Calculate feed conversion ratio (FCR) for poultry, swine, cattle, and aquaculture. Track feed efficiency, cost per gain, and compare across species and production stages.
Feed conversion ratio (FCR) is the most important economic metric in animal agriculture. It measures how efficiently an animal converts feed into body weight—defined as kilograms of feed consumed per kilogram of live weight gained. A lower FCR means better efficiency: the animal needs less feed to grow the same amount.
Modern broiler chickens achieve an FCR of around 1.6-1.8, meaning they gain 1 kg of body weight for every 1.6-1.8 kg of feed consumed. This is remarkably efficient compared to beef cattle, which typically have an FCR of 6-8. Swine fall in between at 2.5-3.5, while fish in aquaculture systems can be even more efficient than poultry, with FCR values as low as 1.0-1.5.
This calculator computes FCR from your production data, estimates the cost per kilogram of gain, projects total feed requirements for a production cycle, and benchmarks your results against industry standards. It's an essential tool for livestock producers, feed nutritionists, agricultural students, and anyone involved in animal production economics.
Feed is 60-70% of total production cost in most livestock operations. Even a 0.1 improvement in FCR can save thousands of dollars per production cycle. This calculator helps you track efficiency, benchmark against industry standards, and identify areas for improvement. This feed conversion ratio calculator helps you compare outcomes quickly and reduce avoidable mistakes when making day-to-day care decisions. Use the estimate as a planning baseline and confirm final decisions with a qualified professional when risk is high.
FCR = Total Feed Consumed (kg) / Total Weight Gained (kg). Feed Efficiency (FE) = 1 / FCR × 100%. Cost per kg Gain = FCR × Feed Cost per kg. Adjusted FCR = Total Feed / (Total Weight Gained × (1 − Mortality Rate)). EPEF = (Daily Gain × Livability × 100) / (FCR × 10).
Result: FCR = 1.67, Cost per kg gain = $0.58
A flock consumed 4,500 kg of feed and gained 2,700 kg total live weight. FCR = 4500/2700 = 1.67. At $0.35/kg feed cost, each kg of gain costs $0.58. With 3% mortality, adjusted FCR = 4500/(2700 × 0.97) = 1.72.
Feed conversion ratio reflects the biological efficiency of converting feed nutrients into animal tissue. It's governed by genetics, nutrition, environment, and health. Modern genetic selection has dramatically improved FCR—broilers in the 1950s had FCR of 3.0+, while today's birds reach market weight at 1.6-1.8. This genetic progress, combined with improved nutrition and management, represents one of agriculture's greatest efficiency achievements.
Aquaculture species like salmon and tilapia achieve FCR of 1.0-1.5, partly because they are cold-blooded (no energy spent on body temperature) and buoyant (less energy for movement). Poultry are next most efficient due to rapid growth and small body size. Swine (FCR 2.5-3.5) are efficient converters of high-energy diets. Ruminants like cattle (FCR 6-10) appear least efficient by this measure, but they uniquely convert fiber (grass, hay) that humans cannot eat into high-quality protein.
A commercial broiler operation producing 1 million birds per year with FCR of 1.70 vs 1.80 saves approximately 250 metric tons of feed annually. At $350/ton, that's $87,500.00 in savings from a 0.1 FCR improvement. Key optimization strategies include precision nutrition (phase feeding), maintaining optimal house temperature, ensuring biosecurity to prevent subclinical disease, and selecting high-performing genetics.
It depends on the species. Broiler chickens: 1.6-1.8 is good. Swine: 2.5-3.0. Beef cattle: 6-8. Tilapia: 1.2-1.6. Always compare within the same species and production stage.
FCR is feed/gain (lower is better). Feed efficiency is gain/feed, often expressed as a percentage (higher is better). They are reciprocals of each other.
As animals approach mature size, a larger proportion of nutrients goes to maintenance rather than growth. Maintenance requirements increase with body size, so the incremental feed needed per unit of gain rises.
Genetics, feed quality, environmental temperature, health status, stocking density, water quality (aquaculture), and management practices all significantly affect FCR. This keeps planning practical and lowers the chance of preventable errors.
European Production Efficiency Factor is a composite index used in broiler production. It combines daily gain, livability (survival rate), and FCR into a single number. Values above 300 are considered good.
Yes, for economic FCR you should include all feed consumed (including by birds that died). This gives you the "adjusted FCR" which reflects true production efficiency including mortality losses.