Commentary

Reported Road Casualties Scotland 2017

Commentary

Figure 1 Reported accidents by severity, 1966 to 2017

Commentary

1. Trends in the reported numbers of Injury Road Accidents and Casualties

1.1 Main Points

Table 1 shows the long-term trends in the reported numbers of injury road accidents and casualties, the population of Scotland, the number of vehicles licensed, the length of the road network and the volume of traffic. Information on the severities of the accidents, and of the injuries suffered by the casualties, is provided in Table 2. The numbers of injury road accidents were first recorded separately in 1966, while the numbers of casualties are available back to 1938 with annual collection of data starting in 1950. Figures 1 to 7 illustrate the trends in the reported numbers of injury road accidents and casualties including (in some cases) indications of the likely range of random year–to-year variations (see section 1.4). As mentioned in the introduction, injury accidents not reported by the public to the police won't appear in the returns. Note that each accident will result in one or more casualties. For example a fatal accident could result in two fatalities and a serious injury which would count as one accident and 3 casualties.

Accidents

• In 2017, there were 141 fatal accidents, 34 (19%) less than in 2016.
• Serious injury accidents between 2016 and 2017 decreased by 61 (4%) to 1,373.
• Slight injury accidents fell by 1,153 (17%) between 2016 and 2017 to 5,600.

Casualties

• There were 146 people killed in road accidents in Scotland in 2017, 45 (24%) less than in 2016.
• 1,589 people were seriously injured in road accidents in 2017, 110 (6%) less than in 2016.
• 7,693 people were slightly injured in road accidents in 2017, 1,322 (15%) fewer than in 2016.
• There were a total number of 9,428 casualties in 2017 – 1,477 (14%) fewer than in 2016.

The figures for all types of injury were the lowest since records began.

The reductions in the numbers of accidents and casualties in recent years are notable particularly given the rise in vehicle and subsequent traffic e.g. in 2017 the number of vehicles licensed in Scotland was about a eighth higher than in 2007 and traffic on Scottish roads was estimated to have grown by seven per cent since 2007.

1.2 Reported Accidents

In 1966 there were just over 23,200 injury road accidents and the annual total remained around this level until 1973. Numbers then dropped considerably in 1974 and 1975 to about 20,600. This was the time of a fuel crisis when a national speed limit of 50 mph was introduced and the volume of traffic in Great Britain fell by 3% in 1974. Accident numbers increased again in 1976 and reached a peak of nearly 23,100 in 1979.

In the early 1980s numbers began to fall, and did so particularly sharply in 1983 when the total number of injury accidents fell by 7% in a single year to 19,400, serious accidents fell by 13% to just over 6,400, and fatal accidents fell by 11% to 568. The 1981 Transport Act came into force in 1983 and changed the law relating to drink driving, with the introduction of evidential breath testing. Compulsory front seat belt wearing and new procedures for licensing learner motorcyclists were also introduced in 1983. After 1983 the total number of injury accidents increased again to over 20,600 in 1985, and the number of serious accidents rose to just over 6,500 while fatal accidents continued a downward trend.

By 1987 the total number of injury accidents had fallen to under 18,700, but in 1989 it rose to just over 20,600. 1989 was the most recent peak in the total number of injury accidents. Since 1989, the total number of injury accidents has fallen in 24 out of 27 years, and in 2017 it was at the lowest level ever recorded. The 2017 figure of 7,114 was 1,248 less than in 2016.

Since the late 1980s, the number of fatal accidents has fallen considerably e.g. from 517 in 1987 to 141 in 2017. For serious accidents, the trend has also been downwards. The number of serious accidents has fallen e.g. from 5,814 in 1989 to 1,373 in 2017. The numbers of slight accidents have not changed as much over the years: oscillating between 12,000 and 15,000 from 1970 to 1998. The most recent peak level was 14,443 in 1990. However, they fell below 12,000 in 1999, and the 2017 figure of 5,600 was the lowest since slight accident numbers were first recorded in 1970.

1.3 Reported Casualties

As the numbers of accidents have fallen, so have the numbers of casualties. Therefore, this section does not repeat the previous section's detailed analysis of how the numbers have changed. Details can be found in Table 2.

Numbers killed

In 2017 there were 146 people killed in road accidents in Scotland, a decrease of 24% on 2016. With a few exceptions, figures fell in each year since 1978, showing a clear, steady long-term downward trend, particularly between 1982 and 1994. Since then, figures have been fluctuating around a less pronounced downwards trend. The number in 2017 was 17% below the average for the previous five years (176).

Numbers seriously injured

In 2017 there were 1,589 people seriously injured in road accidents: 110 (6%) less than in 2016. The long term trend shows that the number of serious casualties peaked in the early 1970s at around 10,000 and generally fell since the early 1980s. However, there has been some fluctuation around the long-term downwards trend, and appeared to level-off: 1996, 1997 and 1998 were around 4,050. But the downward trend subsequently resumed.

Numbers slightly injured

In 2017 there were 7,693 people slightly injured, 1,322 (15%) fewer than in 2016, and the lowest number since records began. Between 1970 and 1990, the figures fluctuated between 17,000 and 21,000. The fall between 1990 and 1995 was followed by an apparent levelling-off at around 17-18,000 in each of the years from 1996 to 1999. However, 2000 to 2017 showed consecutive falls suggesting a continuing downward trend.

Total numbers of casualties

In 2017 there was a total of 9,428 casualties, 1,477 (14%) fewer than in 2016 (the lowest number recorded). Between about 1970 and 1990, the figures fluctuated around a general downward trend. Subsequently, the casualty figures fell markedly from the level of the most recent short-term peak (over 27,000 in both 1989 and 1990), before appearing to level off. However, the downward trend resumed from 1999 to 2017.

Government targets for reductions in the numbers of road accident casualties

Scotland's Road Safety Framework was launched in June 2009. It set out the vision for road safety in Scotland, the main priorities and issues, and included Scotland-specific targets and milestones which were adopted from 2010.

Article 1 provides details of progress against the Scottish national casualty reduction targets for 2020. It contains charts and tables for each of the five targets showing the main trends in casualty numbers in comparison to the 2004-08 baseline averages. It also shows the numbers that might be expected in each year up to 2020 if the targets were to be achieved by means of a constant percentage reduction in each year.

In addition, the figures were previously used to report on the Scottish Government's Scotland Performs National Indicator: Reduce Deaths on Scotland's Roads. The indicator was removed from the National Performance Framework when it was refreshed earlier this year and is no longer updated. Had the indicator been updated this year, it would have received an assessment of 'performance improving', as the number of fatalities has fallen from 191 in 2016 to 146 in 2017.

Previous targets

In 1987 the UK Government adopted a target to reduce road casualties by one third from the 1981-85 annual average by the year 2000. The number of people killed on the roads in Scotland in 2000 was 49% below the 1981-85 average number of fatalities per year, and therefore the target of a one-third reduction by the year 2000 was exceeded for fatalities. For seriously injured casualties, the 2000 figure was 57% below the 1981-85 average, so the target was bettered for seriously injured casualties. However, the figure of 16,618 slight casualties in 2000 was only 9% below the 1981-85 average and so the target of a one-third reduction was not achieved for slight casualties. And, the total number of casualties in 2000 was 24% below the 1981-85 average, and therefore the target of a one-third reduction in the total number of casualties was not met.

In March 2000, the UK Government, the then Scottish Executive and the National Assembly for Wales announced a new national road safety strategy and casualty reduction targets for 2010. The number of people killed or seriously injured on the roads in Scotland in 2010 was 55% below the 1994-98 average, and therefore the target of a 40% reduction by the year 2010 was exceeded for fatalities. For children killed or seriously injured, the 2010 figure was 73% below the 1994-98 average, a greater reduction than the 2010 target of a 50% fall. The slight casualty rate of 25.67 casualties per 100 million vehicle kilometres in 2010 was 45% below the 1994-98 baseline average of 46.42 – a greater reduction than the 2010 target of a 10% fall.

Figure 2 Scottish fatal reported road accidents: 1972 onwards
showing likely range of values (see text) around 5-year moving average

Figure 3 Scottish reported road accident deaths: 1949 onwards
showing likely range of values (see text) around 5-year moving average

1.4 The likely range of random year-to-year variation in some road accident and casualty numbers for Scotland as a whole(see Figures 2 to 5)

Because road accidents may occur at random, the numbers of accidents, and the numbers of casualties in those accidents, can fluctuate from year to year. Figures 2 to 5 show, for Scotland as a whole, the numbers of:

• fatal road accidents (1972 to 2017);
• road deaths (1949 to 2017);
• people killed or seriously injured (1950 to 2017);
• children killed or seriously injured (1981 to 2017).

The number of years covered by each chart reflects the availability of the relevant figures. The black dots are the values in each year, and the black lines indicate the year-to-year variation. The grey dashed lines show the likely range of random year-to-year variation in the figures: based on statistical theory, one would expect that only about 5% of years would have figures outwith these ranges. Appendix G describes how these ranges were produced: the limits of the likely ranges of values are calculated in a similar way to 95% confidence intervals. It also explains why they cannot be produced for all years.

Fatal accidents, and deaths in road accidents (see Figures 2 and 3)

Figures 2 and 3 show that the number of fatal accidents is within its likely range of values in every year, and the number of road deaths is within its likely range of values in all but three years. These results are reasonable: one would expect a few years' figures to be outside the likely range of random year-to-year variation, given that there are over 40 years' figures for fatal accidents and over 60 years' figures for road accident deaths. Figures 2 and 3 therefore show that, despite the large percentage changes such as the falls in deaths of 19% between 1998 and 1999, and of 13% between 2001 and 2002, the figures almost always remain within the expected ranges. Hence, one should not put too much weight on a single large percentage change.

Killed or seriously injured (KSI) casualties (see Figure 4)

Figure 4 has many years' figures (around a third) outwith the calculated likely range of values. The reason for this is that statistical variability is not the only reason for year-to-year changes – other factors have contributed to sharp falls and rises in KSI casualty numbers. For example, the sharp fall shown in 1983 may be partly due to the introduction of seat belt wearing (for drivers and front seat passengers in most cars and light vans). Similarly, the sharp rise in 1994 may be due in part to the change in hospital practices where more casualties were kept in overnight for observation.

Such factors change the underlying rate of occurrence of accidents and/or casualties, and therefore, in effect, introduce a break into the series of moving average values. The method used to calculate the likely range of random variation cannot take account of the effect of such changes.
Only Figure 4 has figures outwith the calculated interval due to the likely ranges of random year-to-year variation calculated for small numbers being quite wide in percentage terms. This is because, for a Poisson process (see Appendix G), by definition, the greater the frequency of occurrence of events, the smaller the proportion that the standard deviation of the frequency (which is the square root of that number) represents of that number. For example:

• with 100 cases, the square root is 10 – or 10% of the value;
• with 400 cases, the square root is 20 – 5% of the value;
• with 10,000 cases, the square root is 100 – only 1% of the value.

Figure 4 Killed and seriously injured reported casualties
showing likely range of values (see text) around 5-year moving average

Figure 5 Reported child (0-15) casualties: killed or seriously injured
showing likely range of values (see text) around 5-year moving average

As a result, if a factor (like the introduction of the compulsory wearing of front seat belts) were to cause the same percentage fall in each of the four types of accident and casualty numbers used in the charts, the following might be observed. The percentage fall could be within the relatively wide percentage range of likely random variation around the smaller numbers, but outwith the relatively narrow percentage range of likely random variation around the larger numbers. The ranges in Figures 2, 3 and 5 appear to be sufficiently wide to encompass the effects of changes such as those mentioned above. That is, the effects of the changes in their first years may fall within the likely range of random variation.

Of course, over the longer-term, such changes should make significant contributions to the reductions in casualty numbers and their severity. However, the intervals in Figure 4 include a much smaller than expected proportion of the figures. This is because the likely range of random variation for KSI casualties represents only a small percentage of the total, and factors like those mentioned above appear to have had a greater percentage effect than that in their first years.

Children killed or seriously injured (see Figure 5)

Figure 5 shows that the year-to-year fluctuations in the numbers of children killed or seriously injured (for the years for which figures are readily available) are generally within the expected ranges. The exceptions are around 1994, when health boards' policies changed, with the result that more child casualties were admitted to hospitals for overnight observation. This changed the classification of many injuries from slight to serious.

When changes in operational practice or to administrative processes have a marked effect on the statistics, the resulting year-to-year changes can be much greater than those expected to arise due to normal random year-to-year variation – so it is not surprising that there are figures outwith the expected ranges around 1994.

2. Reported Accidents

2.1 Accidents by road type and severity (see Table 4)

Table 4 shows separate figures for trunk roads and for local authority roads. Trunk roads accounted for only small proportions of the total numbers of accidents in 2017: 28% of fatal accidents, 18% of serious accidents, and 18% of all accidents. The trunk road network's shares of accident numbers in previous years were broadly similar.

Accident trends for different types of road will be affected by developments in the surrounding area (new city and town bypasses, construction of new roads with high average traffic flows etc.) Therefore, figures do not provide an accurate measure of the comparative change in the road safety performance of different types of road.

Several changes were made to the trunk road network with effect from 1^st April 1996. Appendix E refers to them, and explains why the 1994-98 averages for trunk roads and for local authority major roads have been calculated by counting accidents which occurred prior to 1^st April 1996 on the basis of whether they occurred on roads which were part of the post- 1 April 1996 trunk road network.

2.2 Accident rates (see Table 5)

Accident rates showing the number of accidents per 100 million vehicle kilometres are contained in parts (b) and (c) of table 5. These are calculated by dividing the numbers of accidents on each type of road by the estimated volumes of traffic on those roads, which were provided by the Department for Transport, and which are available for all types of road with effect from 1993. The five year average accident rates were calculated by dividing the total number of accidents which occurred in each five year period by the total of the estimated volumes of traffic for the same period, rather than by calculating the averages of the individual accident rates for the five years.

Accident rates have fallen markedly since the early 1990s. The overall fatal accident rate has dropped from 0.66 per 100 million vehicle kilometres in 2005 to 0.29 in 2017; the serious accident rate fell from 5.12 to 2.86; and the overall accident rate (all severities) reduced from 29.71 per 100 million vehicle kilometres to 14.83. Motorways had consistently lower accident rates than A roads. Leaving aside the relatively low rate for fatal accidents, minor roads (taken together as a group) tend to have higher accident rates than major roads, and accident rates tend to be higher for built-up roads (roads with speed limits of up to 40 mph) than for non built-up roads (ones with higher speed limits).

Part C of the table shows that estimated accident rates vary considerably by police force area. Some of this variation may be attributed to the distribution of traffic by road type within individual areas.

2.3 Accidents by month by road type (see Table 6)

The numbers of injury accidents over the years 2013-2017 were fairly evenly spread throughout the year, with minor peaks in August and November. Serious accidents varied a little more between the months, and their peak, which occurred in August, was 13% above the monthly average. (Months are standardised to 30 days to allow comparison)

On average, there were 13 fatal accidents per month in the years 2013 to 2017. The number did not vary greatly between the months: the lowest average was 9, and the highest was 16.

2.4 Accidents by light condition and road surface condition (see Table 7)

The light and road surface conditions and the type of road (e.g. built-up) contribute to the severity of an accident. Severity rates are higher on non built-up roads than on built-up roads, likely due to the higher average speed. Severity rates are also higher in darkness than in daylight, likely due to poorer visibility.

For example, taking the annual averages for 2013-2017, 4.5% of injury road accidents on non built-up roads in darkness (35 out of 762) resulted in one (or more) deaths compared with 1.4% of accidents on built-up roads in darkness (20 out of 1,407) and 3.5% of accidents on non built-up roads in daylight (78 out of 2,208). Similarly, the percentage of accidents classified as serious is lower for built-up roads in daylight than for built-up roads in darkness.

Figure 6 Reported casualties: Total and Slightly injured - from 1950

Severity rates did not appear to be higher when the road surface condition was wet, damp or flooded, or affected by snow, frost or ice. For example, taking the annual averages for 2013 to 2017, the percentage of accidents on non built-up roads classified as serious when the road surface condition was dry was 22.5% (342 out of 1,517) compared with 19.0% (236 out of 1,240) when the surface was wet and 14.6% (31 out of 212) when it was affected by snow, frost or ice.

2.5 Car driver accident rates (see Table 18b)

This table includes all car drivers involved in injury accidents regardless of whether they were injured or not, on the basis of whatever information is known about their ages and their sex. For example, someone whose sex was known, but whose age was not known, will be included in the all ages total for the appropriate sex. The grand total includes those for whom neither the age nor the sex was known.

As the car driver accident rates that are shown for each sex and age group are on a per head of population basis, rather than being based upon the numbers of driving licence holders or upon the distance driven, they can provide only a general indication of the relative accident rates for each group. The statistics do not provide a measure of the relative risk of each group as car drivers, because they do not take account of the differing levels of car driving by each group.

Age & Gender

Car driver accident rates per head of population vary markedly by age and sex. In 2017, the overall rate was 2.0 accidents per thousand population aged 17+. The peak occurs for males in the 17-25 age group, with a rate of 3.5 per thousand population in 2017. This rate is almost one and a half times those of females of the same age (2.4 per thousand in 2017).

The overall male car driver accident rate in 2017 was 2.4 per thousand population; slightly lower than 2016 with rates for all age groups being lower than the previous year. The overall female car driver accident rate in 2017 was 1.6 per thousand population and all age groups showing decreases from the previous year.

Between 2007 and 2017, the male car driver accident rate fell from 4.7 to 2.4 per thousand population, while the female car driver accident rate has declined slowly from 2.5 per thousand population to 1.6 per thousand in 2017. As a result, the overall, ratio of male to female car driver accident rates has fallen from 1.9 : 1 for 2007 to 1.5 : 1 in 2017.

3. Reported Casualties

3.1 Casualties by type of road (see Table 23)

In 2017, non built-up roads accounted for two-fifths of the total number of casualties (40%: 3,754 out of 9,428). However, because speeds are higher on non built-up roads than elsewhere (the definition is roads with a speed limit of more than 40mph), they accounted for almost three quarters of those killed (70%: 102 out of 146) and for just under half of the total number of seriously injured (47%: 754 out of 1,589).

Compared with 2007, the fall in the total number of casualties has been 45% for non built-up roads and 40% for those elsewhere. The difference in the numbers killed on non built-up roads is higher than those on built-up ones (down by 51% for non built-up roads compared with a reduction of 38% elsewhere). Over the years, some traffic will have been transferred away from built-up roads by the opening of city and town bypasses, and by the construction of non built-up roads with higher average traffic volumes. Therefore, these figures do not provide an accurate measure of the comparative change in the road safety performance of built-up and non built-up roads.

3.2 Casualties by mode of transport (see Table 23)

A total of 5,704 car users were injured in road accidents in 2017, representing 61% of all casualties. Of these car users, 65 died. There were 1,360 pedestrian casualties (14% of the total), of whom 38 died, 729 pedal cycle casualties (8% of the total), of whom 5 died, and 620 motorcycle casualties (7% of the total), of whom 29 died. Because of the numbers of car user, pedestrian, pedal cyclist and motorcyclist casualties, the figures for each of these four groups of road users are the subject of separate sections, which follow this one, and are followed by a section on child casualties, which gives details of their modes of transport.

Together, all the modes of transport other than the four mentioned above accounted for 1,015 casualties in 2017 (11% of the total), and for smaller percentages of the numbers of seriously injured. These included 357 bus and coach users injured in 2017, of whom 23 suffered serious injuries (two died). There were also 323 casualties who were travelling in light goods vehicles, 79 people in heavy goods vehicles, 164 users of taxis, 17 users of minibuses and 75 people with another means of transport.

3.3 Car user casualties

A total of 5,704 car users were injured in road accidents in 2017, representing 61% of all casualties. Of these people, a total of 661 were seriously injured, 65 died. Non built-up roads accounted for a half of all car user casualties (50%: 2,872 out of 5,704). Perhaps because average speeds are higher on non-built up roads, they accounted for much higher percentages of the total numbers of car users who were killed (89%: 58 out of 65) or were seriously injured (71%: 471 out of 661). (see Table 23)

The number of car users killed in 2017 was 39% less than the 2016 figure. The number who were seriously injured fell by 13% and the total number of casualties of all severities was down by 15%. Since 2007, the number killed has dropped by 60%, and there have been falls of 40% in the number who were seriously injured and of 43% in the total number of car user casualties. (see Table 23)

Looking at annual averages over the years 2013-2017, the casualty rate for 16-22 year old car users was 2.60 per thousand population. This was much higher than the rate for car users in the older age groups, which varied from 0.8 to 2.2 per thousand population. (see Table 32)

Figure 7 Reported casualties: 5 year moving average (1947-51 to 2013-17)

On average, over the years 2013-2017, 72% of car user fatalities occurred on roads with a speed limit of 60mph. Such roads accounted for 59% of those car users who were seriously injured, but for only 36% of the total number of car user casualties of all severities, where more casualties occurred on roads with a 30 mph limit (41%). (see Table 33)

Adult car users

On weekdays, the peak time for adult car user casualties was from 4pm to 6pm. The 5pm to 6pm average of 431 (the average over the years 2013-2017) was 33% higher than the average of 324 in the morning 8am to 9am peak. (see Table 28)

Adult car user casualties varied by month, with fewest in September and most in February. February had 15% more adult car user casualties than September (annual averages over the years 2013-2017; months standardised to 30 days). (see Table 29)

Friday had the peak numbers of adult car user casualties over the years 2013-2017 with 16% more than the average daily number of adult car user casualties. (see Table 30)

3.4 Pedestrian casualties

There were 1,360 pedestrian casualties in 2017: 14% of all casualties. Of these, 376 were seriously injured and 38 died. Presumably due to the number of pedestrians and because of their greater vulnerability, a high proportion (24%) of the total number of people who were seriously injured were pedestrians. In addition, 28% of pedestrian casualties were seriously injured (376 out of 1,360) compared with serious for all modes of 17% (1,589 out of 9,428). 95% of pedestrian casualties occurred on built-up roads (1,295 out of 1,360) in 2017. (see Table 23)

The number of pedestrians seriously injured was 6% lower than 2016 and the overall number of pedestrian casualties was 18% lower. Since 2007, the number of pedestrians killed has fallen by 37%, the number who were seriously injured has dropped by 37%, and there has been a 50% reduction in the total number of pedestrian casualties. Looking at the annual average for the period 2013 to 2017, the pedestrian fatality rate was highest for those aged 70+ (0.02 per thousand population). However, the 12-15 age-group had the highest 'serious' and 'all severities' pedestrian casualty rates (0.18 and 0.86 per thousand population, respectively). The corresponding casualty rates for the 5-11 age-group were slightly lower. (see Tables 23 & 32)

The overall pedestrian 'all severities' casualty rate for males was 0.36 per thousand population, compared with 0.25 per thousand for females, using the averages for the period 2013 to 2017. (see Table 34)

Adult pedestrian casualties

On average in the period 2013 to 2017, the peak time for adult pedestrian casualties during the week was from 4pm to 6pm; at weekends it was from midnight to 2am. (see Table 28)

November and December were the peak months for adult pedestrian casualties, with each having 35-43% more than the monthly average. Adult pedestrian casualties in the four winter months, November to February, were 30% more than the monthly average (annual averages over the years 2013-2017; months standardised to 30 days). (see Table 29)

Friday and Saturday have the highest numbers of adult pedestrian casualties; respectively 30% and 4% more than the daily average over the period 2013 to 2017. (see Table 30)

3.5 Pedal Cycle Casualties

There were 729 pedal cycle casualties in 2017, 61 less than the previous year. The number of seriously injured pedal cycle casualties in 2017 was 171, 16% higher than in 2016. There were 5 pedal cycle fatalities in 2017, three less than 2016. Since 2007 there has been a 2% increase in all pedal cycle casualties, the number who were seriously injured has risen by 16%, and the number of fatalities has fluctuated between 4 and 13. In 2017, 87% of pedal cycle casualties were on built-up roads (see Table 23). But 63% of all fatalities over the last five years were on non-built up roads. It should be noted that pedal cycle traffic ^[1] is estimated to have increased by 21 per cent since 2007.

In terms of the averages for the period 2013 to 2017, the pedal cycle casualty rate per head of population was highest for those aged 30-39 (0.28 per thousand population) and 26-29 and 40-49 (0.22 and 0.25 per thousand respectively). Of course, it must be remembered that, as noted earlier, per capita casualty rates do not provide a measure of the relative risk, because they do not take account of the levels of usage of (in this case) pedal cycles. (see Table 32)

Adult pedal cycle casualties

Using the averages for the period 2013 to 2017, on weekdays, the peak numbers of adult pedal cycle casualties were from 4 pm to 7 pm and from 7 am to 9 am. At weekends the numbers were smaller, but appear to peak between 11 am to 12 mid-day. (see Table 28)

The peak months of the year for adult pedal cycle casualties were August and November which were 5-7% more than the monthly average (2013-2017 annual averages standardised to 30 days). (see Table 29)

The day of the week with the peak numbers of adult pedal cycle casualties was Friday, 16% higher than the daily average, over the years 2013-2017. There were substantially fewer adult pedal cycle casualties on Sunday, 18% less than the daily average. (see Table 30)

3.6 Motorcyclist casualties

A total of 620 motorcyclists were injured in road accidents in 2017, representing 7% of all casualties. Of these, 281 were seriously injured and 29 died. 49% of all motorcyclist casualties occurred on non built-up roads but (perhaps because of their higher average speeds) such roads accounted for almost 58% of those seriously injured, and 90% of those killed. (see Table 23)

The number of motorcyclist casualties in 2017 was 13% lower than in the previous year. The number killed fell by 1 and the number seriously injured increased by 13. The total number of motorcycle casualties rose each year from 1999 to a peak in 2001; since then, it has tended to decline. As a result, the figure for all casualties in 2017 was 42% lower than in 2007. Eleven less motorcyclists died in 2017 than in 2007. (see Table 23)

On average, over the years 2013 to 2017, the motorcyclist casualty rate was highest for the 16-22 age group (0.28 per thousand population) followed by the 23-25 and 40-49 year old age groups (0.25 and 0.22 per thousand population respectively); other age-groups had smaller casualty rates. (see Table 32)

Looking at the averages for the period 2013 to 2017, the peak time of day for adult motorcyclist casualties was 4pm to 6pm on weekdays (see Table 28), the peak month of the year was June (96 casualties), amidst a general peak from May to September (see Table 29) and there were more casualties at the weekend than on any of the other days (see Table 30).

3.7 Child (0-15) casualties

There were 901 child casualties in 2017, representing 10% of the total number of casualties of all ages. Of the child casualties, 152 were seriously injured, and 2 died (see Table 24).

There were ten less children killed in 2017 than in 2016 and a fall of 9% in the number of children seriously injured. The total number of child casualties fell by 10% since 2016. Since 2007, the number of children killed has fallen by seven and there has been a reduction of 43% in child seriously injured casualties. (see Table A and Table 25)

In terms of the averages for the period 2013 to 2017, on weekdays, the peak time for child casualties was from 3pm to 5pm, with 29% of all weekday casualties in those two hours. A further 26% occurred in the three hours between 5pm and 8pm There was a smaller peak in the morning, between 8am and 9am There was no real clear peak at weekends: the numbers of casualties were very broadly the same each hour from 12 noon to 7pm (see Table 27)

August was the peak month for child casualties, with 22% more than in an average month. February had 13% and September 11% more than an average month. (2013-2017 annual averages standardised to 30 days). (see Table 29)

Using the averages for 2013 to 2017, Friday was the peak day of the week for child casualties, with 22% more than an average day. Sunday, on the other hand, had 24% less than an average day. (see Table 30)

Child (0-15) casualties by mode of transport

In 2017, there were 400 child pedestrian casualties. They accounted for 29% of all pedestrian casualties of all ages (400 out of 1,360). Of the child pedestrian casualties, 106 were seriously injured and 2 died. (see Table 24)

There were 67 child pedal cycle casualties in 2017 (9% of the total of 729 pedal cycle casualties of all ages). The child pedal cycle casualties included 10 who were seriously injured, none died. (see Table 24)

In 2017, there were 421 child casualties in cars, 6% of the total number of car user casualties of all ages (421 out of 6,699). Of the child casualties in cars, 46 were seriously injured (seven died). (see Tables 23 and 25)

Child (0-15) casualty rates (per head of population)

Children's casualty rates (per head of population) increase with age: using the averages for the years 2013-2017 taken together, for children aged 0-4 the rate was 0.53 per thousand population, whereas it was 1.16 per thousand for those aged 5-11 and for the 12-15 age group it was 1.67 per thousand. The pedestrian casualty rate for younger children (0-4 years) was 31% of that for 5-11 and 20% of the 12-15 year old rate. (see Table 32)

The pedestrian casualty rate for boys seriously injured in the 0-4 age group was three times that for girls. The difference between the sexes was even more pronounced in the case of the driver or rider casualty rates, particularly for the 16-22 and 26-29 age groups. (see Table 34)

The overall child pedestrian casualty rates for seriously injured and for all severities, at 0.11 and 0.50 per thousand child population respectively, were almost two times higher than the corresponding rates for adult pedestrian casualties. (see Table 32)

3.8 Casualty rates for local authority roads by local authority area, and the likely range of random year-to-year variation in these figures (see Appendix H)

There can be some large percentage year-to-year fluctuations in the numbers of some types of casualty for local authority areas. In order to illustrate this, the table and charts in Appendix H were initially prepared in 2006 and published in Road Accidents Scotland 2005. They have now been updated using data for 2013 to 2017. They provide the following overall casualty rates (calculated per 100 million vehicle kilometres) for local authority roads in each local authority area for 2015:

• (all ages) killed casualty rate;
• (all ages) seriously injured casualty rate;
• child killed and seriously injured casualty rate(combined in one chart due to small numbers);
• slight casualty rate

These figures were calculated (or taken) from the data in two of the tables in this publication:

• the numbers of children killed and seriously injured, and the total number of people killed and seriously injured – Table 40; and
• the number of slight casualties, the estimated volume of traffic (in millions of vehicle kilometres) and the resulting slight casualty rate – Table 41.

The table in Appendix H also shows the likely upper and lower limits of the ranges within which these casualty rates would be expected to fall, given the likely random statistical variation that might affect the number of casualties in that year. Based on statistical theory, one would expect that the actual figures would be outwith these ranges in only about 5% of cases. The text in Appendix H describes how the ranges were calculated, using the annual averages for 2013 to 2017, as that is the five year period centred on 2015 (the year to which the casualty rates relate). That is why the table and charts are not for 2017: the calculation of ranges for 2017 would require the annual averages for 2015 to 2019. When the table and charts were prepared, 2015 was the latest year for which data were available.

The charts which accompany the Appendix H table show the actual casualty rates for 2015, casualty rates based upon the 2013-2017 annual averages, and the likely ranges of values within which the 2015 rates might fall, given the likely levels of random statistical variation in that year (calculated from the 2013-2017 annual averages). The 2015 rates are identified by black diamonds, the rates based upon the 2013-2017 annual averages by small circles, and the likely ranges of values by the thin bars which extend to either side of the small circles. (In any case where the 5 year average is zero, there is no likely range of values as, by definition, the value for 2015 could only be zero). For example, the slight casualty rate chart shows that (for local authority roads in 2015):

• Orkney Islands had the lowest slight casualty rate (9.9 per 100 million vehicle-kilometres) and Glasgow the highest (58.7 per 100 million vehicle kilometres), as can be seen from the table;
• Orkney and Shetland had the widest likely ranges of values. This is due to their having relatively few slight casualties (2013-2017 annual averages of 14 and 27, respectively). The smaller the casualty numbers are, the greater in percentage terms the potential random year-to-year variation (this is discussed in Section 1.4 and Appendix G). Edinburgh and Glasgow have much narrower likely ranges of values, because their numbers of slight casualties on local authority roads are much larger (2013-2017 annual averages of 1,046 and 1,197 respectively). The Scotland figure (at the foot of the chart) has a very narrow likely range of values, because it is based on an annual average of 7,406 in 2013-17.
• Few local authorities had slight casualty rates that were markedly outwith the likely range of values;
• Argyll and Bute had a slight casualty rate (27 per 100 million vehicle-kilometres) which was above the higher limit (of 25 per 100 million vehicle-kilometres) of the estimated likely range of values – in other words, the slight casualty rate that year was unusually high, compared with what would have been expected on the basis of the casualty numbers for the five-year period.

4. Motorists, breath testing and drink-driving

4.1 Breath testing of drivers (see Tables 19, 20 and 21)

These tables cover all motorists who were known to be involved in injury road accidents (excluding, for example, those untraced drivers involved in hit and run accidents). Here, a motorist is defined as the driver or the rider of a motor vehicle (including, for example, motorcyclists)

In 2017, 56% of motorists involved in injury accidents were asked for a breath test (this ranged from 40% to around 77% across the police force divisions). The breath test proved positive (or the motorist refused to take the test) for 2.9% of those drivers breathalysed. This represented 1.6% of the total number of motorists involved (including those who were not asked for a breath test). There has been a general downward trend in these percentages in the last couple of years as seen in table 19.

Tables 20 and 21 show the time and day of the accident (Table 20) and for a number of years (Table 21). Table 21 shows that, in 2017, of the 190 positive / refused cases, 39% occurred between 9 pm and 3 am [25% between 9 pm and midnight, plus 15% between midnight and 3 am.] Table 20 shows that, using 2013 to 2017 averages, the number of positive / refused cases, expressed as a percentage of motorists involved in accidents, was highest (at around 25%) between midnight and 6 am, but varied depending upon the day of the week, from 7% (the average for 3 am to 6 am for Mondays to Thursdays) to 17-20% (3 am to 6 am on Saturdays and Sundays). Table 20 shows that although the period from 9 pm to midnight had the third highest number of positive / refused cases, the equivalent percentages were not as high, because between 9 pm and midnight there were many more motorists involved in accidents than between midnight and 3 am.

4.2 Drink-drive accidents and casualties (see Table 22)

Table 22 shows the estimates (made by the Department for Transport) of the numbers of injury road accidents involving illegal alcohol levels. They are higher than the number of drivers with positive breath test results (or who refused to take the breath test) because they include allowances for the numbers of cases where drivers were not breath tested because of the severity of their injuries, or because they left the scene of the accident. Information about the blood alcohol levels of road users who died within 12 hours of being injured in a road accident is supplied by the Procurators Fiscal.

The estimates show that the numbers of drink-drive accidents fell by 43% and the number of casualties by 41% between 2006 and 2016 (the latest year for which estimates are available): from a rounded estimate of 720 to roughly 410 (accidents) and from around 980 to some 580 (casualties). While fluctuating from year to year, the number of people killed as a result of drink-drive accidents is estimated to be the same in 2016 as it was in 2006 at 30. The number of serious casualties is estimated to have dropped by half (from roughly 160 in 2006 to some 80 in 2016).

5. Comparisons of Scottish figures against those of other countries

5.1 Casualty rates: against England & Wales (see Tables C to F on the pages which follow)

Historically, killed casualty rates per head of population in Scotland have been above those for England & Wales, whereas the serious and total casualty rate is usually lower in Scotland than in England & Wales. However, in 2017, Scotland's casualty rates were 3% lower (killed), 25% lower (serious) and 36% lower (all severities).

Child rates

In 2017, the Scottish rates were 5% lower (serious) than those in England and Wales and 26% lower (all severities). In the case of serious and all casualties this represented an improvement in Scotland's figures relative to England & Wales (compared with the 2004-08 average).

Due to the relatively small number of fatalities a 5 year average is used for comparison here. In the period 2013-2017, child fatality rates in Scotland were on average 72% higher than England and Wales, however, in 2 of the five years the rates were lower.

It should be noted that the ratio of the fatality rates for Scotland and for England and Wales can fluctuate markedly from year to year, particularly for the child fatality rates due to the relatively small numbers in Scotland, (which may be subject to year-to-year changes which are large in percentage terms). Therefore, subsequent paragraphs do not refer to the fatality rates for children using different modes of transport. In addition, it should be remembered that the rates for some other sub-groups may be affected by year-to-year fluctuations: for example, the numbers are relatively small for most categories of child killed and seriously injured casualties in Scotland.

Mode of transport

The casualty rates of car users in Scotland have for many years been substantially higher than those of England & Wales for killed and seriously injured casualties, while for all severities the rate has been much lower. However, in 2017, Scotland's car user fatality rate was 3% lower than that of England & Wales, the seriously injured rate was 13% lower and the all severity car user rate was 34% lower. For child car users, the seriously injured rate was 4% higher in Scotland and the all severities rate was 34% less than that of England and Wales.

In 2017, the pedestrian killed rate per capita was 5% lower in Scotland than England & Wales, and the serious and all severities rates were 12% and 34% lower respectively. The child pedestrian casualty rates in Scotland were higher for killed (22%) and seriously injured(13%) and lower for all severities (10%) compared to those for England & Wales.

Pedal cyclists casualty rates (all ages) in Scotland were substantially lower than in England & Wales in 2017 for seriously injured (47% lower) and for all severities (55% lower). The child pedal cycle casualty serious and all severities rates were also lower in Scotland than in England & Wales. These differences may reflect the fact that, according to the National Travel Survey, on average, people in Scotland do not travel as far by bicycle as people in England and Wales.

Further information about the numbers of casualties in England and Wales, and for Great Britain as a whole, can be found in Reported Road Casualties Great Britain 2017, which is published by the Department for Transport.

5.2 Road deaths: International comparison 2016 & 2017 (provisional) (see Tables G and H)

Introduction

This section compares Scotland's road death rates in 2016 and 2017 (provisional) with the fatality rates of some countries in Western Europe and some developed countries world-wide. The comparisons involve a total of up to 44 countries (including Scotland, and counting each of the UK, Great Britain, England, Wales and Northern Ireland as an individual country). The fatality rates were calculated on a per capita basis (the statistics given are rates per million population), and the countries were then listed in order of their fatality rates in Table G sections (a), (b), (c) and (d). In cases where two countries appear to have the same rate, the order takes account of decimal places which are not shown in the tables. A table of car user fatality rates which were calculated on a per motor vehicle basis is no longer shown due to a lack of consistent data.

Tables G and H were provided by the Department for Transport, which obtained the figures for foreign countries from the International Road Traffic and Accident Database (IRTAD) Web site, the address of which is: http://stats.oecd.org/index.aspx?r=528201&erroCode=403&lastaction=login_submit#

In accordance with the commonly agreed international definition, most countries define a fatality as being due to a road accident if death occurs within 30 days of the accident. However, the official road accident statistics of some countries limit the fatalities to those occurring within shorter periods after the accident. The numbers of deaths, and the death rates, which appear in the IRTAD tables take account of the adjustment factors used by the Economic Commission for Europe and the European Conference of Ministers of Transport to represent standardised 30-day numbers of deaths.

Latest Results

In 2017, Scotland's provisional overall road death rate of 27 per million population was the third lowest of the 41 countries surveyed (counting each of Scotland, England, Wales and Northern Ireland as a separate country, but not counting the overall GB and UK figures).

Pedestrians

In 2016, Scotland's pedestrian fatality rate was 6 per million population. Scotland ranked seventh of the 35 countries for which figures are available (again counting Scotland, England, Wales and Northern Ireland separately, and again not counting the GB and UK figures).

Car Users

When the car user fatality rate is calculated on a per capita basis, Scotland has a car user fatality rate of 20 per million population: the twelfth lowest of 31 countries, again not counting the GB and UK figures.

Age

The fatality rates per head of population for up to 34 countries (including Scotland, England, Wales and Northern Ireland as separate countries, but not counting the overall GB and UK figures) are shown, for each of four broad age-groups, in Table H. Again, the ordering takes account of decimal places not shown in the table. In most cases, Scotland has one of the lowest rates per capita. However, the Scottish rate is the thirtieth lowest for casualties aged 0-14. It was the sixteenth lowest for those aged 15-24, eighth lowest for those aged 25-64 and fourth lowest for 65+ (in each case, not counting the overall GB and UK figures).

International comparisons of road safety are based on road death rates, as this is the only basis for which there is an international standard definition. As indicated above, the OECD IRTAD tables provide comparable figures for each country, after making adjustments to the data for countries which do not collect their figures on the standard basis. One should not try to compare different countries' overall road accident casualty rates (i.e. the total numbers killed or injured, relative to the population of each country) because there is no internationally-adopted standard definition of an injury road accident. There are considerable differences between countries in the coverage of their injury road accident statistics. For example, many countries count only accidents which result in someone being admitted to hospital – so their figures would not include the kinds of accident which, in Britain, are classified as causing only slight injuries or certain types of serious injury. Because many countries' definitions of injury road accidents are much narrower than the definition used in the UK, their reported numbers of injury road accidents will appear low relative to ours – so comparing the reported numbers of people injured in road accidents may provide a misleading impression of different countries' road safety records.

Table C: Reported casualties in Scotland, England & Wales by severity

Number of casualties : All ages and child casualties
	Scotland			England & Wales
	Killed	Serious	All severities	Killed	Serious	All severities
1. All Ages
(a) Numbers
2004-08 ave	292	2,605	17,097	3,016	28,513	257,789
2013	172	1,669	11,495	1,541	19,990	172,179
2014	203	1,702	11,306	1,575	21,113	183,237
2015	168	1,603	10,980	1,568	20,547	175,239
2016	191	1,699	10,905	1,601	22,407	170,501
2017	146	1,589	9,428	1,647	23,242	161,566
2013-2017 ave	176	1,652	10,823	1,586	21,460	172,544
(b) Per cent changes:
2017 on 2016	-23.6	-6.5	-13.5	2.9	3.7	-5.2
2017 on 2004-08 ave.	-50.0	-39.0	-44.9	-45.4	-18.5	-37.3
2013-17 ave. on 04-08 ave	-39.7	-36.6	-36.7	-47.4	-24.7	-33.1
2. Reported child casualties1
(a) Numbers
2004-08 ave	15	325	2,019	144	3,169	26,090
2013	9	142	1,052	39	1,790	14,703
2014	7	171	1,030	46	1,858	15,703
2015	4	140	970	49	1,771	15,133
2016	12	167	999	57	1,864	14,963
2017	2	152	901	46	1,945	14,808
2013-2017 ave	7	154	990	47	1,846	15,062
(b) Per cent changes:
2017 on 2016	-83.3	-9.0	-9.8	-19.3	4.3	-1.0
2017 on 2004-08 ave.	-87.0	-53.3	-55.4	-68.1	-38.6	-43.2
2013-17 ave. on 04-08 ave	-55.8	-52.6	-50.9	-67.1	-41.8	-42.3

Table D: Reported casualties in Scotland, England & Wales by severity

Rates per 1,000 population : All ages and child casualties
	Scotland			England & Wales			Scotland % of England & Wales
	Killed	Serious	All severities	Killed	Serious	All severities	Killed	Serious	All severities
1. All Ages									percentages
(a) Rates per 1,000 population
2004-08 ave	.06	.51	3.33	.06	.53	4.78	102	96	70
2013	.03	.31	2.16	.03	.35	3.02	119	89	71
2014	.04	.32	2.11	.03	.37	3.19	138	87	66
2015	.03	.30	2.04	.03	.35	3.03	115	84	68
2016	.04	.31	2.02	.03	.38	2.92	129	82	69
2017	.03	.29	1.74	.03	.40	2.75	96	74	63
2013-2017 ave	.03	.31	2.01	.03	.37	2.98	119	83	68
(b) Per cent changes:
2017 on 2016	-23.8	-6.8	-13.9	2.2	3.1	-5.8
2017 on 2004-08 ave.	-52.6	-42.2	-47.7	-49.8	-25.1	-42.4
2013-17 ave. on 04-08 ave	-42.3	-39.4	-39.5	-50.9	-29.8	-37.6
2. Reported child casualties1									percentages
(a) Rates per 1,000 population
2004-08 ave	.02	.35	2.18	.01	.31	2.51	119	115	87
2013	.01	.16	1.15	.00	.17	1.37	273	94	84
2014	.01	.19	1.13	.00	.17	1.45	181	110	78
2015	.00	.15	1.06	.00	.16	1.38	98	95	77
2016	.01	.18	1.09	.01	.17	1.35	255	108	81
2017	.00	.17	.98	.00	.17	1.32	53	95	74
2013-2017 ave	.01	.17	1.08	.00	.17	1.37	172	100	79
(b) Per cent changes:
2017 on 2016	-83.4	-9.1	-10.0	-20.1	3.3	-2.0
2017 on 2004-08 ave.	-86.9	-52.7	-54.8	-70.4	-43.1	-47.4
2013-17 ave. on 04-08 ave	-55.1	-51.8	-50.2	-68.9	-44.9	-45.4

¹ Child 0-15 years

Table E: Reported casualties in Scotland, England & Wales by mode of transport and severity, 2017

	Scotland			England & Wales
	Killed	Serious	All severities	Killed	Serious	All severities
1. All ages
Pedestrian	38	376	1,360	432	5,218	22,445
Pedal cycle	5	171	729	96	3,527	17,592
Car	65	661	5,704	722	8,221	94,197
Bus/coach	2	23	357	5	255	3,879
Other	36	358	1,278	392	6,021	23,453
Total	146	1,589	9,428	1,647	23,242	161,566
2. Child casualties1
Pedestrian	2	106	400	20	1,140	5,436
Pedal cycle	0	10	67	2	358	2,145
Car	0	29	330	20	340	6,372
Bus/coach	0	0	74	1	25	584
Other	0	7	30	3	82	271
Total	2	152	901	46	1,945	14,808

Table F: Reported casualties in Scotland, England & Wales by mode of transport and severity, 2017
Rate per 1,000 population : All ages and child casualties

	Scotland			England & Wales			Scotland % of England & Wales
	Killed	Serious	All severities	Killed	Serious	All severities	Killed	Serious	All severities
1. All ages									percentages
Pedestrian	.01	.07	.25	.01	.09	.38	95	78	66
Pedal cycle	.00	.03	.13	.00	.06	.30	56	53	45
Car	.01	.12	1.05	.01	.14	1.60	97	87	66
Bus/coach	.00	.00	.07	.00	.00	.07	433	98	100
Other	.01	.07	.24	.01	.10	.40	99	64	59
Total	.03	.29	1.74	.03	.40	2.75	96	74	63
2. Child casualties1
Pedestrian	.00	.12	.44	.00	.10	.49	122	113	90
Pedal cycle	-	.01	.07	.00	.03	.19	n/a	34	38
Car	-	.03	.36	.00	.03	.57	n/a	104	63
Bus/coach	-	-	.08	.00	.00	.05	n/a	n/a	155
Other	-	.01	.03	.00	.01	.02	n/a	104	135
Total	.00	.17	.98	.00	.17	1.32	53	95	74

¹ Child 0-15 years

Table G: Fatality rates per capita, for (a) All road users 2016 and 2017 provisional;
ranked by respective rates: International Comparisons ^1,2

(a) All road users 2017 (Provisional)				(a) All road users 2016
	Per million population				Per million population
	Numbers killed	Rate	Index		Numbers killed	Rate	Index
Norway	106	20	75	Norway	135	26	73
Sweden	253	25	94	Switzerland	216	26	73
Scotland	146	27	100	England	1,498	27	77
Switzerland	230	27	102	Sweden	270	27	78
England	1544	28	103	Great Britain	1,792	28	79
Great Britain	1793	28	104	United Kingdom	1,860	28	80
United Kingdom	1856	28	104	Netherlands	533	31	89
Denmark	183	32	118	Wales	103	33	94
Irish Republic	157	33	122	Scotland	191	35	100
Wales	103	33	122	Northern Ireland	68	37	103
Northern Ireland	63	34	125	Denmark	211	37	105
Japan	4431	35	130	Japan	4,698	37	105
Netherlands	613	36	133	Israel	335	39	110
Estonia	48	36	136	Spain	1,810	39	110
Israel	321	36	136	Germany	3,206	39	110
Germany	3177	38	143	Irish Republic	186	39	111
Finland	212	39	143	Finland	258	47	133
Spain	1827	39	146	Malta	22	49	138
Malta	19	41	153	Austria	432	50	141
Luxembourg	25	42	157	Slovakia	275	51	143
Austria	413	47	175	France	3,477	52	147
Iceland	16	47	176	Canada	1,898	52	148
Australia	1227	50	184	Australia	1,296	53	150
Slovenia	104	50	187	Estonia	71	54	153
Slovakia	276	51	189	Italy	3,283	54	153
France	3448	51	191	Iceland	18	54	153
Czech Republic	577	55	203	Cyprus	46	54	153
Belgium	620	55	203	Luxembourg	32	56	157
Italy	3340	55	205	Belgium	637	56	159
Portugal	624	61	225	Portugal	593	57	162
Cyprus	53	62	230	Czech Republic	611	58	164
Hungary	624	64	237	Hungary	607	62	175
Lithuania	192	67	250	Slovenia	130	63	178
Greece	739	69	255	Lithuania	192	66	188
Latvia	136	70	259	New Zealand	327	70	197
Poland	2831	75	277	Croatia	307	73	207
New Zealand	379	79	294	Greece	824	76	216
Croatia	331	80	296	Poland	3,026	80	226
Republic of Korea	4182	82	303	Latvia	158	80	227
Serbia	579	82	306	Republic of Korea	4,292	84	237
Bulgaria	682	96	357	Serbia	607	86	243
Romania	1951	99	369	Romania	1,913	97	274
United States of America	37150	114	424	Bulgaria	708	99	280
Canada	..	..	..	United States of America	37,461	116	328

1 In accordance with the commonly agreed international definition, most countries define a fatality as one being due to a road accident where death occurs within 30 days of the accident. The official road accident statistics of some countries however, limit the fatalities to those occurring within shorter periods after the accident. Numbers of deaths and death rates in the above table have been adjusted according to the factors used by the Economic Commission for Europe and the International Transport Forum (ITF) (formerly known as ECMT) to represent standardised 30-day deaths: Italy (7 days) +8%; France (6 days) +5.7%; Portugal (1 day) +14%; Republic of Korea (3 days) +15%.
2 Source: International Road Traffic and Accident Database (OECD), ETSC, EUROSTAT and CARE (EU road accidents database).

Table G: Fatality rates per capita, for (c) Pedestrians and (d) Car users - 2016;

(c) Pedestrians				(d) Car users
	Per million population				Per millionpopulation
	Numbers killed	Rate	Index		Numbers killed	Rate	Index
Netherlands	44	3	44	Japan	1,046	8	41
Norway	15	3	49	Switzerland	75	9	45
Sweden	42	4	72	England	654	12	59
Wales	14	4	76	Great Britain	816	13	63
Finland	29	5	89	United Kingdom	857	13	65
New Zealand	25	5	90	Netherlands	225	13	66
Scotland	32	6	100	Sweden	138	14	69
Germany	490	6	101	Norway	74	14	70
Switzerland	50	6	101	Israel	133	15	76
Iceland	2	6	102	Spain	754	16	81
Denmark	36	6	107	Denmark	96	17	83
Belgium	78	7	116	Wales	53	17	84
Great Britain	448	7	119	Germany	1,531	19	92
United Kingdom	463	7	119	Scotland	109	20	100
England	402	7	123	Austria	189	22	108
Irish Republic	35	7	125	Portugal	225	22	108
Australia	182	7	126	Northern Ireland	41	22	109
Northern Ireland	15	8	136	Italy	1,470	24	120
Spain	389	8	141	Ireland	115	24	121
France	559	8	141	Australia	606	25	123
Austria	73	8	142	France	1,760	26	131
Italy	570	9	159	Finland	150	27	136
Slovenia	22	11	180	Hungary	269	27	136
Israel	96	11	188	Belgium	328	29	144
Portugal	123	12	201	Lithuania	84	29	144
Czech Republic	130	12	208	Slovenia	61	30	147
Japan	1,644	13	219	Czech Republic	328	31	154
Greece	149	14	233	Greece	340	32	156
Luxembourg	8	14	234	Luxembourg	19	33	163
Hungary	152	15	261	Poland	1,417	37	185
Croatia	67	16	270	Iceland	13	39	194
Cyprus	14	17	279	New Zealand	224	48	236
United States of America	5,987	19	313	United States	25,096	78	385
Poland	868	23	386
Lithuania	73	25	427
Latvia	55	28	472
Romania	717	36	613

Table H: Road accident fatality rates per capita, by age group, ranked by respective rates - 2016;

	Per million			Per million
(a) 0-14 years	pop	Index	(b) 15-24 years	pop	Index
Wales	2	14	Sweden	31	53
Norway	2	15	Switzerland	32	55
Sweden	3	25	Japan	32	55
Spain	4	29	Norway	36	61
Netherlands	4	31	England	39	66
England	5	34	Netherlands	40	68
Portugal	5	34	Great Britain	41	70
Japan	5	37	United Kingdom	41	70
Great Britain	5	38	Iceland	43	72
United Kingdom	5	39	Luxembourg	44	74
Austria	6	40	Spain	44	75
Italy	6	42	Denmark	45	76
Germany	6	43	Wales	48	82
Denmark	6	45	Korea	49	83
Croatia	7	47	Hungary	49	83
Latvia	7	48	Portugal	52	88
Cyprus	7	51	Lithuania	59	100
Hungary	8	55	Scotland	59	100
Belgium	8	56	Germany	59	100
Czech Republic	9	62	Ireland	66	112
France	9	63	Northern Ireland	67	115
Irish Republic	9	64	Austria	70	119
Australia	9	66	Czech Republic	71	120
Lithuania	9	68	Italy	71	120
Switzerland	10	70	Belgium	72	123
Slovenia	10	70	Finland	77	130
Israel	11	76	Australia	78	133
Northern Ireland	11	78	France	92	156
Finland	11	80	Greece	107	182
Greece	12	88	Chile	110	187
Poland	13	90	Poland	118	200
Scotland	14	100	Slovenia	121	205
Iceland	15	108	New Zealand	121	206
New Zealand	18	132	United States	161	273
Luxembourg	21	151
Romania	24	173
(c) 25-64 years	pop	Index	(d) 65+ years	pop	Index
Switzerland	23	66	Norway	36	88
Japan	24	71	England	38	93
Netherlands	26	77	United Kingdom	38	93
Sweden	28	80	Great Britain	39	94
Norway	28	81	Northern Ireland	40	98
England	28	82	Scotland	41	100
United Kingdom	29	84	Wales	43	104
Great Britain	29	85	Switzerland	45	111
Denmark	34	99	Sweden	46	111
Scotland	34	100	Spain	59	144
Germany	35	101	Germany	61	148
Wales	36	104	Finland	61	150
Northern Ireland	37	109	Slovenia	63	154
Ireland	39	113	Netherlands	64	156
Spain	40	117	Denmark	67	163
Austria	45	131	Ireland	70	172
Luxembourg	45	132	Belgium	71	174
Finland	46	134	New Zealand	72	174
Portugal	52	151	France	72	175
Iceland	52	152	Australia	73	177
Italy	52	153	Japan	76	186
France	54	158	Italy	78	190
Australia	58	168	Lithuania	82	200
Czech Republic	61	177	Czech Republic	83	202
Belgium	62	180	Austria	85	208
Slovenia	67	195	Hungary	89	216
Hungary	70	203	Portugal	96	234
Korea	70	203	Greece	103	251
New Zealand	74	214	Poland	108	264
Greece	77	223	Iceland	130	317
Lithuania	78	226	United States	137	335
Poland	82	238	Luxembourg	146	357
United States	132	384	Chile	182	443
Chile	140	408	Korea	256	624

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