Testing the levels with your Checker – like alkalinity, calcium, nitrite and more – may seem to be a cut-and-dry process, but there are a lot of small things that can happen during testing which negatively impact your results.
Follow these best practices when using a Checker to ensure you get the most accurate results while saving yourself time and frustration.
Why: Products in the Hanna Checker line are colorimeters, which means they use a light source – such as an LED or tungsten lamp – with a filter and a light sensing detector to determine absorbance and ion concentration. Since the Checkers are an optical-based measurement it's important that the light is not impeded by fingerprints, scratches, dirt, or air bubbles on your cuvettes.
Fix: Use a microfiber cloth to wipe the outside of the cuvette. To remove air bubbles, gently tap the cuvette before placing it inside the Checker.
Why: Using the same syringe or pipette tip for both salt and freshwater can contaminate your freshwater sample, which leads to inaccuracies since some salt may be left inside the pipette.
Fix: Label each syringe and pipette tip as either freshwater or saltwater so they don't get mixed up.
Why: When using a Checker, it's important that the length of the optical path is always the same to ensure consistent and accurate readings every time.
Fix: Place a small mark on the cap or top of the glass to help index the position of the cuvette in the device.
Hanna Tip: Check out the video below by Bulk Reef Supply comparing our phospahte and phosphorus Checkers with a more expensive professional meter. At the nine minute mark he gives great advice on how make sure your cuvette is always in the same spot, and other handy cuvette tips.
Why: Letting a sample mixed with reagents sit in the cuvette for too long can stain the glass. This will affect the absorbance as the light passes through the glass, resulting in a bad reading.
Fix: Always empty and rinse cuvettes after testing. Which brings us to our next point...
Why: Cuvettes need to be free of possible contaminants before a new test is performed. Rinsing them with aquarium water can leave behind residual material after testing. The cuvettes should also be completely air-dried after rinsing to prevent any unwanted dilution of the sample when performing your next test.
Fix: Always empty and rinse cuvettes with distilled or DI (deionized) water after testing. When placing the cuvettes back in the case, leave the caps off.
Why: Using an expired reagent can give inaccurate or false readings.
Fix: Make a habit to examine reagent bottles or sachets before use. For best results, make sure you’re storing reagents in a cool, dry place and avoid dramatic temperature changes. Dramatic temperatures and humidity can damage the reagents.
Why: Any alternative light source entering the checker can cause inaccurate or false readings. The checker is designed to use a fixed light source – such as an LED or tungsten lamp – with a filter and a light sensing detector to determine absorbance and ion concentration.
Fix: Make sure the checker is hood pushed down completely so that additional outside light cannot penetrate the cuvette.
Why: Cutting the packet along the bottom right corner towards to the top left will create a funnel to allow easier pouring of the reagent into the cuvette. No reagent spilling means better testing results!
Fix: Before cutting the packet, gently tap it to make sure the reagent is not stuck in the corner you are cutting. Then use scissors to cut along the dotted line.