What is the best way to breed for high oxygen stats in ARK: Survival Evolved?
Breeding for high oxygen stats in ARK: Survival Evolved involves a combination of understanding the game's breeding mechanics, careful planning, and patience. Oxygen is a stat that determines how long a creature can stay underwater before needing to surface for air. While it is not a commonly prioritized stat for most creatures, it can be crucial for aquatic tames like the Basilosaurus, Ichthyosaurus, or even land creatures you want to use for underwater exploration. HereÔÇÖs a detailed guide on how to breed for high oxygen stats effectively.
First, you need to understand the mechanics of stat inheritance. When two creatures breed, the offspring has a 55% chance to inherit the higher stat from either parent. This means if one parent has a high oxygen stat and the other has a low one, thereÔÇÖs a good chance the baby will inherit the higher stat. However, mutations can also play a role. Mutations can randomly increase a stat by 2 points and change the creatureÔÇÖs color. Each mutation adds to a counter, and once a creature reaches 20 mutations on either the maternal or paternal side, further mutations become much less likely.
To start breeding for high oxygen stats, you need a pair of creatures with high oxygen stats. If you donÔÇÖt already have such creatures, youÔÇÖll need to tame multiple individuals of the same species and check their stats. Use a tool like the ARK Smart Breeding app or manually check the stats after taming. Once you have a male and female with high oxygen stats, place them close together in a secure breeding area. Enable mating and wait for them to produce an egg or live baby, depending on the species.
Once the baby is born or hatched, youÔÇÖll need to care for it. Babies require constant feeding and attention until they reach the juvenile stage. During this time, you can imprint on the baby by interacting with it when it requests care. Imprinting increases the babyÔÇÖs stats and makes it more loyal to you. For oxygen-focused breeding, imprinting is less critical unless you plan to use the creature for combat or other tasks where overall stats matter.
After the baby grows up, check its oxygen stat. If it has inherited the high oxygen stat, you can use it as a parent for the next generation. Repeat this process over multiple generations, always selecting the offspring with the highest oxygen stats to breed. Over time, youÔÇÖll create a lineage of creatures with increasingly high oxygen stats.
One important tip is to keep track of your breeding lines. Use a spreadsheet or breeding app to record the stats of each generation. This helps you avoid inbreeding and ensures youÔÇÖre making progress toward your goal. Another tip is to focus on creatures that naturally have high oxygen stats, such as aquatic tames. Breeding a land creature for high oxygen can be less efficient since their base oxygen stat is usually lower.
Common mistakes to avoid include neglecting to check the stats of wild tames before breeding. Always tame multiple creatures and compare their stats to find the best candidates. Another mistake is over-mutating. While mutations can increase stats, they are random and can affect other stats you might not want to change. Focus on stacking mutations only on the oxygen stat if thatÔÇÖs your goal.
Advanced techniques involve using mutations strategically. If you get a mutation that increases oxygen, breed that creature with another high-oxygen creature to stack the mutation. However, be mindful of the mutation counter. Once a creature has 20 mutations on one side, further mutations become rare. To optimize, you can use a clean creature (one with no mutations) to reset the counter on one side.
Resource requirements for breeding include a steady supply of food for the baby, such as meat or berries, depending on the species. YouÔÇÖll also need a secure breeding area to protect the parents and baby from predators. For aquatic creatures, consider building an underwater pen or using a platform saddle with walls to create a safe space.
For solo players, breeding can be time-consuming due to the need for constant care. Consider using feeding troughs and air conditioners to automate some of the baby care. In a tribe, you can divide responsibilities, with one player focusing on breeding while others gather resources or defend the base.
A specific example would be breeding a high-oxygen Basilosaurus. Start by taming multiple Basilosaurus and checking their oxygen stats. Select the male and female with the highest oxygen stats and breed them. Care for the baby, imprint if possible, and check its oxygen stat. Repeat the process over several generations, always selecting the offspring with the highest oxygen stats. Over time, youÔÇÖll have a Basilosaurus with exceptional oxygen capabilities, making it ideal for deep-sea exploration.
In conclusion, breeding for high oxygen stats in ARK: Survival Evolved requires a combination of careful planning, patience, and understanding of the gameÔÇÖs mechanics. By selecting the right creatures, tracking your breeding lines, and using mutations strategically, you can create a lineage of creatures with impressive oxygen stats. Whether youÔÇÖre playing solo or in a tribe, the process can be rewarding and provide you with powerful tames for underwater adventures.
First, you need to understand the mechanics of stat inheritance. When two creatures breed, the offspring has a 55% chance to inherit the higher stat from either parent. This means if one parent has a high oxygen stat and the other has a low one, thereÔÇÖs a good chance the baby will inherit the higher stat. However, mutations can also play a role. Mutations can randomly increase a stat by 2 points and change the creatureÔÇÖs color. Each mutation adds to a counter, and once a creature reaches 20 mutations on either the maternal or paternal side, further mutations become much less likely.
To start breeding for high oxygen stats, you need a pair of creatures with high oxygen stats. If you donÔÇÖt already have such creatures, youÔÇÖll need to tame multiple individuals of the same species and check their stats. Use a tool like the ARK Smart Breeding app or manually check the stats after taming. Once you have a male and female with high oxygen stats, place them close together in a secure breeding area. Enable mating and wait for them to produce an egg or live baby, depending on the species.
Once the baby is born or hatched, youÔÇÖll need to care for it. Babies require constant feeding and attention until they reach the juvenile stage. During this time, you can imprint on the baby by interacting with it when it requests care. Imprinting increases the babyÔÇÖs stats and makes it more loyal to you. For oxygen-focused breeding, imprinting is less critical unless you plan to use the creature for combat or other tasks where overall stats matter.
After the baby grows up, check its oxygen stat. If it has inherited the high oxygen stat, you can use it as a parent for the next generation. Repeat this process over multiple generations, always selecting the offspring with the highest oxygen stats to breed. Over time, youÔÇÖll create a lineage of creatures with increasingly high oxygen stats.
One important tip is to keep track of your breeding lines. Use a spreadsheet or breeding app to record the stats of each generation. This helps you avoid inbreeding and ensures youÔÇÖre making progress toward your goal. Another tip is to focus on creatures that naturally have high oxygen stats, such as aquatic tames. Breeding a land creature for high oxygen can be less efficient since their base oxygen stat is usually lower.
Common mistakes to avoid include neglecting to check the stats of wild tames before breeding. Always tame multiple creatures and compare their stats to find the best candidates. Another mistake is over-mutating. While mutations can increase stats, they are random and can affect other stats you might not want to change. Focus on stacking mutations only on the oxygen stat if thatÔÇÖs your goal.
Advanced techniques involve using mutations strategically. If you get a mutation that increases oxygen, breed that creature with another high-oxygen creature to stack the mutation. However, be mindful of the mutation counter. Once a creature has 20 mutations on one side, further mutations become rare. To optimize, you can use a clean creature (one with no mutations) to reset the counter on one side.
Resource requirements for breeding include a steady supply of food for the baby, such as meat or berries, depending on the species. YouÔÇÖll also need a secure breeding area to protect the parents and baby from predators. For aquatic creatures, consider building an underwater pen or using a platform saddle with walls to create a safe space.
For solo players, breeding can be time-consuming due to the need for constant care. Consider using feeding troughs and air conditioners to automate some of the baby care. In a tribe, you can divide responsibilities, with one player focusing on breeding while others gather resources or defend the base.
A specific example would be breeding a high-oxygen Basilosaurus. Start by taming multiple Basilosaurus and checking their oxygen stats. Select the male and female with the highest oxygen stats and breed them. Care for the baby, imprint if possible, and check its oxygen stat. Repeat the process over several generations, always selecting the offspring with the highest oxygen stats. Over time, youÔÇÖll have a Basilosaurus with exceptional oxygen capabilities, making it ideal for deep-sea exploration.
In conclusion, breeding for high oxygen stats in ARK: Survival Evolved requires a combination of careful planning, patience, and understanding of the gameÔÇÖs mechanics. By selecting the right creatures, tracking your breeding lines, and using mutations strategically, you can create a lineage of creatures with impressive oxygen stats. Whether youÔÇÖre playing solo or in a tribe, the process can be rewarding and provide you with powerful tames for underwater adventures.