Crop rotation can be defined as a sequence of crops in the same field. It may be part of a crop rotation plan which covers all crop rotations on a farm or in a region. There may be no rotation, known as a monoculture system (e.g., maize following maize), or simple rotations, including two-year (soybean-maize) or three-year (rapeseed-wheat-barley) rotation plans, for example. More complex associations are possibles, especially on livestock farms, in conservation farming, or organic farming.
The benefits of crop rotation
Alternating crops has two main advantages. When planned well, crop rotation can break the development cycle of bio-aggressors associated with particular plant families: especially pests and weeds. As a result, less inputs are required to destroy them. The second benefit relates to soil improvement. The aim is to improve fertility, provide nutrients and increase yields, and this is achieved by growing different crop families with complementary nutrient requirements, and different root systems. To improve the structure of topsoil and deeper layers, cover crops can be planted and their residues left on the field to produce organic matter.
The benefits of crop rotation:
- Improving soil fertility and structure
- Increasing crop yield
- Reducing soil erosion
- Reducing pests, weeds, and crop-family-specific parasites
The drawbacks of crop rotation
Diversifying crops on a field, as part of crop rotation, requires a thorough knowledge of each crop and the associated cropping method. Therefore, it requires more technical skills than when working with a single crop. Different agricultural equipment is also required: maize is not sown the same way as wheat or a cover-crop mix, for example. The initial investment can definitely be a drawback. However, this can be overcome by grouping the purchase between neighbours, or by getting the equipment from a machinery cooperative. When you are part of an agricultural group, not only do you share machines, you can also exchange best practices to improve your crop rotations.
The drawbacks of crop rotation:
- A higher initial investment.
- More training required to acquire the necessary cropping skills.
- Secondary crops that may be less profitable.
- A bigger workload.
Why crop rotation is back in favour
The practice of crop rotation started in the Middle Ages with two-year, then three-year rotations. The aim was to regenerate the soil after each harvest. At the time, there were no agricultural and fertilisation techniques to guarantee sufficient yields. Alternating 2 or 3 types of plant was recommended, with an autumn cereal such as wheat or rye, followed by a spring cereal (barley or oats), and finally a fallow period. Legumes were introduced into rotations in the 19th century which led to a significant increase in yields in Europe.
Shortly afterwards, the introduction of mineral fertilisers and plant protection products also contributed to higher yields. On the other hand, crop rotation disappeared in some regions. Monoculture systems were more profitable and easier to manage. In addition, the post-war agricultural policy encouraged one-crop systems to feed the population.
In recent years, due to the deterioration of most single-crop soils and the disappearance of certain molecules, as well as more environmentally-oriented agricultural policies, crop-rotation practices are back in favour. They now include winter cover crops or intermediate crops to protect the soil and water.
Example crop rotations:
- two-year: wheat-soya, maize-wheat
- three-year: rapeseed-wheat-barley
- four-year: soya-rapeseed-wheat-maize
- complex: maize - soya - maize - soya - alfalfa*4 or rapeseed – winter wheat – spring barley - maize – winter wheat - spring pea or wheat - triticale - field beans - wheat - spelt - maize
Stepping forward by introducing cover crops as intercrops
Planting cover crops between main crops in a rotation is practiced widely and is part of the crop rotation. Cover crops generally include grasses, legumes, or crucifers, either alone or mixed. There are many reasons for planting cover crops: They can be used to prevent water pollution by removing nitrates from the soil during critical periods. When destroyed, they can provide the next crop with nitrogen (green fertiliser). They can also be used between two crops to improve the structure of the soil and fertility. Cover crops also prevent soil erosion during rainy periods in the autumn. Some cover crops are used as catch crops, secondary crops, or extra fodder for livestock. They can also be used for a methanisation unit to produce gas or electricity (Biofuel-producing cover crops).
The purpose of cover crops:
- To avoid the risk of polluting water with nitrates.
- To use as green fertiliser for the next crop.
- To limit erosion.
- To improve the structure and fertility of the soil.
- To break the cycle of the previous and following crop.