key: cord-0947902-nuw0dxkj authors: Griffith, Rachel; Levell, Peter; Stroud, Rebekah title: The Impact of COVID‐19 on Share Prices in the UK(1) date: 2020-06-01 journal: Fisc Stud DOI: 10.1111/1475-5890.12226 sha: ab98cf8c70e24011abfb4b01c96a90fff4800b27 doc_id: 947902 cord_uid: nuw0dxkj The spread of COVID‐19, and international measures to contain it, are having a major impact on economic activity in the UK. In this paper we describe how this impact has varied across industries using data on share prices of firms listed on the London Stock Exchange, and how well targeted government support for workers and companies is in light of this. This article is protected by copyright. All rights reserved In this paper we describe how the impact of COVID-19 has varied across industries using data on share prices of firms listed on the London Stock Exchange, and how well targeted government support for workers and companies is in light of this. This follows Ramelli and Wagner (2020) who describe the impact on the US and China by looking at changes in share prices, and Gormsen and Koijen (2020) who provide further analysis of the US. Shares prices convey important information on market expectations on firms' current and future profitability. Buying a share (or stock) makes the purchaser a part-owner of a company. Shareholders get a vote in certain corporate decisions (for example to select members of the company board), and perhaps more importantly, they are also paid a share of the company's profits (dividends). Importantly, the values shares are trading for in the stock market tells us not only about how well a company is doing today but also how well they are expected to do in the future. This is because the price of a share reflects not only the dividends a company currently pays, but also investors' expectations of the dividends it will pay in future years. If investors believe the dividends a company pays will go up, they will be willing to pay more to get hold of its shares today, and consequently its share price will rise. If, on the other hand, investors are worried about the future profitability of a company, its share price will fall. Changes in share prices in the present therefore reveal information about the future, making them a useful source of information for understanding how a given event is expected to affect different companies and industries. In the context of the rapid spread of COVID-19, changes in share prices reflect market expectations about a number of effects, including: changes in final demand (people are buying more of some items and less of other items), changes in intermediate demand (the firms that they sell to are changing what they want to buy and how much), and restrictions in supply (it may be difficult for some firms to obtain inputs they need due, for example, to interruptions to their supply chain). Stock market data is available much more rapidly than official data on, for example, unemployment or GDP growth. Indeed, it is updated second by second as investors act on the latest information, making a valuable and timely source of information. It does have a few limitations however, when it comes to measuring the impact of the crisis. It does not include small firms, firms which are not listed on the stock exchange, the third sector or the public sector, which might be affected quite differently. For example, many public sector services have seen an increase in demand during the crisis. In addition, many of these firms operate internationally, so changes in their share prices will represent the effects not only on the UK economy but also in other markets that they operate in. Finally, other factors may also have affected share prices over this period. For example, a price war between major oil producing countries led to a falls in international oil prices and the share prices of fossil fuel companies companies in late February and March. Figure 1 shows the percentage change in the price of the FTSE All-Share price index over the period from 2 January to 20 May. The price index remained pretty steady in the early weeks of the crisis but saw a sharp decline in the weeks following the announcement of a lockdown in Northern Italy and fell to its lowest point in the week following the announcement of social distancing in the UK (down 35% from the start of January). As lockdowns have steadily been eased across the world and in the UK, some of this decline has been reversed, taking the overall decline in the FTSE All-share index over the period to 21%. Figure 2 shows the change in the share price of all firms listed on the London Stock Exchange relative to the FTSE All-Share index between 2 January and 20 May 2020. The industries that have been hardest hit include tourism and leisure (which includes air travel), fossil fuels production and distribution, insurance, retailers (excluding food and drug retailers) and some large manufacturing industries. At the other end of the spectrum some industries have outperformed the market, including food and drug manufacturers and retailers, utilities, high tech manufacturing and tobacco. Unsurprisingly, firms in medical and biotech research have also outperformed the market (increasing by 6% compared to the overall decline of 21%). The timing of changes in share prices reflects the timing of changes in market expectations. Figure 3 shows the cumulative change in share price over the period for the four sectors with the largest increase and the largest decrease in their relative share price over the period from 2 January to 23 March 2020. For most of these sectors, changes in share prices did not take place steadily over the period. Instead, big changes in share prices occurred from the end of February, in the days following Italy's introduction of a lockdown in Lombardy, with very little change in prices in the period before. The exceptions to this are the gas and water, automotive and parts, and fossil fuel production sectors, where changes in share prices took place steadily over the three-month period, possibly driven by other factors. On 17 March the government announced a raft of measures aimed at protecting workers and businesses affected by measures taken to contain the spread of COVID-19. These included a 12-month business rates holiday for firms in the retail, leisure and hospitality industries and a Coronavirus Job Retention Scheme (JRS) that would pay 80% of employee wages for furloughed workers up to a maximum of £2,500 per month for each employee. This package is aimed, at least in part, at preventing otherwise viable businesses from shutting down. The value of these measures will vary greatly across sectors. Labour intensive sectors in particular are likely to benefit more from the JRS than other industries. In other sectors, capital costs and purchases of inputs from other industries are more significant; the benefit to firms in these industries will depend crucially on their ability to adjust their costs as they reduce output. For instance, airlines may use less fuel as more planes are grounded and flights cancelled, but they may still face the costs of leasing and maintaining those planes. The extent to which firms can quickly reduce their costs, and then when the recovery starts quickly scale up again, will depend on many factors, such as what these costs are and what sort of supply relationships they have. To get an idea of the potential benefit of the JRS scheme for different industries relative to how badly those industries are likely to be affected, Figure 4 plots the potential coverage rates of the JRS scheme against the cumulative relative share price declines for some of the key industries. The horizontal axis shows the maximum extent of support the government has made available via JRS, i.e. if every private sector employee working in that industry (not only those in firms listed on the stock market) was furloughed and all firms claimed the full 80% of labour costs up to the £2,500 monthly limit; we scale this by total output of firms in each industry. The support will vary depending on how important labour is as a share of production, compared to machines and intermediate inputs (such as parts, electricity, etc.), and depending on the distribution of wages in each industry. The vertical axis shows the size of the relative change in share prices from 2 January to 20 May 2020, as shown in Figure 1 . The size of each dot represents the number of people employed in that industry. Figure 4 shows that the support is more effectively targeted at some industries than others. For example, retail, for which labour is a relatively high share of output, has a comparatively high share of output covered by the JRS. Insurance, airlines, automotive and parts, and building and materials on the other hand have relatively small shares covered by JRS. Tourism and leisure (excluding air travel) stands out in being one of the hardest hit industries (in terms of seeing a large reduction in relative share price) and having a relatively high share of protection through JRS. As social distancing measures continue, more capital-intensive firms that are not able to substantially reduce their costs may start to struggle more; this may lead to pressure for further government support. There are likely to be long-run costs to the economy if these firms were forced to shut down and the skills and experience of their workers were lost. This article is protected by copyright. All rights reserved. 8 Figure 4 : Potential coverage of Coronavirus Job Retention Scheme relative to output for different industries versus their share price changes relative to the FTSE-All Share Index, 2 January -20 May 2020 Notes: The vertical axis shows the size of the relative change in share prices from Figure 1 . The horizontal axis shows the potential coverage of the JRS scheme as a share of total industry output. The size of each dot represents the number of people employed in each industry. Potential coverage of JRS is 80% wage costs in each industry up to a maximum of £2,500 per worker per month. To obtain the potential coverage of the scheme relative to output, we multiply the potential coverage of each industry's wage bill by each industry's share of labour costs relative to total output. Labour shares are taken from the 2015 ONS Input-output tables. The potential coverage of the JRS scheme is calculated using the 2018 Quarterly Labour Force Survey. Employment data are taken from the 2018 Business Resister of Employment Statistics. JRS coverage for medical and biotech research and banking are taken from industries with SIC codes beginning 64 and 72 respectively (which are also included in the coverage rates for business services and financials respectively. Figure does not include data for alternative investment instruments, engineering products, household utilities, metals, mobile This article is protected by copyright. All rights reserved. 9 telecommunications, or tobacco either because these sectors could not be mapped to industries in the inputoutput tables or because they had negligible employment shares. We exclude healthcare and related services because the majority of employment in this industry is public sector. * Potential coverage of JRS for food and drug retailers is assumed to be the same as for retailers (exc. food and drug retailers). + We have separated tourism and leisure (excluding air travel) and airlines for the purposes of the horizontal axis, but the share price information is for these two activities combined. What the stock market tells us about the consequences of COVID-19 Coronavirus: Impact on Stock Prices and Growth Expectations'. Becker Friedman Institute for Economics WP