Vertical and Conglomerate Mergers

1. Vertical and Conglomerate Mergers Chapter 17: Vertical and Conglomerate Mergers

2. Introduction • General Electric and Honeywell proposed to merge in 2000 • GE supplies jet engines for commercial aircraft • Honeywell produced various electrical and other control systems for jet aircraft • Deal was approved in the US • But was blocked by the EU Competition Directorate • this was a merger of complementary firms • it is “like” a vertical merger • so can potentially remove inefficiencies in pricing • benefiting the merged firms and consumers • so why block the merger? Chapter 17: Vertical and Conglomerate Mergers

3. Introduction 2 • Vertical mergers can be detrimental • if they facilitate market foreclosure by the merged firms • refuse to supply non-merged rivals • But they can also be beneficial • if they remove market inefficiencies • Regulators need to look for the balance these two forces in considering any proposed merger Chapter 17: Vertical and Conglomerate Mergers

4. Complementary Mergers • Consider first a merger between firms that supply complementary products • A simple example: • final production requires two inputs in fixed proportions • one unit of each input is needed to make one unit of output • input producers are monopolists • final product producer is a monopolist • demand for the final product is P = 140 - Q • marginal costs of upstream producers and final producer (other than for the two inputs) normalized to zero. • What is the effect of merger between the two upstream producers? Chapter 17: Vertical and Conglomerate Mergers

5. Complementary mergers 2 Supplier 1 Supplier 2 price v2 price v1 Final Producer price P Consumers Chapter 17: Vertical and Conglomerate Mergers

6. Complementary producers  Consider the profit of the final producer: this is pf= (P - v1 - v2)Q = (140 - v1 - v2 - Q)Q Solve this for Q  Maximize this with respect to Q - (v1 + v2) pf/Q = 140 - 2Q = 0  Q = 70 - (v1 + v2)/2  This gives us the demand for each input Q1 = Q2 = 70 - (v1 + v2)/2  So the profit of supplier 1 is then: p1 = v1Q1 = v1(70 - v1/2 - v2/2)  Maximize this with respect to v1 Chapter 17: Vertical and Conglomerate Mergers

7. The price charged by each supplier is a function of the other supplier’s price We need to solve these two pricing equations Complementary producers 2 Solve this for v1 p1= v1Q1 = v1(70 - v1/2 - v2/2)  Maximize this with respect to v1 v2/2 = 0 v1 - p1/v1 = 70 - v1 = 70 - v2/2  We can do exactly the same for v2 v2 v2 = 70 - v1/2 140 R1 v1 = 70 - (70 - v1/2)/2 = 35 + v1/4 so 3v1/4 = 35, i.e., v1 = $46.67 70 and v2 = $46.67 46.67 R2 v1 46.67 70 140 Chapter 17: Vertical and Conglomerate Mergers

8. Complementary products 3  Recall that Q = Q1 = Q2 = 70 - (v1 + v2)/2 so Q = Q1 = Q2 = 23.33 units  The final product price is P = 140 - Q = $116.67  Profits of the three firms are then: supplier 1 and supplier 2: p1 = p2 = 46.67 x 23.33 = $1,088.81 final producer: pf = (116.67 - 46.67 - 46.67) x 23.33 = $544.29 Chapter 17: Vertical and Conglomerate Mergers

9. Complementary products 4 Now suppose that the two suppliers merge Supplier 1 Supplier 2 23.33 units @ $46.67 each 23.33 units @ $46.67 each Final Producer 23.33 units @ $116.67 each Consumers Chapter 17: Vertical and Conglomerate Mergers

10. Complementary mergers 5 Supplier 1 Supplier 2 price v The merger allows the two firms to coordinate their prices Final Producer price P Consumers Chapter 17: Vertical and Conglomerate Mergers

11. Complementary mergers 6  Consider the profit of the final producer: this is pf = (P - v)Q = (140 - v - Q)Q Solve this for Q  Maximize this with respect to Q pf/Q = - v - 2Q = 0 140  Q = 70 - v/2  This gives us the demand for each input Q1 = Q2 = Qm = 70 - v/2  So the profit of the merged supplier is: pm = vQm = v(70 - v/2)  Maximize this with respect to v Chapter 17: Vertical and Conglomerate Mergers

12. Complementary mergers 7 This is the cost of the combined input: the merger has reduced costs to the final producer pm= vQm = v(70 - v/2) The merger has reduced the final product price: consumers gain  Differentiate with respect to v pm/v = 70 - v = 0 so v = $70  Recall that Qm = Q = 70 - v/2 so Qm = Q = 35 units  This gives the final product price P = 140 - Q = $105 This is greater than the combined pre-merger profit  What about profits? For the merged upstream firm: pm = vQm = 70 x 35 = $2,480  For the final producer: pf = (105 - 70) x 35 = $1,225 This is greater than the pre-merger profit Chapter 17: Vertical and Conglomerate Mergers

13. Complementary mergers 8 • A merger of complementary producers has • increased profits of the merged firms • increased profit of the final producer • reduced the price charged to consumers Everybody gains from this merger: a Pareto improvement! Why? • This merger corrects a market failure • prior to the merger the upstream suppliers do not take full account of their interdependence • cut in price by one of them reduces downstream costs, increases downstream output and benefits the other upstream firm • but this is an externality and so is ignored • Merger internalizes the externality Chapter 17: Vertical and Conglomerate Mergers

14. Vertical Mergers • The same result arises when we consider vertical mergers: mergers of upstream and downstream firms • If the merging firms have market power • lack of co-ordination in their independent decisions • double marginalization • merger can lead to a general improvement • Illustrate with a simple model • one upstream and one downstream monopolist • manufacturer and retailer • upstream firm has marginal costs c • sells product to the retailer at price r per unit • no other retail costs: one unit of input gives one unit of output • retail demand is P = A – BQ Chapter 17: Vertical and Conglomerate Mergers

15. Vertical merger 2 Marginal costs c Manufacturer wholesale price r Price P Consumer Demand: P = A - BQ Chapter 17: Vertical and Conglomerate Mergers

16. A - r 2B Vertical merger 3 • Consider the retailer’s decision • identify profit-maximizing output • set the profit maximizing price marginal revenue downstream is MR = A – 2BQ  retail marginal cost is r Price equate MC = MR to give the quantity Q = (A - r)/2B A Demand identify the price from the demand curve: P = A - BQ = (A + r)/2 (A+r)/2 profit to the retailer is (P - r)Q which is pD = (A - r)2/4B Retail Profit profit to the manufacturer is (r-c)Q which is pM = (r - c)(A - r)/2B r MC Man. Profit c MR Quantity A/2B A/B Chapter 17: Vertical and Conglomerate Mergers

17. A - r A - r1 2B 2B Vertical merger 4 suppose the manufacturer sets a different price r1 Price then the downstream firm’s output choice changes to the output Q1 = (A - r1)/2B A Demand and so on for other input prices r1 demand for the manufacturer’s output is just the downstream marginal revenue curve r MC Upstream demand MR Quantity A/2B A/B Chapter 17: Vertical and Conglomerate Mergers

18. Vertical merger 5 the manufacturer’s marginal cost is c Retail Profit upstream demand is Q = (A - r)/2B which is r = A – 2BQ Price upstream marginal revenue is, therefore, MRu = A – 4BQ A Manufacturer Profit (3A+c)/4 equate MRu = MC: A – 4BQ = c Demand the input price is (A+c)/2 so Q*=(A-c)/4B (A+c)/2 while the consumer price is (3A+c)/4 Upstream demand the manufacturer’s profit is (A-c)2/8B c the retailer’s profit is (A-c)2/16B MC MRu MR Quantity A/4B A/2B A/B (A-c)/4B Chapter 17: Vertical and Conglomerate Mergers

19. Vertical merger 6 • Now suppose that the retailer and manufacturer merge • manufacturer takes over the retail outlet • retailer is now a downstream division of an integrated firm • the integrated firm aims to maximize total profit • Suppose the upstream division sets an internal (transfer) price of r for its product • Suppose that consumer demand is P = P(Q) • Total profit is: • upstream division: (r - c)Q • downstream division: (P(Q) - r)Q • aggregate profit: (P(Q) - c)Q The internal transfer price nets out of the profit calculations • Back to the example Chapter 17: Vertical and Conglomerate Mergers

20. Vertical merger 7 This merger has benefited the two firms This merger has benefited consumers the integrated demand is P(Q) = A - BQ marginal revenue is MR = A – 2BQ Price marginal cost is c A so the profit-maximizing output requires that A – 2BQ = c so Q* = (A – c)/2B Demand so the retail price is P = (A + c)/2 (A+c)/2 Aggregate Profit aggregate profit of the integrated firm is (A – c)2/4B c MC MR Quantity (A-c)/2B A/B Chapter 17: Vertical and Conglomerate Mergers

21. Vertical merger 8 • Integration increases profits and consumer surplus • Why? • the firms have some degree of market power • so they price above marginal cost • so integration corrects a market failure: double marginalization • What if manufacture were competitive? • retailer plays off manufacturers against each other • so obtains input at marginal cost • gets the integrated profit without integration • Why worry about vertical integration? • two possible reasons • price discrimination • vertical foreclosure Chapter 17: Vertical and Conglomerate Mergers

22. Price discrimination • Upstream firm selling to two downstream markets • different demands in the two markets the seller wants to price discriminate between these markets v1 v2 set v1 < v2 but suppose that buyers can arbitrage va Market 1 Market 2 then buyer 2 offers to buy from buyer 1 at a price va such that v1 < va < v2 P P  arbitrage prevents price discrimination  if the seller integrates into market 1 arbitrage is prevented D1 D2 Q Q Chapter 17: Vertical and Conglomerate Mergers

23. Vertical foreclosure • Vertically integrated firm refuses to supply other firms • so integration can eliminate competitors suppose that the seller is supplying three firms with an essential input the seller integrates with one buyer if the seller refuses to supply the other buyers they are driven out of business is this a sensible thing to do? Chapter 17: Vertical and Conglomerate Mergers

24. Vertical foreclosure 2 • Vertical foreclosure may reduce competition • offsets benefits of removing double marginalization • But for this to work • foreclosure has to be a credible strategy for the merged firms • foreclosure must be subgame perfect • Consider two models of foreclosure • Salinger (1988) with Cournot competition • Ordover, Saloner and Salop (1990) with price competition Chapter 17: Vertical and Conglomerate Mergers

25. Vertical foreclosure 3 The integrated firm will not source on the independent market  Suppose that there are some integrated firms and some independent upstream and downstream producers  Profit of an integrated firm is: The integrated firm will not sell on the independent market pI= (PD - cU - cD)qDi  Profit of an independent upstream firm is: pU = (PU - cU)qUn  Profit of an independent downstream firm is: pD = (PD - PU - cD)qDn Chapter 17: Vertical and Conglomerate Mergers

26. Vertical foreclosure 4  For the independent upstream firms to survive requires PU - cU > 0  The downstream unit of an integrated firm obtains input at cost cU  Buying from an independent firm costs PU > cU so the downstream divisions will not source externally  Now suppose that an upstream division of an integrated firm is selling to independent downstream firms Profit from selling internally But this is true: so diverting output from the external market increases profits it earns PU - cU on each unit sold Profit from selling externally  Divert one unit to its downstream division: this leaves the downstream price unchanged: it earns PD - cU - cD on this unit diverted PD - PU - cD > 0 for independent downstream firms to survive PD - cU - cD > PU - cU requires: PD - PU - cD > 0 so the upstream divisions will not sell externally Chapter 17: Vertical and Conglomerate Mergers

27. Vertical foreclosure 5 • Foreclosure happens • but is not necessarily harmful to consumers • reduces number of buyers in the upstream market • increases prices charged by independent sellers to non-integrated downstream firms • but integrated downstream divisions obtain inputs at cost • puts pressure on non-integrated downstream firms • provided there are “enough” independent upstream firms the anti-competitive effects of foreclosure will be offset by the cost advantages of vertical integration • There are also strategic effects that might prevent foreclosure • to discourage non-integrated firms from integrating Chapter 17: Vertical and Conglomerate Mergers

28. Vertical foreclosure 6 • The strategic aspects are considered in Ordover, Saloner and Salop (OSS) • suppose there are two downstream and two upstream firms • downstream firms make differentiated products • upstream firms make homogeneous products • both sets of firms compete in prices • suppose that U1 merges with D1 • suppose also that they credibly refuse to supply D2 • then U2 is a monopoly supplier to D2 • U2 and D2 set prices reflecting double marginalization • so they may well choose to merge also • but U1 and D1 can foresee this and may choose not to merge Chapter 17: Vertical and Conglomerate Mergers

29. Vertical foreclosure 7 • The OSS analysis thus far requires that there is no other source of the input supply • if there is such a source this will constrain U2’s price • may make merger of U2 and D2 less likely • Also, U1D1 may try to undermine the merger another way • offer to supply D2 undercutting U2 • find a price such that U2 and D2 have no incentive to merge • so complete foreclosure is avoided • Note that there is a timing problem with this analysis • U1 and D1 decide whether or not to merge • if they do not the market continues as is • if they do, they seek to undermine a merger of U2 and D2 • but if U1/D1 don’t merge U2/D2 have a strong incentive to merge Chapter 17: Vertical and Conglomerate Mergers

30. Vertical Merger and Oligopoly • Implication: we need to consider a simultaneous model • fear of vertical merger by one pair of firms might induce vertical merger by other firms • this might lead to a prisoners’ dilemma game • vertical merger harms firms • benefits consumers • and is a Nash equilibrium for the merging firms • Consider a (reasonably) simple model • two upstream and two downstream Cournot firms • downstream demand is P = A – BQ • upstream firms’ marginal costs are cU and downstream firms’ marginal costs (excluding the upstream input) are cD Chapter 17: Vertical and Conglomerate Mergers

31. Vertical merger and oligopoly 2 • Competition in three stages • stage 1: • upstream and downstream firms choose simultaneously whether or not to merge • U1 merges with D1 and/or U2 with D2 • stage 2: • non-merged upstream firms compete in quantities • merged upstream firms supply their downstream divisions at marginal cost cU • stage 3: • downstream firms compete in quantities • Three cases: • no vertical merger; one vertical merger; two vertical mergers Chapter 17: Vertical and Conglomerate Mergers

32. Vertical merger and oligopoly 3 • Case 1: no vertical merger • competition in the upstream market generates an intermediate product price PU • so downstream marginal cost is PU + cD • Cournot equilibrium output of each downstream firm is • q1D = q2D = (A – PU – cD)/3B • Cournot equilibrium profit of each downstream firm is • 1D = p2D = (A – PU – cD)2/9B Chapter 17: Vertical and Conglomerate Mergers

33. Vertical merger and oligopoly 4 • Aggregate output in the downstream market is derived demand in the upstream market: QD = QU • aggregate output is QD = QU = 2(A – PU – cD)/3B • in inverse form PU = (A – cD) – 3BQU/2 • this is a standard linear demand p = a – bQ with a = (A – cD) and b = 3B/2 • So Cournot equilibrium output of each upstream firm is • q1U = q2U = [(A – cD) – cU]/(9B/2) = 2(A – cU – cD)/9B • The equilibrium upstream input price is • PU = (A – cD + 2cU)/3 • Profit of each upstream supplier is • 1U = p2U = 2(A – cU – cD)2/27B Chapter 17: Vertical and Conglomerate Mergers

34. Vertical merger and oligopoly 5 • Substitute for PU into the downstream equilibrium • equilibrium downstream output is q1D = q2D = 2(A – cU – cD)/9B • equilibrium profit is p1D = p2D = 4(A – cU – cD)2/81B • As expected, output of each upstream firm equals output of each downstream firm Chapter 17: Vertical and Conglomerate Mergers

35. Vertical merger and oligopoly 6 • Case 2: two vertical mergers • this is the simplest case • each downstream division has marginal cost cU + cD • and market demand is P = A – BQ • so Cournot equilibrium output downstream is • q1D = q2D = (A – cU – cD)/3B • and Cournot equilibrium profit of each downstream firm (and so of each integrated firm) is • 1D = p2D = (A – cU – cD)2/9B Chapter 17: Vertical and Conglomerate Mergers

36. Vertical merger and oligopoly 7 • Case 3: One vertical merger • suppose that U1 and D1 merge • from the Salinger analysis the merged firm • will not supply the non-merged downstream firm • will not buy from the non-merged upstream firm • suppose that U2 sets price PU for its intermediate product • downstream firm 2 has marginal cost PU + cD • downstream firm 1 has marginal cost cU + cD • downstream demand is P = A – BQ • so equilibrium Cournot outputs are • q1D = (A – 2cU – cD + PU)/3B • q2D = (A – 2PU – cD + cU)/3B Chapter 17: Vertical and Conglomerate Mergers

37. Vertical merger and oligopoly 8 • Equilibrium downstream profits are • 1D = (A – 2cU – cD + PU)2/9B • 2D = (A – 2PU – cD + cU)2/9B • We know PU > cU so the integrated downstream division has greater output and profit than the non-integrated firm • Output of the downstream non-merged firm is demand for the upstream non-merged firm’s output: q2D = q2U • so derived demand for the non-merged upstream firm is • PU = (A – cD + cU)/2 – 3Bq2U/2 • this is linear of the form P = a – bq • and upstream firm 2 is a monopoly supplier with marginal cost cU • so sets output (a – cU)/2b and price (a + cU)/2 Chapter 17: Vertical and Conglomerate Mergers

38. Vertical merger and oligopoly 9 • this gives the equilibrium upstream non-merged output: • q2U = (A – cU – cD)/6B • and price • PU = (A + 3cU – cD)/4 • profit of the non-merged upstream firm is • 2D = (A – cU – cD)2/24B • using the equilibrium non-merged input price PU then gives • q1D = 5(A – cU – cD)/12B • q2D = (A – cU – cD)/6B • equilibrium downstream profits are • 1D = 25(A – cU – cD)2/144B • 2D = (A – cU – cD)2/36B • The merged division is larger and more profitable than the non-merged firm Chapter 17: Vertical and Conglomerate Mergers

39. Vertical merger and oligopoly 10 • We can now solve the first stage game • calculate aggregate profits of an upstream and downstream firm or an integrated firm • merger will be suggested if it increases aggregate profit • note that all profits have the term (A – cU – cD)/B in common • so we can give this term any value • so assume that A = 100, B = 1 and cU = cD= 23 • this gives the pay-off matrix: Chapter 17: Vertical and Conglomerate Mergers

40. Vertical merger and oligopoly 11  the perfect equilibrium is (Merger, Merger)  this is a prisoners’ dilemma game  Merger is dominant for both so timing is not important Firms 2 No Merger Merger $360, $360 $202.50, $506.25 No Merger Firms 1 Merger $506.25, $202.50 $324, $324 Chapter 17: Vertical and Conglomerate Mergers

41. Vertical merger - reappraisal • Vertical merger has three effects in this model • removes double marginalization • reduces cost for a downstream integrated firm and makes downstream market more competitive • reduces competitive pressures in the upstream market • In the model the first two effects dominate • so consumers benefit from lower prices even with only one vertical merger • but in equilibrium the firms lose from vertical merger Chapter 17: Vertical and Conglomerate Mergers

42. Vertical merger – reappraisal 2 • Recall the proposed GE-Honeywell merger • if this is the only merger then the merged firm gains and the non-merged firms lose • appears to be this that guided the EU Competition Directorate • but consumers benefit even in this scenario • and rivals have a clear strategic response: merge • so the EU must have believed that merger by rivals was not possible • Or would be strategically prevented by GE-Honeywell • and that if the integrated GE-Honeywell gains a monopoly position price will rise • Many believe that this was unlikely • So the decision remains questionable Chapter 17: Vertical and Conglomerate Mergers

43. Conglomerate Mergers • Bring under common control firms whose products are neither substitutes nor complements • results in a diversified firm • period from 1960s to early 1980s is when many were forms • Is there a convincing rationale for this type of merger? • if not then probably an accident of history • gradually corrected by downsizing and focus on “core competence” • Possible rationales: Chapter 17: Vertical and Conglomerate Mergers

44. Conglomerate mergers 2 • Economies of scope • but these generally derive from use of common inputs • so merged firms should be related in some respect • similar markets • similar technologies • data do not support this hypothesis Chapter 17: Vertical and Conglomerate Mergers

45. Conglomerate mergers 3 • Economize on transactions costs • take a specialized machine can produce two goods A and B • markets for A and B are concentrated • if machine is used to produce only A there is spare capacity • then owner may wish also to produce B – conglomeration • the owner could also lease use of the machine to a specialized B producer to avoid conglomeration • but this has problems • negotiating and bargaining over the lease • conglomeration avoids these problems • particularly important when the asset is knowledge intensive • so this motive is reasonable • but the assets are common to all the conglomerates products • not supported by the data Chapter 17: Vertical and Conglomerate Mergers

46. Conglomerate mergers 4 • Managerial motives • conglomeration suits interests of management but not shareholder • division of ownership and control of large public corporations • monitoring of management is far from perfect • so management can pursue its own agenda to some extent • suppose management compensation based on firm growth • easier to grow by acquisition than internally • horizontal merger may be blocked by regulators • so grow by conglomeration • conglomeration to reduce management risk • diversified firm has diversified risk • this diversifies the risk that management faces • Seems to be supported by the evidence Chapter 17: Vertical and Conglomerate Mergers

47. Empirical Application: Vertical Integration in the Ready-Mixed Concrete Industry • Ready-mixed concrete made by combining cement in almost fixed proportion with sand, gravel and water. • Also, because of high transport costs, concrete markets tend to be very local • So, this industry is a good place to test for the effects of vertical integration because the standard modeling assumptions are met and there are a lot of observations • Hortaçsu and Syverson (2006) identify 348 local markets for ready-mixed concrete over the years 1963 to 1997 and use these to investigate the effects of vertical integration Chapter 17: Vertical and Conglomerate Mergers

48. Vertical Integration in the Ready-Mixed Concrete Industry 2 Three Estimates of the Effect of Vertical Integration on Concrete Prices Independent Variable Effect on Weighted Average Market Price (log) Market Share of Vertically -0.090* -0.086* -0.043 Integrated Firms (0.041) (0.041) (0.039) Market Share of Multiple Plant Firms _ _ _ _ 0.015 0.001 (0.022) (0.024) Weighted Average Total Factor Productivity _ _ _ _ _ _ _ _ -0.293* (0.054) R2 0.433 0.434 0.573 * Significant at five percent level. Chapter 17: Vertical and Conglomerate Mergers

49. Vertical Integration in the Ready-Mixed Concrete Industry 2 • Implications of Hortaçsu and Syverson (2006) results • Vertical Integration appears to lower final prices by anywhere from 4.3% to nearly 9% • The effect appears to be due largely to higher productivity in vertically integrated firms • But has little to do with the operation of multiplant firms • Basic Result: In Ready-Mixed Concrete, Vertical Integration has been good for consumers and firms, alike Chapter 17: Vertical and Conglomerate Mergers