ProcedureOperating the LI-6400Put i

Procedure

Operating the LI-6400

Put in batteries and attach sensor head to console (take care uncoiling the cable to prevent cable wind).
Unwind lid tension screw to tighten cuvette lid on sensor head.
Attach CO2cartridge: check O-ring is present and in good condition. Place cartridge where it lines up with O-ring, then screw on gently until it feels like it meets, then one last hard and fast screw to break the seal on the cartridge, make sure it is all the way on.
Turn on (using on/off switch).
In main menu, go to configuration menu, go to light source control, go to pick source and select the appropriate setting, press enter and escape to main menu.
Go to new measurements, line 2 and select temperature control. Set block temperature to control at your standard temperature.
In main menu, go to calibration menu, go to zero flow meter, you will have to wait about 10 seconds and then after verifying that the voltage is close to zero (otherwise manually adjust) you can hit OK (F5).
A. Humid conditions (where obtaining a valid H2O zero may be difficult without dry N2gas) In the calibration menu, go to IRGA zeroing, make sure the CO2scrub is all the way on and that the desiccant is all the way off (bypass), then you will hit M to turn Match (Mch) on. Stay in this mode for 20 min to allow IRGAs to warm up. Do not hit auto CO2, auto H2O or auto all. The LI-6400 should only be zeroed when running pure N2gas through the system. Verify good zero values and record.
B. Dry conditions (replace used drierite in scrub column with fresh drierite). In the calibration menu, go to IRGA zeroing, turn the H2O scrub on fully, then you will hit M to turn Match (Mch) on. Stay in this mode for 20 min to allow IRGAs to warm up. Verify good zero values and record. Hit auto H2O and then turn the CO2scrub all the way on and the desiccant all the way off (bypass). Wait for a good zero to be reached (2-5 min) then verify good zero values and record. Hit auto CO2, then exit calibration menu.
Go to new measurements menu. Disconnect leaf thermocouple and verify leaf temperature equals block temperature (row h). If not, adjust potentiometer underneath IRGA mounting bracket.
Go to menu (line) 1 and open the log file (F5), name the file (usually use date and species ID - which is first 2 letters of each part of the scientific name, and any other information, like leaf # or plant #, e.g. 011607SOFA1-1) also put a short note, eg. SOFA1-1
Go to menu (line) 2 and set the CO2mixer to reference 400 (menu > CO2mixer > reference > 400) and the lamp to a reasonable value (1500 micromol m-2s-1for plants growing in sunlight, or 500 micromol m-2s-1for shade plants.) Decide on Temp (temperature) control - if using batteries, this consumes power and requires more frequent battery changeover.
View the CO2trace (press ] ) and verify that CO2control has reached the set value. Match the IRGAs (line 1 F5).
Check reference water (H2OR) is acceptable. If too low, add up to 10ml water to the CO2scrub column (soda lime). Set flow rate if lower flow required.
Place the chosen leaf in the cuvette, make sure to cover as much of the cuvette with the leaf as possible. Make sure the leaf is in contact with the thermocouple.
Go to menu (line) 3 and enter leaf area estimate if it does not fully cover the opening. Enter STOMRT (1 for equal density on top and bottom, 0 for stomata on one side only).
Once the cuvette is closed, watch the parameters (Photo, Cond, Ci, Trans). Ensure that transpiration does not lead to excessive humidity. NOTE: Generally humidity greater than 85% is excessive. If condensation occurs, the gas exchange calculations will be wrong until the system is dried out.
View the graphs (press ] ) and when graph looks stable log the point using menu (line) 1, F1, or the button on the sensor head.
Light response curve or A-Ci curve. Go to menu 5, select AUTO PROG, pick type of curve, append to file (Y).

A. Light curve standard protocol: 1500,1000, 500, 250, 120, 60, 40, 20, 10, 0), set min. wait time (usually 120 secs), set max. wait time (usually 200 secs), Y (yes) to match if change in CO2gets less than 20, Y (yes) stability definition is OK.
B. CO2response curve: (for C3species) ambient, 50, 100, 150, 250, 350, 500, 700, 900, 1200, 700, 400. (for C4 species) ambient, 30, 50, 80, 110, 150, 250, 350, 500, 700, 400. set min. wait time (usually 120 secs), set max. wait time (usually 200 secs), Y (yes) to match if change in CO2gets less than 200, Y (yes) stability definition is OK.
While the autoprograms are running, keep an eye on the following:

display line C, Photo (photosynthesis) should be between 0-15 or higher, respiration in darkness 0 to -2, Cond (conductance) should always be positive, between .01- 1, Ci should be positive (a negative value indicates a problem with leaf temperature or water calibration).
display line D, VpdL, if greater than 2, then leaf is too hot, maybe too hot outside or too late in the day to continue (although OK for diurnals).