In line with other UK public sector pension funds, the LGPS undergoes an actuarial valuation every three years. The last triennial valuation of the LGPS assets and liabilities (as at May 2018) was at 31st March 2016 (see below) and the next one will be as at 31st March 2019. The results will be made available on this website as soon as they are available.

2016 Actuarial Statement

In line with the LGPS regulations, the funds' actuarial positions are reviewed every three years. The triennial valuation results shown in the 2017 Annual Report and Accounts were based on membership data and asset values as at 31st March 2016. These valuations set the employer contribution rates from 1st April 2017 to 31st March 2020, and were payable during the accounting period ended 31st March 2017. The 2013 valuations, using fund data at 31st March 2013 have set the contribution rates from 1st April 2014 to 31st April 2017, and have took into consideration funding under the new benefit structure.

2016 Actuarial Valuation

The 2016 valuation results are available and are included here for reference. The overall result of the 2016 valuation using LGPS fund data at 31st March 2016 with a comparison for 2013 is set out below. The 2016 valuation results were used to set contribution rates from 1st April 2017 to 31st March 2020. It is important to note that each fund will have used different assumptions, and whilst not directly comparable across funds, the aggregated total liabilities provides a prudent estimate for the scheme at the triennial valuation dates.

As at 31st March 2016, the total asset value of the Scheme was £216 billion, compared with £181 billion as at 31st March 2013. The liabilities totalled 254 billion in aggregate. The overall funding level was around 85%.

By way of comparison as at 31st March 2016, the funding level of the 5,945 direct benefit occupational pension schemes within the Pension Protection Fund index was 81.0% (on a insurance buyout basis, which is different from the LGPS actuarial valuation methodology). As at 31st March 2016 the University Superannuation Scheme funding level was 83%.

*See valuation 2010, 2013 and 2016 pages for fund values used in calculations

 

2016 LGPS funding level £ billion

Funding level*

2010 79%

2013 79%

2016 85%

Valuation chart image

£ billion

Assets

Liabilities

Deficit

2010 141.6 178.5 36.9
2013 180.5 227.3 46.8
2016 216.4 253.6 37.2

Development of LGPS funding position

Following the 2013 valuation, the Board published two summary reports. A summary version outlined the key findings of the 2013 valuations and provided some brief background. A more detailed version gives a fuller overview of the 2013 valuations and provided some wider context as to a) how employer contribution rates are calculated during valuations, and b) how individual fund valuations relate to the Board cost management process which will first be undertaken following 2016 results.

The Board produced similar reports for 2016, available on the Valuations pages

Aggregated information

We have the following aggregated information from the annual report and audited accounts of the LGPS funds as at 31st March 2017 showing the development of the LGPS. Importantly, this notes that active membership increased and contribution payments continue to exceed benefit payments, which is consistent with the scheme remaining open to new entrants.

 

2017

2016

2015

2014

2013

Number of actives (000) 1,964 1,899 1,905 1,819 1,728
Number of deferred (000) 2,078 1,859 1,834 1,723 1,621
Number of pensioners (000) 1,642 1,530 1,512 1,459 1,408
Total value of assets £263bn £217bn £217bn £192bn £180bn
Net return on Investment 19.4% 0.1% 12.1% 5.9% 12.5%
Total contributions paid £9.7bn £9.3bn £9.6bn £8.7bn £8.3bn
Total benefits paid £9.7bn £9.4bn £9.0bn £8.6bn £8.2bn
Inflation (CPI) (change over previous 12 months to September) 1.0% 0.0% 1.2% 2.7% 2.2%

 

Income and Expenditure
year to 31st March 2016

Cashflow chart image

Cashflow of the Scheme (£000s)

 

2015

2015

2016

2016

2017

2017

   

In

Out

In

Out

In

Out

Contributions 9,568,209   9,341,560   9,693,086  
Transfers in from other pension funds 3,017,710   434,034   1,171,785  
Other income 74,963   45,792   41,906  
Net Investment income 3,547,684   3,609,726   3,963,745   
Total income   16,208,566   13,431,112   14,870,522  
               
Benefits   (9,026,333)   (9,386,123)   9,690,483 
Payments to and on account of leavers   (3,263,646)   (536,862)   634,612 
Administration expenses (including oversight and governance)   (182,311)   (177,118)   190,157 
Investment management expenses   (727,335)   (805,203)   875,719 
Total expenditure     (13,199,625)   (10,905,306)   11,390,971

 

Life Expectancy Index

Hymans Robertson and Club Vita have developed an LGPS Life Expectancy Index to support the work of the LGPS Scheme Advisory Board. This Index will help support the communication of changing life expectancy in the LGPS to its scheme members. The Index will also provide the Board with longevity related information, including early warning of upwards cost pressures to support its role in the cost management process.

The information on this page is not specific to the circumstances of any particular reader or organisation, does not constitute advice, nor should it be relied upon by third parties. Life Expectancy Indices may also be produced by other organisations and use other sources of data.

Changes in observed longevity

The chart below demonstrates the annual progression of the LGPS Life Expectancy Index between 1993 and 2016 for male and female E&W LGPS pensioners. It measures the number of years members are expected to live after reaching the age of 65.

Years in retirement from age 65 (1993 - 2016)

Life Expectancy Index

The average rate of increase in life expectancy is around 2.1 years per decade for males and around 1.6 years per decade for females, although it does not increase uniformly over the 23 year period.

The beginning of a new trend?

Over the period to 2011 we have observed a significant and sustained increase in life expectancy. However, the period since 2011 has been characterised by more volatility and a general slowing in the rate of increase of life expectancy. Life expectancy is still improving, but not as quickly or as steadily as before.

Some of this volatility could be attributable to one-off events. During 2012/3 we experienced a harsh and sustained winter and during early 2015 it was found that the flu vaccine had not been as effective as expected – both of these events lead to increased numbers of deaths, so slower increases in life expectancy. However, this higher level of deaths was sustained throughout 2015 and continued into 2016, resulting in an apparent ‘levelling off’ of life expectancy over the period since 2011. Overall, the typical period in retirement has only increased by around 0.6 years since 2011, whereas it increased by 2.5 years for males and 1.8 years for females over the previous decade.

This leads to the question of whether we are witnessing the beginning of a new trend and how long this will continue into the future. To better understand the drivers of this change, Club Vita has completed some research with the PLSA into how longevity trends are experienced in different socio-economic groups. The summary results for males are included in the table below.

MalesAnnualised mortality improvement (age-standardised)  
  2000-2005  2005-2010 2010-2015
England & Wales (population data) 2.8% 2.8% 1.1%
Club Vita (pension scheme data) 2.4% 2.8% 1.3%
Comfortable 2.4% 2.1% 2.1%
Making-Do 2.2% 3.2% 0.9%
Hard-Pressed 2.5% 2.9% 1.0%

Source: PLSA and Club Vita (2017): Longevity trends – Does one size fit all?

Corresponding to the LGPS life expectancy index, the first two lines of the table show that mortality improvements have significantly decreased in the 2010-2015 period for both the population as a whole and for pension schemes represented in the Club Vita data set.

The bottom three lines show mortality improvements for the “Comfortable”, “Making-Do” and “Hard-Pressed” sub-groups of the data. Essentially, these groups divide the Club Vita data into high, medium and low socio-economic groups, broadly equal in size. The highest socio-economic group seems to have been resilient to whatever is effecting the general population, with sustained levels of improvements from 2000 to 2015. On the other hand, the lower socio-economic groups have experienced a significant drop in improvements in the 2010-2015 period.

What has caused this slowdown in life expectancy improvements? There are many theories, and the real answer will probably be a combination of many factors. Cause of death data indicates an increase in the number of deaths resulting from dementia (and related conditions) than would otherwise have been anticipated. Another common suggestion, supported by the difference in experience between different socio-economic groups, is that the slowdown has been the indirect result of the period of austerity being experienced by the UK.

Consequences for LGPS Funds

What should LGPS Funds (and their Actuaries) do about this? They will typically take a longer term view, seeking to base their funding assumptions for longevity on a broader view of how longevity has been changing rather than reacting to the most recent experience alone. Understanding the socio-economic profile of the Fund also becomes important, together with a view on whether drivers of mortality improvements will affect different groups in different ways. If nothing else, recent experience should serve as a reminder that LGPS Funds (and their Actuaries) should continue to monitor longevity trends and seek to better understand the drivers of changes in life expectancy.

Methodology

The LGPS Life Expectancy Index tracks the life expectancy of E&W LGPS pensioners. The methodology ensures the index results are objective and reflect the experience of E&W LGPS members.

The index is based on period life expectancy from age 65. For each year this is a measure of how long you expect to make pension payments to an average member based on death rates in that year.

This approach to measuring life expectancy uses only observable, verifiable data (with data on circa 2/3rds of E&W LGPS pensioners used by the index) and avoids any need for subjective assumptions about how life expectancies will change in the future.

The index allows changes in life expectancy from year to year, and trends in life expectancy emerging over a number of years, to be clearly identifiable.

Reliances and Limitations


Definition of Period Expectation of Life

Source: Office for National Statistics, “Life expectancy at age 65 by local areas in the United Kingdom, 2004-06 and 2008-10”, 19 October 2011

“Period expectation of life at a given age for an area in a given time period is an estimate of the average number of years a person of that age would survive if he or she experienced the particular area’s age-specific mortality rates for that period throughout the rest of his or her life. The figures reflect mortality among those living in an area in each time period, rather than mortality among those born in each area.” “Period life expectancy at age 65 in 2000 is worked out using the mortality rate for age 65 in 2000, for age 66 in 2000, for age 67 in 2000, and so on.” “Period life expectancies are a useful measure of mortality rates actually experienced over a given period, and for past years, provide an objective means of comparison of the trends in mortality over time, between areas of a country and between countries. Official life tables in the UK and other countries which relate to past years are generally period life tables for these reasons.”


Information on calculating a longevity index

The starting point for the LGPS Life Expectancy Index is the collection of a complete and reliable record of longevity experience data for the LGPS. Club Vita currently hold up to date experience data for c. two-thirds of E&W LGPS pensioners. This is more than sufficient to produce an initial E&W LGPS Life Expectancy Index. Funds that are not currently providing data are invited to contact Club Vita if they wish their data to be represented in the LGPS Life Expectancy Index.

Once data has been collected, the calculation steps involved in producing the LGPS Life Expectancy Index are broadly as follows: