Monday, September 30, 2013

Could Bitcoin kill Fed monetary policy?


While bitcoin could one day kill most of the roles that the Fed plays, monetary policy will probably stay intact. The reason for this, as I'll show, is that the no matter what happens to all its other functions, the Fed will probably continue to define the economy's unit of account.

Let's start in the present day US. Most modern transactions involve transfers of dollar banknotes, reserves, or dollar-denominated bank deposits. A small minority of transactions are made with bitcoin. But these transactions are rarely priced in terms of bitcoin. Rather, a merchant's website will typically display prices in terms of dollars, and then compute the amount of bitcoin that a customer must fork over by referring to the current dollar-to-bitcoin exchange rate. The dollar is very much the the unit of account in the US, not bitcoin.

The first of the Fed's functions to be killed off by bitcoin will inevitably be the issuance of paper banknotes. Bitcoin enjoys all the benefits of cash, on top of which it can be transferred instantaneously over long distances. Bulky hand-to-hand paper simply can't compete. Unwanted notes will reflux back to banks and then to the Fed. From there Fed officials will cancel and destroy them, the Fed's balance sheet shrinking to a fraction of its previous level. Paper dollars will now be extinct, and the Fed much smaller.

Even with its printing presses idled by bitcoin mania, the Fed will still continue to issue reserves. Reserves are used by banks in the interbank market to settle cheques and make large value payments, normal people don't get to own them.

The Fed has traditionally not paid a pecuniary rate of return on reserves. In other words, it hasn't offered interest. Banks have been willing to hold barren reserves because in addition to their usefulness as payments media, the Fed has exercised its monopoly powers to keep their supply artificially scarce. This combination of usefulness and scarcity conspire to produce significant non-pecuniary benefits that bankers will eagerly pay to enjoy. After all, any banker that holds a base level of scarce reserves can rest easy knowing that they are well-prepared for an uncertain future—a banker that forgos them must bear the discomfort of being ill-equipped to deal with unforeseen events.

The Fed can alter the relative scarcity of reserves via open market operations. This in turn either increases or decreases the non-pecuniary return on reserves, or their marginal usefulness.  If increased, the rush to buy reserves causes economy-wide fall in the price level. If decreased, a rise ensues. Thus even though bitcoin has rendered cash extinct, the Fed's power over the economy isn't diminished one iota since prices continue to be priced in the dollar unit of account, and the Fed's artificially scarce reserves are effectively the medium that defines the unit.

But say that bitcoin and a raft of other alt-coins become popular among banks as a way to settle payments among each other. Say these new electronic media are blazingly fast, safer, and far cheaper than the Fed interbank alternative. Banks, their electronic vaults full of bitcoin, no longer want to hold reserves and are lobbying the Fed governor to buy them back with the assets the Fed holds in its vaults. Should this happen, the Fed's balance sheet is set to contract to zero—into irrelevance.

At this point the Fed will have effectively lost its tight grip on the market for interbank settlement media. Reserves will neither be special nor scarce—banks can now hold a wide variety of assets as interbank media. The Fed finds itself powerless. Its traditional tool for manipulating the price level has always been to lever its monopoly power so as to fiddle with the relative scarcity—or specialness—of highly-liquid reserves. But this tool is gone. It can't do anything to control the price level. As for the media it once issued, both cash and reserves have lost their distinct characteristic as "money". They are no longer the most liquid assets in the economy, having been displaced by cryptocoin.

However, this ignores the fact that even though reserves have lost all their monetary usefulness in the face of cryptocoin competition, the Fed still has one other tool at its disposal—it can start to pay a pecuniary return, or interest, on reserves. By raising or lowering the interest rate it offers, it can either entice or repel banks to hold more or less reserves at any given price level. Since the economy's prices continue to be expressed in terms of the dollar, the Fed can now manipulate the economy-wide price-level by jacking up or reducing interest on reserves. Even if there are only a piddling $20 million worth of illiquid reserves outstanding, the Fed can still get a bite on the macroeconomy by changing rates.

So to sum up, though cash has gone the way of the dodo bird, and the Fed has lost its clearinghouse monopoly, and bitcoin is gushing everywhere, the Fed can still exert itself over the economy because it issues the one special asset that defines the unit of account—reserves.  Monetary policy can still exist in a world without central bank money.

The Fed would only become truly powerless when economic actors choose to price their goods in terms of cryptocoin. At that point, Fed reserves will have lost all their traditional uniqueness—they will be just one fixed-income asset among a sea of many millions of fixed-income assets. The economy's unit of account will be BTC, and the economy-wide price level will now be driven by the vicissitudes of the demand and supply of bitcoin. But a switch in the unit is unlikely since the network effects generated by centuries of tradition are in the dollar's favor. For the time being, bitcoin is just too volatile to be used for price expression.

The Fed needn't worry about becoming irrelevant. Hell, it might even learn a bit from the competition along the way.



Along these lines, give Michael Woodford's Monetary Policy in a World Without Money a read. Written in 2000, Woodford tries to answer whether the "development of 'electronic money' poses any threat to the ability of central bankers to control the value of their national currencies through conventional monetary policy." Nine years before bitcoin even arrived on the scene, academic scribblers like Woodford were already mulling over its potential effect on Fed policy. How's that for forward guidance?

Monday, September 23, 2013

Ghost Money: Chile's Unidad de Fomento

Santiago skyline

This post continues on the topic of the separation of the medium-of-exchange function of money from the unit-of-account function. My previous post discussed how the medieval monetary order was characterized by both a medley of circulating coins and one universal £/s/d unit of account. This post introduces a modern example of medium-unit divergence: the Chilean peso and Chile's Unidad de Fomento. I'll explain how the Chilean system works and end off by asking some questions about the macroeconomic implications of this separation, specifically what happens at the zero lower bound.

Like most modern currencies, the peso is issued by the nation's central bank; the Banco Central de Chile. Local banks offer peso-denominated chequing and savings accounts. Chileans use these pesos as the nation's medium-of-exchange. They pay their bills with pesos, settle rent with it, and buy food with it.

The differences between Chile's monetary system and those of other nations only emerges when we begin look at the unit in which goods are priced. Most nations have one unit-of-account, but Chile has two. While many Chilean prices are expressed in terms of the peso, or P, a broad range of prices are expressed in an entirely different unit, the Unidad de Fomento, or UF. Real estate, rent, mortgages, car loans, long term gov securities, taxes, pension payments, and alimony are all priced using UF. As examples, this real estate website sets prices in UF terms, and this car rental business levies insurance in UFs. On the other hand, wages, consumer good prices, and stock prices are expressed in peso terms.

So what is the UF? The UF was introduced in 1967 by the Chilean government, though it only came into wide use as a unit-of-account in the 1980s. There are no UF coins or notes circulating in the Chilean economy. Rather, the Unidad de Fomento exists as a purely abstract, or indexed, unit-of-account, totally divorced from any media-of-exchange. Goods and services quoted in terms of the UF can only be purchased with an entirely different medium — pesos.

The UF is defined as the amount of currency units, or pesos, necessary for Chileans to buy a representative basket of consumer goods. The amount of pesos in one UF, or the peso-to-UF exchange rate, is calculated daily, and is published on the Banco Central's website. The daily value is interpolated from the previous month's consumer price index, or the Indice de Precios al Consumidor (IPC). If you go to this website, you can see the current peso-to-UF rate and how it has been adjusted over the last week.

This all sounds quite odd, so let's use an example to get a better idea for how the system functions. When a Chilean seller prices something in UF, they are indicating that they expect to receive a fixed quantity of CPI basket-equivalents as payment. For instance, say that a landlord advertises an apartment in downtown Santiago at a monthly rate of 10 UF. A potential renter, curious about the price, checks the UF-to-peso exchange rate at the central bank's website. He sees that today's rate stands at 23,000. Using a cellphone app (in real life, the rate will probably not be a convenient round number), he multiplies 10 UF x 23,000 P/UF to arrive at the current monthly rate in pesos, or 230,000P (this is about US$450). Deciding that the price is good, the renter signs a lease and starts to pay UF-denominated rent each month in pesos.

Say that the Banco Central adopts an easy money policy and six months later the Chilean peso's purchasing power has fallen by around 10%. Rent is still priced at 10 UF. But now the peso content of the UF has risen —after all, it takes about 10% more pesos to buy the same consumer basket. The computed rate on the central bank's website is now 25,000 P/UF. The monthly amount in pesos that the renter must make out to the landlord now comes out to 250,000P (10UF x 25,000 P/UF), up from 23,000. However, while the rent payment is nominally higher, the payment's UF value is constant. In other words, the transaction represents the exact same quantity of CPI baskets as six months before.

It works the same way when the with a tight money policy. Imagine a 10% peso deflation. The UF sticker price stays constant while the conversion rate to pesos on the central bank's website falls by 10%. Rent is nominally lower in peso terms but in terms of representative consumer baskets it has stayed constant.

The UF/P system is similar in many ways to a partially dollarized economy in which the US dollar has been adopted as the unit in which to price long term contracts while the local currency is used to price current goods and services. What makes Chile different from partially dollarized economies is that the dollar tends to circulate along with the local currency as a medium-of-exchange. Thus there are two different units-of-account corresponding to two different media-of-exchange. Chile's UF, on the other hand, is a purely abstract unit with no corresponding medium of its own.

Irving Fisher was skeptical of medium-unit divergence and declared so in his 1913 paper The Compensated Dollar:
Not only would the multiple standard necessitate much laborious calculation in translating from the medium of exchange into the standard of deferred payments, and back again but, if, as has been suggested, the employment of a multiple standard were at first optional, the result would be that many business men whose prosperity depended on a narrow margin between their expenses and receipts would be injured rather than benefited by having one side of their accounts predominantly in the actual dollar and the other in the ideal unit.
Fisher went on to propose his compensated dollar scheme, which was essentially a combined unit-of-account/medium-of-exchange dollar. The real purchasing power of the compensated dollar would stay constant over time, much like the UF/peso combination, but without the necessity of imposing the laborious calculations involved in medium-unit divergence. That Chileans did choose to adopt a somewhat laborious mechanism that involves conversion from/to pesos to/from the ideal UF demonstrates the degree to which they were willing to free themselves of the burdens imposed by the 1970s inflation of the peso. According to Shiller, the practice of publishing the UF-to-peso rate on a daily basis—which began in 1977— may have also encouraged UF adoption. Prior to then, the UF had only been calculated monthly.

While the idea of separating the unit from the medium is not a common one, when it does arise it tends to have been inspired by the desire to avoid the deleterious effects of inflation. Widespread use of the UF, as pointed out earlier, came about as a response to 500%+ peso inflation of the 1970s. Robert Shiller, the most vocal modern advocate of unit/medium separation, is also motivated by the inflation side of the equation. Shiller believes that because people tend to succumb to money illusion when dealing with inflationary episodes, the adoption of indexed units-of-account may be the most palatable way to reduce the problem.

Just as interesting, however, is the idea of separating the unit-of-account and medium-of-exchange to help cope with deflationary episodes and the zero-lower bound problem

First, let's set up a hypothetical scenario without the UF and a combined peso unit-of-account and medium of exchange. Say the Chilean economy suddenly collapses. Pessimistic Chileans expect to earn a negative return on projects and investments. Peso cash provides a superior return in this environment since it pays 0%—hardly great, but 0% is better than -x%! Peso prices need to fall dramatically in order to restore equilibrium. Put differently, the value of the peso needs to rise to a level at which it is expected to decline at the same rate as all other projects and investments. Yet peso-denominated sticker prices are rigid, preventing the necessary adjustment. What should be a short period of sharp adjustment turns into a long painful period of high unemployment and idle resources.

Now let's assume that all prices are expressed in UF while actual transactions are conducted in pesos. The same shock hits the Chilean economy. Once again the negative yield on projects and investments is overwhelmed by the 0% yield on peso cash. Peso prices need to fall dramatically in order to equilibrate the peso's return with all other yields. As before, sticker prices are rigid.

Here's the difference between our first and second scenarios. In a world with an ideal unit-of-account and no related medium-of-exchange, it really doesn't matter that prices can't adjust. This is because prices are no longer expressed in terms of 0%-yielding peso cash. Rather, they are expressed in terms of UF. Because the UF lacks a physical counterpart, there are no equivalent UF instruments that might also hit the zero-lower bound. The peso's outsized 0% return relative to all other negative yielding assets, which before was the root of the problem, will be quickly equilibrated as the peso-to-UF exchange rate published on the central bank's website jumps higher.

So a shock to an economy in which a combined medium-of-exchange and unit-of-account prevails can quickly become a tragedy. The 0% nature of the former interferes with the stickiness of the latter. But when the medium-of-exchange is divorced from the unit-of-account, the 0% nature of the former will quickly be resolved since stickiness is now in terms of an ideal unit, and not in terms of pesos.

Medium/unit separation, it would seem, could be yet another foolproof way of escaping deflation and the zero-lower bound.



References:
1. Robert Shiller, Indexed Units of Account: Theory and Assessment of Historical Experience, 1997. [RePEc]
2. Robert Shiller, Designing Indexed Units of Account, 1998. [RePEc]
3. Robert Hall, Controlling the Price Level, 2002. [RePEc]
4. Stephen Davies, National money of account, with a second national money or local monies as means of payment: a way of finessing the zero interest rate bound, 2004

Tuesday, September 17, 2013

Woodford's forward guidance—why not use forward contracts instead?



...once the supply of reserves is sufficient to drive the short-term riskless rate to zero..., there is no reason to expect further increases in the supply of reserves to increase aggregate demand any further... Once banks are no longer foregoing any otherwise available pecuniary return in order to hold reserves, there is no reason to believe that reserves continue to supply any liquidity services at the margin; and if they do not, the Modigliani-Miller reasoning applies once again to open market operations that increase the supply of reserves, just as in the model of Wallace.
-Michael Woodford, 2012.  

On a whim, I wrote an email to Michael Woodford last week. Woodford, a macroeconomist at Colombia University, is the authour of Interest and Prices (pdf), an important contribution to modern monetary policy. I'll be the first to admit that I haven't been able to work my way through his book—too few words and too many equations. But I have read two excellent papers by him. The first is Monetary Policy Without Money, which I'll touch on in another post, and the second is a well-known paper that he presented at Jackson Hole in 2012 entitled Methods of Policy Accommodation at the Interest-Rate Lower Bound. If you're interested in monetary policy and you haven't read it yet, you really should.

My email, affixed below, had to do with the above quote from his second paper:
Dear Professor Woodford,

I have read your paper Methods of Policy Accommodation at the Interest-Rate Lower Bound several times and it has taught me quite a bit.

One question:

In Section 3.1 (Effects of Targeted Asset Purchases in Theory), you point out that once the supply of reserves is sufficiently plentiful, banks no longer forgo a pecuniary return that would otherwise be provided by reserves (ie a marginal convenience yield). This is the point at which the overnight interest rate hits the lower bound, additional reserve additions are irrelevant, and the Modigliani-Miller result applies.

It seems to me that the overnight rate doesn't shadow the general convenience yield on reserves per se, but rather it shadows the 24-hour convenience yield on reserves. Just like there is a term structure to bonds, there is a term structure to the convenience yield on reserves. In addition to a 24-hour convenience yield, there is a 1 week, 1 month, 1 year yield, each point allowing us to construct a convenience yield curve.

Although the overnight yield may be zero, convenience yields further down the convenience yield curve may still positive. Banks hold reserves not only to enjoy their overnight convenience, but also to enjoy expected flows of future convenience. This would seem to imply that the present discounted value of future flows of convenience can be positive even when the overnight convenience yield is zero.

Which would indicate that even when we are at the lower bound for overnight rates, purchases are not necessarily subject to the Wallace irrelevance critique insofar as they specifically target positive yields further down the convenience yield curve. If purchases today can reduce convenience yields tomorrow, the present discounted value of future flows of convenience will be reduced. Overnight purchases won't suffice since they only target overnight convenience yields. Open-ended outright purchases might not work if there is no commitment to avoid unwinding these purchases in the future. Perhaps long term repo operations that target the distant end of the convenience yield will be most effective in avoiding the irrelevance criticism. Repos precommit a central bank to avoid unwinding at a future point in time, thereby reducing future convenience yields and, as a corollary, the present value of total convenience flows.

Does that make any sense? I am curious what your thoughts on this are.

Cheers,

JP Koning
Frequent readers will notice that my letter was just a summing up of my three recent posts on the convenience yield.* If you've already read those three posts and reached your quota, don't bother reading further, since much of what I'm going to write follows in that general theme.

Surprisingly, Woodford got back to me. I'm not going to publish his response, but in brief he doesn't think that there should be a convenience yield curve. Woodford told me that he thinks reserves are an overnight asset, not a long-term asset like, say, Treasury bills, and an overnight asset doesn't supply a convenience yield for longer than 24 hours.

I agree with Woodford that the convenience yield supplied by a short-lived asset is negligible. No one holds a stock of ripe avocados because they might serve as convenient medium of exchange 30 days from now.

But reserves aren't avocados. They are infinitely-lived instruments that can be perpetually held without the necessity of paying storage fees. This means that even when overnight yields have hit 0% (as indicated by an overnight fed funds rate of zero) reserves still supply current reserve-owners with a positively-valued marginal convenience yield over longer time frames than the 24-hour window. The implication of this is that although central banks may no longer be capable of manipulating the 24-hour convenience yield lower, they may be still be able to conduct targeted financial transactions, or balance-sheet policy, that change distant parts of the convenience yield curve. This gives a central bank plenty of traction at the zero lower bound. After all, a reduction in the future convenience flows thrown off by reserves will reduce the present value of all convenience flows. The expected return on reserves having been reduced, reserves will be spent away in the present and this will stimulate today's inflation and/or real activity.

QE—what Woodford refers to as balance sheet policy—is a fairly blunt tool when it comes to reducing distance convenience yields.** This is because a one-time expansion of the central bank's balance sheet can be easily reversed at a future point in time by sucking reserves back in. Financial markets may therefore view QE as fleeting. If so, distant convenience yields will not budge much and, as a result, inflation and real activity will remain unaffected.

Rather than engaging in crude QE when the overnight rate hits zero, a central bank might enter into a more focused form of balance sheet expansion. Five-year repos, for instance, may be sufficient to ensure that excess reserves stay in the system for an extended period of time. Even more effective would be a policy of entering into forward contracts with banks. These transactions would commit the central bank to purchasing assets at various points in the future, thereby ensuring a series of large balance sheets down the road.

For instance, if the Bank of Canada faced the ZLB and wanted to reduce the future convenience yield on reserves after, say, 2015, it could contract with commercial banks to purchase assets at various dates in 2016, 2017, and 2018. It would enter into as many of these forward contracts as necessary to guarantee today a sufficiently large supply of reserves tomorrow. Unlike crude QE, forward contracts are irreversible. The permanency of these transactions should be sufficient to reduce the future convenience yield on reserves, thereby diminishing their expected return in the present and stimulating current spending.

A policy of using forward contracts to reduce the distant convenience yield on reserves could be a substitute for Woodford's verbal forward guidance. Rather than specifying in words the future time path of interest rates, the central bank need only add a sufficient amount of forward contracts to its balance sheet in order to ensure that it hits its targets (an inflation target, a nominal GDP target, whatever). The upshot is that balance-sheet policy needn't die at the zero-lower bound. Concrete actions that guarantee to alter the size of a central bank's future balance sheets and convenience yields can be just as effective as Woodford's carefully crafted wording.

In any case, I'm not holding my breath for Woodford to get back to me on that, he's a busy guy.



*Interestingly, Woodford uses the term convenience yield in his paper, too.
** Miles Kimball has equated balance sheet policy at the ZLB to using a massive fan to move the economy.

Friday, September 13, 2013

Separating the functions of money—the case of Medieval coinage

Florentine florin

Last year Scott Sumner introduced the econ blogosphere to what he likes to call the medium-of-account function of money, or MOA, defined as the sign in which an economy's sticker prices and debts are expressed. Here and here are recent posts of his on the subject.

I think Scott's posts on this subject have added a lot of depth to the interblog monetary debates. However, I've never been a big fan of Scott's terminology. As I've pointed out before, what Scott calls MOA, most modern economists would call the unit-of-account function of money. Older economists like Jevons and Keynes[1] referred to the unit-of-account as the money-of-account, and modern economic historians also prefer money-of-account. Terminological differences aside, in today's post I want to focus on what I'll call from here on in the unit-of-account function of money.

Scott's UOA posts often emphasize the idea of separating the unit-of-account function from the medium-of-exchange. This isn't a new approach. Back in the 1980s, a trend in monetary economics began whereby economists began to dissociate the various bundled functions of money into constituent components. In fact, a few contributors to the modern econ blogosphere were participants in what was then called "New Monetary Economics", or NME, including Tyler Cowen, Bill Woolsey (pdf), Scott, and Lawrence White (pdf). White, it should be noted, was a critic. Cowen doesn't blog much about NME these days, his last post on the subject was in 2011, but I'm sure every time he goes to a restaurant he can't help but wonder what the world might be like if the menu prices were in different units than the media he expected to pay with. Here is an old Cowen paper (with Krozner) on NME that is worth reading, as well as the bibliography which serves as a good jumping off point to understand more about NME.

But let's turn to an actual example. The separation of the medium-of-exchange from the unit-of-account envisioned by NME isn't mere speculation. Indeed, such a separation has been very much the norm over the last thousand years or so. The medieval monetary system operated with what was essentially a number of heterogeneous media of exchange and an independent unit of account.

Medieval Europe was politically fragmented and many different mints issued coins. Einaudi (pdf) tells us that some 22 gold coins and 29 silver coins (most of them foreign) circulated in the Duchy of Milan alone in the 18th century. This does not include the many varieties of copper coins that would also have been current. Weber (pdf) describes Basel in the 1400s, which had a heterogeneous coinage acquired through trade that included florin and ducats from Italy, and German rhinegulden, along with the local silver penny.

Because most of these coins had different metallic content, and the market value of coins was determined to a large extent by the quantity of metal therein, would this not have caused a terrific amount of confusion? Silver and gold traded at a constantly fluctuating ratios, contributing to the calculational morass. How could shopkeepers and shoppers keep track of the prices at which transactions were to be consummated with such an incredible variety of ever changing units?

The answer is that prices were expressed in terms of a universal unit of account. The name for this unit was the pound, or in French, the livre. The pound (and livre) were further divisible into 20 shillings (sous) and each shilling into 12 pence (deniers). A pound was therefore divisible into 240 pence. Prices and debts were recorded not in terms of individual circulating coins, but in terms of this pound unit of account. Indeed, pound coins never actually existed in Medieval Europe, the pound being a purely abstract accounting unit.

According to Einaudi, local mint officials maintained a list of coin ratings whereby each coin in local circulation was rated at a certain amount of £/s/d. Officials determined the rating by assaying the quantity of gold or silver in each coin. Thus a shopkeeper need only list the price for, say, a horse in terms of the universal unit of account, say 1 pound 6 shillings. A buyer need only look at the 1£ 6s sticker price, determine what sorts of coins he had in his pocket, refer to their public ratings, and compute the proper number of coins to hand over as payment.

Over time, the precious metals content of coins would deteriorate as people 'sweated' coins, filed them, clipped them, or bathed them in aquafortis [2]. The price ratio of gold to silver would often change subject to the whims of market demand as well as mine supply. Sometimes a sovereign might call in an existing issue of coins and reissue them with more or less precious metals therein. When the metallic content of a given coin was changed, or when the market silver-to-gold ratio fluctuated, local mint officials would quickly account for this change by re-rating the altered coin in terms of the £/s/d unit of account.

The advantage to shopkeepers with this system is that they needn't update their sticker prices. After all, via constant re-ratings, the prices of coins were made to fluctuate around the unit of account. For example, if the Spanish doubloon was re-rated due to a debasement in its gold content, our horse-seller could keep his 1 pound 6 shilling price constant, and need simply ask for more doubloons [3]. In this way, the chaos of the medieval coinage system was rendered orderly by a universal £/s/d unit of account.

There is one important issue I haven't dealt with. What defined the medieval pound unit of account? Anyone who's read my old post will know that this question boils down to this—what was the medieval medium of account? The unit of account is always defined in terms of something else, a medium of account, and it is this MOA (which is different from Sumner's MOA) that anchors the price level.

Although city states never minted pounds (and only rarely shillings), they did mint their own pennies. Weber (pdf)(RePEc) and Spufford hypothesize that these pennies served as a foundation, or "link" coin. The penny unit of account was set equal to the penny coin, either spontaneously or via enactment, and thereafter any alteration in the silver quantity of the penny link coin modified the unit of account.

To illustrate, if the sovereign reduced the amount of silver in the local penny, the penny's linkage to the unit of account meant that the penny-as-unit of account now contained a smaller quantity of silver. The pound unit of account (a multiple of 240 pennies) by definition now also contained less silver. So a debasement of the link penny coin meant that all £/s/d sticker prices would need to be raised by shopkeepers if they desired to preserve real purchasing power [4]. In modern days, we call this inflation. Nor was princely debasement of the link coin the sole cause of medieval unit-of-account inflation. After many years of passing from hand to hand, link coin's naturally wore out, and therefore a steady inflation in prices resulted.

A debasement in a foreign penny circulating locally, however, would have no effect on the local unit of account, insofar as the foreign penny didn't serve as the link coin. Rather, a debasement of a foreign penny would result in that particular coin being re-rated in terms of the unit of account. £/s/d sticker prices would stay constant.

In some cases, however, foreign pennies were the link coin, so changes to the silver content of the local penny would have no effect on the price level. Inflation or deflation were imposed exogenously. Even more interesting, in a few rare cases the precious metal content of a famous coin of a previous era that no longer existed was used as the link coin. Monetary historians such as Munro call these "ghost monies". The advantage of having a ghost link coin rather than a current coin is that the unit-of-account could now stay constant over time, preserving the real value of debts and contracts.

To sum up, the medieval unit of account, as we already know, was £/s/d. We also know that there was no single medium of exchange, but a chaotic mix of coin media of exchange. The MOA was a single "index" coin, usually the locally-coined penny, but at other times a foreign coin or an antiquated "ghost coin". While link coins would come and go over the centuries, the £/s/d unit of account stayed constant.

At what point in history did the unit of account and medium of exchange finally fuse together? Weber (pdf) hypothesizes that the Industrial Revolution brought with it improvements in the quality of coin production. Milled edges prevented filing and clipping. The introduction of steam driven coining reduced minting costs and made it more feasible to replace worn coins. These technological improvements meant that it was now possible for coins to serve as stable units of account. The best evidence that Weber finds for this is the appearance of "value marks", or numbers, on the faces of coins. Medieval coins did not carry numbers on them, only the faces and names of the various personages responsible for their issue. The blank nature of these coins allowed the market to determine their exchange rates in terms of the unit of account. The appearance of value marks in the 19th century indicated that the coinage was now of a high enough quality that a separate unit of account was rendered unnecessary. It was now possible to inscribe the unit of account directly on the coin's face.

As a result of these developments, the modern day individual is incapable of imagining a split between the unit-of-account and the media-of-exchange. But this complex institution is something that our ancestors dealt with on a daily basis. Understanding the medieval monetary system is a great way for us to throw off the cobwebs and understand the difference between media-of-exchange and unit-of-account. After all, who knows what future monetary systems might have in store for us — perhaps another divergence between the two functions? It also crystallizes how important the unit-of-account function is. Whoever controls the unit-of-account controls prices, and therefore monetary policy.



[1] The first line of Keynes's Treatise on Money is: "Money-of-account, namely that in which Debts and Prices and General Purchasing Power are expressed, is the primary concept of a Theory of Money.
[2] Sweating coins involved putting many coins in a sack, shaking the sack, and removing the fine metal grains that shaking had dislodged from the coins. Aquafortis is nitric acid, or HNO3.
[3] The doubloons re-rating due to lower metallic content was called a "crying down" the value of the coin. If the doubloon had been reminted to contain more gold,  its value would have been "cried up". [Editor's Note: this is wrong|
[4] When the link coin's metallic content was debased, this was referred to in the medieval literature as an 'augmentation' or 'enhancement' of prices. When link coin's metallic content was rebased (increased), this was referred to as 'diminution', or 'abatement'. 

Update: By coincidence, Nick Rowe has simultaneously posted on the separation of the functions of money.

Monday, September 9, 2013

The rise and fall (and rise) of the hot potato effect

Don Randi Trio +1 at the Baked Potato, Poppy Records, 1971. [link]

In this post I'll argue that:

1. When it comes to financial assets, the hot potato effect is irrelevant.
2. The hot potato effect is born the moment we begin to talk about non-financial instruments
things you can touch and consume, like gold or cows or houses or whatnot.
3. Because central bank reserves are simultaneously financial assets and a tangible consumables, they are capable of generating a hot potato effect.
4. The moment that central bank money ceases to be valued as a consumer good, its hot potato effect dies.


Here's a short illustration of the hot potato effect that should serve as my definition of the term. Imagine that a gold miner finds several huge gold nuggets and quietly brings them to town to sell. The gold miner approaches the town's merchant with an offer to exchange gold for supplies, but at current prices the merchant is already happy with the size of his gold holdings. He will only take the the miner's gold if the miner is willing to buy supplies at a premium to the prevailing market price. The miner grumbles but sells the gold anyways. Now the merchant approaches the town's largest landowner with an offer to exchange gold for land, but the landowner is already content with the size of his gold holdings. He will, however, accept the offer if the merchant is willing to improve his price. The merchant accepts and the transaction is consummated.

Each subsequent townsperson will require a higher price to convince them to part with their goods and hold the newly mined gold. In this fashion the gold miner's nuggets work through the town's economy like hot potatoes, pushing up all gold-denominated prices.

With non-tangibles like financial assets, the hot potato effect is irrelevant. Say that our merchant decides to issue new stock or bonds into the town's economy by purchasing other stocks/bonds, gold, or by funding viable projects. The landowner takes the merchant up on his offer and tenders some gold, land, and shares in return for the merchant's newly-issued financial instruments. The merchant's financial instruments are fairly liquid and function as useful exchange media.

A few days later the landowner decides to sell these financial instruments and approaches the miner. The miner, who earlier experienced the hot potato effect, says that he'll only buy the financial instruments if the landowner will sell them for less gold. The landowner is about to consummate the transaction when the merchant barges in. The merchant offers to buy back the financial instruments at a smaller discount. After all, the merchant still owns the same land, shares, and gold that the landowner originally submitted for shares, and he can make a quick profit by repurchasing and retiring the landowner's stock with a smaller quantity of land/gold than was initially tendered. The miner reacts to the merchants competing offer by reducing the discount he required of the landlord, but each time he does so the merchant will match him with a better price. After much haggling between merchant and miner, the landowner will be able to sell his shares to one of them at a price very close to their original gold-denominated value.

Financial asset prices are driven not by the hot potato effect but by a "modern finance effect". The market value of a claim on an issuer is determined by the issuer's earning power and the risk of its underlying assets. If an individual tries to sell claims away like they were hot potatoes, profit maximizing arbitrageurs will step in and bring their price back up to their fundamental value, thereby annulling any hot potato effect.

Now back to central banks. Much like a merchant will buy back the instruments he has issued, a central banker commits to mobilize whatever bonds, gold, and other assets he holds in his vaults to repurchase every reserve he has ever issued. Like any other financial asset, the price of reserves is determined by underlying earnings power. Should a central bank issue new reserves by swapping them for bonds or gold, this issuance will not ignite a hot potato cycle of declining prices because arbitrageurs will compete to buy up any underpriced reserves.

The story doesn't end here. In addition to functioning as financial assets, central bank reserves also function as consumables. A bank that holds reserves enjoys a convenience yield: they can be sure that come some unforeseen event, they'll have adequate resources on hand to cope. Reserves are consumed in the same way that fire extinguishers are used up. While it is unlikely that either will ever be mobilized to deal with emergencies, their mere presence is consumed by their owner as a flow of uncertainty-shielding services over time.

Unlike fire extinguishers, reserves can be created instantaneously and at no cost. If fire extinguishers were like reserves, we'd conjure up any amount of them that we desired, their price would fall to zero, and everyone would enjoy their convenience for free. The marginal value that the market places on the consumability of reserves, however, never plunges to zero because a central bank keeps their supply artificially tight.

A central banker's ability to set off a hot potato chain of rising prices stems from the role of reserves-as-consumable, not their role as financial assets. Say that the banker offers to loosen the supply of scarce reserves. Existing consumers of reserves are already well-stocked with reserves at current prices. They will only accept the new issue by reducing the quantity of goods or other assets that they're willing to swap for reserves. Put differently, the price level must rise. This is the same mechanism by which the miner's gold nuggets were passed on hot-potato-like.

On the other hand, when a central banker further constricts the supply of already-scarce reserves, the marginal consumer of reserves will face a deficit in their reserve inventories, a hole that the consumer can only fill by offering larger quantities of goods/assets in return for reserves. Put differently, the price level must fall.

As a central bank issues ever larger amounts of reserves, the marginal value the market places on their consumability, or their marginal convenience yield, falls towards zero. As this happens, the hot potato effect becomes almost negligible—each subsequent issue of reserves increases the supply of what has already become a free good. The consumptive quality of central bank reserves is now akin to oxygen. Just like an increase in the amount of air has no effect on air's price—we already value it on the margin at zero— increases in the quantity of reserves are irrelevant. With the hot potato effect officially dead, we've arrived at Scott Sumner's case 5b, or Stephen Williamson's not-your-grandmother's-liquidity-trap.

With the death of the hot potato, the market's valuation of reserves is now solely governed by what I referred to earlier as the modern finance effect. Subsequent increases in the quantity of reserves via open market operations have no effect whatsoever on the price level. Anyone who sells reserves as if they were hot-potatoes will be corrected by arbitrageurs who return the price level to its fundamental value. This is a world in which Mike Sproul's backing theory precisely applies, or what Miles Kimball calls Wallace irrelevance/neutrality holds absolutely.

Reintroduce a shortage of central bank reserves and the marginal consumptive value, or convenience yield, of reserves will once again move above zero. The ability to harness the hot potato effect arises once again.

Tuesday, September 3, 2013

The convenience yield as epicentre of monetary policy implementation


Let's not get carried away by the idea that central banks set overnight interest rates. Central banks exercise direct control over the economy by pushing down on one shiny red button, the convenience yield on reserves. By modifying the convenience yield, a central banker nudges agents to either flee from reserves or flock to them. This causes a change in the purchasing power of reserves, the mirror image of which is the general price level.

So how do overnight interest rates like the fed funds rate figure into the picture? Reserves are scarce and convenient, so agents will only part with them if they are compensated with an adequate amount of "rent". The higher the marginal convenience of reserves, the more rent they require. The market in which reserves are rented out for very short periods of time, usually 24 hours, is referred to as the overnight market.

By conceptualizing monetary policy this way, it immediately becomes apparent that overnight interest rates are little more than a reflection of the underlying convenience yield on reserves. Fed funds rates move only in the instant after the convenience yield has been modified. Nor are overnight rates the first to move in response to changes in the convenience yield. They are just one of an almost infinite number of market prices and rates to react in the moments after the convenience yield has been diminished or improved. We should stop thinking in terms of overnight-rate exceptionalism. Price changes radiate out from the convenience yield.

I've gone into much more detail on all these ideas in an earlier post. In this post I want to focus on one point I made earlier -- the fed funds rate can be a bad reflection of the underlying convenience yield. There are several reasons for this. First, in renting out reserves, banks are effectively replacing the central bank as their counterparty with another private bank. In normal times, banks make excellent counterparties. But during times of stress, rentors may require an extra amount of rent that has nothing to do with the usefulness or scarcity of reserves, but the riskiness of counterparties. A spike in the fed funds rate may have nothing to do with the underlying convenience yield, and everything to do with credit risk.

Secondly (and more importantly), the funds rate ceases to be a good indicator when it falls to zero. When this happens, there is a temptation to view monetary policy as spent. After all, it may seem that a central bank can't reduce the convenience yield below 0, which is to say that it can't push the fed funds rate into negative territory. We should resist this temptation. The current fed funds is an estimate of the 24-hour convenience yield on reserves. But agents hold reserves not only to enjoy their present convenience but to enjoy their expected future flows of convenience. So even if the market puts no value on the immediate 24 hour convenience yield, that isn't to say that the market doesn't value their convenience 1 week from hence, or 1 month, 1 year, or 1 decade.

Just like there is a term structure to government bill/bond rates, there is a term structure of the convenience yield on reserves. We can get an inkling of the term structure by looking at longer-term fed funds deals. In the term fed funds market, for instance, banks will rent reserves for up to one year. Federal funds futures give an indication of the expected convenience yield several years from now.

When the overnight convenience rate hits zero, central banks still have plenty of traction over the rest of the term structure. By attacking the convenience yield on reserves one year from now, for instance, a central bank hurts the discounted value of expected streams of convenience thrown off by reserves in the present. As a result, today's forward-looking agents will be nudged away from holding reserves, causing a rise in the price level. As long as there are portions of the convenience yield curve that are still positive, a central banker can do their job.

If thinking in terms of short term rates is misguided, so is a focus on base money. Once the short term convenience rate on reserves has hit zero, present changes in the quantity of base money will have little effect on convenience yields further down the curve. One way to reduce convenience yields five years hence would be to promise that the then-supply of base money will be sufficiently broad so as to ensure that the marginal deposit yields no convenience flows. But a central bank will only be able to affect future convenience yields if the market believes it will have the gumption to follow through on its promises.

Monetary policy at low convenience rates is all about making promises about future convenience yields and ensuring those promise are credible. Conventional monetary policy, on the other hand, is relatively simple -- all a central banker need do is manipulate the current convenience yield in order to have an effect on prices.