YSI 6 series User Manual page 278

Principles of Operation
2. Accurately weigh 0.500 g of the 20 % Rhodamine concentrate, quantitatively transfer the viscous liquid
to a 1000-mL volumetric flask and fill the flask to the top graduation. Mix well. This solution contains
100 mg of Rhodamine WT per 1000 mL of water.
3. Accurately transfer 80 uL of the solution prepared in the above step to a 1000 mL volumetric and then fill
the flask to the top graduation with purified water. Mix well to obtain a solution that is 8 ug/L (0.008
mg/L) in water.
4. Store the concentrated standard solution in a darkened glass bottle in a refrigerator to retard
decomposition. The dilute standard prepared in the previous step should be used within 5 days of its
preparation.
When Rhodamine WT standards are required in the future, perform another dilution of the concentrated dye
solution after warming it to ambient temperature. Our experience has indicated that the concentrated solution
that has been kept at cold temperatures is much more stable than the dilute solution stored at room
temperature.
It is well known that the intensity of the fluorescence of many dyes shows an inverse relationship with
temperature. The effect must also be accounted for when "calibrating" the YSI BGA-PE sensor with
Rhodamine WT. Enter the calibration value from the table below corresponding to the temperature of the
standard.
WARNING: The "PE tempco" factor in the Advanced|Sensor menu MUST BE SET TO ZERO,
when calibrating with Rhodamine WT.
Table. Approximate PE-containing equivalent of 8 ug/L Rhodamine WT as a function of temperature.
T, C Cells/mL to Enter
30 156,000
28 164,000
26 174,000
24 181,000
22 189,000
20 200,000
REMEMBER: The use of Rhodamine WT for "calibration" of the PE Probe is only an approximation.
To assure the maximum accuracy for the 6132 sensor, the user must relate the field fluorescence
readings to data from actual BGA samples as described above. YSI does not provide an accuracy
specification for the sensor due to the limitations described above and below.
EFFECT OF TURBIDITY ON BGA-PE READINGS
As described above, the filters in front of the photodiode in the YSI 6132 PE Probe prevent most of the
orange light which is used to excite the Rhodamine molecules from reaching the detector after being
backscattered off of non-fluorescent particles (turbidity) in environmental water. However, the filter
system is not perfect and a minor interference on PE-containing BGA readings from suspended solids will
result. Laboratory experiments indicate that a YSI 6132 sensor will have a turbidity interference
characterized by a factor of about 140 cells/mL of PC-containing BGA per NTU of turbidity. For example,
at a turbidity of 100 NTU, a PE-containing BGA reading of 14000 cell/mL will be observed over and above
the reading actually due to the presence of BGA. Users may wish to use the independently-determined
turbidity value and the above compensation factor to correct measured PE-containing BGA values using,
for example, a spreadsheet.
YSI Incorporated
T, Cells/mL to Enter
C
18 210,000
16 220,000
14 230,000
12 240,000
10 247,000
8 254,000
Environmental Monitoring Systems Manual
Section 5
5-40