section largely builds on the original description of the local projections method by Barnichon and Brownlees (2019), and the mathematical notation is borrowed from Stolbov and Shchepeleva (2020).
enable estimation of impulse responses without specifying and estimating the underlying multivariate dynamic system using VAR. They are more flexible than the VAR models, as this technique better handles data nonlinearity and appears robust to model misspecification. The smooth LPs share these strong points of the standard LP, overcoming its major drawback, that is, a large variability of the impulse response estimator. Let x t , y t , and z it for i = 1, . . . , p be stationary time series. We also assume that the set of variable z it may include lagged values of x t and y t . We estimate the dynamic multiplier of y t+h with respect to a change in x t for some steps ahead h , keeping all other variables constant.
According to Jordá (2005), this multiplier can be recovered from the set of regression coefficients β (h) associated with the h-step-ahead predictive regressions in the form: where u (h)t+h is a prediction error term. The set of regressions in (3) is named LPs. In this framework, the dynamic multiplier β (h) can be estimated by running h + 1 Ordinary Least Squares (OLS) regressions. Given that the multiplier in (3) is expensively parametrized, the OLS estimation may suffer from excessive variability. Barnichon and Brownlees (2019) apply the LP estimation methodology based on B-splines, naming it smooth LPs, to overcome this issue. B-splines are a basis of hump-shaped functions indexed by a set of knots and composed of q + 1 polynomial pieces of order q . In this setting, the dynamic multiplier β (h) can be approximated using a linear B-splines basis function expansion in the forecast horizon h: where B k is a set of B-spline basis functions and b k is a set of scalar parameters for each k = 1, . . . , K . Adopting the analogous approach to α (h) and γ i(h) terms, the following approximation for (3) is obtained: Model (5) retains linearity with respect to the parameters and can be considered a linear regression, which is further subject to a generalized ridge estimation to obtain the values of the dynamic multiplier β (h) , corresponding to impulse responses and their confidence bands. 8 Before applying the smooth LP, we ensure data stationarity by examining whether our data series predominantly follow the I(0) pattern in a battery of unit root tests. Our set includes the ADF, DF-GLS, Phillips-Perron, KPSS, and Elliott-Rothenberg Stock Point-Optimal unit root tests. Besides, we assume that in our four-variable setting, all variables are endogenous and no additional controls apply. Using the smooth LP, the generalized impulse response functions are computed for 12 periods. When deriving these impulse responses, we determine the number of lags on the basis of the Bayesian information criteria and ensure the absence of a serial correlation.

Extensions
We extend our baseline exercise in two ways. First, we decompose systemic risk into low and high regimes, assuming that macroprudential and/or monetary policy relationships with SRISK under these regimes may differ. Besides, low-and high-risk environments may have distinct effects on real economic activity, as documented by Danielsson et al. (2020). To identify the two regimes, we estimate the trend of SRISK, τ t ( ) , using the onesided HP filter with a smoothing factor , which quantifies the deviation of the actual SRISK values from the trend. As recommended for monthly data in the conventional version of the HP filter (Hodrick and Prescott 1997), is set 14,400.
where T is the number of observations. We obtain low and high SRISK ( SRISK _LOW t , SRISK _HIGH t ) as actual SRISK values below and above the prevailing trend, τ t : Our second extension involves dividing the index of global macroprudential policy activism into two sub-indices. The first sub-index covers the instruments from the IMF iMaPP database, which directly affect borrowers, that is, limits to the loan-tovalue (LTV) and the debt-service-to-income (DSTI) ratios. The share of LTV and DSTI ratios totals 11% of all macroprudential measures applied globally during the observation period. The other sub-index tracks the aggregate dynamics of financial institution-targeted macroprudential measures, which are actually the remaining 15 instruments in the IMF iMaPP database, such as capital requirements, reserve requirements, caps on growth, or the volume of aggregate credit. We, then, apply the smooth LP to our four-variable system, including each sub-index separately. By distinguishing between the borrower-and financial institution-targeted components of the index, we hypothesize that these measures may have a unique impact on systemic risk or industrial production, thereby changing the relationships identified in the baseline estimation. Recent empirical studies have motivated such conjecture,

Baseline results
We first report that all data series in levels predominantly exhibit the I(0) pattern. Thus, the smooth LP can be applied (Table 2). Figure 6 shows the results of our baseline analysis. We start by documenting an inverse bidirectional relationship between SRISK and industrial production. The WIP index exhibits a yawning decline in response to SRISK. Such adverse impact of systemic risk on real economic activity resonates with the existing literature (Brownlees and Engle 2017;Engle et al. 2015;Giglio et al. 2016;Kabundi and De Simone 2020). Increases in the WIP index reduce SRISK, but this effect is statistically significant in the short run (up to nine periods).
Surprisingly, no direct effect of global macroprudential and monetary policies on SRISK is found. However, in case of global macroprudential policy, an indirect effect is exerted through its impact on industrial production. Indeed, an increase in the iMaPP index appears to spur the WIP index. The finding that macroprudential tightening can be pro-growth is intensely debated in the empirical literature. Against this backdrop, our result is consistent with the conclusions by Boar et al. (2017) and by Andries and Melnic (2019), while contrasting with the findings by Belkhir et al. (2020) and Madeira (2020). Yet, none of these studies assesses the effects of macroprudential policy on real economic activity from the global perspective, focusing on panel data.
The positive relationship running from the iMaPP to WIP index suggests that global macroprudential policy is countercyclical. In turn, the WIP index appears to increase the iMaPP as well. The result indicates that the precautionary macroprudential policy measures are undertaken before a decline in global real economic activity, which additionally Monetary policy is driven by the changes in industrial production and systemic risk without producing any effect on them. In case of its response to the WIP index, the motion is countercyclical: higher levels of industrial production involve monetary policy tightening. In contrast, it exhibits pro-cyclicality with respect to SRISK.
Overall, our findings indicate that global macroprudential policy has a more pronounced effect on both systemic risk and real economic activity than monetary intervention. We also find that macroprudential policy leads the monetary one. Such relative superiority of macroprudential policy can arise from the low-interest-rate environment, which entrenched after the GFC and substantially narrowed the scope of monetary policy. Such decline in policy rates occurred, on average, not only in advanced economies, but also in emerging markets, thereby shaping the global trend (Fig. 7).
Our result comports with the conclusions by Farhi and Werning (2016), who proposed a theory of unified monetary and macroprudential policies in economies with nominal rigidities and constraints on monetary intervention, such as the zero lower bound (ZLB). They argued that in such a framework, monetary policy creates an aggregate demand externality, which undermines its efficacy in achieving macroeconomic stabilization. This failure of monetary policy can be offset by macroprudential intervention. Korinek and Simsek (2016) reported close theoretical results, emphasizing the efficacy of macroprudential policy in mitigating liquidity traps. Similarly, Van der Ghote (2020) underscored the positive impact of macroprudential policy on real interest rates, which can rescue the economy from a liquidity trap. Rubio and Yao (2020) confirmed the relative superiority of macroprudential policy by calibrating a DSGE model with macroprudential intervention in terms of low-interest-rate environment. Another calibration exercise  Jerger and Körner (2018) yielded the same result. Moreover, in a medium-size DSGE model, Bonciani et al. (2021) found that the implementation of a macroprudential policy per se reduces the odds of the monetary policy rate reaching the ZLB. Besides, they argued that macroprudential policy can enhance growth, as it mitigates productivity slowdown, which is often overlooked as a long-term consequence of financial crises.
Our results are also consistent with two growing strands of empirical studies. The first strand shows that although tight macroprudential policy may have adverse short-run effects on real activity, it eventually results in net gains by reducing tail risks to future output growth (e.g., Brandao-Marques et al. 2020;Franta and Gambacorta 2020;Galán 2020). The other strand supporting our results argues that monetary policy should play an auxiliary role to make macroprudential intervention more effective in safeguarding financial stability (e.g., Gambacorta and Murcia 2020; Lozano-Vivas and Pasiouras 2019; Revelo et al. 2020).

Fig. 8
Impulse responses in terms of a low-risk and b high-risk regimes Stolbov et al. Financ Innov (2021) 7:41 Results of the extensions Decomposing SRISK into low and high regimes does not alter the major baseline conclusion regarding the pivotal role of global macroprudential policy for the monetary policy. 9 We also document countercyclical patterns in the response of macroprudential and monetary policies to global industrial production. However, certain responses (e.g., SRISK to the WIP index and vice versa) differ by their magnitude, depending on a lowor high-risk regime. These reactions are stronger in the high-risk environment SRISK and the WIP index. Besides, the pro-growth effect of iMaPP index is only observed in the low-risk environment, disappearing in the high-risk one. The latter finding suggests Fig. 9 Impulse responses in case of a borrower-targeted and b financial institution-targeted iMaPP sub-indices 9 Before extending the baseline estimations, we also apply our battery of unit root tests to the modified data series. The same procedure applies to the variables used in the robustness check. See the results of unit root tests in the "Appendix", Table 8.
that preemptive macroprudential policy is beneficial and wealth-enhancing when systemic risk has not built up yet. Figure 8a, b shows the corresponding impulse responses. Splitting the iMaPP index into borrower-and financial institution-targeted sub-indices also retains most of the baseline relationships (Fig. 9a, b). In this extension, we find some evidence that macroprudential measures aimed at borrowers decrease systemic risk more efficiently than those targeted at financial institutions. Nonetheless, the two types of measures are complementary in fostering global industrial production.
Overall, our additional exercises yield the results that are qualitatively similar to the baseline estimation regarding the relative superiority of macroprudential policy. In the modified frameworks, it still leads the monetary policy, demonstrating counter-cyclicality regarding industrial production. Global monetary policy has no effect on SRISK and industrial production, but adjusts to them in a pro-cyclical manner in case of systemic risk and countercyclically with respect to industrial production.

Robustness check
We conduct a twofold robustness check, building on alternative measures of global systemic stress and real economic activity.
Considering that SRISK appears to outperform its main competitors, primarily MES and ∆CoVaR, in various empirical horse races in terms of consistency and informativeness, we do not focus on these systemic risk metrics to test the validity of our baseline results. Instead, we replace SRISK with the OFR financial stress index proposed by Monin (2019) and used by the US Financial Stability Oversight Council to monitor global financial stability. 10 It co-moves with the SRISK measure, but not in a one-toone manner: their correlation ratio is 0.4, and it is significant at the 1% level. Although the OFR financial stress index is not formally categorized as a systemic risk measure, it possesses its attributes. Namely, it also aims to detect when the global financial system functioning is impaired by covering the dynamics of key financial markets and considering the vulnerability of different countries, both advanced and emerging market economies. 11 The index is available on a high-frequency basis and helps predict decreases in the real economic activity (Monin 2019). Our baseline methodology and its two extensions fully apply to the robustness check, based on the OFR financial stress index. The corresponding impulse responses are reported in the "Appendix" (Figs. 10, 11, 12).
The OFR financial stress index is found to adversely impact the WIP index; however, unlike the baseline estimation involving SRISK, there is no feedback from industrial production to the global financial stress. When the OFR financial stress index is decomposed into low and high components, all relationships exhibit the same directions as in the baseline estimation involving SRISK. When considering the two sub-indices of global macroprudential policy activism, we find that the borrower-targeted measures produce a statistically significant dampening effect on the global financial stress, whereas financial institution-targeted measures do not mitigate it.
Considering that the WIP index depends on periodic data revisions, our second robustness exercise uses an alternative proxy of global real economic activity. This measure (PC_REA) builds on the first principal component derived from the shipping costs index (Hamilton 2021) and GECON, a monthly global economic conditions indicator . 12 Similar to the baseline estimation, PC_REA has bidirectional inverse linkages with SRISK. However, in contrast, we find almost no signs of monetary policy pro-cyclicality with respect to PC_REA. Furthermore, monetary policy tightening favors a rise in SRISK, a significant relationship in the high-risk environment (Figs. 13,14,15).
Despite the minor differences with the baseline estimation, the core findings regarding the superiority of global macroprudential policy over the monetary policy and its countercyclical properties are found to be robust.

Conclusions
This study deals with the global dimension of macroprudential and monetary policies interacting with each other and with global systemic risk and industrial production from January 2006 to December 2018. The novel smooth LP method is applied to examine the dynamic relationships among these variables.
Our findings legitimize the importance attached to macroprudential policy since the GFC. Globally, macroprudential policy appears to lead the monetary policy. Although we do not find convincing evidence that global macroprudential policy directly mitigates systemic risk, this impact can be channeled through the countercyclical effect of macroprudential intervention on industrial production. Specifically, preemptive macroprudential policy promotes real economic activity, which, in turn, curbs the buildup of systemic risk. We conjecture that the low-interest-rate environment, which entrenched after the GFC and substantially narrowed the scope of monetary policy, accounts for the relative superiority of macroprudential policy. This explanation for our major empirical result resonates well with the recent theoretical works, emphasizing the efficacy of macroprudential policy in mitigating liquidity traps, and with the empirical studies, which argue that, regardless of the possible short-run contractionary effects on real activity, tight macroprudential policy favors the net benefits for the economy by minimizing tail risks to future output growth.
The extension to our baseline analysis, which accounts for different regimes in systemic risk and for borrower-and financial institution-targeted macroprudential measures, and the robustness check, which involves the alternative measures of global systemic stress and real economic activity, do not alter our main findings. 12 The measures of global economic activity are intensely debated nowadays. For instance, Hamilton (2021) blames the Kilian index of global economic activity (Kilian 2009, 2019) based on shipping costs for bearing little resemblance to real-world economic dynamics since 2009. To address the problem, he proposes his own version of the Kilian index based on an alternative de-trending procedure. Meanwhile,  introduced a comprehensive indicator tracking global economic conditions, GECON, which captures several measures beyond the world industrial production, e.g., energy production and electricity distribution, passenger car registrations, and oil price uncertainty. Baumeister and Guérin (2020) showed that the GECON indicator consistently outperforms competing proxies of global economic activity in forecasting quarterly world GDP, such as world industrial production, global steel production, the Kilian index of global economic activity, and real commodity prices. Against this backdrop, in this study, we employ a composite measure of global real economic activity by deriving the first principal component from two of its most promising proxies: the Hamilton shipping costs index and the GECON indicator. This component accounts for about 60% of the total variance of these measures.
Our study has certain limitations. Given that our time series are not sufficiently long, we are unable to reliably examine the time-varying nature of the relationships among the four variables. This obstacle will eventually disappear with the future updates of the IMF database on macroprudential policy measures, allowing use of a time-varying VAR or similar techniques. Another promising avenue of research involves application of our methodological approach to the regional rather than global level. It will allow capturing region-specific linkages among macroprudential policy, systemic risk, industrial production, and monetary intervention, which may differ from those revealed on the global level.

Appendix
See Tables 3, 4 ,5,6,7,8 and Figs. 10,11,12,13,14,15. Table 3 The structure of the iMaPP index Other (Macroprudential measures not captured in the above categories, e.g., stress testing, restrictions on profit distribution, and structural measures) Table 4 List of countries and regions covered by the iMaPP index  Table 6 List of countries and regions which national SRISK measures are used to derive the SRISK global metric Stolbov et al. Financ Innov (2021)