Editing v0.34:Aquifer

An '''aquifer''' is a subterranean layer of [[water|groundwater]]-bearing rock or [[soil]]. Attempts to mine through the layer will result in the mined-out squares immediately filling with [[water]], effectively halting excavation at or below the aquifer level. This, in conjunction with the fact that they are often located in areas rich in [[loam]], and [[sand]], makes it difficult to find great quantities of [[stone]] in areas with aquifers, making for more challenging gameplay.

Aquifers can't be drained - the groundwater is limitless. In stone aquifer layers, [[smoothing]] the walls will stop the production of water. Aquifers do not only produce water - an aquifer tile will absorb any amount of pressurized water from neighboring tiles (effectively draining all layers above the aquifer). As with water production, this ability will not be disabled no matter how much water it absorbs.

 

Aquifers located in [[water#Salt_Water|saltwater]] areas (such as [[ocean]] [[biome]]s) will produce salty water; aquifers in freshwater areas will produce freshwater.

The elevation of an area determines whether it has aquifers. Low elevations, particularly those near rivers and oceans, are more likely to have aquifers. High elevations are much less likely to have aquifers, but it is still possible.

Aquifers are tiles which produce water in their ''neighboring'' tiles -- north, south, east, west, and below.  They do not produce water in the tile above them, or any diagonal tiles. Note that [[smoothing|smoothed]], mined, or channeled aquifer tiles no longer produce water.

If you are digging an up/down staircase in the downward direction, and you hit an aquifer, the aquifer tile will be revealed as damp soil or stone, and the digging job will be un-designated for that tile. If you are mining horizontally, you will similarly be warned of a "damp stone" before breaching the aquifer.

You can discover what layer lies below an aquifer layer by digging up/down stairs into the aquifer. This will reveal the tile below the aquifer layer, and if this is non aquifer (for example, clay, ore or bedrock) then you know the aquifer is only 1z deep at that location. This method can only be used to determine whether the aquifer is 1 layer deep, or multiple layers deep, but this is enough to help plan how to penetrate it. Using a pump-based method is highly recommended for multiple layer aquifers.

On maps where the aquifer is not held in a layer of soil, but instead is held in a [[sedimentary layer]] such as sandstone, it may be possible to tunnel down through deposits of ore such as [[magnetite]]. For this to work you have to find a spot where there is coincidentally an ore deposit on each Z-level you need to dig through.  This is only possible through tiresome trial and error, or through the use of a utility like DFHack's <tt>reveal</tt>.  The trial and error method can be accomplished somewhat more easily by digging up/down stairs to reveal the layer underneath them without actually digging into the underlying layer.  This method is more complicated with aquifers located in layers of [[conglomerate]], as large clusters of [[puddingstone]] will support the aquifer and thus cannot be used to provide a path through it.

This does not work with [[construction|constructed]] walls since they deconstruct on cave-in.

'''Note:''' There is a bug that may prevent this method from working, collapsed layers may turn into the aquifer layer type that was dug out at that level. So, for example: We have three layers, layer 1 has the caving in section, and is not an aquifer. Layer 2 is a dug out layer that is also not an aquifer. And Layer 3 which is dug out and is an aquifer. Now, the bug, say layer 1's cave-in section lands on layer 3's dug out area, sometimes layer 1's caved in section may change into layer 3's soil type. Making it an aquifer too. Thus making the cave-in method impossible for that area.

The pumping method uses one or more [[screw pump|pumps]] to keep an area dry long enough to smooth or [[wall]] off the sides, stopping the flow of water.  It requires no special environment or resources, other than wood and dwarves (and patience).  Most commonly, a modestly-sized section of the aquifer layer is channeled out and several screw pumps are built facing it.  Directly behind each of the screw pumps a few tiles are channeled out to receive and dispose of the pumped water.  When the pumps are activated, they should pump water faster than the aquifer can produce it, allowing masons to smooth or build walls around your future staircase.  You ''will'' get job cancellations during this process, as stray 2/7's of water interrupt the building process.  Just unsuspend the construction when this happens, as long a dwarf manages to touch the wall before canceling, it will move incrementally toward completion and eventually finish.  Depending on the availability of screw pumps and dwarves, you may need to wall off one corner or side at a time, then move the pumps and repeat.  When drilling through more than one aquifer layer, be sure to leave yourself enough room to build additional layers of pumps and water disposal channels on lower levels.  

* Channels can sometimes be used in place of walls, causing water produced by the aquifer on one level to immediately fall and be consumed by the aquifer on the level below.

 

QuantumMenace's [[DF2012:Double-slit_method|double-slit method]] can pierce an aquifer of any depth using only wood and dwarven labor. Taken from [http://www.bay12forums.com/smf/index.php?topic=79224.15 this forum post].

 

Earlier in the same thread, Hans Lemurson laid out a very dwarfy method that can also pierce aquifers of any depth, using several pumps and machinery. [http://www.bay12forums.com/smf/index.php?topic=79224.0#msg2058307 Find it here].

Locate the caverns and dig a drainage shaft of up/down stairs or downward stairs up from the caverns to the aquifer (downward stairs function as grates and are far safer than channeling). Once the drainage shaft is complete punch the shaft up through the aquifer (using up/down stairs) until you hit dry dirt. Now mine out the walls around the shaft and build constructed walls to seal the aquifer. It's even faster if the walls are dug out using down stairs instead, constructed walls can be built on the stairs and water falls straight through, thus construction can always be started and is never suspended. Always build the walls from the highest layer down, so the dwarves aren't having water dumped on them from above.

By editing the raws and removing the [AQUIFER] tag from all of the appropriate entries in inorganic_stone_layer.txt, inorganic_stone_mineral.txt, and inorganic_stone_soil.txt it is possible to remove all aquifers from the world.  This can be done before creating a new world or after, if you find a particularly neat location ruined only by the presence of an aquifer. In order to modify an existing world, you must delete the [AQUIFER] tag from the raws in the savegame's folder.

===== Command-line (Linux/OS X) =====

and generate world.  To edit an already generated world, run the <code>sed</code> command in the <tt>df_linux/data/save/''regionNN''/raw/objects</tt> folder instead.  

 

 

  sed -i '.backup' 's/\[AQUIFER\]/(AQUIFER)/g' inorganic_stone_*.txt

 

If you want to restore the tags later, you can do it with the command:

Aquifers outside [[ocean]] biomes also contain fresh water. Since aquifers are almost always located close to the surface, freshwater aquifers can easily be turned into a source of infinite, secure, non-freezing drinking water for your dwarves, eliminating the need for a [[Reservoir|cistern]]. While both of these roles can also be filled by [[Caverns|cavern]] features, an aquifer allows you to get the same advantages without exposing yourself to potentially dangerous cavern creatures.