The Complete Guide to Genetics Clarification

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Written by Kaskrim • Scribed by AI Elara • Project Gorgon Genetics Research

Project Gorgon's breeding system uses real Mendelian genetics. Clarification is the foundation of all serious breeding — you can't engineer genetics you can't predict.

This guide covers three connected topics:

  1. What clarification is and how to start a clarified line
  2. Blind Clarification — how to clarify without the Genetics skill
  3. Sighted Clarification — how to clarify with the Genetics skill
  4. Combining both methods — the natural progression

What Is Clarification?

Every gene in a specimen's genome has two alleles. Each gene exists in one of three states:

  • ⬤ (Double Dominant) — breeds true. Two ⬤ parents always produce ⬤ offspring.
  • 〇 (Double Recessive) — breeds true. Two 〇 parents always produce 〇 offspring.
  • ⦿ (Mixed/Heterozygous) — the wildcard. Two mixed parents produce 25% ⬤, 50% ⦿, 25% 〇.

A "clarified" specimen has NO mixed genes — every position is either ⬤ or 〇. This means its offspring are 100% predictable.

Why Clarify?

Mixed genes are coin flips. Every ⦿ in the genome means that position will randomly resolve differently in every offspring. With hundreds of gene positions per genome (238 for arthropods, 1,576 for horses), even a few mixed genes create enormous variation between siblings.

A clarified specimen:

  • Produces IDENTICAL offspring at every clarified position (when crossed with another clarified specimen of the same line)
  • Lets you predict exactly what a cross will produce BEFORE breeding
  • Makes gene fold-ins precise — you know exactly what changes when you introduce new genetics

Clarification is the prerequisite for every advanced breeding technique.

Without clarification, you're gambling. With it, you're engineering.

Starting a Clarified Line (From Wild-Caught Parents)

Before you can use any clarification method, you need a starting line. This section covers how to go from two wild-caught specimens to a clarified breeding line — the foundation everything else builds on.

This process works the same whether you're using sighted or blind methods. The difference is only in HOW you evaluate offspring (reading genes vs watching stats). The breeding steps are identical.

Step 1: Catch Your Starting Pair

Tame a male and female of the species you want to breed. These are your WILD-CAUGHT PARENTS — your genetic originals. They are irreplaceable.

Step 2: Breed Generation 1

Cross the wild-caught parents. The Gen 1 offspring will have a LOT of mixed (⦿) genes and masked genetic information. This is normal and expected — two unrelated wild specimens will differ at many positions, and every position where they differ produces mixed offspring.

CRITICAL: IGNORE STATS IN GENERATION 1. The Gen 1 stats are meaningless for evaluation purposes. With so many mixed genes, the stats are mostly noise. Gen 1 exists solely to create offspring you can backcross.

Step 3: Breed F1 × F1 (Sibling Cross)

Breed two F1 siblings together (NOT back to the wild-caught parents — that would re-introduce maximum divergence and be counter-productive). This produces the F2 generation.

In F2, some of the mixed genes from F1 will resolve via the Punnett square (⦿ × ⦿ = 25% ⬤, 50% ⦿, 25% 〇). F2 is where clarification begins.

Step 4: Compare F2 to F1 — Upgrade and Replace

Evaluate the F2 offspring against the SAME-SEX F1 PARENT:

  • BLIND METHOD: Compare the F2 offspring's stats to the F1 parent's stats. Are the stats better on the offspring or the parent?
  • SIGHTED METHOD: Read the F2 offspring's genome. Does it have fewer mixed genes than the F1 parent?

If the F2 offspring is BETTER → KEEP IT. The offspring replaces that F1 parent in the breeding pair.

If the F2 offspring is WORSE → DISCARD IT. You can cage to sell, or release this baby. Breed again and try with a new offspring.

The new breeding pair is now: upgraded F2 offspring × the other F1 parent (opposite sex).

Step 5: Repeat

Continue the upgrade-and-replace cycle. Each generation:

  • Breed the current pair
  • Compare offspring to the same-sex parent
  • Replace the parent if the offspring is better
  • Discard if worse

For BLIND clarification: you're done when offspring stats are perfectly consistent across multiple generations — no more fluctuation.

For SIGHTED clarification: you're done when the offspring's genome shows zero ⦿ genes — all genes are either ⬤ or 〇.

Keep the Wild-Caught Parents (Until You're Done)

During clarification, genetic information DEGRADES. When a mixed gene resolves to ⬤ or 〇, one of the two original alleles is lost. The wild-caught parents are your GENETIC BACKUP. After clarification is complete, you can FOLD IN any lost genetic information from them back into the clarified line. Without them, those lost genes are gone forever.

  • Clarification makes the line PREDICTABLE (no more mixed genes)
  • But it may also make it WORSE (some stat genes lost to dominant)
  • The wild-caught parents let you RECOVER what was lost
  • Fold-in techniques are covered in The Complete Guide to Gene Hunting and Fold-Ins

Never release, cage, or lose your wild-caught originals until the line is fully clarified AND you've completed any fold-ins you need.

Note on structure: The steps above apply to both blind and sighted methods — the breeding process is identical. What differs is how you EVALUATE offspring at each step. Part 1 covers evaluation without the Genetics skill (using stat changes as a proxy). Part 2 covers evaluation with the Genetics skill (reading the genome directly). If you are just starting out, go to Part 1. If you already have Genetics leveled, you can skip ahead to Part 2.

Part 1: Blind Clarification (Without Genetics Skill)

Blind Clarification is where every breeder starts. You don't need the Genetics skill — you can begin clarifying the moment you unlock Animal Husbandry. This method uses STAT CHANGES IN OFFSPRING as a proxy to infer the genetic state of the parents.

ARTHROPODS: Stats express ONLY at double recessive (〇). Simple rule: recessive = stat, dominant or mixed = no stat.

HORSES: More complex. Some stat genes express at 〇, but others express at ⬤ or ⦿. Some genes are dual-stat: they express one stat at double recessive and a different stat at double dominant/mixed.

Arthropod breeders can completely blind clarify. Horse breeders can use blind clarification to make progress, but cannot fully blind clarify — they will need to transition to sighted clarification.

Prerequisites

  • Animal Handling 50 → unlock Animal Husbandry. Trainer: Leah Bowman in Povus (requires Friends favor)
  • At least 4 stable slots (2 parents + offspring being bred back + active breeding slot)
  • Genetics skill is not required to get started, but work on it simultaneously — you will need it for fold-ins and targeted gene work

How to Evaluate: Reading Stats

Breed the pair, record the offspring's stats, and compare across multiple offspring from the SAME parent pair over time:

  • CONSISTENT stats (same value across offspring over time) → Those stat genes are likely CLARIFIED in both parents. No mixed genes are involved.
  • FLUCTUATING stats (different values between offspring) → At least one parent has MIXED (⦿) genes at the positions controlling that stat.

Note: You'll typically only have one offspring at a time due to stable slot limits. You're comparing from your NOTES across breeding cycles — not looking at multiple babies side-by-side. This is why recording stats matters early on.

Confirming Clarification

A stat gene is "blind-confirmed clarified" when:

  • Multiple generations of crosses produce the SAME stat value consistently
  • Backcrossing to both parents produces stable results
  • No new stat fluctuations appear

Why Backcross to Parents Specifically?

  1. THE PARENT IS YOUR CONTROL. You know the parent's stats. Any variation you see comes from the offspring's unknown alleles.
  2. CONVERGENCE. Each backcross generation makes the offspring's genome more similar to the parent.
  3. FEWER VARIABLES. Sibling crosses introduce variation from BOTH sides. Backcrossing pins one side down.

Tracking Stats: What to Watch

Both species have 7 stats controlled by genes in the genome.

The 7 arthropod (pet) stats:

  • Ferocity (damage per attack)
  • Toughness (maximum health)
  • Ruggedness (maximum armor)
  • Virility/Fertility (breeding success, same-sex offspring bias)
  • Friendliness (bonding speed, burst evasion)
  • Enthusiasm (critical hit chance)
  • Intelligence (combat XP, accuracy, cross-species offspring)

The 7 horse (mount) stats:

  • Temperament (how "hot" the mount is; affects anxiety maximum and movement speed)
  • Toughness (resilience; increases anxiety maximum, decreases anxiety damage taken)
  • Ruggedness (pack animal quality; increases saddlebag space, anxiety recovery rate)
  • Enthusiasm (eagerness; increases overall speed and acceleration)
  • Friendliness (handling ease; increases turn speed, decreases ability cooldowns and costs)
  • Intelligence (quick learner; decreases ability cooldowns, improves water navigation; slows anxiety regeneration)
  • Virility (breeding trait; increases acceleration and jump distance)

Note: These genome stats feed into the derived performance stats you see in the Mount window while riding (Top Speed, Acceleration, Turning Speed, etc.). Those displayed values are calculated from the genome stats above, plus tack equipment. What you are breeding for is the genome stats — the derived stats follow.

Practical Tips for Blind Clarification

  1. MORE DATA = MORE CONFIDENCE. One offspring tells you almost nothing. After five or more breeding cycles, you can be reasonably confident which stats are stable.
  2. RECORDS ARE TRAINING WHEELS. Write down every offspring's stats when starting out. Dial back the paperwork as you gain experience.
  3. PATIENCE. Blind Clarification takes MORE generations than sighted. This is a marathon.
  4. PARTIAL GENETICS SKILL HELPS. Every visible gene is one fewer you need to infer from stats.
  5. STAT FLOORS EXIST. A stat consistently at the floor value means those genes are likely all ⬤ and already clarified.

Note for horse breeders: Blind clarification is more limited for horses due to the dual-stat gene system and larger genome (1,576 positions vs 238). Always breed same breed to same breed when clarifying blind.

An additional complication specific to horses: during the clarification process, it is possible for offspring to flip a breed switch, graduating to a different breed than the parent. When this happens, a new set of chromosomes becomes active, which changes which genes are expressing and will cause stats to shift in unexpected ways — not because your clarification work was lost, but because the active gene set changed. Do not be surprised if this happens.

If a breed-switched offspring occurs, try to breed a sibling from the same parent pair where the same breed switch has happened. Two horses of the same new breed can continue the clarification process together. If you cannot produce a matching sibling, the breed-switched offspring may need to be released or sold — continuing to breed it against a different-breed parent will make clarification impossible to track.

Part 2: Sighted Clarification (With Genetics Skill)

Once your Genetics skill is fully leveled and you can read the entire genome, you switch to sighted clarification. This is faster and more precise.

Prerequisites

  • Animal Handling 50 → unlock Animal Husbandry. Trainer: Leah Bowman in Povus (requires Friends favor)
  • Genetics unlock: Arthropod Anatomy 25 → Gerrux quest chain (Povus). Completing the chain rewards the "Secrets of Arthropod Genetics" book directly AND unlocks the analyzer barter with Gerrux. Reading the book unlocks the Arthropod Genetics skill. For horses, use the newly-unlocked barter to purchase the Non-Ruminant Ungulate Genetics book from Gerrux with Xogrite Chunks. Alternate path: hangouts with Pitre Ferrence (Vidaria) unlock both skills, but without access to analyzers.
  • For horses: always breed same breed to same breed. Breed switches can occur during clarification, causing offspring to graduate to a different breed. See the horse breeder note in Part 1 for how to handle this.
  • The Genetics skill levels by using an Analyzer on creature corpses in the field. The Analyzer must be in your inventory.
  • Analyzers from Gerrux in Old Town, Povus — cost 4 Xogrite Chunks each, 5% chance to break per use

Reading the Genome

The in-game genetics window displays each gene as a circle:

Symbol Name Meaning
Dominant Double dominant. Breeds true.
Recessive Double recessive. Breeds true.
⦿ Mixed One dominant, one recessive. Does not breed true.
 ? Unknown Genetics skill too low to read this position.

The genome can also be exported as plain text: D (dominant), R (recessive), x (mixed). The genetics window and the text export use different symbols for the same information.

Your goal: eliminate every ⦿. Turn every mixed gene into ⬤ or 〇.

The Method: Upgrade and Replace (By Genome)

Step 1: Read Both Parents' Genomes

Identify every position that shows ⦿ (mixed) in either parent. These are your targets. Export the genomes to text and put them side-by-side to create your "work list."

Step 2: Assess the Scope

  • 1–5 mixed genes: Quick cleanup. A few generations should do it.
  • 5–15 mixed genes: Moderate project. Plan for several rounds of breeding.
  • 15+ mixed genes: Major undertaking. Consider whether a different starting pair would be more efficient.

Step 3: Cross the Parents

Breed Parent A × Parent B. Read the offspring's genome.

Parent A Parent B Offspring Possibilities
100% ⬤ — already clarified
100% 〇 — already clarified
100% ⦿ — WORSE (newly mixed)
⦿ 50% ⬤, 50% ⦿
⦿ 50% 〇, 50% ⦿
⦿ ⦿ 25% ⬤, 50% ⦿, 25% 〇

Key insight: Crossing two parents that are BOTH clarified but at OPPOSITE states (⬤ × 〇) creates a FULLY MIXED offspring at that position. When choosing a starting pair, try to pick specimens that match at as many positions as possible.

Step 4: Compare Offspring to Parents

  • Parent was ⦿, offspring is ⬤ or 〇 → that gene CLARIFIED (improvement)
  • Parent was ⦿, offspring is still ⦿ → no change (try again next generation)
  • Parent was ⬤ or 〇, offspring matches → already stable (no action needed)

Step 5: Replace the Worse Parent

If the offspring has FEWER mixed genes than one of the parents, replace the worse parent with the better child.

Example:

  • Parent A has 12 mixed genes, Parent B has 8, Offspring has 6
  • Offspring is better than BOTH parents → replace the worst one (Parent A)
  • New breeding pair: Offspring × Parent B

Step 6: Repeat Until Clear

Continue the upgrade-and-replace cycle until the offspring's genome shows ZERO ⦿ positions. Every gene is ⬤ or 〇. The specimen breeds true.

Practical Notes for Sighted Clarification

  1. PRIORITIZE STAT GENES. Clarify stat genes first — specimen stats for arthropods, mount stats for horses. Appearance genes (color, particles) can wait. See The Complete Guide to Gene Hunting and Fold-Ins for targeted gene work.
  2. GENE POSITIONS MATTER. Stat genes are scattered across all chromosomes. A single chromosome might contain genes for multiple stats.
  3. STAT EXPRESSION VARIES BY SPECIES. For arthropods, stat genes must be 〇 to contribute. For horses, most express at 〇, but some express at ⬤ or ⦿ (see Part 1).
  4. KEEP THE ORIGINAL PARENTS. Never release your starting pair until the line is fully clarified.
  5. TRACK WHEN LEARNING. A spreadsheet or text file saves time while you're learning.
  6. WILD SPECIMENS ARE MOSTLY PRE-CLARIFIED. Your "work list" is usually shorter than you'd expect.

Part 3: Combining Blind and Sighted Methods

Most breeders will progress through both methods naturally. The ideal workflow:

  1. START BLIND IMMEDIATELY. You only need AH 50 and Animal Husbandry to begin. Don't wait for Genetics.
  2. UNLOCK GENETICS WHEN READY. Arthropod Anatomy 25 → Gerrux quest chain. The chain rewards the Arthropod Genetics book AND unlocks the analyzer barter. Level by using Analyzers on corpses.
  3. USE PARTIAL VISION. As Genetics reveals more genes, use visible genes to CONFIRM your blind work.
  4. FOCUS BLIND EFFORTS ON THE GAPS. Concentrate stat-tracking on positions still showing "?" in your genome window.
  5. SWITCH TO FULLY SIGHTED. Eventually your Genetics skill (plus analyzers) reveals the full genome.

This progression means you're NEVER idle. Breeding progress continues even while the skill that lets you see that progress is still being leveled.

Blind vs Sighted: Comparison

Aspect Blind Sighted
Requires Genetics? No Yes (fully leveled + analyzers)
Speed Slower (needs many generations) Faster (read genes directly)
Accuracy Statistical inference Exact knowledge
Starting point Anyone with AH 50+ Species-specific unlock
Cost Time + stable slots Xogrite + analyzers + time
Can fully clarify? Arthropods: yes. Horses: no Yes, with certainty
Best for Early progress, no prereqs Targeted, efficient breeding

What's Next?

With a clarified line, you're ready for the next stage of the process: gene hunting and fold-ins. See The Complete Guide to Gene Hunting and Fold-Ins.

Research and knowledge by Kaskrim. Compiled by AI Elara. Based on 4.5+ years of genetics research.

twitch.tv/kaskrim

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