How do I breed for higher oxygen in aquatic creatures in ARK: Survival Evolved?
Breeding for higher oxygen in aquatic creatures in ARK: Survival Evolved involves a combination of selective breeding, stat inheritance, and mutation management. Aquatic creatures, such as the Megalodon, Ichthyosaurus, or Basilosaurus, rely on oxygen stats to improve their underwater stamina and efficiency. HereÔÇÖs a detailed guide on how to achieve this.
First, you need to understand the mechanics of breeding. When two creatures breed, their offspring inherits stats from either parent. Each stat, including oxygen, has a 55% chance to be inherited from one parent and a 45% chance from the other. This means you need to start with parents that have high oxygen stats. If you donÔÇÖt have creatures with naturally high oxygen, you can tame multiple individuals of the same species and check their stats after taming. Keep the ones with the highest oxygen and discard the rest.
Once you have a pair of creatures with high oxygen stats, place them in a safe breeding area. This area should be enclosed to prevent wild creatures from interfering and should have enough space for the creatures to move around. Enable wandering or use the mating option to initiate breeding. After mating, the female will lay an egg (for egg-laying species) or become pregnant (for live-bearing species). Ensure the egg is kept at the right temperature or the pregnant creature is well-fed until the baby is born.
After the baby hatches or is born, it will require constant care. Feed it the appropriate food, such as meat for carnivores or berries for herbivores, and keep it in a safe environment. During this time, you can also imprint on the baby by interacting with it when it requests care. Imprinting increases the babyÔÇÖs stats and loyalty, making it more effective in the long run. For aquatic creatures, imprinting can also improve their oxygen efficiency.
To increase oxygen further, you can introduce mutations. Mutations are random and can affect stats or colors. Each mutation adds two levels to a stat, which can be oxygen. However, mutations are rare, with only a 2.5% chance per breeding attempt. To maximize your chances, breed as many pairs as possible. Keep track of the mutations by labeling or naming the creatures with their mutation count and stat changes. This helps you avoid breeding creatures with too many mutations on the same side (maternal or paternal), as there is a limit of 20 mutations per side.
Common mistakes to avoid include neglecting to check the stats of tamed creatures before breeding, not keeping track of mutations, and failing to provide proper care for the baby. Another mistake is breeding creatures with too many mutations on one side, which can limit your ability to introduce new mutations. Always keep a clean breeding pair with no mutations to reset the mutation count if needed.
Advanced techniques involve stacking mutations. This means breeding a mutated creature with a clean one to pass down the mutation while keeping the mutation count low on one side. Over time, you can stack multiple oxygen mutations to create a creature with exceptionally high oxygen stats. This requires patience and careful record-keeping.
Resource requirements for breeding include food for the parents and babies, a safe breeding area, and possibly air conditioners or incubators for eggs. For aquatic creatures, you may need a water pen or a base near water. If youÔÇÖre playing solo, this process can be time-consuming, so consider automating some tasks, such as using feeding troughs for babies. In a tribe, you can divide the workload, with some members focusing on taming and others on breeding and mutation tracking.
A specific example would be breeding Megalodons for high oxygen. Start by taming multiple Megalodons and selecting the ones with the highest oxygen. Breed them and keep the offspring with the highest oxygen. Introduce mutations by breeding as many pairs as possible and tracking the mutations. Over time, you can create a Megalodon with oxygen stats far beyond the natural maximum, making it an excellent underwater mount for exploration or combat.
In summary, breeding for higher oxygen in aquatic creatures involves selecting high-stat parents, managing mutations, and providing proper care for the offspring. With patience and careful planning, you can create powerful aquatic creatures tailored to your needs.
First, you need to understand the mechanics of breeding. When two creatures breed, their offspring inherits stats from either parent. Each stat, including oxygen, has a 55% chance to be inherited from one parent and a 45% chance from the other. This means you need to start with parents that have high oxygen stats. If you donÔÇÖt have creatures with naturally high oxygen, you can tame multiple individuals of the same species and check their stats after taming. Keep the ones with the highest oxygen and discard the rest.
Once you have a pair of creatures with high oxygen stats, place them in a safe breeding area. This area should be enclosed to prevent wild creatures from interfering and should have enough space for the creatures to move around. Enable wandering or use the mating option to initiate breeding. After mating, the female will lay an egg (for egg-laying species) or become pregnant (for live-bearing species). Ensure the egg is kept at the right temperature or the pregnant creature is well-fed until the baby is born.
After the baby hatches or is born, it will require constant care. Feed it the appropriate food, such as meat for carnivores or berries for herbivores, and keep it in a safe environment. During this time, you can also imprint on the baby by interacting with it when it requests care. Imprinting increases the babyÔÇÖs stats and loyalty, making it more effective in the long run. For aquatic creatures, imprinting can also improve their oxygen efficiency.
To increase oxygen further, you can introduce mutations. Mutations are random and can affect stats or colors. Each mutation adds two levels to a stat, which can be oxygen. However, mutations are rare, with only a 2.5% chance per breeding attempt. To maximize your chances, breed as many pairs as possible. Keep track of the mutations by labeling or naming the creatures with their mutation count and stat changes. This helps you avoid breeding creatures with too many mutations on the same side (maternal or paternal), as there is a limit of 20 mutations per side.
Common mistakes to avoid include neglecting to check the stats of tamed creatures before breeding, not keeping track of mutations, and failing to provide proper care for the baby. Another mistake is breeding creatures with too many mutations on one side, which can limit your ability to introduce new mutations. Always keep a clean breeding pair with no mutations to reset the mutation count if needed.
Advanced techniques involve stacking mutations. This means breeding a mutated creature with a clean one to pass down the mutation while keeping the mutation count low on one side. Over time, you can stack multiple oxygen mutations to create a creature with exceptionally high oxygen stats. This requires patience and careful record-keeping.
Resource requirements for breeding include food for the parents and babies, a safe breeding area, and possibly air conditioners or incubators for eggs. For aquatic creatures, you may need a water pen or a base near water. If youÔÇÖre playing solo, this process can be time-consuming, so consider automating some tasks, such as using feeding troughs for babies. In a tribe, you can divide the workload, with some members focusing on taming and others on breeding and mutation tracking.
A specific example would be breeding Megalodons for high oxygen. Start by taming multiple Megalodons and selecting the ones with the highest oxygen. Breed them and keep the offspring with the highest oxygen. Introduce mutations by breeding as many pairs as possible and tracking the mutations. Over time, you can create a Megalodon with oxygen stats far beyond the natural maximum, making it an excellent underwater mount for exploration or combat.
In summary, breeding for higher oxygen in aquatic creatures involves selecting high-stat parents, managing mutations, and providing proper care for the offspring. With patience and careful planning, you can create powerful aquatic creatures tailored to your needs.