I am new with mixed effect models and I need your help please. I have plotted the below graph in ggplot:

ggplot(tempEf,aes(TRTYEAR,CO2effect,group=Myc,col=Myc)) + 
  facet_grid(~N) +
  geom_smooth(method="lm",se=T,size=1) +
  geom_point(alpha = 0.3) + 
  geom_hline(yintercept=0, linetype="dashed") +

enter image description here

However, I would like to represent a mixed effects model instead of lmin geom_smooth, so I can include SITEas a random effect.

The model would be the following:

tempEf$TRTYEAR <- as.numeric(tempEf$TRTYEAR)
mod <- lmer(r ~ Myc * N * TRTYEAR + (1|SITE), data=tempEf)

I have included TRTYEAR(year of treatment) because I am also interested in the patterns of the effect, that may increase or decrease over time for some groups.

Next is my best attempt so far to extract the plotting variables out of the model, but only extracted the values for TRTYEAR= 5, 10 and 15.

ef <- effect("Myc:N:TRTYEAR", mod)
x <- as.data.frame(ef)
> x
   Myc     N TRTYEAR        fit         se       lower     upper
1   AM  Nlow       5 0.04100963 0.04049789 -0.03854476 0.1205640
2  ECM  Nlow       5 0.41727928 0.07342289  0.27304676 0.5615118
3   AM Nhigh       5 0.20562700 0.04060572  0.12586080 0.2853932
4  ECM Nhigh       5 0.24754017 0.27647151 -0.29556267 0.7906430
5   AM  Nlow      10 0.08913042 0.03751783  0.01543008 0.1628307
6  ECM  Nlow      10 0.42211957 0.15631679  0.11504963 0.7291895
7   AM Nhigh      10 0.30411129 0.03615213  0.23309376 0.3751288
8  ECM Nhigh      10 0.29540744 0.76966410 -1.21652689 1.8073418
9   AM  Nlow      15 0.13725120 0.06325159  0.01299927 0.2615031
10 ECM  Nlow      15 0.42695986 0.27301163 -0.10934636 0.9632661
11  AM Nhigh      15 0.40259559 0.05990085  0.28492587 0.5202653
12 ECM Nhigh      15 0.34327471 1.29676632 -2.20410343 2.8906529

Suggestions to a completely different approach to represent this analysis are welcome. I thought this question is better suited for stackoverflow because it’s about the technicalities in R rather than the statistics behind. Thanks

  • If you have a random effect like that, you don't get nice, simple lines anymore. What do you expect the plot to look like? Also, when asking for programming help, you should include a reproducible example that has sample input data so we can run your code as well to test possible solutions.
    – MrFlick
    Jun 26 '15 at 14:15
  • Thanks @MrFlick. I would expect plotting the CI perhaps, but I don’t have experience so I don’t know what could be the expected output in terms of a graph. Regarding the data, I wanted represent the problems and type of analysis I need accurately, but of course the real data do not belong to me so I am not allowed to make it available online.
    – fede_luppi
    Jun 26 '15 at 14:39
  • @MrFlick For a publication, would you hence suggest use a similar graph to above with lm to visualise it, and use lmer for the statistical analysis?
    – fede_luppi
    Jun 26 '15 at 15:25

You can represent your model a variety of different ways. The easiest is to plot data by the various parameters using different plotting tools (color, shape, line type, facet), which is what you did with your example except for the random effect site. Model residuals can also be plotted to communicate results. Like @MrFlick commented, it depends on what you want to communicate. If you want to add confidence/prediction bands around your estimates, you'll have to dig deeper and consider bigger statistical issues (example1, example2).

Here's an example taking yours just a bit further.
Also, in your comment you said you didn't provide a reproducible example because the data do not belong to you. That doesn't mean you can't provide an example out of made up data. Please consider that for future posts so you can get faster answers.

#Make up data:
tempEf <- data.frame(
  N = rep(c("Nlow", "Nhigh"), each=300),
  Myc = rep(c("AM", "ECM"), each=150, times=2),
  TRTYEAR = runif(600, 1, 15),
  site = rep(c("A","B","C","D","E"), each=10, times=12)   #5 sites

# Make up some response data
tempEf$r <- 2*tempEf$TRTYEAR +                   
            -8*as.numeric(tempEf$Myc=="ECM") +
            4*as.numeric(tempEf$N=="Nlow") +
            0.1*tempEf$TRTYEAR * as.numeric(tempEf$N=="Nlow") +
            0.2*tempEf$TRTYEAR*as.numeric(tempEf$Myc=="ECM") +
           as.numeric(tempEf$site) +  #Random intercepts; intercepts will increase by 1
           tempEf$TRTYEAR/10*rnorm(600, mean=0, sd=2)    #Add some noise

model <- lmer(r ~ Myc * N * TRTYEAR + (1|site), data=tempEf)
tempEf$fit <- predict(model)   #Add model fits to dataframe

Incidentally, the model fit the data well compared to the coefficients above:


#Linear mixed model fit by REML ['lmerMod']
#Formula: r ~ Myc * N * TRTYEAR + (1 | site)
#   Data: tempEf
#REML criterion at convergence: 2461.705
#Random effects:
# Groups   Name        Std.Dev.
# site     (Intercept) 1.684   
# Residual             1.825   
#Number of obs: 600, groups:  site, 5
#Fixed Effects:
#         (Intercept)                MycECM                 NNlow               
#             3.03411              -7.92755               4.30380               
#             TRTYEAR          MycECM:NNlow        MycECM:TRTYEAR  
#             1.98889             -11.64218               0.18589  
#       NNlow:TRTYEAR  MycECM:NNlow:TRTYEAR  
#             0.07781               0.60224      

Adapting your example to show the model outputs overlaid on the data

    ggplot(tempEf,aes(TRTYEAR, r, group=interaction(site, Myc), col=site, shape=Myc )) + 
      facet_grid(~N) +
      geom_line(aes(y=fit, lty=Myc), size=0.8) +
      geom_point(alpha = 0.3) + 
      geom_hline(yintercept=0, linetype="dashed") +

Notice all I did was change your colour from Myc to site, and linetype to Myc. lmer with random effects

I hope this example gives some ideas how to visualize your mixed effects model.

  • 2
    Thanks for the reply. Your comprehensive answer has made me realise of the different potential outcomes of the analysis and what I really need. Thanks
    – fede_luppi
    Jun 29 '15 at 16:28

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