Harvard Forest Data Archive HF035−12
Data File:
Name = hf035−12−e6−canopy.csvDescription = exp 6 − canopy fluxes and micrometeorology Rows = 960 Columns = 19MD5 checksum = 20ad555f6dfea9e753161d88a1ff190b
Variables:
datetime = date and time doy = day of year (nominalDay) time = time of day (nominalHour) sap.tsca = hemlock sap flow (average of three trees) scaled to projected canopy area (millimolePerMeterSquaredPerSecond) sap.acru = red maple sap flow (average of three trees) scaled to projected canopy area (millimolePerMeterSquaredPerSecond) sap.quru = red oak sap flow (average of three trees) scaled to projected canopy area (millimolePerMeterSquaredPerSecond) photo.tsca = hemlock photosynthesis (average of three trees) scaled to projected canopy area (micromolePerMeterSquaredPerSecond) photo.acru = red maple photosynthesis (average of three trees) scaled to projected canopy area; times when trees were leafless shown as "NA" (micromolePerMeterSquaredPerSecond) photo.quru = red oak photosynthesis (average of three trees) scaled to projected canopy area; times when trees were leafless shown as "NA" (micromolePerMeterSquaredPerSecond) airt = air temperature (celsius) rh = Relative humidity, % (number) wind1 = wind speed in upper canopy (metersPerSecond) wind2 = wind speed in lower canopy (metersPerSecond) t1tsca = hemlock leaf temperature in upper canopy (celsius) t2tsca = hemlock leaf temperature in lower canopy (celsius) t1acru = red maple leaf temperature in upper canopy; times when trees were leafless shown as "NA" (celsius) t2acru = red maple leaf temperature in lower canopy; times when trees were leafless shown as "NA" (celsius) t1quru = red oak leaf temperature in upper canopy; times when trees were leafless shown as "NA" (celsius) t2quru = red oak leaf temperature in lower canopy; times when trees were leafless shown as "NA" (celsius)
Variable Min Median Mean Max NAs−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−datetime 1999−04−15T00:00 1999−11−07T23:00 0doy 105.000 220.500 213.125 311.000 0time 0.000 1150.000 1150.000 2300.000 0sap.tsca 0.000 0.085 0.245 1.394 0sap.acru 0.000 0.086 0.586 4.718 0sap.quru 0.000 0.079 0.949 6.946 0photo.tsca 0.000 0.581 1.216 9.126 0photo.acru 0.007 2.386 3.996 18.772 360photo.quru 0.000 3.282 6.691 33.495 360airt −2.270 14.285 14.838 31.930 0rh 22.380 73.390 72.536 100.670 0wind1 0.184 1.478 1.527 4.275 0wind2 0.000 0.718 0.751 2.137 0t1tsca −2.260 14.420 14.937 35.010 0t2tsca −2.090 14.295 14.555 30.450 0t1acru 2.960 17.420 17.668 32.780 360t2acru 3.040 17.620 17.430 30.440 360t1quru 2.940 17.605 17.659 32.810 360t2quru 3.040 17.460 17.335 29.850 360
row
May
Aug
Nov
010
00
0 400 800
01
23
4
May Aug Nov
datetime
doy
100 200 300
0 1000 2000
time
sap.tsca
0.0 0.6 1.2
0 1 2 3 4
040
080
010
020
030
00.
00.
61.
2
sap.acru
HF035−12 Plot 1
row
01
23
40
24
68
0 400 800
010
2030
0 1 2 3 4
sap.acru
sap.quru
0 2 4 6
0 2 4 6 8
photo.tsca
photo.acru
0 5 10
0 10 20 30
040
080
00
24
60
510
photo.quru
HF035−12 Plot 2
row
010
2030
2060
100
0 400 800
0.0
1.0
2.0
0 10 20 30
photo.quru
airt
0 10 20 30
20 60 100
rh
wind1
1 2 3 4
0.0 1.0 2.0
040
080
00
1020
301
23
4
wind2
HF035−12 Plot 3
row
0.0
1.0
2.0
010
2030
0 400 800
515
25
0.0 1.0 2.0
wind2
t1tsca
0 10 30
0 10 20 30
t2tsca
t1acru
5 15 25
5 15 25
040
080
00
1030
515
25
t2acru
HF035−12 Plot 4
row
010
2030
515
25
0 400 800
515
25
0 10 20 30
t2tsca
t1acru
5 15 25
5 15 25
t2acru
t1quru
5 15 25
5 15 25
040
080
05
1525
515
25
t2quru
HF035−12 Plot 5