Aquaculture Feed Calculator
Calculate feed amounts for fish farming based on species, weight, and water temperature. Enter values for instant results with step-by-step formulas.
Formula
Daily Feed (kg) = (Fish Count x Avg Weight / 1000) x (Feed Rate% / 100) x Temp Factor
Total biomass in kilograms is multiplied by the species-specific feeding rate, adjusted for water temperature deviation from the optimal range. The Feed Conversion Ratio then determines total feed needed for a target weight gain.
Worked Examples
Example 1: Tilapia Grow-Out Pond
Problem: A farmer has 5,000 tilapia averaging 200g in 28C water. Target harvest weight is 600g. Feed costs $1.00/kg with 32% protein.
Solution: Total biomass = 5,000 x 200g = 1,000 kg\nDaily feed rate at 28C (optimal) = 3.0% of body weight\nDaily feed = 1,000 x 0.03 = 30 kg/day\nWeight gain per fish = 600g - 200g = 400g = 0.4 kg\nTotal weight gain = 5,000 x 0.4 = 2,000 kg\nFCR = 1.6 (tilapia at optimal conditions)\nTotal feed needed = 2,000 x 1.6 = 3,200 kg\nTotal feed cost = 3,200 x $1.00 = $3,200
Result: Daily Feed: 30 kg | Total Feed: 3,200 kg | Total Cost: $3,200 ($0.64/fish)
Example 2: Salmon Cage in Cold Water
Problem: 2,000 salmon at 1,500g average in 12C water. Target 4,000g. Feed costs $2.50/kg with 42% protein.
Solution: Total biomass = 2,000 x 1.5 kg = 3,000 kg\nTemp adjustment: 12C vs 14C optimal = 0.92 factor\nAdjusted feed rate = 1.5% x 0.92 = 1.38%\nDaily feed = 3,000 x 0.0138 = 41.4 kg/day\nWeight gain = 4,000 - 1,500 = 2,500g = 2.5 kg/fish\nTotal gain = 2,000 x 2.5 = 5,000 kg\nAdjusted FCR = 1.2 / 0.92 = 1.30\nTotal feed = 5,000 x 1.30 = 6,522 kg\nCost = 6,522 x $2.50 = $16,304
Result: Daily Feed: 41.4 kg | Total Feed: 6,522 kg | Total Cost: $16,304 ($8.15/fish)
Frequently Asked Questions
What is Feed Conversion Ratio (FCR) and why is it important?
Feed Conversion Ratio measures the efficiency of converting feed into fish body mass, calculated as kilograms of feed consumed divided by kilograms of weight gained. An FCR of 1.5 means 1.5 kg of feed produces 1 kg of fish growth. Lower FCR values indicate better feed efficiency and lower production costs. Aquaculture species vary significantly in FCR: salmon and trout achieve ratios around 1.1-1.3 due to efficient metabolism, while catfish and carp range from 1.6-2.0. FCR is influenced by water temperature, feed quality, protein content, feeding frequency, stocking density, and fish health. Improving FCR by even 0.1 points can save thousands of dollars in large-scale operations, making it the single most important metric in commercial fish farming profitability.
How do you calculate daily feed requirements for a fish pond?
Daily feed requirements are calculated by multiplying total fish biomass by the feeding rate percentage. First, estimate total biomass: number of fish multiplied by average individual weight. Then apply the species-specific feeding rate, typically expressed as a percentage of body weight per day. For example, 1,000 tilapia averaging 250g each equals 250 kg biomass. At a 3% feeding rate, daily feed is 250 x 0.03 = 7.5 kg per day. This base rate must be adjusted for water temperature, fish size (smaller fish need higher percentage rates), dissolved oxygen levels, and disease status. Feed should be distributed across 2-4 feedings per day rather than all at once, and uneaten feed should be monitored to prevent water quality degradation and financial waste.
What protein level should aquaculture feed contain for optimal growth?
Optimal dietary protein levels vary by species, life stage, and production system. Carnivorous species like salmon and trout require 40-50% protein content. Omnivorous species like tilapia and catfish perform well on 28-35% protein. Herbivorous species like grass carp need 25-30% protein. Juvenile fish require higher protein levels than adults because they are building muscle tissue rapidly. Fry and fingerlings typically need 5-10% more protein than market-size fish. However, excess protein is wasteful and expensive since fish excrete unused nitrogen as ammonia, which degrades water quality. The protein-to-energy ratio is equally important as the absolute protein level. Modern feed formulations balance protein with lipids and carbohydrates to ensure protein is used for growth rather than burned as an energy source.
How can farmers reduce feed costs in aquaculture without compromising growth?
Reducing feed costs requires a multi-pronged approach focusing on feed efficiency rather than simply buying cheaper feed. First, optimize feeding frequency and timing by feeding 2-4 times daily during peak metabolic hours and reducing feeds during cold periods. Use demand feeders or observation-based feeding to minimize waste. Second, maintain optimal water quality because poor oxygen levels and high ammonia reduce appetite and FCR. Third, consider supplemental feeding with locally available ingredients like agricultural byproducts, duckweed, or black soldier fly larvae. Fourth, implement polyculture systems where compatible species occupy different niches, improving total feed utilization. Fifth, grade fish regularly to ensure uniform feeding rates. Finally, store feed properly to prevent nutrient degradation from moisture, heat, and pests which reduces feed value.
Does Aquaculture Feed Calculator work offline?
Once the page is loaded, the calculation logic runs entirely in your browser. If you have already opened the page, most calculators will continue to work even if your internet connection is lost, since no server requests are needed for computation.
How do I interpret the result?
Results are displayed with a label and unit to help you understand the output. Many calculators include a short explanation or classification below the result (for example, a BMI category or risk level). Refer to the worked examples section on this page for real-world context.