Information Flow from COVID-19 Pandemic to Islamic and Conventional Equities: An ICEEMDAN-Induced Transfer Entropy Analysis

With the steady growth in the data set on the COVID-19 pandemic, empirical works that employ novel and yet appropriate statistical techniques to corroborate previous findings of the pandemic and its consequences on financial markets are necessary. )is paper examined the impact of COVID-19 information flow on the Islamic and conventional equities within the short-, mid-, and long-term horizons to assess possible diversification prospects in the era of the pandemic. To the studied equities markets, a novel technique based on a denoised frequency-domain entropy paradigm was applied. )e operability of entrenched market dynamics in the long-term horizon of the COVID-19 pandemic period is reinforced by the results. )e findings divulge diversification opportunities between Islamic and conventional equities in the shortand mid-term periods of the COVID-19 pandemic. )e risks on equities from Japan or Bahrain could be diversified by equities from Jordan in the short-term, while in the intermediate-term stocks from Japan could diversify with the UAE and USA equities. )e results imply that it is imperative for investors and fund managers to employ portfolio management techniques that show how to use benefits together with risk prevention and management across distinct time scales.


Introduction
ese chaotic times raised financial market comovements, resulting in financial contagion and elevated portfolio risk [1][2][3]. Islamic stock markets grew at a phenomenal rate during both times. e recent COVID-19 pandemic cannot be sidelined when the discourse about financial market turmoil is at play. e pandemic, which has led financial markets to record-breaking losses [4], has driven several studies in the area of cryptocurrencies [5,6], prices of staple foods [7], global equities [8], among others. Arguably, the motivation(s) for these studies has (have) been partly driven by the opportunities for safe haven, diversifier, or hedge assets during the turbulent market period aroused by the pandemic.
During times of financial and economic turmoil, portfolio diversification becomes even more important for investors. However, achieving optimal returns through adequate diversification necessitates a thorough understanding of the risk and return characteristics of various assets in a portfolio, as well as their connectedness and response to market information. e search for reliable assets that may shield investors in these unstable market periods is increased due to the increased information flow to financial markets in crises periods.
is is what Owusu Junior et al. [8] terms as the competitive market hypothesis (CMH). e search for safety nets during these times is what triggers financialisation [9], which results in the introduction of new assets and/or asset classes like cryptocurrencies, faith-based financial instruments, Islamic assets, and so forth.
When it comes to alternative financial techniques, Islamic finance is becoming a hot topic, with scholars debating it and investors putting it into practice all over the world [10]. Islamic finance is defined by financial activities which are based on Islamic norms and regulations (i.e., the Shariah). It is likewise based on Islamic law-compliant assetbased investments, which are low-risk investments with moderate returns. Aside from its relative resilience in previous crisis periods [10][11][12], Islamic equities have become more popular as a way for investors to incorporate their religious beliefs into their portfolios.
According to Ng, Chin, and Chong [13], the Islamic Finance Development Indicator (IFDI) in 2018 confirmed the Islamic financial markets' (IFMs) long-term viability by demonstrating the outstanding growth, as seen by an annual growth rate of roughly 11%, making it enticing to investors. Notwithstanding, the prevailing crisis in global financial markets, which is championed by the COVID-19 pandemic, has not only impacted conventional markets; IFMs have had their "fair" share [14] to the extent that recognised rating agencies like S&P projected that the IFM would decline in growth in 2020, followed by a slight rebound in 2021 [15].
Although both conventional markets and IFMs have witnessed the effect of the COVID-19 pandemic, the magnitude is not the same across these broad markets. e stock market in Pakistan, which is classified as an emerging stock market, was impacted by COVID-19 in a minor way [14] and has been linked to national restrictions imposed during the early days of the pandemic [16]. However, this occurrence contrasted with the conditions of advanced stock markets, like in the United States, where the COVID-19 pandemic had a substantial impact on the markets [17]. ese pieces of data provide some preliminary insight into the nature of international equities markets' responses to the COVID-19 pandemic. e differences in the observed impact on equities markets, in line with Ahmed [16], could be ascribed to the disparities in policy responses towards fighting the pandemic. ese policy responses are expected to transmit different information across equities markets.
To combat the virus's spread, several governments across the globe imposed a variety of restrictions on people's movements, including inter-and intraborder travel bans, lockdowns or stay-at-home restrictions, closures of places of worship and educational institutions, and social distancing [7,8]. ese policy measures on fighting the pandemic could heighten or lessen unemployment, which also impacts business and economic activities. Consequently, business earnings are also affected, resulting in plummeting share values.
us, COVID-19 information flows could impact stock performance through the slowdown in macroeconomic performance. Impliedly, these initial responses may take time to reflect in the real economy and, hence, with sufficient data and for over a year into the pandemic, the effect of the information flow from the pandemic towards equities could be examined using the appropriate technique.
e Islamic and conventional markets, given the disparities in their operational principles, serve as separate asset classes to investors. Given the relative "sufficiency" of existing data on the pandemic and the fact that the pandemic has stayed with investors for at least a year, this study proposes that investors have been presented with sufficient information over a longer period to rebalance or readjust their portfolio holdings in search for optimal portfolios. Furthermore, much of the existing literature [18][19][20][21][22][23][24] have focused on spillovers across markets in the era of the COVID-19 pandemic with little attention on the transmission mechanism of the pandemic. is impacted research like Asafo-Adjei et al. [5] and Owusu Junior et al. [8], contributing to closing the gap by employing transfer entropy to assess information flow between financial markets. ese works, on the other hand, are focused on cryptocurrencies and stock markets, as well as worldwide equity markets. To the best of knowledge that rests with the extant literature, a comparative study of the information flows to Islamic and conventional markets is nonexistent. is informs and contextualises this study as it focuses on the G7 and Islamic equities markets alongside some selected market indices to assess whether information flow from the COVID-19 pandemic leaves behind diversification prospects for global equities investors.
As indicated by Al-Yahyaee et al. [9], sector comovements fluctuate with time and frequency and are influenced by significant events. is warrants that where data is available to a usable extent, studies that investigate the index-specific response to a significant event like the COVID-19 pandemic are not out of play. From this backcloth, this study addresses three questions: (i) Are there differences in the way Islamic and conventional equities respond to information flow from COVID-19? (ii) Are there diversification prospects for Islamic and conventional equities in the post-COVID-19 era? (iii) At what time scale(s) could diversification be achieved?
Empirical responses to these research questions need to be tackled from a comprehensive approach that incorporates investor complexities [8,25,26]. Huynh et al. [27] reveal that, in the tumult trading phase of the COVID-19 pandemic era, stock markets are characterised by huge information structures, which are likely to result in negative bubbles. Corollary to investor complexities and negative bubbles, this study employs a data-intensive approach to delineate composite data into various time scales after comprehensively dealing with noisy observations. is would enable a relative effective assessment by quantifying the information flow from COVID-19 to equities markets. e transfer entropy hinged on the improved ensemble empirical mode decomposition with adaptive noise (ICEEMDAN) approach to decomposition, which is novel to the extant literature, is employed. e ICEEMDAN-based entropy facilitates the assessment of the amount of information flow to account for huge tails in the studied markets' equities returns across distinct time horizons. According to Wu et al. [28], the ICEEMDAN decomposes time series into inherent mode functions (IMFs) at multiple time scales due to its data-intensive nature.
e decomposition methods are empirical and adaptive, and they are designed to account for nonstationary, nonlinear, and complex data while making no assumptions about their characteristics [28][29][30]. e ICEEMDAN outperforms the variational mode decomposition (VMD) [28] and wavelet-based decompositions [30]. Several scholars [28,31,32] have resorted to the ICE-EMDAN technique to investigate the dynamics of economic 2 Complexity markets due to the relative advantages it possesses over other decomposition techniques from the family of the empirical mode decompositions (EMDs) of Huang [33], which are considered superior on their own notwithstanding their limitations [30]. e EMD, for instance, has been critiqued for a "mode mixing" issue. e ensemble EMD (EEMD) designed to counteract the limitations of the EMD through the introduction of the white Gaussian noise also comes with its limitation such that the aggregate of the modes, the reconstructed signal, and the final trend produced from the algorithm are rooted with residual noise; also, a varied number of modes are likely to be generated, which makes the final averaging difficult [34]. e complementary ensemble EMD was further designed to overcome the reconstruction limitation of the EEMD through the use of paired complementary noise, but the completeness property is not yet proven; also, the final averaging limitation remains unresolved, since a variable number of modes could be generated by different copies of the signal [34].
Lastly, on the family of EMDs, the complete EEMD with adaptive noise (CEEMDAN) technique was developed to offer an essential advancement over the EEMD by reaching a minimal reconstruction error and dealing with the limitation of a varying number of modes for different signal plus noise realisations and has been satisfactorily employed in areas like biomedical engineering [35], building energy consumption [36], seismology [37,38], and financial markets [8,30].
Despite the satisfactory attention received in diverse fields, CEEMDAN still has certain drawbacks. e modes produced by CEEMDAN come with residual noise, and the signal information appears "later" in CEEMDAN than in EEMD, with some "spurious" modes in the early phases of the decomposition [34]. An observation of the signals studied in the works of Colominas, Schlotthauer, Flandrin, and Torres [39] and Torres, Colominas, Schlotthauer, and Flandrin [40] reveals that the first two or three modes yield a significant amount of noise and comparable signal scales. In this study, these two drawbacks are addressed by employing the improved form of the complete ensemble empirical mode decomposition with adaptive noise, the ICEEMDAN technique.
In addition to the novel decomposition approach, the ICEEMDAN, the Rényi entropy, a unique form of entropy that applies appropriate weights to distinguish tailed distributions, is employed in this study. Financial assets contain wide tails, which the Shannon entropy cannot account for. ese fat tails, which must be accounted for, are especially powerful in turbulent trading periods such as the one introduced by the COVID-19. Transfer entropy (TE) is a new technique for measuring causal influences which captures model-free information flow measurement, does not rely on data structure or linearity, and is resistant to spurious associations, making it a novel technique for traditional causality frameworks such as the Granger causality test [27].
is method is also noted for estimating the flow of information between "two" return series, and it is widely used in a variety of scientific fields.
Given the relevancy of TEs in examining information flow between dual time series, it is necessary to employ the appropriate form of transfer entropy. Shannon entropy (SE) is one form of entropy that has been prevalently employed in studying financial data series. Nonetheless, it has substantial drawbacks that need to be dealt with [41]. In the course of data distribution, SE is ineffective in attributing equal weights to distinct sections [42,8]. e SE form of entropy does not account for fat tails, which are common to financial time series [8]. ese fat tails seem stronger in pandemics like the COVID-19 [8] and need to be dealt with accordingly [43]. By introducing a weighting parameter (as the methodology details), the Rényian entropy overcomes this drawback of SE. is renders the Rényi entropy a suitable form of transfer entropy to be used in this study.
is study's major contributions are summarised as follows. First, the study employs the ICEEMDAN, which corrects the flaws of subjective wavelet decomposition, which is rarely employed to investigate correlations across time scales [28][29][30]. It also overcomes the shortfalls of the CEEMDAN and other decomposition techniques, which may leave behind residual noise in the model and may also be associated with spurious mode problems. Second, no previous research has used transfer entropy analysis to analyse the association between COVID-19 and equities markets based on ICEEMDAN, per the existing literature.
is paper examines dynamic correlation over the short-, mid-, and long-term horizons using the Rényi transfer entropy (RTE) approach. ird, frequency decompositions themselves provide a method for assessing the pandemic's ostensibly negative impact on various time scales. is allows economic actors and governments to change their judgments (policy actions) vis-à-vis the going concern based on the flexibility and variety of market players. Lastly, the study is centred on Islamic and conventional equities, which serve as major asset classes on their own. e study helps to reveal diversification, safe haven, and hedging prospects among these asset classes over diverging time scales.
From the findings, the ETEs at the composite level suggest no diversification prospect between Islamic and conventional equities. At the frequency-domain level, the findings divulge some portfolio diversification potentials in the short-and intermediate-terms only. e study finds that the long term presents different dynamics where the majority of the ETEs are insignificantly positive, suggesting that Islamic and conventional markets are almost saturated with COVID-19 information flow.
In addition to Section 1 are Sections 2-6, which, respectively, address a review of the literature, the methods used, data and preliminary analysis, empirical results and discussion, and conclusions.

Literature Review
Fama et al. [44] establish theoretically that financial markets respond to information, which is expected to render them efficient [45,46]. In the spirit of Benthall's [47] situated information flow theory (SIFT), causal relations are retrievable amid financial markets (assets) due to mutual Complexity 3 information sharing.
e SIFT uses the philosophy of Odegard [48] and the statistics of Pearl [49] to generate quantified intrinsic information common to two random variables. If the relationship between two random variables could be inferred by way of analysing the extent to which one of the variables could learn the state of the other through observation, then there is mutual information shared by the variables [47]. In the context of this study, stock markets cannot affect COVID-19 case counts and, hence, a one-way flow where stocks are likely to observe the behaviour of COVID-19 related information flow through the mutual and intrinsic information they share in the COVID-19 pandemic era is considered.
e study proposes that the responses offered by Islamic and conventional stock markets to information flow from COVID-19 would most likely differ across investment horizons owing to investor complexities and this could result in diversification prospects between Islamic and conventional stock markets. e complexity of investor demands rekindles the fundamental notion of portfolio diversification. Based on Markowitz's [50] modern portfolio theory, it could be recognised that there are alternative markets (assets and/or asset classes) in which investors deliberately devote a portion, or all, of their investment to one of two overriding goals: portfolio return (risk) maximisation (minimisation). As a result, investors adopt an acceptable portfolio objective based on the time horizon and market conditions, ensuring that the marginal returns produced by the additional assets they include in their portfolios outweigh the marginal risks associated with their inclusion. e fulfilment of any of these competing goals prompts investors to look for assets that may provide safety nets throughout a wide range of time frames, especially in stressful trading periods.
During market crises, the heterogeneity of financial markets across jurisdictions increases, causing investors to respond to information flows in the market in a variety of ways. is indicates that investor behaviour, particularly in the face of crises, will vary over time. Besides, the peculiar differences in IFMs and conventional markets are likely to trigger unique investment responses in turbulent trading periods. e above reasons show that investors' behaviour during volatile market times is asymmetric and time-based, which is reflected in assets' market prices. ese circumstances, although oppose the efficient market hypothesis (EMH) [45,46], support the adaptive and heterogeneous markets hypotheses, AMH [51] and HMH [52], respectively. e adaptability and heterogeneity of markets have been shown in recent literature [53][54][55].
e AMH proposes that structural changes drive the establishment of markets, resulting in time-varying market efficiencies. Investors analyse their risk and return preferences in making investment decisions over various time scales, according to the HMH, after taking into account historical and present news items. ese theories or market hypotheses imply that empirical research should take into consideration temporal scales that represent the time dynamics of investor behaviour. Corollary to the heterogeneity and adaptability of investors, time could be redefined as the inherent time that runs parallel to short-, intermediate-, and long-term perspectives. In the context of asset pricing and returns, the time-dependent dynamism of investor behaviour causes noise, nonstationarity, nonlinearity, and asymmetry. As a result, empirical studies involving financial assets must apply approaches that account for all of these complications.
e Islamic and conventional equities markets have received satisfactory attention [56][57][58]; yet they do not capture the prevailing recent episodes of financial crises like the COVID-19 pandemic era. A similar observation is made with Umar et al.'s [59] study, which focused on Shariahcompliant equities only. e body of knowledge holds records for some empirical works covering the impact of COVID-19 on financial markets. Spillover and asset allocation [60][61][62], commodities markets [63][64][65], environmental, social, and governance (ESG) indices [60,66], currencies, cryptocurrencies, and fiat currencies [60,67,68], bond markets [69], and so forth have been the focus of the initial strand of literature spanning over the era of the COVID-19 pandemic.
ese studies largely reveal time-and frequency-dependent diversification opportunities between the studied financial markets. Notwithstanding, these works are limited by the decomposition approach, the wavelet technique. While recent techniques such as the Fourier transform [72], wavelets transform [73], and adaptive optimal-kernel timefrequency representation [74,75] have been employed in capturing frequency patterns in financial time series, they either insufficiently detect and reduce noise or fail to account for it [76,77]. As an additional drawback of the wavelets approach, the number of IMFs is exogenously determined, allowing the researcher to impose an arbitrary scale that may contradict theory [76], which may bias the results and conclusions generated. Besides, the existing studies, per their methods, fail to quantify the flow of information from the COVID-19 pandemic to Islamic and conventional equities markets.
Owing to the exuberant market dynamics during the COVID-19's tumultuous trading phase, stock markets will have huge information structures, which, according to Huynh et al. [27] may result in negative bubbles. Corollary to these negative bubbles, the right approach must be used to quantify information flow within financial markets. In terms of the driving and responding transfer for two or more variables changing in time, a theoretic measure of information may be determined.
is is what Schreiber [78] defines as the transfer entropy (TE).
Several empirical researches have employed the TE to investigate the impact of COVID-19 on the global economy. In their study, Lahmiri and Bekiros [79] used the "Largest Lyapunov Exponent" (LLE), which is based on the Rosenstein approach and approximation entropy. One of the main reasons for their study is the method's ability to 4 Complexity accommodate small samples. At this stage of the pandemic, the sample has increased considerably. e body of knowledge on the frequency-domain connectivity of COVID-19 and stocks markets within the context of information transmission is expanding. Lahmiri and Bekiros [42] studied the impact of COVID-19 on the unpredictability of international stock volatilities using the Shannon entropy wavelet transform domain. Using multiscale transfer entropy, Wang J. and Wang X. [80] investigated the impact of COVID-19 on important global stocks, currencies, and Bitcoin. On the one hand, these studies are hampered by small sample bias, and, on the other hand, they used Shannon entropy, which is prone to assigning different regions of the data distribution similar weights (see [8]).
More recently, Ferreira et al. [81] employed the transfer entropy approach to examine the bidirectional connectedness between leading Central Eastern European Countries (CEEC) stock markets. e authors found significant comovements between CEEC equities. By employing static and dynamic methods, Ferreira et al. [82] examined the connectedness between energy commodities and energy equities. e transfer entropy analysis revealed that clean energy equities respond to WTI oil price movements. As a drawback to these studies, they do not delineate signals into multiple scales to represent investment horizon and thus investor complexities, adaptability, and heterogeneity of financial markets [53][54][55] are not catered for.
Corollary to the limitations in the extant literature, this work is one of the few in the literature that uniquely tackles these gaps. e entropy methodology grounded on the Improved Complete Ensemble Empirical Mode Decomposition with Adaptive Noise (ICEEMDAN), a data-driven methodology, is employed to assess the flow of information from COVID-19 to Islamic and conventional equities. As a result, the study covers a longer sample period, which is necessary to better understand the intricacies of investor behaviour within and across IFMs and conventional markets in the era of the COVID-19 pandemic.

Methods
e methodological approach consists of two phases. First, the ICEEMDAN approach is used to decompose the return series into IMFs, which represent intrinsic time, and is divided into short-, intermediate-, and long-term horizons.
is decomposition facilitates the examination of COVID-19's impact throughout a range of decision-making time horizons. Second, the Rényi transfer entropy (RTE) specification is employed to calculate effective transfer entropy (ETE). Quantification of the flow of information from COVID-19 to equities markets is done by the RTE by giving more weight to the "ends" of distributions, which corresponds to the stylised realities of financial assets.
In a nonparametric fashion, nonstationarity, nonlinearity, and asymmetry in the series are handled by these techniques [83]. e one-sided information flow from the COVID-19 pandemic to the Islamic and conventional equities is the focus of this study. It is only natural that no information is sent from the equities to COVID-19.
Corollary to this, no decomposition is made of the COVID-19 series since, unlike an investor who adjusts his decisions over time, COVID-19 is not an economic agent to make judgments.

ICEEMDAN.
It has been long understood by economists that the connectedness of variables in terms of direction, degree, and shape is distinct across time scales [84]. Nonetheless, until recently, there were no methods available to delineate economic data series into all orthogonal timescale components. Additionally, the instruments to cope with noise, which often dominates short-term financial asset series [84,85], are now accessible. e latest constituent of the empirical mode decomposition (EMD) family, the ICEEMDAN, from Huang [33], is a good example. e signal-to-noise ratio (SNR) minimisation of mode decompositions in unsteady-state signals, efficiency, and reconstruction accuracy are the ICEEMDAN's strengths [86]. In comparison to other versions, Colominas et al.'s [34] ICEEMDAN has the best of these properties. In addition to handling spurious modes and the presence of residual noise in the modes, the persistence of a significant amount of noise and comparable signal scales, which are a limitation of the CEEMDAN, are handled by the ICEEMDAN [34]. While the CEEMDAN performs a better job of eliminating noise, reconstructing the signal, and finding SNR [30], it falls short on two fronts: (i) residual noise is included in the model, as well as (ii) spurious mode problem, as Li et al. [29] identify.
Adapted from Li et al. [29] and in line with Colominas et al.'s (2014) specifications, the ICEEMDAN algorithm is summarised as follows: Step I: a white noise τ 1 [ω (i) ] is appended to a signal x, to yield a new series where ω (i) , ρ 0 , and N are, respectively, the i-th white noise added, SNR, and the amount of white noise appended.
Step II: estimation of the local mean of x (i) is made using EMD to retrieve the first residual from which first IMF c 1 � x − r 1 can be obtained.
Complexity e ICEEMDAN approach results in decompositions ensuring that the residual noise and the mean value problems caused by the varied numbers of IMFs created by EEMD are substantially reduced [29,34]. In line with Colominas et al. [34], throughout the decompositions, default experimental parameters (e.g., for maximum iterations, the maximum number of modes, etc.) were maintained. Decompositions (using the ICEEMDAN approach) were carried out under the MATLAB programming environment. Commensurate with the extant literature [31,32,34], a flowchart of the ICEEMDAN decomposition technique is presented in Figure 1.

Rényi Transfer Entropy.
e generic information theory [90] results in transfer entropy (TE). e theory uses an algorithm to calculate the quota of symbolic series that may occur in a given probability distribution [43,91]. Contemporary works on TE are based on Shannon's [92] arithmetical communication theory as an uncertainty measure, which is derived from information theory.
For a probability distribution with different symbols of a specific experiment P j , the mean information for a symbol is defined as where n signifies the quota of different symbols related to p j probabilities [90]. e mean quota of bits essential to optimally encode independent draws [91] may be approximated using the Shannon [92] framework (hereafter termed as Shannon entropy (SE)) for a discrete random variable J with p(j) probabilities.
e Kullback and Leibler [93] distance (KLD) model is used in quantifying the flow of information between twotime series procedures under the SE framework given that two-time series procedures are Markov. I and J are provided as two discrete random variables with equivalent marginal probabilities of p(i) and p(j), as well as a joint probability of p(i, j), and a dynamic stationary Markov process of order k(process I) and I(process J). e Markov property states that the probability of observing I in state i at time t + 1 conditional on k prior observations is p(i t+1 |i t , . . . , i t−k+1 ) � (i t+1 |i t , . . . , i t−k ). e average quota of bits required to encode the observation at t + 1 before k values are known may be expressed as where i (k) t � (i t , . . . , i t−k+1 ) (analogously for procedure J). e flow of information to process I from process J is assessed in a bivariate scenario by measuring the variation from the generic Markov property , which is based on the KLD. e Shannon transfer entropy is then expressed as follows: where T J⟶I estimates the information flow from J to I. en, again, information flow from I to J, T J⟶I , can be derived. e net information flow, which is determined as the difference between T J⟶I and T J⟶I , is the fundamental path of information flow.
Despite its usefulness in finance, the SE does not provide equal weight to all possible outcomes in a probability distribution. Fat tails, which are ubiquitous in asset pricing and returns, are not taken into account by this assumption. Notwithstanding, employing a weighting value q, the Rényi [94] transfer entropy (RTE) overcomes the issue. e RTE may be calculated using the formula with q > 0. For q ⟶ 1, RE converges to SE. For 0 < q < 1, thus, events with a low probability are given more weight, while for q > 1 the weights favour outcomes j with a higher initial probability. As a consequence, depending on parameter q, RTE allows for varied priorities to be offered to different regions of the distribution [41,91]. is, unlike SE, is a desirable feature of RTE's application in finance. Moreover, with the escort distribution, ∅ q (j) � p q (j)/ j p q (j) for q > 0 to normalise the weighted distributions [95], RE is derived as Note that the RTE calculation might yield negative estimates. Noting the history of J, in this case, suggests significantly extra uncertainty compared to noting the history of I only would imply. Negative numbers imply higher risks in the context of our study, whereas positive ones suggest fewer risks.
Transfer entropy estimations are prone to bias in small samples [96]. e effective transfer entropy (ETE) could correct this and may be calculated as follows: where the transfer entropy using stumbled forms of the time series J is denoted by T Jshuffled⟶I (k, l). e procedure removes the time series serial dependence of J while retaining the statistical dependence between J and I by repeating random draws from the observed time series J and realigning them to form a new time series.
is causes T Jshuffled⟶I (k, l) to converge to zero as the sample size grows, and any nonzero value of T Jshuffled⟶I (k, l) is caused by small sample effects. As a consequence, recurring shuffles and the mean of the shuffled transfer entropy approximations across all repetitions may be used as a small sample bias estimator. To get bias-corrected effective transfer entropy estimates, they are deducted from the RE estimations.
e Markov block bootstrap approach may be used to establish the statistical significance of transfer entropy estimations. Unlike shuffling, this keeps the dependencies inside variables J and I but removes the statistical dependencies between them. As a result, per the null hypothesis of no information flow, bootstrapping produces a distribution of transfer entropy estimates that may be examined. 1 − qT yields the related p value where qT specifies the quantile of the simulated distribution generated by the relevant transfer entropy estimations (see [8,91]).
Finally, because transfer entropy techniques were designed to cope with discrete data, the framework's continuous data must be discretised. is is accomplished by dividing the data series into a finite quota of bins, a technique known as symbolic encoding [8,91]. e emblematically encoded time series (i.e., discrete) for a quota of bins n and bounds q 1 , q 2 , q 3 , . . . , q n−1 (q 1 < q 2 < q 3 < . . . < q n−1 ) and continuous observed time-series data y t may be represented as ⋮ n − 1, q n−2 < y t < q n−1 , n, y t ≥ q n−1 .
When choosing the number of bins, the magnitude and distribution of the studied time series must be noted. Because tail data is crucial, binning is usually based on pragmatic quantiles of the left and right tails. Using the empirical quantiles of 0.05 and 0.95 as the lower and upper bounds of the bins, this is easily achieved. As a result, there are three symbolic encodings: negative extreme returns (lower tail) are in the first bin (0.05), positive extreme returns (upper tail) are in the third bin (0.95), and normal returns are in the second bin (intermediate, 0.90). Using the chain rule on the emblematic encoding, conditional probabilities may be expressed as proportions of joint probability. Consequently, the probabilities in Equations (7) and (9) may be calculated using the relative frequencies of all likely realisations.

Data and Preliminary Analysis
e daily stock market indices for 17 key Islamic markets across the Middle East (Bahrain, Egypt, Iraq, Jordan, Kuwait, ...

Complexity
Oman, Palestine, Qatar, Saudi Arabia, and UAE), Africa (Morocco), and Asia and Pacific (Bangladesh, India, Indonesia, Kazakhstan, Malaysia, and Pakistan), as well as G7 stock markets (Canada, France, Germany, Italy, Japan, the UK, and USA) and key NASDAQ global indices (global market composite index (GMI), Europe index (EUMI), emerging markets index (EMI), developed markets index (DMI), and BRIC index (BMI)), were utilised in the study. e data set spanned between 22 January 2020 and 08 September 2021. e daily stock indices were extracted from EquityRT (https://www.equityrt.com/) and the worldwide cases of confirmed COVID-19 cases per day were retrieved from OWID (https://raw.githubusercontent.com/owid/ covid-19-data/master/public/data/owid-covid-data.xlsx). e inclusion of the key global indices is to cater for the section of the conventional equities which is not represented by the sampled markets. A few of the chosen indices overlap because some of them are subsets of others. is is useful for determining COVID-19's overall and dispersed impact on equities markets. e log-returns of the daily stock indices were computed as r t � log(P t ) − log(P t−1 ), where r t is the return from period t − 1 to t and P t−1 and P t are data points at the respective periods t − 1 and t.
To enable comparison, the study maintained a balanced set for estimations by matching all data series by date.
A trajectory of the data used in the study is presented in Figure 2, with the descriptive summary in Table 1. e purpose is to offer an overview of the trend of the studied equities markets over the COVID-19 pandemic period.
It could be seen from Figure 2 that, in the initial periods of the COVID-19 pandemic, which was rapidly escalating in terms of confirmed cases, all of the indices appeared to have a severe negative trend. While COVID-19 verified cases have continued to climb to this day, the markets have been more stable, with rising inclinations evident since certain countries went under lockdown in early February 2020. In the early days of October 2020, the markets began to plummet again when most countries began to ease lockdown rules and overseas travel recommenced gradually. is contributed to a second wave of the virus approaching the Christmas season, as Owusu Junior et al. [8] and Salyer et al. [97] also report. Markets, on the other hand, have been trending higher since December 2020 (the start of the Christmas season), as fears of a second wave faded.
e indices' negative trend shows investors' and the economy's reaction to apocalyptic events such as pandemics. is observation ignites the findings of Sander et al. [98]. e unfavourable correlation between epidemics and financial markets is intuitive and comprehensible.
A glance at the descriptive summary of the return series in Table 1 reveals numerous noteworthy aspects of the stock market return rates under consideration. roughout the studied period, except for Bahrain, Egypt, Indonesia, and Oman, all other indices had positive averages. e negative skewness statistics for all markets except Bangladesh, Kazakhstan, Malaysia, Saudi Arabia, France, Germany, and Japan show that, in the COVID-19 era, bigger losses outnumber larger earnings in all other equities markets under consideration. Whereas the G7 markets (France, Germany, and Japan) might have put in place some stringent measures against the pandemic to ensure the positive skewness, the case for the Islamic markets (Bangladesh, Kazakhstan, Malaysia, and Saudi Arabia) might result from the fundamental nature of the market to resist some form of shocks during crises. e descriptive summary also suggests that, except for Japan, all of the return series' kurtosis statistics showed excess kurtosis. In comparison to a normal distribution, this suggests that the returns have a lot of tails. As it is a stylised fact about financial time series [99], this observation is hardly surprising.

Empirical Results
e fundamental objective of this study is addressed in this section. For each effective transfer entropy (ETE), the results from both Shannon ETE and Rényi ETE are presented to prove the relative desirability of Rényi ETE. e information flow from COVID-19 to the equities markets under study is analysed.
e study focuses on the one-way flow from COVID-19 to the equities markets because stocks cannot influence COVID-19 cases.
e RE technique produces ETEs that are both negative (high risk) and positive (low risk). Diversification is enabled by pairing negative receiving ETEs equities with positive receivers. A fault weight of 0.30 is adopted to account for fat tails in the return series, which corresponds to the stylised fact about financial time series. e study also presents the results in the frequency domain and at the composite level. In the latter, IMFs 1-5 and Residual are utilised to indicate intrinsic times of short-, intermediate-, and long-term dynamics, with the residual reflecting the long-term trajectory, which reveals the underlying character of the relevant series. Evaluations of the markets' dynamic response to the COVID-19 pandemic are made using the time scales.
ETEs are shown by black points within blue bars. ey are presented at both the composite and the frequencydomain states. e 95% confidence bounds are indicated at the ends of the blue bars. As a result, a rejection of the null hypothesis of "no information flow" holds if these confidence boundaries are in either the positive or negative sections. Information flow is insignificant if there is any overlap at the origin. Figure 3 reveal both positive and negative directions of information transfer (ETEs) from COVID-19 to the studied Islamic and conventional equities markets. Specifically, at the composite state, the study finds a negative information transfer from COVID-19 to the equities markets in Bahrain, Indonesia, Kazakhstan, Kuwait, Morocco, Pakistan, Palestine, Qatar, Saudi Arabia, and USA but positive one in all other markets. Notably, from the global indices studied, the emerging markets index (EMI) also showed that it is positively affected by COVID-19 related information flow.

Rényi ETEs Analysis. Observations made from
is is not surprising because most of the individual markets found to be negatively impacted by COVID-19 ETEs are classified as emerging. us, the aggregate impact is supported by the  10 Complexity individual impacts. ese negative impacts signify that the equities markets are characterised by high risk. However, it is important to note that all the composite ETEs lack statistical significance.
Turning to the frequency-domain ETEs, the study finds that, except for Japan, Pakistan, Qatar, and UAE, all ETEs at IMF1 are negative and statistically nonsignificant. is is an indication that, in the early days of the pandemic, several   Islamic and conventional equities markets were negatively affected by information flow from COVID-19. After a short while in the early periods of the pandemic, equities markets strategised and this saw a few markets responding positively to the pandemic, as IMF2 depicts. More importantly, three ETEs, Bahrain (negative), Japan (negative), and Jordan (positive), proved to be statistically significant, suggesting that equities from Bahrain and Japan are highly risky owing to COVID-19, whereas equities from Jordan have relatively low risk due to COVID-19. Intuitively, possible diversification opportunities are provided by these stocks in the short run, with two possible combinations: (i) Jordan and Bahrain and (ii) Jordan and Japan. ese combinations would result in minimising (maximising) portfolio risk (returns) in the COVID-19 era. ese are the only diversification opportunities in the short term between the studied Islamic and conventional equities. At IMF3, several negative and positive receiving ETEs are spotted with the only significant ETEs being Bahrain and Indonesia, both of which are negative (highly risky). is finding is not far from that of Abdullahi [14] who revealed that Islamic markets have also been constrained by the COVID-19 pandemic.
is observation also rests well with the projections of S&P Global [15] concerning IFMs. e number of negative receiving ETEs increases across the time horizon. At IMF4, Bahrain, Canada, Malaysia, and the UK are found to be negatively affected by the pandemic's information flow, which means that COVID-19 creates high risks for these markets in the mid-term. e study reveals another diversification opportunity between Islamic and conventional equities at IMF5, where UAE and USA are negative (highly risky) ETE recipients and Japan is a positive (low risk) ETE recipient. e only two possible combinations for the intermediate term presented include (i) Japan and UAE and (ii) Japan and USA. e long term presents different dynamics where, at the residual level, the majority    of the ETEs are positive, suggesting that the markets are about to get saturated with COVID-19 information flow. Bangladesh, the emerging markets index, Germany, Kazakhstan, and Kuwait were found to be negative ETE recipients in the long run. No significant diversification opportunities for the studied Islamic and conventional markets are found in the long run. A summary of the significant diversification opportunities and the plausible combinations for Rényi and Shannon ETEs is presented in Table 2.

Shannon
ETEs. e Shannon ETE results (see Figure 4), taken as a whole, support the Rényi ETE's efficiency. It is worth noting that the Shannon ETE gives the tails of the return distribution equal weights. As a result, it is not surprising that the findings contradict the stylised realities of asset returns. e results in Figure 4 show that COVID-19 has no substantial negative transfer entropies to the studied Islamic and conventional equities. Only positive information flows are documented when their significance is proven. Regardless of the investment horizon, the Shannon ETEs imply only significantly high risks for equities. ey also imply that there is no prospect for diversification within the collection of Islamic and conventional equities classes.
Wholistically, under the Shannon ETEs, the study discovers no equity market (except for Qatar) as a significant recipient of ETEs at the composite level. With increasing frequency, the number of significant ETEs tends to increase. In the long run, there exist significant ETEs to some equities markets. ese findings confirm the CMH, HMH, and AME in general. ey do not, however, agree with the EMH in that the COVID-19 pandemic is yet to cause all markets to react in the same way across all investment horizons. Moreover, the Rényi   Complexity suggests that the fundamental market dynamics are yet to be reverted to.  [3], Owusu Junior et al. [103], Owusu Junior and Tweneboah [76], and Yang et al. [85]. Investor attitudes and market dynamics characterise the short term; the influence of significant events characterises the intermediate period; fundamental features characterise the long term [85]. e findings, in keeping with these delineations, show prospects of diversification across the short and intermediate terms, between either Jordan and Bahrain and Jordan and Japan or Japan and UAE and Japan and USA, for the respective time scales. e findings, which suggest time-and frequency-dependent diversification opportunities between the studied equities, corroborate the conclusions made by the extant literature using wavelet analysis [60,[66][67][68] and transfer entropies [8,25], although different variables were employed in different contexts.
On the premise that structural changes drive the creation of new markets, which brings about time-dependent market efficiencies, the findings corroborate the principles of Lo's [51] adaptive market hypothesis (AMH). is is evidenced by the positive and negative transfer entropies (ETEs) that vary over time horizons. Additionally, according to the heterogeneous market hypothesis (HMH) engineered by Müller et al. [52], investors analyse their risk and return preferences in making investment decisions over various time scales, after considering historical and present news items. is suggests that the variations in the direction and significance of ETEs for the Islamic and conventional equities studied also reflect Müller et al.'s [52] HMH. It is intuitive to note that the findings rekindle the competitive market hypothesis [8], which advances that, during volatile market times like the COVID-19 pandemic, information flow and spillovers across assets and/ or asset classes accelerate for rational, yet irrational investors' never-ending pursuit for competitive rewards and risks to achieve portfolio goals. Within the short and intermediate terms, the varying ETEs revealed present shaking evidence in support of the efficient market hypothesis of Fama [45,46].

Conclusions
e study investigated the effect of COVID-19 information flow on Islamic and conventional equities returns to assess whether the information flow from COVID-19 leaves behind safe haven, diversification, or hedging prospects for global equities investors. e study addressed three main questions: (i) Are there differences in the way Islamic and conventional equities respond to information flow from COVID-19? (ii) Are there diversification prospects for Islamic and conventional equities in the post-COVID-19 era?
(iii) At what time scale(s) could diversification be achieved? A total of 29 daily stock market indices made up of 17 key Islamic markets across the Middle East (10), Africa (1), and Asia and Pacific (7); G7 stock markets; and 5 key NASDAQ global indices were employed in the study. e data set spanned between 22 January 2020 and 08 September 2021.
First, the ICEEMDAN approach was used to decompose the return series of the 29 stock market indices into intrinsic periods, which represent the short-, intermediate-, and longterm horizons.
is aided in understanding the dynamic nature of investors' responses to the pandemic while also reducing noise in the series. is strategy is commensurate with the AMH, CMH, and HMH, all of which are opposed to the EMH. Second, the Rényi transfer entropy (RTE) was used on compound series and their associated frequency domains to measure information flow from COVID-19 to equities markets. A fault weight of 0.30 was specified to cater for fat tails in stock returns. In the middle of the COVID-19 pandemic, Rényi transfer entropy accommodates for fat tails in equity returns while discriminating between high-risk (negative ETEs) and low-risk (positive ETEs) equities. For comparison and to prove RTE's efficiency over the Shannon entropy (SE), the ETEs for SE were also reported.
e results show a few substantial differences in the way Islamic equities respond to COVID-19 information flows relative to conventional equities; this resulted in the diversification prospects which were revealed in the short term and intermediate terms between equities from Jordan and Japan and Japan and UAE, respectively. e findings, to a large extent, support the EMH [45,46] in the long run, but, in the short and medium run, they support the AMH [51], the HMH [52], and the CMH [8], all of which are anti-EMH. In the long run, where the underlying characteristics of the equities markets are operational, there is insufficient empirical evidence to reject the null hypothesis that "there exists no significant COVID-19 related information flow to the studied Islamic and conventional equities markets." Generally, the findings suggest that, in response to market dynamics, investors modify their mood, risk, and reward preferences across time to fulfil their portfolio objectives. When the underlying structure of equity markets is displayed on the Residual horizon, COVID-19 provides only positive information to practically all markets, with few exceptions, but none of them is statistically significant. e insignificance of the positive flow sends an important message to all market participants. e pandemic (the number of confirmed cases and the resulting hysteria) has had little influence on the Islamic and conventional stock markets.
e short-and intermediate-term market dynamics are attributable to irrational investor behaviour resulting from fear and paranoia linked with the pandemic, which the majority dismisses as noise [8,104,105].
Due to the prevalent news concerning the pandemic, investors may have calmed down and achieved more balanced portfolios in the long run, so, intuitively, the pandemic may not have a significant impact on future investment and policy decisions for potential investors and policymakers within the Islamic and conventional stock markets. is is because the pandemic fails to impart any risk 16 Complexity attributes (pleasant or unpleasant) of stocks to be evaluated or inculcated in allocating investible resources. In many aspects, this paradigm, in the long run, mirrors Fama's [44,46] efficient market hypothesis (EMH), in that the market actors' rationality is demonstrated despite the pandemic, corroborating the market's long-run efficiency [46]. In summary, the results provide insight into the significant implications of proven worldwide COVID-19 cases on selected Islamic and conventional stock markets. Accordingly, some policy implications are possible. First, legislators should pay greater attention to stock market swings as well as the number of verified COVID-19 cases, since they might affect market dynamics in the near term due to investor attitudes. In this instance, authorities should work out how to assist the market quickly and efficiently when the marginal number of COVID-19 confirmed cases is high. In severe instances, this may lessen the chance of a market crisis. Second, both local and worldwide events are likely to have an impact on investors. Consequential to clear and timely information concerning COVID-19, improved market predictions may occur. Investors and regulators should be increasingly worried about the risk of stock market comovements if the verified COVID-19 cases increase dramatically, since such integration would disparage diversification opportunities. Finally, the results provide advice to risk regulators on how to strengthen risk early warning systems by developing a daily monitoring technique for financial risk transmission across international borders. Risk regulators should employ management techniques that show how to use benefits, risk prevention, and risk management.
Data Availability e data used in the study are publicly available and, thus, the author decided not to share them.

Conflicts of Interest
e author declares that he holds no direct or indirect conflicts of interest.