Revealed – the capitalist network that runs the world
The 1318 transnational corporations that form the core of the economy. Superconnected companies are red, very connected companies are yellow. The size of the dot represents revenue (Image: PLoS One)
The Occupy Wall Street movement spreads to London (Image: Dave Stock)
19 October 2011 by Andy Coghlan and Debora MacKenzie Magazine issue 2835
AS PROTESTS against financial power sweep the world [ ] this week, science may have confirmed the protesters' worst fears. An analysis [ http://arxiv.org/PS_cache/arxiv/pdf/1107/1107.5728v2.pdf ] of the relationships between 43,000 transnational corporations has identified a relatively small group of companies [top 50 listed below], mainly banks, with disproportionate power over the global economy.
The study's assumptions have attracted some criticism, but complex systems analysts contacted by New Scientist say it is a unique effort to untangle control in the global economy. Pushing the analysis further, they say, could help to identify ways of making global capitalism more stable.
The idea that a few bankers control a large chunk of the global economy might not seem like news to New York's Occupy Wall Street [ http://occupywallst.org/forum/proposed-list-of-demands-please-help-editadd-so-th/ ] movement and protesters elsewhere (see photo). But the study, by a trio of complex systems theorists at the Swiss Federal Institute of Technology in Zurich, is the first to go beyond ideology to empirically identify such a network of power. It combines the mathematics long used to model natural systems with comprehensive corporate data to map ownership among the world's transnational corporations (TNCs).
"Reality is so complex, we must move away from dogma, whether it's conspiracy theories or free-market," says James Glattfelder [ http://www.sg.ethz.ch/people/formercoll/jglattfelder ]. "Our analysis is reality-based."
Previous studies have found that a few TNCs own large chunks of the world's economy, but they included only a limited number of companies and omitted indirect ownerships, so could not say how this affected the global economy - whether it made it more or less stable, for instance.
The Zurich team can. From Orbis 2007 [ http://www.bvdinfo.com/Products/Company-Information/International/Orbis ], a database listing 37 million companies and investors worldwide, they pulled out all 43,060 TNCs and the share ownerships linking them. Then they constructed a model of which companies controlled others through shareholding networks, coupled with each company's operating revenues, to map the structure of economic power.
The work, to be published in PloS One, revealed a core of 1318 companies with interlocking ownerships (see image). Each of the 1318 had ties to two or more other companies, and on average they were connected to 20. What's more, although they represented 20 per cent of global operating revenues, the 1318 appeared to collectively own through their shares the majority of the world's large blue chip and manufacturing firms - the "real" economy - representing a further 60 per cent of global revenues.
When the team further untangled the web of ownership, it found much of it tracked back to a "super-entity" of 147 even more tightly knit companies - all of their ownership was held by other members of the super-entity - that controlled 40 per cent of the total wealth in the network. "In effect, less than 1 per cent of the companies were able to control 40 per cent of the entire network," says Glattfelder. Most were financial institutions. The top 20 included Barclays Bank, JPMorgan Chase & Co, and The Goldman Sachs Group.
John Driffill [ http://www.econ.bbk.ac.uk/faculty/driffill ] of the University of London, a macroeconomics expert, says the value of the analysis is not just to see if a small number of people controls the global economy, but rather its insights into economic stability.
"It's disconcerting to see how connected things really are," agrees George Sugihara of the Scripps Institution of Oceanography in La Jolla, California, a complex systems expert who has advised Deutsche Bank.
Yaneer Bar-Yam, head of the New England Complex Systems Institute (NECSI), warns that the analysis assumes ownership equates to control, which is not always true. Most company shares are held by fund managers who may or may not control what the companies they part-own actually do. The impact of this on the system's behaviour, he says, requires more analysis.
Crucially, by identifying the architecture of global economic power, the analysis could help make it more stable. By finding the vulnerable aspects of the system, economists can suggest measures to prevent future collapses spreading through the entire economy. Glattfelder says we may need global anti-trust rules, which now exist only at national level, to limit over-connection among TNCs. Bar-Yam says the analysis suggests one possible solution: firms should be taxed for excess interconnectivity to discourage this risk.
One thing won't chime with some of the protesters' claims: the super-entity is unlikely to be the intentional result of a conspiracy to rule the world. "Such structures are common in nature," says Sugihara.
Newcomers to any network connect preferentially to highly connected members. TNCs buy shares in each other for business reasons, not for world domination. If connectedness clusters, so does wealth, says Dan Braha of NECSI: in similar models, money flows towards the most highly connected members. The Zurich study, says Sugihara, "is strong evidence that simple rules governing TNCs give rise spontaneously to highly connected groups". Or as Braha puts it: "The Occupy Wall Street claim that 1 per cent of people have most of the wealth reflects a logical phase of the self-organising economy."
So, the super-entity may not result from conspiracy. The real question, says the Zurich team, is whether it can exert concerted political power. Driffill feels 147 is too many to sustain collusion. Braha suspects they will compete in the market but act together on common interests. Resisting changes to the network structure may be one such common interest.
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The top 50 of the 147 superconnected companies
1. Barclays plc 2. Capital Group Companies Inc 3. FMR Corporation 4. AXA 5. State Street Corporation 6. JP Morgan Chase & Co 7. Legal & General Group plc 8. Vanguard Group Inc 9. UBS AG 10. Merrill Lynch & Co Inc 11. Wellington Management Co LLP 12. Deutsche Bank AG 13. Franklin Resources Inc 14. Credit Suisse Group 15. Walton Enterprises LLC 16. Bank of New York Mellon Corp 17. Natixis 18. Goldman Sachs Group Inc 19. T Rowe Price Group Inc 20. Legg Mason Inc 21. Morgan Stanley 22. Mitsubishi UFJ Financial Group Inc 23. Northern Trust Corporation 24. Société Générale 25. Bank of America Corporation 26. Lloyds TSB Group plc 27. Invesco plc 28. Allianz SE 29. TIAA 30. Old Mutual Public Limited Company 31. Aviva plc 32. Schroders plc 33. Dodge & Cox 34. Lehman Brothers Holdings Inc* 35. Sun Life Financial Inc 36. Standard Life plc 37. CNCE 38. Nomura Holdings Inc 39. The Depository Trust Company 40. Massachusetts Mutual Life Insurance 41. ING Groep NV 42. Brandes Investment Partners LP 43. Unicredito Italiano SPA 44. Deposit Insurance Corporation of Japan 45. Vereniging Aegon 46. BNP Paribas 47. Affiliated Managers Group Inc 48. Resona Holdings Inc 49. Capital Group International Inc 50. China Petrochemical Group Company
Looking to the future (Image: Yoshikazu Tsuno/AFP/Getty Images)
21 October 2011 by Michael Marshall Magazine issue 2835
SHORT-TERM thinking is a criticism often levelled at corporations and banks by anti-capitalist protesters, and they may well be right. A lack of concern for the future is built mathematically into economic theory, and this carries through to the behaviour of companies and governments. But a different way of putting a financial value on the future is changing that.
Economists assume that society will gradually get richer, typically by about 3 per cent a year - occasional crashes notwithstanding. To account for this, they "discount" future events: models might value a resource at $100 if it's immediately available, but only $97 if it is only available in a year's time.
The problem, says economist John Geanakoplos [ http://cowles.econ.yale.edu/faculty/geanakoplos.htm ] of Yale University, is that models shave off the same percentage every year. As a result, the value of assets decreases exponentially [ http://en.wikipedia.org/wiki/Exponential_discounting ], and is effectively zero within decades or centuries. So economics effectively ignores far-future events, even if they are world-shattering.
Exponential discounting's reign is an accident of history: early 20th-century economist Paul Samuelson introduced it as a simple solution but emphasised that it wasn't necessarily right. In fact real humans do not discount exponentially. Questionnaire studies show that the rate at which we discount resources with time decreases gradually, not exponentially: we behave as if resources do still have a value significantly greater than zero in the distant future.
In an as-yet-unpublished paper [ http://ideas.repec.org/p/cwl/cwldpp/1719.html ] co-written with J. Doyne Farmer [ http://tuvalu.santafe.edu/~jdf/SFI%20Template/About%20Me.html ] of the Santa Fe Institute in New Mexico, Geanakoplos claims to have shown that when you don't know how the economy is going to change, this seemingly illogical behaviour makes mathematical sense. The pair took economic models normally used by Wall Street banks to make financial decisions that affect the following few decades, and ran them over longer timescales. When they plugged in hyperbolic discount rates, they found fewer mathematical inconsistencies in the models than when they used exponential ones. This, they say, shows that hyperbolic discounting makes more mathematical sense over extended timescales.
But a consensus is growing that discount rates do need to fall, the further you project into the future, albeit not hyperbolically [ http://papers.ssrn.com/sol3/papers.cfm?abstract_id=1273932 ]. Since 2003, the UK government has been using declining discount rates [ http://www.hm-treasury.gov.uk/data_greenbook_index.htm ] to assess the impacts of policies that have ramifications lasting more than about 30 years. Other European countries are following suit, and Hepburn says the US administration is discussing using hyperbolic discounting as well.
There are many ways to make the discount rate fall besides hyperbolic discounting, says Hepburn. He contributed to the 2006 Stern Review on the Economics of Climate Change [ http://webarchive.nationalarchives.gov.uk/+/http://www.hm-treasury.gov.uk/sternreview_index.htm ( http://www.hm-treasury.gov.uk/sternreview_index.htm )], which included a declining discount rate. The review concluded that it was better to spend now to avoid climate change, rather than pay for the consequences later. The report was criticised by many economists for its approach, but Hepburn says its methods are now becoming more widely accepted. The best solution may be to model the future using a range of discounting methods, then take an average, says Matthew Salois [ http://www.reading.ac.uk/apd/staff/m-j-salois.aspx ] of the University of Reading, UK.
While the most useful discounting methods will be debated for years to come, the important thing is to force economists to rethink their assumptions. "If you change the intellectual climate, you're going to change the political climate," Geanakoplos says.