I am attempting to make a new vector of values that combines a loop with a simple subtraction function.

My data: 37 dates, with 48 observations per date, of which 24 observations are specified as 'treatment', and 24 are 'control' (so there are 24 pairs each day, and within each pair one was treated and one serves as the control).

I want to make a new variable that is the difference between the control and treatment flux values (thus isolating the quantitative effect of the treatment flux OVER the control flux within each pair set), but maintaining all of the other metadata (date, pair set, etc.).

This is what one day of my data looks like:

```
date collar setID withinset CH4_mg.m2.h CO2_mg.m2.h
6/20/2013 1 1 t 0.557704455 2930.10525
6/20/2013 2 1 c 0.49434559 2823.564824
6/20/2013 1S 2 c 2.205589818 2014.835162
6/20/2013 2S 2 t 2.854174288 1996.614314
6/20/2013 3 3 c 4.548922035 1818.766532
6/20/2013 4 3 t 2.352010011 1575.160171
6/20/2013 3S 4 c 1.022583517 1289.122553
6/20/2013 4S 4 t 4.377283389 2888.582123
6/20/2013 5 5 t 1.340228189 2636.685313
6/20/2013 6 5 c 1.1954218 1782.670702
6/20/2013 5N 6 c 4.217147165 1631.184251
6/20/2013 6N 6 t 1.836410187 1031.5654
6/20/2013 7 7 t 2.051102645 2609.285292
6/20/2013 8 7 c 1.96837465 2454.56188
6/20/2013 7N 8 c 3.66876257 2253.766863
6/20/2013 8N 8 t 3.460709848 2853.823753
6/20/2013 9 9 t 1.084707894 771.0890746
6/20/2013 10 9 c 1.915678246 857.8528567
6/20/2013 9S 10 c 3.555408983 569.5288078
6/20/2013 10S 10 t 3.401276615 588.6532344
6/20/2013 11 11 c 2.970877855 1324.872897
6/20/2013 12 11 t 2.028830249 956.9233078
6/20/2013 11S 12 t 8.063764267 1516.712685
6/20/2013 12S 12 c 4.160007577 986.7419756
6/20/2013 13 13 c 8.351615925 1484.538885
6/20/2013 14 13 t 7.682825572 1573.40649
6/20/2013 13N 14 c 6.688854043 1400.82208
6/20/2013 14N 14 t 4.426522661 985.5632563
6/20/2013 15 15 c 2.240328624 467.566316
6/20/2013 16 15 t 2.395533405 470.3854269
6/20/2013 15N 16 c 3.145509032 1053.025448
6/20/2013 16N 16 t 3.989964648 1602.760702
6/20/2013 17 17 t 3.117849324 656.6618375
6/20/2013 18 17 c 3.719289098 575.5902064
6/20/2013 17S 18 t 2.75248536 914.3974523
6/20/2013 18S 18 c 3.253130586 906.1170518
6/20/2013 19 19 c 2.068481806 465.0783511
6/20/2013 20 19 t 6.696415968 1362.594187
6/20/2013 19N 20 t 3.25099946 437.389186
6/20/2013 20N 20 c 2.923361538 504.803891
6/20/2013 21N 21 t 5.704969796 1190.943268
6/20/2013 22N 21 c 7.014650089 1550.961323
6/20/2013 23S 22 c 6.277550864 1408.528849
6/20/2013 24S 22 t 8.3399388 1573.475572
6/20/2013 21 23 c 7.722659069 1467.822676
6/20/2013 22 23 t 12.51091848 1276.049909
6/20/2013 23 24 t 10.81073531 2052.516537
6/20/2013 24 24 c 0.797904749 884.0794505
```

I need to make a set of code for both CO2 flux (CO2_mg.m2.h) and CH4 flux (CH4_mg.m2.h) separately, but once I get the base skeleton code working, it should be easy to duplicate.

This is my attempted code for CH4:

```
t_minus_c <- rep(0,37) # 37 dates
for (i in 1:37){
for (j in 1:24){ #24 collar pairs, aka setID
{tmc[i] <- ((data$CH4_mg.m2.h[which(data$date==i & data$setID==j & withinset=="t"),]) -
(data$CH4_mg.m2.h[which(data$date==i & data$setID==j & withinset=="c"),]))}
}
}
```

I need to make a set of code for both CO2 flux (CO2_mg.m2.h) and CH4 flux (CH4_mg.m2.h) separately.

I know it's clunky, and any help would be greatly appreciated. Thank you in advance.