Fig 1.
LLMD measured by the gap between mid-life and late-life mortality rate increase.
Pooled global data on the age-specific probability of death qx (2015 data; female population) show the relatively slower rate of late-life mortality acceleration (ages 90–95; blue line) compared with mid-life mortality (ages 50–55; orange line) in humans. The difference between these slopes indicates the magnitude of LLMD. Underlying data can be found in S1 Data. LLMD, late-life mortality deceleration.
Fig 2.
Random errors cause LLMDs and LLMPs.
(a) Introducing random age-reporting errors into a log-linear model of mortality (solid black line) artificially lowers the age-specific probability of death qx (points) in late life, causing LLMD and LLMPs (dotted lines). (b) These simulated effects often reflect late-life mortality patterns observed in real data, for example, shown here in Jeanne Calment’s birth cohort (orange). Introducing age-coding errors by randomly reassigning individuals between observed cohorts (b) further increases rates of mortality deceleration, (c) increases proportionally larger errors in the calculated probability of death, and (d) greatly reduces the probability of death at advanced ages. Exact effect of errors calculated at a probability p = 0.001 (grey) and p = 0.0001 (black), data in (a) fitted by locally smoothed splines (dashed lines). Underlying data can be found in S2 Data. LLMD, late-life mortality deceleration; LLMP, late-life mortality plateau.
Fig 3.
Reduced LLMDs in populations with better population data and higher vital statistics coverage.
The rate of LLMD (y-axis) is linked to differences in (a) the fraction of the population with death certificates, (b) the fraction of the population with birth certificates, (c) per capita gross domestic product, and (d) levels of population development (Bonferroni-corrected pairwise t test; asterisks indicate p < 0.001). In populations with continuous records of late-life mortality (e), mortality deceleration rates have fallen by 25% since 1950, alongside gains in civil registration rates (N = 55). Underlying data can be found in S3 Data. LLMD, late-life mortality deceleration.
Fig 4.
LLMD predicted by a mixed linear model.
A mixed linear mixed model (a) constructed using predictors of sampling error rates and continent of sampling explains the majority of human variation in LLMD (Pearson’s r = 0.82; adjusted R2 = 0.57; p < 10−6; N = 280 populations). (b) Correction for these factors eliminates LLMDs in humans. Underlying data can be found in S4 Data. LLMD, late-life mortality deceleration.