First of all, I added column group to your NMDS data frame.

```
NMDS = data.frame(MDS1 = sol$points[,1], MDS2 = sol$points[,2],group=MyMeta$amt)
```

Second data frame contains mean MDS1 and MDS2 values for each group and it will be used to show group names on plot

```
NMDS.mean=aggregate(NMDS[,1:2],list(group=group),mean)
```

Data frame `df_ell`

contains values to show ellipses. It is calculated with function `veganCovEllipse`

which is hidden in `vegan`

package. This function is applied to each level of NMDS (group) and it uses also function `cov.wt`

to calculate covariance matrix.

```
veganCovEllipse<-function (cov, center = c(0, 0), scale = 1, npoints = 100)
{
theta <- (0:npoints) * 2 * pi/npoints
Circle <- cbind(cos(theta), sin(theta))
t(center + scale * t(Circle %*% chol(cov)))
}
df_ell <- data.frame()
for(g in levels(NMDS$group)){
df_ell <- rbind(df_ell, cbind(as.data.frame(with(NMDS[NMDS$group==g,],
veganCovEllipse(cov.wt(cbind(MDS1,MDS2),wt=rep(1/length(MDS1),length(MDS1)))$cov,center=c(mean(MDS1),mean(MDS2)))))
,group=g))
}
```

Now ellipses are plotted with function `geom_path()`

and `annotate()`

used to plot group names.

```
ggplot(data = NMDS, aes(MDS1, MDS2)) + geom_point(aes(color = group)) +
geom_path(data=df_ell, aes(x=MDS1, y=MDS2,colour=group), size=1, linetype=2)+
annotate("text",x=NMDS.mean$MDS1,y=NMDS.mean$MDS2,label=NMDS.mean$group)
```

Idea for ellipse plotting was adopted from another stackoverflow question.

## UPDATE - solution that works in both cases

First, make NMDS data frame with group column.

```
NMDS = data.frame(MDS1 = sol$points[,1], MDS2 = sol$points[,2],group=MyMeta$amt)
```

Next, save result of function `ordiellipse()`

as some object.

```
ord<-ordiellipse(sol, MyMeta$amt, display = "sites",
kind = "se", conf = 0.95, label = T)
```

Data frame `df_ell`

contains values to show ellipses. It is calculated again with function `veganCovEllipse`

which is hidden in `vegan`

package. This function is applied to each level of NMDS (group) and now it uses arguments stored in `ord`

object - `cov`

, `center`

and `scale`

of each level.

```
df_ell <- data.frame()
for(g in levels(NMDS$group)){
df_ell <- rbind(df_ell, cbind(as.data.frame(with(NMDS[NMDS$group==g,],
veganCovEllipse(ord[[g]]$cov,ord[[g]]$center,ord[[g]]$scale)))
,group=g))
}
```

Plotting is done the same way as in previous example. As for the calculating of coordinates for elipses object of `ordiellipse()`

is used, this solution will work with different parameters you provide for this function.

```
ggplot(data = NMDS, aes(MDS1, MDS2)) + geom_point(aes(color = group)) +
geom_path(data=df_ell, aes(x=NMDS1, y=NMDS2,colour=group), size=1, linetype=2)
```