- One month T-bill rates are projected to peak at 4.05% in 2020, a jump of 0.19% from last week.
- This is only the second peak reflected in forward rates for a number of years.
- Scenarios for Treasuries show the volatility of potential outcomes around the forward curve.
Projected one-month bill rates surged upward this week along the full forward curve out to ten years. Forward 1 month T-bill rates are now projected to peak at year-end in 2020 at 4.05%, up from a 3.86% peak projected last week. This is the second consecutive implied peak in one month bill rates, something not seen for a few years. The impact of the peak can be seen very dramatically in the three dimensional graph of Treasury yield movements (below) and Treasury and mortgage forward rates. The forecast shows projected 10-year U.S. Treasury yields rising steadily to 4.23% in 2024. Projected 15-year fixed rate mortgage yields in 2024 show a rise from an all-in cost of 3.557% today to 5.935% in 2024. We also present three potential scenarios consistent with the implied forecast that represent alternative paths for interest rates. These scenarios are consistent with a multi-factor rate model benchmarked in 52 years of U.S. history, discussed below.
Here are the highlights of this week's implied forecast:
- The 10-year U.S. Treasury yield is projected to rise from 2.80% at Thursday's close (up 0.11% from last week) to 3.19% (up 0.14% from last week) in one year.
- The 10-year U.S. Treasury yield in ten years is forecast to reach 4.23%, 0.17% higher than last week.
- The 15-year fixed rate mortgage rate is forecast to rise from the effective yield of 3.557% on Thursday to 4.066% (up 0.05% from last week) in one year and 5.935% in 10 years, down 0.03% from last week.
The implied forecast takes the Treasury yield curve as a given and does not attempt to reverse the impact on the curve of quantitative easing by the Federal Reserve. See Jarrow and Li (2012) and Chadha, Turner and Zampolli (2013) for estimates of the impact of quantitative easing on Treasury yield levels.
We explain the background for these calculations in the rest of this note, along with some mortgage servicing rights metrics. The forecast allows investors in exchange traded U.S. Treasury funds (NYSEARCA:TLT) (NYSEARCA:TBT), bond funds (NYSEARCA:BOND)(NYSEARCA:BND), municipal bonds (NYSE:NUV) and exchange traded mortgage funds (NYSEARCA:REM) to assess likely total returns over the next 120 months.
Today's forecast for U.S. Treasury yields is based on the April 3, 2014, constant maturity Treasury yields that were reported by the Department of the Treasury via the Federal Reserve H15 statistical release at 4 p.m. Eastern Daylight Time April 4, 2014. The forecast for primary mortgage market yields and the resulting mortgage servicing rights valuations are derived in part from the Federal Home Loan Mortgage Corporation Primary Mortgage Market Survey made available on the same day.
The U.S. Treasury "forecast" is the implied future coupon bearing U.S. Treasury yields derived using the maximum smoothness forward rate smoothing approach developed by Adams and van Deventer (Journal of Fixed Income, 1994) and corrected in van Deventer and Imai, Financial Risk Analytics (1996). The primary mortgage yield forecast applies the maximum smoothness approach to primary mortgage market credit spreads, which embed the risk neutral probabilities of mortgage default and prepayment risk. References explaining this approach are given below.
U.S. Treasury Yield Forecast
This week's projections for the 1 month Treasury bill rate (investment basis) show their implied peak at 4.05% in 2020, only the second projected peak in a number of years. The 10-year U.S. Treasury yield is projected to rise steadily to reach 4.23% on March 31, 2024, 0.17% higher than last week.
3 Scenarios around the Forward Rate Curve
In the rest of this section, we highlight three of the infinite number of scenarios that could come about. We ensure that these scenarios are consistent with an efficient, "no arbitrage" market for U.S. Treasury as described by Heath, Jarrow and Morton (1992). We start with the current U.S. Treasury curve. We assume that a 9 factor model drives U.S. Treasury rates at maturities ranging from 3 months to 30 years. The basis for this model is the study released by Kamakura Corporation on March 5, 2014, that proves at least 9 factors are needed to accurately model quarterly rate changes. The study makes use of more than 52 years of daily data from the U.S. Department of the Treasury and the Board of Governors of the Federal Reserve. The 9 factors used are 6 more factors than the Federal Reserve used in its 2014 Comprehensive Capital Analysis and Review stress tests and 3 more factors than required by the December 2010 version of the Basel II market risk framework (see page 12, paragraph b) of the Bank for International Settlements. We use more factors for maximum consistency with U.S. yield curve history. The parameters of the model are estimated by Kamakura Corporation using quarterly data from 1962 to the present, with an optimization of parameters on the 2001-2013 low rate period. The model parameters are available by subscription from Kamakura Risk Information Services. The consensus "implied forecast" is shown later in this report. We now turn to three specific scenarios selected by Kamakura's analytics team for their special features.
Scenario A: A Rise to July 2015 and Then a Rate Decline
The Federal Reserve's Comprehensive Capital Analysis and Review ("CCAR") process focuses on three specific scenarios provided by the Federal Reserve. In this section of our weekly commentary, we start with the forward curve for the current date, which we explain below in our implied forecast. In this section of the report we use Monte Carlo simulation in the Heath Jarrow and Morton framework using Kamakura Risk Manager. We project 13 quarters, consistent with the CCAR program, but we generate a large number of scenarios randomly. We select 3 that we hope will be of interest to readers. In the first scenario, the initial U.S. Treasury yield curve is shown in dark blue. By July 20, 2014, the curve shifts up moderately to the light blue curve shown below. Then yields shift dramatically upward in July 2015 (in green) followed by a drop in July 2016 (in yellow). By July 2017, the U.S. Treasury curve is lower in intermediate maturities by about 1.50% from the 2015 peak.
Scenario B: Extended Pain and Suffering
In the second scenario, the U.S. Treasury curve powers up consistently, with the largest rises coming in July 2015 (in green), July 2016 (in yellow) and July 2017 (in red).
There is no respite for long-term bond holders in this scenario, with the short end of the curve reaching more than 9.00%.
Scenario C: Long Rates Controlled by a Spike in Short Term Rates
In scenario 3, the U.S. Treasury curve is relatively unchanged during 2014 and 2015. By July 2016 (in yellow), short rates twist upward, spiking to about 3.10%. Long rates move up to the 4.50% level. In July 2017 (in red) the spike in short rates to more than 6.00% is very dramatic, but the benefit is an end to the increase in long-term rates.
A Reminder to Readers about These Three Scenarios
All of these scenarios are plausible in that (A) they begin with the current U.S. Treasury curve and they are (B) simulated forward in a no arbitrage fashion (C) using historical U.S. Treasury volatilities. That being said, there are an infinite number of possible forward curve shapes and paths, and these three have been selected more for their drama than anything else. If one were to select only one scenario to focus on, it would be the forward rate "implied forecast" explained in more detail below.
Mortgage Valuation Yield Curve and Mortgage Yield Forecast
The zero coupon yield curve appropriate for valuing mortgages in the primary mortgage market is derived from new issue effective yields reported by the Federal Home Loan Mortgage Corporation in its Primary Mortgage Market Survey. The maximum smoothness credit spread is produced so that this spread, in combination with the U.S. Treasury curve derived above, correctly values new 15-year and 30-year fixed rate mortgages at their initial principal value less the value of points. The next graph compares the implied 15-year fixed rate mortgage yield with the implied 15 year U.S. Treasury fixed rate amortizing yield over the next ten years.
The effective yield on 15-year fixed rate mortgages is projected to rise from 3.557% today to 5.935% in 10 years, down 0.03% compared to last week.
Implied Valuation of Mortgage Servicing Rights
The full text of the weekly Kamakura interest rate analysis contains an intensive decomposition of the value of mortgage servicing rates that may be of interest to some readers.
Today's Kamakura U.S. Treasury Yield Forecast
The Kamakura 10-year monthly forecast of U.S. Treasury yields is based on this data from the Federal Reserve H15 statistical release:
The graph below shows in 3 dimensions the movement of the U.S. Treasury yield curve 120 months into the future at each month end:
These yield curve movements are consistent with the continuous forward rates and zero coupon yields implied by the U.S. Treasury coupon bearing yields above:
In numerical terms, forecasts for the first 60 months of U.S. Treasury yield curves are as follows:
The forecasted yields for months 61 to 120 are given here:
Today's Kamakura Forecast for Effective Primary Mortgage Market Yields
Today's forecast for the mortgage valuation yield curve is based on the following data from the Federal Home Loan Mortgage Corporation Primary Mortgage Market Survey:
Only fixed rate mortgage data is used in this analysis for reasons explained in a recent Kamakura mortgage valuation blog.
Applying the maximum smoothness forward rate smoothing approach to the forward credit spreads between the mortgage valuation yield curve and the U.S. Treasury curve results in the following zero coupon bond yields:
The forward rates for the mortgage valuation yield curve and U.S. Treasury curve are shown here:
Background Information on Input Data and Smoothing
The Federal Reserve H15 statistical release is the source of most of the data used in this analysis. The Kamakura approach to interest rate forecasting and the maximum smoothness forward rate approach to yield curve smoothing is detailed in Chapter 5 of van Deventer, Imai and Mesler (2013). The smoothing process for the maximum smoothness credit spread, derived from coupon-bearing bond prices, is given in Chapter 17 of van Deventer, Imai and Mesler (2013).
The problems with conventional approaches to mortgage servicing rights valuation and Kamakura's approach to mortgage valuation yield curve derivation are also outlined here, along with the reasons for smoothing forward credit spreads instead of the absolute level of forward rates for the marginal bank funding cost curve. The academic paper by Prof. Robert A. Jarrow and Donald R. van Deventer outlining the Kamakura approach to mortgage yield curve derivation was published in The Journal of Fixed Income.
The mortgage valuation yield curve insights depend heavily on Prof. Robert A. Jarrow's paper "Risky Coupon Bonds as a Portfolio of Zero-Coupon Bonds," published in Finance Research Letters in 2004.
Disclosure: I have no positions in any stocks mentioned, and no plans to initiate any positions within the next 72 hours. I wrote this article myself, and it expresses my own opinions. I am not receiving compensation for it. I have no business relationship with any company whose stock is mentioned in this article.
Additional disclosure: Kamakura Corporation has business relationships with a number of organizations mentioned in the article.