User:GreatTuna2/Terraforming

The principle of Terraforming in Aurora is based on changing the atmosphere in order to alter the environment of the planet so it is suitable for your species.

The actual mechanics of using terraforming in the game interface are relatively straightforward. If you have any terraforming installations on a planet or any ships with terraforming modules in orbit, go to the Environment tab, select the gas you want and type the target amount of gas for the terraformers to meet. Make sure to check the Add Gas checkbox if you're adding gas (or uncheck it if you're removing it). Terraforming installations can be built by industrial capacity and transported to a different planet with freighters.

A terraforming ship or station is easy to design, as it only requires Terraforming Modules to work. Both spaceborne and ground-based terraforming installations are boosted by the Terraforming skill of the ship captain and governor, respectively.

The base terraforming speed per module is 0.00025 atm/year. This rate can be improved by research and is modified by Earth Surface Area / Planet Surface Area, meaning smaller bodies will be terraformed faster, and larger bodies will take a lot more time.

The system bodies with less than 0.1G of gravity can't retain atmosphere and therefore can't be terraformed.

Colony Cost

Colony Cost (CC) is a measure of the amount of infrastructure needed to support the population on a given celestial body. CC 0 means the body is perfectly habitable and needs no infrastructure whatsoever. Otherwise, the colony will need

CC * 100 / Population Density Modifier (usually 1)

units of infrastructure to support 1 million colonists. This number is shown in the Summary tab of the Economy window for any given colony, so you the player don't need to manually calculate it.

There are multiple factors that influence colony cost of a celestial body, with the highest number out of them being the final colony cost:

1. Temperature will affect colony cost if it's outside of the species' tolerances, applying a colony cost of Temperature Difference / Temperature Deviation. If the body is tidally locked against the star, this penalty is reduced by 80% while also reducing population capacity by the same amount.
2. Lack of oxygen will impose a flat colony cost of 2.0. Same cost will apply for having too much of it (more than 30% of the total atmosphere).
3. Any dangerous gases in sufficient quantities will impose a flat colony cost or 2.0 or 3.0 depending on the gas involved.
4. Excessive atmospheric pressure will affect colony cost, applying a colony cost of Atmospheric Pressure / Species Maximum Pressure with minimum of 2.0.
5. Hydrosphere extent below 20% will impact the colony cost, directly proportional to the amount of hydrosphere missing with the formula being (20 - Hydro Extent) / 10. Hydro extent above 75% will negatively impact the population capacity.
6. Gravity below species' tolerances will impart a colony cost of 1.0, as well as require Low-Gravity Infrastructure instead of regular one. Gravity above species' tolerances renders the world uninhabitable.

In short, you need to make sure there is enough oxygen, enough other gases to dilute oxygen, no dangerous gases and plenty of water.

You can also reduce the colony cost by researching the Colony Cost Reduction tech line. These technologies reduce the final colony cost by set percentage and are applied for every colony, making them better the bigger your empire becomes.

List of gases