I am using `geoR`

package for spatial interpolation of rainfall. I have to tell that I am quite new to geostatistics. Thanks to some video tutorials in youtube, I understood (well, I think so) the theory behind variogram. As per my understanding, the number of pairs should decrease with increasing lag distances. For eg, if we consider a 100m long stretch (say 100m long cross section of a river bed) the number of pairs for 5m lag is 20 and number of pairs for 10m lag is 10 and so on. But I am kind of confused with output from `variog`

function in `geoR`

package. An example is given below

```
mydata
X Y a
[1,] 415720 432795 2.551415
[2,] 415513 432834 2.553177
[3,] 415325 432740 2.824652
[4,] 415356 432847 2.751844
[5,] 415374 432858 2.194091
[6,] 415426 432774 2.598897
[7,] 415395 432811 2.699066
[8,] 415626 432762 2.916368
```

this is my dataset where `a`

is my variable (rainfall intensity) and `x, y`

are the coordinates of the points. The varigram calculation is shown below

```
geodata=as.geodata(data,header=TRUE)
variogram=variog(geodata,coords=geodata$coords,data=geodata$data)
variogram[1:3]
$u
[1] 46.01662 107.37212 138.04987 199.40537 291.43861 352.79411
$v
[1] 0.044636453 0.025991469 0.109742986 0.029081575 0.006289056 0.041963076
$n
[1] 3 8 3 3 3 2
```

where

u: a vector with distances.

v: a vector with estimated variogram values at distances given in u.

n: number of pairs in each bin

According to this, number of pairs (n) have a random pattern whereas corresponding lag distance (u) is increasing. I find it hard to understand this. Can anyone explain what is happening? Also any suggestions/advice to improve the variogram calculation for this application (spatial interpolation of rainfall intensity) is highly appreciated as I am new to geostatistics. Thanks in advance.