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Conversion Sequences
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CO2
umol CO2 m-2 s-1 → g CO2 m-2 30min-1
Compound | Area | Time | Compound | Area | Time | Gain | Total Gain |
|||
umol | CO2 | m-2 | s-1 | → | umol | CO2 | m-2 | min-1 | 60 | |
umol | CO2 | m-2 | min-1 | → | umol | CO2 | m-2 | 30min-1 | 30 | |
umol | CO2 | m-2 | 30min-1 | → | ug | CO2 | m-2 | 30min-1 | 44.0095 | |
ug | CO2 | m-2 | 30min-1 | → | g | CO2 | m-2 | 30min-1 | 0.000001 (10-6) | |
umol | CO2 | m-2 | s-1 | → | g | CO2 | m-2 | 30min-1 | 0.0792171 |
Example
- Half-hourly flux results from EddyPro show CO2 uptake: -20 umol CO2 m-2 s-1
- The total amount of CO2 uptake in this half-hour is calculated by applying the total gain:
-20 * 0.0792171
- In this half-hour, the CO2 uptake was: -1.584342 g CO2 m-2 30min-1
- Simplified, the CO2 uptake over 30 minutes was 1.6 g m-2
umol CO2 m-2 s-1 → g C m-2 30min-1
Compound | Area | Time | Compound | Area | Time | Gain | Total Gain |
|||
umol | CO2 | m-2 | s-1 | → | umol | CO2 | m-2 | min-1 | 60 | |
umol | CO2 | m-2 | min-1 | → | umol | CO2 | m-2 | 30min-1 | 30 | |
umol | CO2 | m-2 | 30min-1 | → | ug | CO2 | m-2 | 30min-1 | 44.0095 | |
ug | CO2 | m-2 | 30min-1 | → | g | CO2 | m-2 | 30min-1 | 0.000001 (10-6) | |
g | CO2 | m-2 | 30min-1 | g | C | m-2 | 30min-1 | 0.2729115304650132 | ||
umol | CO2 | m-2 | s-1 | → | g | C | m-2 | 30min-1 | 0.02161926 |
Example
- Half-hourly flux results from EddyPro show CO2 uptake: -20 umol CO2 m-2 s-1
- The total amount of carbon uptake in this half-hour is calculated by applying the total gain:
-20 * 0.02161926
- In this half-hour, the carbon uptake was: -0.4323852 g C m-2 30min-1
- Simplified, the carbon uptake over 30 minutes was 0.4 g m-2
N2O
umol N2O m-2 s-1 → g N2O m-2 30min-1
Compound | Area | Time | Compound | Area | Time | Gain | Total Gain |
|||
umol | N2O | m-2 | s-1 | → | umol | N2O | m-2 | min-1 | 60 | |
umol | N2O | m-2 | min-1 | → | umol | N2O | m-2 | 30min-1 | 30 | |
umol | N2O | m-2 | 30min-1 | → | ug | N2O | m-2 | 30min-1 | 44.0128 | |
ug | N2O | m-2 | 30min-1 | → | g | N2O | m-2 | 30min-1 | 0.000001 (10-6) | |
umol | N2O | m-2 | s-1 | → | g | N2O | m-2 | 30min-1 | 0.07922304 |
Example
-
- Half-hourly flux results from EddyPro show N2O emission: 0.005 umol N2O m-2 s-1
- The total amount of N2O uptake in this half-hour is calculated by applying the total gain:
0.005 * 0.07922304
- In this half-hour, the N2O emission was: 0.0003961152 g N2O m-2 30min-1
- Simplified, the N2O emission over 30 minutes was 0.4 mg m-2
nmol N2O m-2 s-1 → g N2O m-2 30min-1
Compound | Area | Time | Compound | Area | Time | Gain | Total Gain |
|||
nmol | N2O | m-2 | s-1 | → | nmol | N2O | m-2 | min-1 | 60 | |
nmol | N2O | m-2 | min-1 | → | nmol | N2O | m-2 | 30min-1 | 30 | |
nmol | N2O | m-2 | 30min-1 | → | ng | N2O | m-2 | 30min-1 | 44.0128 | |
ng | N2O | m-2 | 30min-1 | → | g | N2O | m-2 | 30min-1 | 0.000000001 (10-9) | |
umol | N2O | m-2 | s-1 | → | g | N2O | m-2 | 30min-1 | 0.00007922304 |
Example
- Half-hourly flux results from EddyPro show N2O emission: 5 nmol N2O m-2 s-1
- The total amount of N2O uptake in this half-hour is calculated by applying the total gain:
5 * 0.00007922304
- In this half-hour, the N2O emission was: 0.0003961152 g N2O m-2 30min-1
- Simplified, the N2O emission over 30 minutes was 0.4 mg m-2
CH4
umol CH4 m-2 s-1 → g CH4 m-2 30min-1
Compound | Area | Time | Compound | Area | Time | Gain | Total Gain |
|||
umol | CH4 | m-2 | s-1 | → | umol | CH4 | m-2 | min-1 | 60 | |
umol | CH4 | m-2 | min-1 | → | umol | CH4 | m-2 | 30min-1 | 30 | |
umol | CH4 | m-2 | 30min-1 | → | ug | CH4 | m-2 | 30min-1 | 16.0425 | |
ug | CH4 | m-2 | 30min-1 | → | g | CH4 | m-2 | 30min-1 | 0.000001 (10-6) | |
umol | CH4 | m-2 | s-1 | → | g | CH4 | m-2 | 30min-1 | 0.0288765 |
Example
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Last Updated on 14 Dec 2019 03:08