What is Bread Hydration? A Baker’s Guide

What is Bread Hydration? A Baker’s Guide | SavoryTribe
Baking Tips & Conversions

What is Bread Hydration? A Baker’s Guide

Bread hydration is the ratio of water to flour in a dough, expressed as a percentage. It’s the single number that most predicts how a loaf looks, feels, and bakes — and once you understand it, you can diagnose and fix almost any dough problem.

🕐 9 min read
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Updated 2026
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Baking Tips & Conversions
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✍️ SavoryTribe Kitchen Team
Sourdough loaf dusted with flour on a wooden board, showing rustic crust and open crumb structure
Bread hydration determines whether your loaf has a tight, uniform crumb or a wide-open, chewy one like this sourdough. Photo by Pexels.
⚡ Quick answer
Bread hydration is the weight of water divided by the weight of flour, multiplied by 100 — expressed as a percentage.
A dough made with 350g of water and 500g of flour is 70% hydration. Most beginner loaves fall between 60–70%. Sourdough and ciabatta often go above 75%. The higher the hydration, the more open and chewy the crumb — but also the stickier and harder to handle the dough. Use the Bread Hydration Calculator to work out the percentage for any recipe instantly.

If you’ve ever followed a bread recipe exactly and ended up with something completely different from the photo, bread hydration is usually where the gap lives. Two loaves can use identical ingredients in identical proportions and come out with totally different textures — because flour absorbs water differently depending on its protein content, age, and how finely it was milled. Understanding hydration gives you the language to understand why, and the tools to fix it.

Hydration is one of the core concepts in baker’s percentage — a system where every ingredient in a recipe is expressed as a percentage of the total flour weight, not the total recipe weight. This makes recipes scalable and comparable across different batch sizes. Hydration is the most important number in that system because water affects gluten development, crumb structure, crust thickness, fermentation speed, and oven spring all at once.

This guide covers what the numbers actually mean, how to calculate hydration for any recipe, and — critically — how to match hydration level to the bread you’re trying to bake. Different breads need different hydrations, and knowing the target range for each style is what separates bakers who understand their dough from those who are just following instructions.

60–70%
Hydration range for most beginner loaves
75–80%
Typical sourdough hydration
80–90%
Ciabatta hydration range
55–60%
Bagel and pretzel hydration range

How to Calculate Bread Hydration

The formula is straightforward: divide the total water weight by the total flour weight, then multiply by 100.

Hydration % = (Water weight ÷ Flour weight) × 100

For example: 375g water ÷ 500g flour × 100 = 75% hydration. That’s all there is to the maths. The skill is in knowing what to include in those totals — and that’s where most beginners make mistakes.

What counts as “water” in the calculation?

Any liquid that adds water to the dough counts. That includes milk (which is roughly 88% water), eggs (about 74% water), honey (17–20% water), and even sourdough starter, which is itself a mixture of flour and water. For beginner loaves using only water and flour, the calculation is exact. For enriched doughs with eggs, butter, and milk, it gets more nuanced — but for most everyday baking, adding up the liquid ingredients by weight gives you a close enough working number.

Butter, oil, and other fats do not count toward hydration. They coat gluten strands and affect texture, but they don’t contribute water to the dough’s structure.

Sourdough starter and hydration

If your recipe includes sourdough starter, you need to account for the flour and water inside it. A 100% hydration starter (equal weights flour and water) contributes both equally — so 200g of starter adds 100g flour and 100g water to your running totals. Add those to the main recipe’s flour and water before calculating. Skipping this step consistently underestimates hydration by 3–5 percentage points in most sourdough recipes.

Bread Hydration by Bread Type — Reference Chart

Different bread styles are engineered around specific hydration ranges. Use this chart to understand what you’re aiming for before you start, and to diagnose a dough that isn’t behaving the way you expected.

Bread TypeHydration RangeDough FeelCrumb StructureSkill Level
Bagels / Pretzels55–60%Firm, smooth, stiffTight, dense, chewyBeginner
Sandwich loaf (white)60–65%Soft, slightly tackyFine, uniform, softBeginner
French baguette65–70%Supple, manageableModerate holes, thin crustBeginner–Intermediate
Country loaf / sourdough70–80%Slack, sticky, extensibleOpen, irregular, chewyIntermediate
Focaccia75–85%Very slack, pourableLarge bubbles, airyBeginner (no shaping)
Ciabatta80–90%Extremely wet, batter-likeVery open, irregular, holesIntermediate–Advanced
Enriched (brioche)55–65% (before butter)Soft, pillowyFine, pillowy, richIntermediate
Rye bread (100% rye)80–100%Porridge-like, stickyDense, moist, closeIntermediate
Hydration ranges are for lean doughs (flour, water, salt, yeast) unless noted. Flour protein content affects absorption — higher protein flours absorb more water and can handle higher hydration without becoming unworkable.
💡
Start at the lower end: If a recipe gives a hydration range, start at the lower number on your first bake. Different flour brands absorb water differently, and a dough at 68% that feels right in one kitchen can feel soupy at 68% with a different bag of flour. You can always add a splash more water; you can’t take it out.
SavoryTribe Baking Tool
Bread Hydration Calculator
Enter your flour and water weights — including starter, if using — and get the exact hydration percentage plus a recommendation for what style of bread that hydration suits.
Open the calculator

What Hydration Actually Does to Your Dough

Hydration isn’t just a number — it changes the physical chemistry of every stage of the bread-making process. Understanding what happens at each stage explains why adjusting hydration by even 5 percentage points can produce a noticeably different loaf.

Gluten development

Water activates the proteins in flour — glutenin and gliadin — which combine to form gluten when mixed. Higher hydration doughs develop gluten more readily because there’s more water to facilitate protein bonding. This is why high-hydration doughs can be made with minimal kneading using techniques like stretch-and-fold: the gluten network builds itself over time as long as sufficient water is present. Lower hydration doughs need more mechanical work (kneading) because there’s less water to lubricate protein-to-protein contact.

Fermentation speed

Yeast and bacteria thrive in wetter environments. A higher hydration dough ferments faster than a stiff one at the same temperature, because the yeast have easier access to the sugars dissolved in the water. This means a 75% hydration dough will overproof faster than a 62% one if you’re not paying attention. In cold retarding (overnight fridge proofing), high-hydration doughs are more forgiving because the cold slows fermentation enough to give you a wide window to work with.

Crust and oven spring

Water turns to steam in the oven, and that steam is what drives oven spring — the dramatic final rise you see in the first 10–15 minutes of baking. High-hydration doughs have more steam to work with, which produces a more dramatic oven spring, a thinner, crispier crust, and more ear development when scored. This is why professional bakers inject steam into their deck ovens and why home bakers bake sourdough inside a Dutch oven — trapping the steam from the dough itself mimics that effect.

Slack, shiny bread dough in a bowl during bulk fermentation, showing the wet and extensible texture of a high-hydration dough
High-hydration doughs are worked with wet hands and gentle folds rather than traditional kneading — the water does most of the gluten development work. Photo by Pexels.

How to Adjust Hydration in Any Recipe

1
Calculate the current hydration
Weigh or note the flour and water in the recipe. Divide water by flour and multiply by 100. This is your baseline. If you’re working with a sourdough recipe, add the starter’s flour and water contribution to each total before calculating.
2
Decide on your target hydration
Use the reference chart above to find the right range for the bread you’re making. If you’re a beginner, stay at or below 70%. Moving from a current 65% to a target 72% is a meaningful change — don’t jump more than 5–8 percentage points in a single experiment.
3
Calculate the new water weight
Multiply your total flour weight by the target hydration as a decimal. For example: 500g flour × 0.72 = 360g water for a 72% hydration dough. This is the only number you need to change in the recipe — everything else stays the same.
4
Hold back 10% of the water at mixing
Especially when increasing hydration for the first time, mix in 90% of your calculated water first and assess the dough after 5 minutes of mixing. If it feels too stiff or dry, add the remaining 10% in small splashes. Different flour brands absorb differently, and this technique protects you from an accidentally unworkable dough.
5
Adjust your technique to match the hydration
Above 70%, traditional kneading stops working — the dough sticks to everything. Switch to stretch-and-fold sets (4 sets of 4 folds, 30 minutes apart) or coil folds during bulk fermentation. Wet hands and a bench scraper are your best tools. Don’t add flour to compensate for stickiness — that just changes the hydration back down and defeats the purpose.
⚠️
Don’t chase high hydration for its own sake: High-hydration doughs are harder to shape, more prone to spreading flat, and less forgiving of timing errors. A 68% sandwich loaf made confidently will taste better than a 80% sourdough made anxiously. Build your skills at the hydration that matches your experience, then increase it gradually once you understand how your dough is supposed to feel.

How Flour Type Changes Your Hydration Target

The same hydration percentage produces a completely different dough depending on the flour you’re using. This is one of the most important things to understand when adapting recipes across different flour types.

Bread flour (12–14% protein) absorbs more water than all-purpose flour (10–12% protein). A 72% hydration recipe written for bread flour will feel noticeably stiffer if you substitute all-purpose flour without increasing the water. If you’re swapping from bread to all-purpose, add 2–3% more water to compensate.

Wholemeal and whole wheat flours contain the bran, which absorbs significantly more water than white flour. Recipes with 100% wholemeal flour often target 75–85% hydration to achieve the same workable consistency as an all-purpose dough at 65%. The bran also cuts gluten strands, which is why wholemeal loaves are denser — more water helps, but it doesn’t fully offset the structural impact of the bran.

Rye flour is the extreme case. It contains very little gluten-forming protein and absorbs enormous amounts of water — which is why 100% rye recipes can reach 95–100% hydration and still produce a dough that’s more paste than bread dough. Rye is usually baked in a tin mould because the dough can’t hold a freeform shape at these hydrations.

Low Hydration vs High Hydration — What to Expect

🧱 Low Hydration (55–65%)
Stiff, easy to shape, tight crumb
Smooth, workable dough. Easy to knead and shape by hand. Produces a finer, more uniform crumb. Ideal for bagels, sandwich loaves, and enriched breads. Less oven spring, thicker crust.
💧 High Hydration (75–90%)
Slack, sticky, open holey crumb
Sticky, extensible dough that requires folds rather than kneading. Produces an open, irregular crumb with a crackling thin crust. More oven spring. Requires more skill but rewards with bakery-style results.
Key Takeaways
  • Bread hydration = (water weight ÷ flour weight) × 100 — it’s always expressed as a percentage of the flour weight.
  • Most beginner loaves work well at 60–70% hydration; sourdough typically targets 70–80%.
  • Higher hydration produces a more open, chewy crumb and a thinner, crispier crust — but requires more advanced handling technique.
  • Include sourdough starter’s water and flour in your calculation, or you’ll under-estimate your actual hydration by 3–5%.
  • Different flour types absorb water differently — bread flour handles higher hydration than all-purpose; rye flour absorbs the most of all.
  • Above 70% hydration, switch from kneading to stretch-and-fold sets during bulk fermentation.
  • Use the Bread Hydration Calculator to find the exact percentage for any recipe and scale it to any batch size.

Frequently Asked Questions

What is a good bread hydration for beginners?
60–68% is the ideal starting range. At this hydration, the dough is smooth, slightly tacky, and easy to knead and shape by hand without sticking to everything. It produces a fine-crumbed, soft loaf — exactly what most home bakers want when starting out. Once you’ve baked a couple of loaves and understand how the dough should feel at each stage, moving up to 70–72% is a natural next step that noticeably opens the crumb without making the dough dramatically harder to handle.
Why is my high-hydration dough spreading flat instead of holding its shape?
Flat spreading in high-hydration doughs is almost always a gluten development problem — not a hydration problem. The dough hasn’t built enough gluten structure to hold the gas produced by fermentation, so it spreads outward instead of rising upward. The fixes are: more stretch-and-fold sets during bulk fermentation, making sure bulk fermentation is far enough along before shaping (the dough should be noticeably domed and bubbly), and a cold final proof in the fridge to firm the dough up before baking. Also check your flour — a low-protein all-purpose flour will struggle above 70%.
Does hydration affect how long bread stays fresh?
Yes, directly. Higher hydration loaves stay moist and soft longer because there’s more water in the crumb to begin with — staling is essentially the process of water molecules redistributing away from starch granules, and there’s more water to lose in a higher-hydration loaf. A 75% sourdough will typically stay in good condition for 3–4 days stored cut-side down, while a 62% sandwich loaf starts to dry out noticeably after day 2. Sourdough’s lactic acid also slows mould growth, adding to its shelf life beyond just the hydration effect.
What happens if my bread dough is too wet?
You can’t rescue an overly wet dough by adding flour after mixing — it just creates dry pockets and uneven texture. Instead, use the dough as-is and adapt your technique: bake it in a tin mould rather than freeform, increase stretch-and-fold sets to build more gluten strength, make sure the final proof is in the fridge (cold firms the dough and gives it better structure going into the oven), and score very shallowly or skip scoring entirely. For next time, hold back 5–10% of the water until you’ve assessed the dough after initial mixing.
Is sourdough hydration calculated the same way as regular bread?
Yes, but you must account for the flour and water inside the starter itself. A 100% hydration starter (equal weights flour and water, the most common type) contributes equal amounts of each. So 200g of starter = 100g flour + 100g water. Add those to the main recipe’s flour and water totals before dividing. Skipping this step causes you to undercount both flour and water — and since they’re usually in equal proportions in a 100% hydration starter, the error tends to be small but consistent. With a stiff starter (50% hydration) or a liquid starter (125% hydration), the difference is more significant.
What hydration should I use for sourdough?
Most popular sourdough recipes target 72–78% hydration, which produces an open crumb with good ear development and a satisfying crust without requiring the extreme technique of 80%+ doughs. If you’re new to sourdough, start at 72%. The dough will be noticeably slack and sticky compared to a sandwich loaf, but manageable with wet hands and a bench scraper. Once you’ve nailed shaping at 72%, move up to 75% to see how much more oven spring and crumb openness you gain. Beyond 78%, you’re in territory that rewards experience more than it rewards effort.
Can I use baker’s percentage for recipes in cups instead of grams?
No — baker’s percentage and hydration calculations only work accurately with weight measurements. Volume measurements like cups vary significantly depending on how flour is scooped (a packed cup of bread flour can weigh 160g, a spooned cup 120g — a 33% difference). If a recipe gives you volumes, convert to grams first using a kitchen scale before doing any hydration calculations. 1 cup of bread flour = 120–130g spooned and levelled; 1 cup of water = 237g. Once you have grams, the percentage calculation works perfectly.
SavoryTribe Baking Tool
Bread Hydration Calculator
Enter your flour weight, water weight, and starter details — the calculator returns your exact hydration percentage and tells you which bread styles it’s best suited for.
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Abdul

Hi, I’m Abdul, the creator of SavoryTribe. I started this platform to make everyday cooking reliable, satisfying, and rooted in real kitchen experience.

My focus is simple: practical recipes, accessible ingredients, and clear guidance that home cooks can trust. I believe good food doesn’t have to be complicated or expensive—just thoughtful, well-tested, and made to work in real kitchens.

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