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Online automatic phytoplankton monitoring at several locations performed by flowcytometry (CytoSense-CytoSub)
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Live Results APERO-micro
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EasyClus check & Info of last file

----- Processed at : 30-Jul-2023 07:40:46 -----

1. The cytometric analysis is performed on machine LOG I
2. The CytoUSB software used is CytoUSB Version: 5.11.1.6
3. The filename is APERO_Micro_continu_flr3_15ul_10min 2023-07-11 13h45.cyz
4. The analysis is performed on 11-07-2023 time 13:45:30
5. The number of measured particles is 51806
6. The total concentration found (e.g. only SWS trigg.) is 6 particles/microliter
7. The concentration found (all used triggers) is 6 particles/microliter
8. The preconcentration (before analysis) found (all used triggers) is 6 particles/microliter
9. The flush time found (between samples) is 60 seconds
10. The effective analysis volume is 8581.1964 microliter
11. The pumped volume is 8586 microliter
12. The particle-rate is 86 particles passing the laser beam/second
13. The used sample flow rate is 14.3093 microliter/second
14. The used block size memory is 4 kB
15. Trigger 1: FL Red at threshold level 3 mV
16. Trigger 2: not used at threshold level -999
17. Temperature sensor PMT is : 28.3 C
18. Temperature sensor Sheath is : 0.0 C
19. Temperature sensor Sheath is : 26.5 C
20. Temperature sensor System is : 23.6 C
21. Pressure sensor difference is : -402 mBar
22. Pressure sensor absolute is : 292 mBar
23. Sample pump 1: Last calibration of the sample pump was : 28-Févr-2023
24. Alignment check 1 by curvature detector is 0.58666 (1=perfect)
25. Alignment check 2 by curvature detector is 8% (100%=perfect)
26. Saturated signals (flattened peaks) occur when the dynamic range of the (HS)detector is reached
27. FWS: Nr of saturated signals is 1 (0% of 51806 measured particles)
28. FWS: Maximum signal height found is 11861 mV
29. FWS: Nr of particles with signal height <10 mV is high (6949 part. (13 %))
30. SWS HS: Nr of saturated signals is 124 (0% of 51806 measured particles)
31. SWS HS: Maximum signal height found is 7488 mV
32. SWS HS: Nr of particles with signal height <10 mV is high (937 part. (2 %))
33. FL Yellow HS: Nr of saturated signals is 2 (0% of 51806 measured particles)
34. FL Yellow HS: Maximum signal height found is 7488 mV
35. FL Yellow HS: Nr of particles with signal height <10 mV is high (42708 part. (82 %))
36. FL Orange HS: Nr of saturated signals is 0 (0% of 51806 measured particles)
37. FL Orange HS: Maximum signal height found is 3424 mV
38. FL Orange HS: Nr of particles with signal height <10 mV is high (51423 part. (99 %))
39. FL Red HS: Nr of saturated signals is 0 (0% of 51806 measured particles)
40. FL Red HS: Maximum signal height found is 3456 mV
41. FL Red HS: Nr of particles with signal height <10 mV is high (26224 part. (51 %))
42. FWS: Nr of block shaped signals is 73 (0.14091%)
43. SWS HS: Nr of block shaped signals is 73 (0.14091%)
44. FL Yellow HS: Nr of block shaped signals is 2 (0.0038606%)
45. Suspect nr: 0=low, 10=high
46. Maximum FWS: suspect = 0
47. Maximum SWS HS: suspect = 0
48. Maximum FL Yellow HS: suspect = 2
49. Maximum FL Orange HS: suspect = 2
50. Maximum FL Red HS: suspect = 0
51. SWS: PMT level is 60
52. FL Yellow: PMT level is 90
53. Fl Orange: PMT level is 85
54. FL Red: PMT level is 85

-------------------------- Warnings info --------------------------
1.09 Warning: This (default) low block size of 4kB in CytoUSB will decrease the effective analysis volume. (Only older CytoSenses)
1.09.1 Solution - Increase block size memory if the total particle rate is high enough (but prevent time outs) OR set to 'auto'
1.10 Warning: This threshold level is quite low and near noise
1.10 Warning: Take care you don't measure noise or in noise (this will give high particle rates but is in fact noise)
1.10.1 Solution - Increase threshold trigger level
1.21 Warning: Last calibration of sample pump towards analysis date was more than 90 days. (28-Févr-2023)
1.21.1 Solution - Check if the pumped analysis volume is the real volume by weighing
1.22 Warning: FWS-L and -R detector signals are quite different (ratio 0.58666(1=perfect)) and might indicate an alignment problem
1.22.1 Solution - Probably you have an air bubble in your system. Pinch valve to get rid of it
1.22.2 Solution - Improve alignment of FWS-L and -R detector towards sample core
1.23 Warning: FWS-L and -R might indicate an air bubble problem 8% (100%=perfect)
1.23.1 Solution - Pinch valve to get rid of the air bubble or blockage by something different
1.27 Warning: FL Yellow HS : Nr of particles with signal height <10 mV is high (82 %)
1.27.1 Solution - Increase, set higher trigger threshold (to prevent measuring noise)
1.27.2 Solution - Decrease, set lower particle sample rate. Maybe caused by an overload of particles/ noise in your sample
1.27.3 Solution - Clean sheath, clean cuvette, clean tubing? (noise can be introduced by dirty walls)
1.27 Warning: FL Orange HS : Nr of particles with signal height <10 mV is high (99 %)
1.27.1 Solution - Increase, set higher trigger threshold (to prevent measuring noise)
1.27.2 Solution - Decrease, set lower particle sample rate. Maybe caused by an overload of particles/ noise in your sample
1.27.3 Solution - Clean sheath, clean cuvette, clean tubing? (noise can be introduced by dirty walls)
1.27 Warning: FL Red HS : Nr of particles with signal height <10 mV is high (51 %)
1.27.1 Solution - Increase, set higher trigger threshold (to prevent measuring noise)
1.27.2 Solution - Decrease, set lower particle sample rate. Maybe caused by an overload of particles/ noise in your sample
1.27.3 Solution - Clean sheath, clean cuvette, clean tubing? (noise can be introduced by dirty walls)
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Any use of the provided data and results or information provided by this website is on full own risk and responsibility. Those who gave access to this website or those who provided the results represented on the website cannot be held responsible for any damage or consequences that could arise from the use of this information. This LIVE system is empowered by the Rijkswaterstaat, CytoBuoy BV and Thomas Rutten Projects. TRP Copyright 2020