Resource assessment exercises: introduction to response designs
From AWF-Wiki
(Difference between revisions)
m (Lburgr moved page Resource assessment exercises: Introduction to response designs to Resource assessment exercises: introduction to response designs: Typo) |
|||
(2 intermediate revisions by one user not shown) | |||
Line 1: | Line 1: | ||
+ | : ''This article is part of the '''Resource assessment exercises'''. See the [[:category:Resource assessment exercises 2014|category page]] for a (chronological) table of contents. | ||
+ | |||
In the introduction we mentioned that in forest inventories we usually do not sample individual trees. In this section we will have a look at different response designs. These include fixed area, nested fixed area plots, and plots of variable size. For other types of observation units see, e.g. Gregoire & Valentine (2008)<ref name=Gregoire08>Gregoire, T.G., Valentine, H.T., 2008. ''Sampling Strategies for Natural Resources And The Environment, Applied Environmental Statistics.'' Chapman & Hall/CRC.</ref>, and Kleinn (2013) <ref name=Kleinn13>Kleinn, C., 2013. ''Lecture Notes for the Teaching Module Forest Inventory.''</ref>. | In the introduction we mentioned that in forest inventories we usually do not sample individual trees. In this section we will have a look at different response designs. These include fixed area, nested fixed area plots, and plots of variable size. For other types of observation units see, e.g. Gregoire & Valentine (2008)<ref name=Gregoire08>Gregoire, T.G., Valentine, H.T., 2008. ''Sampling Strategies for Natural Resources And The Environment, Applied Environmental Statistics.'' Chapman & Hall/CRC.</ref>, and Kleinn (2013) <ref name=Kleinn13>Kleinn, C., 2013. ''Lecture Notes for the Teaching Module Forest Inventory.''</ref>. | ||
Line 25: | Line 27: | ||
==Related pages== | ==Related pages== | ||
− | * Previous page: [[Resource assessment exercises: | + | * Previous page: [[Resource assessment exercises: basic statistics additional exercises|Basic statistics additional exercises]] |
* Next page: [[Resource assessment exercises: fixed area plots|Fixed area plots]] | * Next page: [[Resource assessment exercises: fixed area plots|Fixed area plots]] | ||
Latest revision as of 09:23, 23 July 2014
- This article is part of the Resource assessment exercises. See the category page for a (chronological) table of contents.
In the introduction we mentioned that in forest inventories we usually do not sample individual trees. In this section we will have a look at different response designs. These include fixed area, nested fixed area plots, and plots of variable size. For other types of observation units see, e.g. Gregoire & Valentine (2008)[1], and Kleinn (2013) [2].
Our target parameter will be the basal area (BA) ha\(^{-1}\). The BA in square meters (m\(^{2}\)) of a single tree, i.e., the cross-section of a tree trunk, is defined as,
$\text{BA}=\frac{\pi\times(\text{DBH}/2)^2}{10000}$ | 1 |
Here, the DBH is given in centimeters, and we, therefore, have to divide by 10,000. The BA ha\(^{-1}\) for the simulated forest is
trees$ba <- (pi * (trees$dbh/2)^2)/10000 sum(trees$ba)/50 # the area of the forest is 50 hectares ## [1] 28.66 tapply(trees$ba, trees$stratum, function(x) sum(x)/25) # per stratum ## 1 2 ## 13.95 43.36
- What the function
sum()
does - the function
sum(x)
simply takes the sum ofx
. To get the sums of columns and rows usecolSums()
androwSums()
, respectively.
- What the function
tapply()
does - The function
tapply(x, group, function)
applies afunction
to values in a group. In the last code example we looked at the variableba
oftrees
. The grouping variable isstratum
. For all valuesba
in each group (i.e., stratum) we apply a function. The argumentx
infunction(x)
stands for the values in group $i$. The sum is taken for all the values in the group and then divided by 25.tapply(trees$dbh,trees$stratum, mean)
[edit] Related pages
- Previous page: Basic statistics additional exercises
- Next page: Fixed area plots