Saltwater & Reef
How to Mix Saltwater and Nail Your Salinity Every Time
A step-by-step guide to mixing reef salt, measuring salinity with a refractometer, and keeping specific gravity rock steady.
Saltwater & Reef
A step-by-step guide to mixing reef salt, measuring salinity with a refractometer, and keeping specific gravity rock steady.
Mixing saltwater looks like the most trivial job in the hobby: dump some salt in some water, stir, done. Then six months in you're chasing a slow salinity creep, your corals are pinched, and you can't figure out why. The truth is that consistent, correctly measured salinity is one of the few parameters that touches everything else in a reef tank, and it's absolutely within your control once you build a repeatable routine.
Reef animals are far more forgiving of a stable "wrong" number than a bouncing "right" one. A tank held rock steady at 1.024 will look better than one that ping-pongs between 1.023 and 1.027 every water change.
That said, there's a well-established target range. Most reefkeepers run their display between 1.025 and 1.026 specific gravity (roughly 33 to 35 ppt), which sits close to natural seawater. Fish-only systems can drift a little lower without complaint, but for anything with corals, inverts, or coralline algae, staying near that natural-seawater window keeps calcium, magnesium, and alkalinity chemistry behaving the way the salt manufacturer designed it to.
Here's the part people miss: salinity and evaporation are linked at the hip. Water evaporates; salt does not. So every day your tank concentrates slightly, and every top-off with fresh water dilutes it back. If your top-off is sloppy, your salinity wanders no matter how perfectly you mixed the batch.
You cannot mix good saltwater out of bad freshwater. Tap water carries chlorine, chloramine, phosphate, silicate, copper, and nitrate in varying amounts depending on your municipality, and every one of those either feeds nuisance algae or poisons inverts.
A reverse-osmosis/deionization unit strips the water down to near-zero total dissolved solids. I check my product water with an inline TDS meter and want to see 0 ppm coming off the DI stage. If it's reading 1 or 2, my DI resin is nearly exhausted and it's time to swap it before I make more water.
If you genuinely can't run RO/DI, buy RO water from a trusted fish store and confirm they test their TDS. Grocery-store "distilled" is a distant backup, and softened tap water is actively worse than plain tap because the softener swaps hardness for sodium.
Reef salts are not interchangeable. They're formulated to slightly different alkalinity, calcium, and magnesium levels, so switching brands mid-stream shifts your baseline chemistry right when you're trying to keep it steady.
Choose a salt that matches how you dose. If you run a low-nutrient, high-demand SPS system with heavy dosing, a higher-alkalinity mix can suit you. For a mixed or softie tank, a salt mixed to more natural alkalinity (around 7–8 dKH) is gentler and more forgiving. What matters most is picking one and getting to know its fingerprint, then testing a fresh batch occasionally so you catch any bucket-to-bucket variation.
Store the bucket sealed and dry. Salt is hygroscopic — it pulls moisture from the air, clumps, and can shift the ratio of what you're actually scooping. A rock-hard bucket that's been open in a humid garage is not the same product you bought.
This is the routine I run for every batch, and it's boring on purpose. Boring is repeatable.
I mix to the exact same salinity as my display, every time. That way a water change never nudges the tank's salinity in either direction — the only variable I'm changing is water quality, not salt content. Mark a fill line on your mixing container so every batch is the same volume, and the salt dose becomes muscle memory.
Your measurement is only as good as your instrument and your habit of calibrating it. This is where most salinity problems actually live.
Plastic swing-arm hydrometers are cheap and convenient, but they accumulate salt creep, trap bubbles on the needle, and drift out of accuracy quickly. They're fine for a rough gut-check, not for a reef.
A refractometer is the practical standard for hobbyists. A few habits make it reliable:
Re-check calibration monthly. Refractometers drift, and a single degree of consistent offset is the invisible reason a lot of tanks quietly run at 1.028.
If you want to be certain, a lab-grade conductivity meter is the most accurate route, but it's overkill for most. A simpler sanity check: when you calibrate your refractometer with reference fluid, note whether the reading is spot-on or off. If it's consistently reading two points low, you now know to mentally add that offset — or better, replace the unit.
Mixing perfectly is only half the job. Between water changes, evaporation is constantly trying to move your number.
One realistic caveat: dosing supplements, kalkwasser, and even heavy feeding all nudge salinity over time. If you dose kalkwasser through your ATO, you're adding a small amount of dissolved solids with every top-off, so recheck your baseline periodically rather than assuming last month's number still holds.
None of these are exotic. They're the small, repeatable errors that separate a stable tank from a frustrating one.
Good salinity management isn't about precision instruments so much as it's about a boring, repeatable routine: clean water in, a salt you trust, enough mix time, a calibrated refractometer, and an automated top-off to hold the line between changes. Match your mixing salinity to your display, calibrate against a real reference solution, and let every batch aerate before you commit it. Do that consistently and salinity stops being a thing you worry about — it just quietly holds at 1.025 while you get on with the fun part of the hobby.
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