Tutorials/Crop farming

Crop farming allows players to plant any of several vegetables and other crops on farmland, which then grow over time and can be harvested for food. This page covers four separate crops, all of which share essentially the same growth mechanics, though they produce different crops. All four seeds need to grow to maturity to produce more crops.

Starting out
Each crop requires a seed for planting, and getting the first few can be non-trivial. After the first few seeds, or the first carrot or potato are planted, they eventually produce more seeds or vegetables than what you started with. These can be used to replant, plus other empty spots; until you've filled your farm. All four crops can be found in village farms.

Players may want to set up a wheat farm early on, to provide bread as their first food supply; however, as the game progresses, better foods become available, and the wheat farm can be re-purposed for breeding animals. Carrots and potatoes are usually not found until somewhat later in the game.

Wheat is grown from seeds, which can be collected by destroying grass. While grass is common in most biomes, it doesn't drop seeds all that often ($1/8$ chance); however, grass is fairly easy to find and mine, so gathering seeds is fairly easy. Harvesting a mature wheat plant yields 1 piece of wheat and 0-3 seeds. If harvested early, they drop a single seed, but no wheat. The wheat items can be crafted into bread, or combined with other items to make cake, or cookies. While wheat itself can't be planted, it can be used to breed cows, sheep or mooshrooms. The seeds can be used either to grow more wheat or to breed chickens.

In contrast, Carrot s and potatoes are their own seed, and the plants are not found in the wild. Killed zombies occasionally drop a single carrot or potato, which can then be cultivated and multiplied into a farm's worth, or they may be found in village farms. Each mature plant can be harvested to get 1-4 potatoes or carrots respectively. A potato plant also has an additional 2% chance of dropping a useless poisonous potato. Both carrots and potatoes can be eaten directly, but potatoes can also be cooked into baked potatoes for more nutrition, while carrots can be used to breed rabbits, or crafted into golden carrots.

Beetroot s are grown from beetroot seeds, which can be found as chest loot and in village farms. With a bowl, they can be crafted into Beetroot Soup, an effective but non-stackable food item.

Pigs can be lured and bred using a carrot, potato (raw) or a beetroot.

Sowing
These crops can only be planted on farmland which is produced by using a hoe on dirt or grass blocks. If there is no water nearby (still or flowing, within four blocks horizontally on the same vertical level or one level above), farmland dries out and reverts to dirt, but only if there is no crop yet planted on it. If farmland becomes completely dry and a crop is planted on it, the farmland does not revert to dirt. Thus, it is possible to grow crops without water (say, in the Nether) by hoeing the dirt and immediately planting a crop. The farmland does not revert until the crop is harvested, and even so that can generally be avoided by immediately replanting. Note, however, that this "dry farming" makes crops grow slowly.

At the beginning of the game when buckets are not available, you can till the dirt at the edge of a pond or lake or river, perhaps digging a trench to extend the water supply inland or straightening the shoreline by adding or removing dirt blocks at the top layer of the water's edge. However, once the player has a comfortable amount of resources, setting up some fenced farm plots prevents mobs from trampling the crops and attacking the farmer.

A basic repeatable farm plot consists of a 9&times;9 square of farmland with the center square dug out and filled with a water source block. This gives 80 blocks of farmland which can be fenced with 40 pieces of fence including gates and is the most efficient arrangement for simple farms. For larger farms, this plot can be repeated in both the X and Z directions.

Leaving the water source uncovered poses a risk of falling into it and then trampling some of the farmland when jumping out of it. The water can be covered with any block, but using a slab, carpet, lily pad, or other block that can be walked onto without jumping is better to prevent trampling. In cold biomes, covering the water with a solid block also guards it against freezing. An alternative that also provides light so some crops can continue to grow at night is to suspend a block above the water with one space of air between them—so you can neither fall into the water nor jump on and off the block—and place torches on that block or to suspend a jack o'lantern or glowstone block above the water.

Placing torches or other light sources near the crops allows them to continue growing at night or underground, and it prevents hostile mobs from spawning near them. Planting crops in alternate rows (that is, rows separated by bare farmland or a different crop) speeds up growth as well.

Growing Conditions


Any of wheat, carrots, beetroots and/or potatoes grow only under the following conditions:


 * It is directly above a block of farmland. If the farmland is removed or reverts to dirt, the crop breaks.
 * A light level of 9 or higher in the block above the plant. This doesn't have to be sunlight, so torches let crops grow at night or underground.
 * This means that an opaque block above the crop (which has light level 0 inside) prevents growth while a transparent block can allow growth if the light inside is sufficient.
 * Any player is within their chunk update radius (that is, the crops grow only if their chunk is loaded).

In single-player or in multiplayer with only one player nearby, crops do not grow faster while the player is sleeping. However, if torches are not being used, sleeping skips past the nights when the crops would not grow.

Wheat, carrots and potatoes have a total of 8 growth stages. Beetroot has 4 growth stages. For wheat, each stage is a little taller and darker than the last, and the crop is mature when the wheat turns brown. Carrots and potatoes have only 4 distinct appearances—each pair of stages appears identical except that stage 7 shares the appearance of stages 5-6 (so the player can tell if it's fully mature or not, otherwise the fully mature and its previous stage can confuse the player). When mature (stage 8 for carrots and potatoes, stage 4 for beetroots), carrots and beetroots show bright crops protruding from the ground, while on a potato plant, the leaves appear significantly taller than in previous stages.

Growth happens at random intervals and is affected by growing conditions. The average duration of each stage ranges from 5 minutes (in ideal conditions) to 35 minutes (in worst-case conditions). Aside from being placed on hydrated farmland, "ideal conditions" include having light sources (for night growth) and planting crops in alternate rows: each row of plants should be next to either a different crop or empty farmland. For the plants on the edges of the plot, it's also ideal to have more farmland beyond the row ends and the outer rows; however, this is rarely done since it amounts to leaving the edges of the available field empty. Full details of the growth mechanics are given below.

Accelerating Growth
Using Bone Meal on any crop plant has a chance to advance it a random number of growing stages, allowing you to harvest it faster.

Bees can be used to accelerate the growth of crops by pollinating them. After collecting pollen from flowers, bees visually drop pollen particles as they make their way back to their hive or nest. If these particles land on a crop, the crop advances one growth stage. Each bee can pollinate up to 10 crops per trip. Players can utilize this behavior by placing their crops between beehives and flowers to maximize crop pollen exposure. For more details, see Bee § Pollinating.

Harvesting
Crops can be harvested at any time by left-clicking on them with or without a tool, but when immature, they yield only one of the corresponding seed item. When mature, wheat yields 0-3 seeds and one item of wheat. Carrots and potatoes yield 1-4 of the crop when mature. Mature potato plants have a 2% chance of dropping a poisonous potato in addition to the normal potatoes. Beetroots drop 0-3 seeds and 1 beetroot.

Because harvesting one block at a time can become very tedious, methods for automatically harvesting fields have been developed. The most common tactic is to flood the field with water (which harvests all the plants it touches), but other methods are possible as discussed below.

Growth rate


The progression of crops over time is shown in the plot to the right. Each line represents the probability of finding a given crop in that particular growth stage, assuming ideal conditions. The plots for non-ideal conditions look similar with only the scale of the x-axis (time passed) being longer.

Early in the game it may be helpful to maximize the growth rate of a crop in order to quickly multiply the seeds and/or get some wheat quickly. Doing so requires some understanding of the growth mechanics which are discussed here.

Crop growth is prompted by random ticks—the same random events that, for example, causes Zombified Piglins to appear in Nether portals. For a given block, a random update occurs an average of once every 68.27 seconds in Java Edition, or once very 204.8 seconds in Bedrock Edition. However, the delay can vary widely, and it is rare, but possible for plants to gain a stage the moment after planting or grow two stages a moment apart.

During every update, a crop plant gets a chance to grow to the next stage with the exact chance depending on conditions:
 * As noted above, growth requires a light level of at least 9 in the block above the plant.
 * The growth probability is, where "points" is as follows:
 * The farmland block the crop is planted in gives 2 points if dry or 4 if hydrated.
 * For each of the 8 blocks around the block in which the crop is planted, dry farmland gives 0.25 points, and hydrated farmland gives 0.75.
 * Note that if a field is bordered with anything besides more farmland, the plants at the edge grow more slowly.
 * If any plants of the same type are growing in the eight surrounding blocks, the point total is cut in half, unless the crops are arranged in rows. That is, having the same sort of plant either on a diagonal or in both north-south and east-west directions cuts the growth chance, but having the same type of plant only north-south or east-west does not. The growth chance is only halved once no matter how many plants surround the central one.

From this we can figure the growth periods for the common cases:


 * For the fastest growth per seed, a full layer of hydrated farmland with crops in rows is ideal. Under these conditions, the probability of growth during each update is $1/3$, or approximately 33%. Most ($4/5$) planted crops reach maturity within 31 minutes (about 1.5 minecraft days). In fact, 31 minutes is very close to the ideal time at which to harvest if an auto-farming system is set to a timer, precisely 31 minutes and 3.14 seconds. For all plants to have this probability, crop rows must be separated by empty farmland or by a different crop, and the edges and corners of the field must be empty farmland. However, this probability also applies to crops adjacent to one or two non-farmland blocks (e.g. blocks of water in the middle of a field for hydration and/or a torch) due to the  function.


 * For hydrated crops in rows at the edge of a field (having 3 blocks of non-farmland along one side), the growth probability is $1/4$ (25%). Most planted crops in this case reach maturity within 41 minutes (about 2 minecraft days).


 * For hydrated crops in rows at the corner of a field (having 5 blocks of non-farmland adjacent), the growth probability is $1/5$ (20%). Most crops reach maturity within 52 minutes (about 2.5 minecraft days).


 * Hydrated crops not in rows have approximately half the growth probabilities: $1/6$ (16.7%) for mid-field plants, $1/7$ (14%) for edges, and $1/9$ (11%) for corners.


 * The usual worst-case conditions for growing are crops placed out of rows on dry farmland. In this case, the growth probability is $1/13$ (approximately 8%) for the middle crops, $1/16$ (6%) for the edges, and $1/19$ (5%) for the corners.


 * The worst case would be two crops diagonally adjacent on dry farmland (all other surrounding blocks being non-farmland) which has a growth probability of $1/23$, about 4%.
 * The average rate of production per wheat crop can be found by the expression (6.591 x Growth Probability) wheat per hour, assuming the crops are harvested as soon as they are fully mature.

Later in the game, the highest yield per area of a given field may be more important than the fastest growth per seed. Fields sown solidly to achieve this with a single crop do grow at half the speed, but they also let you separate each type of crop into its own respective field and harvest one type all at once. However, one large field with alternating rows of different crops would still grow faster than smaller fields each sown solidly with a single crop.

Compact design
The basic farm plot is a 9&times;9 plot of farmland with the center block replaced by water (often surrounded by fences, making it 11&times;11). This basic plot can be used for wheat, beetroots, carrots, or potatoes, or even for pumpkins and/or melons. As described above, it may be planted solidly, or in alternating rows for fastest total yield per area. For night growth, light may be suspended above the water block and placed around the edges.

The field can be harvested quickly by simply dumping a bucket of water over the center, washing all the crops up against the fence.

This design may be easily extended in both the X and Z directions. If lighting the field for night growth, additional lights is needed (again they may be suspended in the air) where the corners of the basic plots meet.

To farm multiple crops in a single field's footprint, you can stack the fields making a vertical farm. One complication here is that a block is needed to hold the water on each level; since this prevents falling into the next level's water hole the slabs can be omitted except on the top level. A Jack o'Lantern can be used to both hold up the water and provide central lighting, or any block can have torches placed on it. While the fields can be stacked with two-block spacing, using three-block spacing allows easy harvesting by using a water bucket on the bottom of the lighting block. Alternatively, you can irrigate all levels with a waterfall through the center blocks. and provide lighting elsewhere.

Compact semi-auto farm
The next extension of that idea is to provide a touch of automation. Expanding the field to 9x10 (with two water blocks in the middle) and stacking the fields with two-block spacing allows automating the harvest, with a double central column between the water blocks: Two jack-o-lanterns on the bottom, and two outward-facing dispensers on top, each loaded with a water bucket. The dispensers also support the water above; note that with just one central column and a 9 by 9 block farm, a single water dispenser wouldn't be able to reach all the crops. The dispensers can be triggered with buttons or tripwires; either way, they need to be on top to avoid displacing some crops with the button or hook. Adding plot borders with fences, a stairway along one edge, and four layers expands the whole system to 12&times;12&times;12. Some notes on this scheme:
 * Alternating rows of different crops still speeds growth, but as noted above, speed may not be a priority at this point. Planting the crops solidly on separate levels is more convenient for harvesting what you need at a given moment, and they can grow while you do other stuff.
 * The water dispensers do not harvest melons or pumpkins, but may instead destroy their stems. Accordingly, the dispensers on the melon/pumpkin level(s) can be unloaded, replaced with other blocks, or (on the top level) skipped entirely.

Four-dispenser compact
Instead of going for a 9×10 expansion, it is also possible to stay in the 9x9 field (11x11 fenced) footprint by adding four water dispensers on the four corners of the fence. This variation takes more dispensers to make, but all products fall into the water hole for easy collection. When you make the farm vertical, a sign can be used to contain the water while allowing the items to fall through to the bottom layer, where a hopper may lie.

Micro farms
Micro / Nano farms are useful when space is limited. They grow the crops by firing bonemeal at them from a dispenser. There are 2 basic designs, a semi automatic one that requires the player to stand and plant the crops and a fully automatic one that uses villagers to do the work for you.

As of version 1.13 these designs no longer work because seeds cannot be planted when the light level is too low.

The farm shown in impulseSV's Farm Design video does not work, but with a work around it still gets the job done. See the images to the right.

impulseSV's Farm Design
This is a semi-automatic design suitable for all types of crops.

Frilioth's 1.14.4 Potato, Carrot & Wheat Farm Design
This design uses a Villager wearing a Straw Hat to plant and harvest Carrots, Potatoes or Wheat

Mikecraft's Farm Design
This design is slower than others, but it doesn't require the player to manually plant seeds.

Semi-automatic farming


There are ways to harvest crops semi-automatically.
 * Most common is water: Flowing water breaks crops, and produce their usual drops. This can be used to harvest crops semi-automatically, and carry the resulting items to some central location such as a hopper. A water flood does not revert farmland back into dirt.
 * Sticky pistons can be used to move the farmland block itself, breaking the crop without reverting the farmland to dirt. Water currents for collecting the items can be placed under the farmland rather than beside it, making this method more compact than harvesting directly with pistons. A pair of pistons, appropriately clocked, could be used to shift an entire row of farmland.
 * Crops are also broken when directly pushed by pistons, with the usual drops. Unfortunately, this reverts the farmland back into dirt, so that it needs to be re-tilled after every harvest, rather defeating the point of automation.

Automatic harvesting is generally an all-or-nothing business - harvesting every plant regardless of whether it is mature. In this situation, it is best not to wait for every last plant to finish growing, as there are always a few that take much longer than normal. The optimal time to harvest wheat in particular turns out to be when 80% ($4/5$) of the plants have matured, and this is at least acceptable for carrots and potatoes. Assuming that the field is immediately replanted, harvesting at this time results in the greatest overall rate of production, along with a surplus of seeds for wheat. The section on growth rates gives the optimum harvesting time in minutes for some common planting arrangements.

Because bonemeal can force crops to grow more quickly—ignoring normal concerns like growth rate or ambient light—it can be used to create large amounts of wheat or other crops quickly. A number of farm designs focus on using bonemeal exclusively, sacrificing volume and growth efficiency for speed/ease of planting and harvesting. An example which takes advantage of the inventory mechanics to minimize the time required to plant and harvest can be seen here:



Water-flooded field
This design uses a row of pistons to flood a long farm from one end. Note that the farm needs to slope down one block for every eight in length. Dispensers could also be used to supply the water, and the output could easily be channeled to a hopper.

Flooded-Cell Farm


This farm is divided into cells of 29 plants, where each cell is flooded individually by a single piston and water block (or bucket-bearing dispenser). The drops are washed into a stream, gathering them to a single point.

There’s a stream of water in the center of the farm, which needs to go down 1 block every 8 blocks toward a collection point. This can be mirrored on the other side of the collection point, to cut the total depth needed.

On one or both sides of the stream are farming cells. The cells are separated from each other with two block high walls. If a 1-block high wall or fencing is used, some of the drops may fall onto the barrier and out of the flow. Under every wall separating the cells from each other is a source block of water, to hydrate the farmland on both sides of the wall.

The design as shown uses a piston to control the flow of water. The piston is normally extended. Above the extended piston shaft is a water source block, surrounded with 8 (or even 4) glass blocks or panes. Glass is needed so that light goes through to the plants. When the switch is turned off, the piston retracts and the water flows through.

The piston setup can be replaced with a dispenser containing a bucket of water and using a button instead of a lever for the switch. Either way, the pistons or dispensers should be wired together behind the cells with repeaters as needed, to allow triggering them from some central point.

When released, the water harvests the crops and washes them into the stream. At the end of the stream, you can collect your drops, or place a hopper to do it for you.

Fully automatic farming
Fully-automatic farms can be constructed using Farmer villagers to replant the crops. Three general designs are possible: (Note: Bread doesn't work due to MC-204073)
 * Since seeds aren't food, a villager with inventory full of seeds continue to harvest and replant crops, but cannot pick up the resulting wheat or beetroots. Hoppers or hopper minecarts below the farmland can collect the crops, while allowing the villager to replant the crop.
 * For carrots and potatoes, a villager will replant the field, but stops harvesting once he has enough food in his inventory. A redstone mechanism timed to the growth rate of the crops is used to periodically pour water over the farmland to wash the crops into a collection system.
 * For carrots, potatoes, beetroots or bread, a second villager with empty inventory may be placed nearby such that the farmer attempts to share food, but the throws cannot reach the second villager. Or the second villager may have an inventory full of seeds (or wheat for non-farmers) so he cannot pick up any food. Hoppers placed where the thrown food lands can collect the thrown food.

In all cases, the farm must be entirely within the bounds of a village or must be more than 32 blocks away from the outer boundary of any village. Otherwise the villager attempts to make his way to the nearby village instead of tending the crops.

Frilioth's One Chunk Farm Design
Wheat and Beetroot Module

Potato and Carrot Module

Trivia

 * Farmland cannot absorb water from the bottom.
 * Farmland placed at an altitude of 1 cannot grow crops.

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