key: cord-0963124-y7n34lgy authors: Corbet, Shaen; Larkin, Charles; Lucey, Brian title: The contagion effects of the COVID-19 pandemic: Evidence from Gold and Cryptocurrencies date: 2020-05-14 journal: nan DOI: 10.1016/j.frl.2020.101554 sha: 963b55fb290174bd4b28cf0ab4a937f72427d369 doc_id: 963124 cord_uid: y7n34lgy Abstract At the beginning of the 2020 global COVID-2019 pandemic, Chinese financial markets acted as the epicentre of both physical and financial contagion. Our results indicate that a number of characteristics expected during a ”flight to safety” were present during the period analysed. The volatility relationship between the main Chinese stock markets and Bitcoin evolved significantly during this period of enormous financial stress. We provide a number of observations as to why this situation occurred. Such dynamic correlations during periods of stress present further evidence to cautiously support the validity of the development of this new financial product within mainstream portfolio design through the diversification benefits provided. The escalation of the 2020 COVID-19 pandemic represented a global example of the fragility of the world in which we live and as to how vulnerable we are as a society to exceptional risks. However, such financial implications did not proceed without forewarning. In previous pandemics, such as the outbreak of 2003, Bhuyan et al. [2010] found that the stock market returns of the infected countries exhibited a significant increase in the cointegrated relationship and dynamic comovements, when compared to the pre-SARS period. While considering both the physical and psychological re-estimation of financial markets as to how global finance will return to normality in the aftermath the current global pandemic, our understanding of the interactions between financial assets must be scrutinised, particularly due to the ever-expanding side-effects of technological development of both the exchange, the speed of information flow ), the role of algorithmic trading (Jarrow and Protter [2012] , Kirilenko et al. [2017] ), and in more recent times, as to how digital currencies can act as not only a store of value during periods of market turmoil, but also as a source of portfolio diversification. Gil-Alana et al. [2020] identified a potential role for cryptocurrencies in investor portfolios as a significant diversification option for investors, with particular emphasis on Bitcoin and Ethereum. While Omane-Adjepong and Alagidede [2019] identified that any probable diversification benefits within cryptocurrencies are most like to be found within intra-week to intramonthly time horizons for specific market pairs, while the level of inter-market connectedness and volatility interlinkages are identified as being sensitive to both liquidity and volatility. Liu [2019] further identified portfolio benefits from the inclusion of cryptocurrency. When specifically investigating the market relationships between cryptocurrency and other traditional financial variables, Bouri et al. [2017] found that Bitcoin is a poor hedge and is suitable for diversification purposes only, a result that was echoed when considering the S&P500 exchange (Tiwari et al. [2019] ) and for each of the Eurostoxx 50, the Nikkei 225 and the CSI 300 (Feng et al. [2018] ). More recently, Conlon and McGee [2020] suggests that Bitcoin was neither a safe haven nor a hedge against the extreme bear market in the S&P500 occasioned by the COVID-19 pandemic. We specifically investigate the contagion effects associated with the onset of the COVID-2019 pandemic between Chinese stock markets, identified as the epicentre of the first registered cases as outlined in the timetable presented in Table 1 . We utilise these events to generate dummy variables through which we analyse the contagion effects centred in the price volatility of both the Shanghai and Shenzhen Stock Exchanges. Ramelli and Wagner [2020] identified that the COVID-19 pandemic had morphed into an economic crisis amplified through financial channels through a whipsaw pattern as corporate investors became increasingly worried about the accumulation of corporate debt and the substantial liquidity shortage that had manifested. Through the inclusion of these Chinese financial markets, denoted as the epicentre of the COVID-2019 pandemic, the Dow Jones Industrial Average as a measure of international financial performance (Ekinci et al. [2019] ), West Texas Intermediate oil and gold as international flight to safety assets (Akyildirim et al. [2020] ) and Bitcoin, which has presented evidence of inverse correlations with some international stock exchanges, thereby providing strong diversification benefits (Akhtaruzzaman et al. [2019] , ). In this study, we use hourly, and for robustness, daily returns to analyse the dynamic correlations between this range of financial assets. Our hourly returns are calculated as: (1) where r t,m is the return for hour h on trading day t. Time periods with no trading activity are determined to be best represented by the last traded price. Hourly data from 11 March 2019 to 10 March 2020 (5,701 observations), are used 1 denoted as both pre-and post-COVID-2019 pandemic (4,580 and 1,122 observations respectively) is denoted to be before or after 31 December 2019. Data is sourced through Thomson Reuters Eikon. Evidence of sharp declines are evident in the period thereafter through exceptionally changes evident in the minima, skewness and kurtosis of these short-term returns. The summary statistics for each variable are presented in Table 2 , with evidence of the associated share price behaviour and volatility presented in Figure The changing correlations between these financial assets are presented in Table 3 . Comparing the periods both before and after the COVID-2019 pandemic, we observe some strong changes in dynamic behaviour. There is evidence of elevated correlations between the selected Chinese exchanges, increasing from +0.889 to +0.967 as market conditions began to deteriorate. Particularly sharp increased correlation is also evident between Chinese markets and WTI (increasing sharply from +0.091 to +0.485), while the correlation between Chinese markets and gold, which was negative prior to the COVID-19 outbreak, grew to +0.335 and +0.347 respectively with the Shanghai and Shenzhen stock exchanges. However, with regards to the interactions between Chinese stock markets and digital currencies, we observe sharp, short-term, dynamic correlations between Bitcoin and Chinese stock markets in the period after the identification of the COVID-19 pandemic. To specifically To analyse the dynamic correlations between the corporate entities exposed to reputational exposure due to naming similarity from the COVID-2019 pandemic, we employ a standard GARCH (1,1) methodology of Bollerslev [1986] and extract dynamic conditional correlations (of Engle [2002] ) that takes the form: where r t , e t and h t are the returns of the investigated lagged corporate returns, international exchanges (Shanghai SE, Shenzhen SE and DJIA) and hedging alternatives (WTI, gold and BTC) at time t respectively. σ, η and γ represent the effects of lagged returns of each selected variable on the returns of the company's hourly price volatility. The variance equation includes the long-term average volatility α 0 . Similar methodological structures were utilised by Corbet et al. [2015] and . We explore the dynamic co-movements via the dynamic conditional correlations of Engle [2002] . The GARCH (1,1) specification requires that in the conditional variance equation, parameters α 0 , α 1 and β should be positive for a non-negativity condition and the sum of α 1 and β should be less than one to secure the covariance stationarity of the conditional variance. Moreover, the sum of the coefficients α 1 and β must be less than or equal to unity for stability to hold. The GARCH (1,1) methodology used in this study has the following form: R t−j represents the lagged value of the selected Chinese stock exchanges, the first being the Shanghai Stock Exchange, the second being the Shenzhen Stock Exchange. j reprents the number of hourly periods before R t is observed. b 2 DJIA t represents the interactions between the selected Chinese stock exchange and the DJIA, representing the influence of international effects. b 3 W T I t , b 4 G t and b 5 BT C represent the relationship between the selected companies and the returns of WTI, gold and Bitcoin respectively. D t and t i=1 D v are included in both the mean and variance equations to provide estimates of the corporate pricing and volatility estimates relating directly to the COVID-2019 pandemic. Bollerslev [1986] argued for restrictions on the parameters for positivity, ω > 0, α ≥ 0 and β ≥ 0, and the wide-sense stationarity condition, α + β < 1. While the GARCH (1,1) process is uniquely stationary if E[log(β + α 2 t )] < 0, Bollerslev [1986] also proved that if the fourth order moment exists, then the model can handle leptokurtosis. Bonferroni adjusted results are presented in this analysis. To cater the multiple hypothesis problem, we adjust the significance level using the Bonferroni correction, which leads to a significance level of 0.1%. The generalised Bonferroni method adjusts the significance level such that hypothesis H 0,(i) , i = 1, . . . , s, is deemed rejected if and only if:p This procedure has the advantage of being robust to the dependence structure of the hypothesis tests. In Table 4 we observe the results of the estimated GARCH methodology which was also presented as separated by the staxrting date of the Chinese outbreak of COVID-19. While some strong relationships between markets are identified when analysing the full sample of data, a number of interesting observations arise when considering the periods both before and after the start of the pandemic. Considering both the Shanghai and Shenzhen Stock Exchanges, COVID-19 is found to have a strong, significant positive impact on the volatility of each exchange. There is evidence of quite a sheltered interaction between Chinese and US financial markets, +0.119 and +0.160 for Shanghai and Shenzhen respectively. Similarly, there is quite a subdued positive interrelationship between WTI and Chinese stock markets, albeit it strongly significant. It is very interesting to note that neither gold nor cryptocurrencies, as measured through the price dynamics of Bitcoin, are found to have a significant relationship with Chinese stock markets. However, when analysing this same relationship using high-frequency data as presented in Figure 2 , we notice a peculiar interaction between Chinese stocks indices at the point of the onset of the COVID-19 outbreak. There is evidence of sharp elevations in dynamic correlations between these markets. Despite the elevation in dynamic correlations, the Chinese markets themselves held up remarkably well in the face of the domestic phase of the pandemic. A partial explanation might arise from the findings in Albulescu [2020] which finds that the spread of COVID-19 geographically is closely related to the degree of financial instability. Similarly Caporale et al. [2020] shows profound non-linear and phase transition behaviour in cryptocurrencies. Bitcoin is also exceptionally volatile. In the January-February period it showed a significant rise, led it is argued by fundamentals including position forming before an expected May forking event 2 , much but not all of which was erased as the global spread of the virus manifested. The two Chinese indices showed resilience over this period, as there was a sharp drop quickly erased as the Wuhan situation peaked as the perception of the Chinese government taking control was widespread. Gold prices also rose over this period, the early March period excepted but then showing a massive spiking as global travel restrictions and supply chain disruptions impacted supply. Cryptocurrencies have emerged as a new financial instrument. Their novelty, both in terms of time and their nature, makes it as yet unclear what their final status will be as a potential diversifier or otherwise. The evidence here, and in papers such as Conlon and McGee [2020] indicates that in times of serious financial and economic disruption these assets do not act as hedges, or safe havens, but perhaps rather as amplifiers of contagion. The behaviour of gold relative to cryptocurrencies in the Chinese markets reinforces results in papers by and Corbet et al. [2019] . January 11, 2020 The Wuhan Municipal Health Commission announces the first death caused by the coronavirus. A 61-year-old man, exposed to the virus at the seafood market, died on January 9 after respiratory failure caused by severe pneumonia. January 13, 2020 First cross-border transmission as Thai authorities report a case of infection caused by the coronavirus. The infected individual is a Chinese national who had arrived from Wuhan. January 30, 2020 WHO declares 2019-nCoV to be a "Public Health Emergency of International Concern" February 11, 2020 WHO announces a new name for the virus, COVID-19 March 11, 2020 WHO declares COVID-19 to be a Pandemic Note: The above table consists of the key events relating to the Chinese epicentre COVID-2019 outbreak. The dates represent dummy variables in the associated GARCH and DCC-GARCH estimations. 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 Note: The presented analysis was conducted using hourly data between the period 11 March 2019 and 10 March 2020 (5,701 observations), where the period denoted as both pre-and post-COVID-2019 pandemic (4,580 and 1,122 observations respectively) is denoted to be before and after 31 December 2019.. ****, ***, ** and * indicates statistical significance at the 0.1%, 1%, 5% and 10% levels respectively. The influence of bitcoin on portfolio diversification and design The financial market effects of international aviation disasters The development of bitcoin futures: Exploring the interactions between cryptocurrency derivatives The relationship between implied volatility and cryptocurrency returns Coronavirus and financial volatility: 40 days of fasting and fear Asian stock markets and the severe acute respiratory syndrome (sars) epidemic: Implications for health risk management Generalized autoregressive conditional heteroskedasticity On the hedge and safe haven properties of bitcoin: Is it really more than a diversifier? Non-linearities, cyber attacks and cryptocurrencies Safe Haven or Risky Hazard? Bitcoin during the COVID-19 Bear Market Investigating the dynamics between price volatility, price discovery, and criminality in cryptocurrency markets Analyst recommendations and volatility in a rising, falling, and crisis equity market Aye Corona! The Contagion Effects of Being Named Corona during the COVID-19 Pandemic The impact of macroeconomic news on bitcoin returns Bitcoin futuresâĂŤwhat use are they? Cryptocurrencies as a financial asset: A systematic analysis Exploring the dynamic relationships between cryptocurrencies and other financial assets Analysing the dynamic influence of us macroeconomic news releases on turkish stock markets Dynamic conditional correlation: A simple class of multivariate generalized autoregressive conditional heteroskedasticity models Can cryptocurrencies be a safe haven: a tail risk perspective analysis Cryptocurrencies and stock market indices. are they related? A dysfunctional role of high frequency trading in electronic markets High frequency volatility co-movements in cryptocurrency markets Volatility spillover effects in leading cryptocurrencies: A bekkmgarch analysis The flash crash: High-frequency trading in an electronic market Portfolio diversification across cryptocurrencies Multiresolution analysis and spillovers of major cryptocurrency markets Feverish stock price reactions to covid-19 Time-varying dynamic conditional correlation between stock and cryptocurrency markets using the copula-adcc-egarch model Figure 2 : Dynamic correlations between denoted company and the Shanghai & Shenzhen Stock Exchanges Note: The above figure represents the estimated dynamic correlations between the selected traditional financial assets and the Chinese stock exchange.