Australia's three sheep systems, properly modelled.

Australia is the only major sheep economy running three economically distinct production systems at scale, side by side, in the same country, often on the same farm. Merino wool-primary on the rangelands. Maternal composites for prime lamb in the high-rainfall zones. Shedders for meat-only in the marginal country. One Sheep Genetics ASBV report. Three completely different bull rankings.

The three systems.

Most international observers think of Australian sheep production as "Merino" full-stop. That's been wrong for two decades. The flock today is split across three systems that share genetics, infrastructure and Sheep Genetics evaluation pipeline but diverge entirely on what makes them profitable.

What's different about Australia.

• The wool premium is real and large. A 17-micron fleece on a Saxon Merino can sell for $25/kg clean while a 28-micron crossbred fleece sells for $4/kg. That's the largest fibre-quality premium of any meat-producing animal in commercial agriculture; it makes Merino selection objectives genuinely different from any other sheep system globally.
• Sheep Genetics runs the trans-Tasman evaluation. Sheep Genetics is the formal evaluation pipeline (MERINOSELECT, MATERNALSELECT, TERMINALSELECT, KIDPLAN) covering trans-Tasman flocks. ASBVs (Australian Sheep Breeding Values) are the canonical metric; the platform reads them natively.
• Three different end-markets, three different price signals. AWEX wool auction (weekly indicator, micron-by-micron), MLA NLRS for prime lamb (daily 18-22 kg restocker, 22-24 kg trade, 24+ heavyweight), and shedder operations sell predominantly into MSA prime lamb grids — three completely different price-discovery mechanisms.
• Drought is structural, not exceptional. Pastoral AU runs on 10-year rainfall variability that European or NZ sheep operations don't encounter. The platform's climate ingestor pulls SILO (Australian-derived) daily rainfall and BoM drought indicators, and the closed-loop calibration loop down-weights kill data from drought-forced offload years so the producer's calibration isn't distorted by exceptional kills.

Trait terminology, side by side.

Sheep Genetics ASBV codes are largely shared with NZ B+L NZ Genetics BVs but with extensive wool-trait coverage that NZ doesn't carry. The canonical mapping:

The four wool traits — CFW, FD, SL, YLD — are AU's structural advantage. No other major sheep economy on the platform's coverage map publishes all four natively. The vast majority of NZ sheep are too low-wool for any of these to be commercially relevant; the UK Signet covers some but with lower-resolution wool evaluation; the US sheep population is small and Signet-equivalent.

One ASBV report. Three rank orders.

The numbers below show the same five ASBV traits weighted three different ways for three real-shape AU operations: a Saxon Merino stud in the NSW Tablelands selling fine-micron wool, a maternal composite operation in southern Victoria selling prime lamb into MSA contracts, and a shedder operation in western Queensland running Australian White-Wiltipoll on rangeland.

The three columns are interpretable, defensible, and very different. Look at the structure:

• The Merino operation pays $24.50/kg of clean fleece weight and $-8.80 per micron — these are the biggest economic levers on the rank page. Carcass traits matter weakly. NLW matters moderately (cull ewes drive replacement-rate economics) but doesn't dominate.
• The maternal composite operation zeroes the micron axis but keeps a modest CFW weight — coarse wool still has residual revenue. NLW and WWT dominate (it's a prime-lamb operation; the maternal traits are the business). EMD and FAT come in as the terminal-progeny carcass axes.
• The shedder operation sets CFW and FD to zero entirely. NLW and WWT dominate at similar levels to maternal composites. WEC (worm resistance) pulls 3-7× harder than in the other two systems — drench-resistance is a first-order economic constraint on rangeland shedders. Mature ewe weight is penalised more steeply because there's no wool revenue to offset the maintenance cost.

The same Sheep Genetics ASBV report. The same trans-Tasman evaluation pipeline. Three operations, three completely different selection objectives — and three different top-10 ram lists for the same ASBV catalogue.

What's wired natively for AU sheep.

• Sheep Genetics ASBVs — MERINOSELECT, MATERNALSELECT, TERMINALSELECT, KIDPLAN. Full trait set from the official Sheep Genetics feed.
• AWEX wool auction — weekly Eastern and Western Market Indicators, by micron band, in c/kg clean. Used directly in the closed-form derivation of the CFW and FD economic weights for Merino operations.
• MLA NLRS prime lamb — daily ESTLI, restocker / trade / heavyweight indicators, in c/kg cwt.
• MLA prime lamb grids — branded MSA, JBS Great Southern, processor-specific grids ingested where the producer is contracted.
• BoM SILO climate — daily rainfall, temperature, evapotranspiration per producer's nearest SILO grid point.
• ACCU carbon market — Australian Carbon Credit Units, integrated into the methane economics layer (see the methane economics piece).
• BoM drought indicators — Combined Drought Indicator, Rainfall Deficit / SPI, Pasture Growth Index per producer's region. The closed-loop calibration loop reads these to down-weight drought-forced kill data.

Where the platform can go further for AU sheep producers.

• Composite-aware genomic prediction for crossbred ewes. Maternal composites are by definition crossbred — Border Leicester × Merino F1 ewes carry both parental ASBVs but their breeding values aren't formally evaluated on a composite reference population. The cross-breed prediction work on the 2027 horizon directly addresses this.
• Wool quality × climate interaction. Fibre diameter on a Merino fleece is highly responsive to seasonal nutrition; rainfall in the previous 90 days is a strong predictor of next-clip micron. The platform's climate ingestor reads SILO daily rainfall today; integrating it into the trait-weight derivation as a predictive overlay is a 2027 build.
• Drench-resistance regional models. WEC ASBV is published nationally but drench-resistance prevalence is highly regional. The platform can layer regional resistance profiles (work by NSW DPI, Sustainable Parasite Management) on top of the producer's own WEC trait weight to capture region-specific worm pressure.