Intercropping

Agriculture

History
History of organic farming British Agricultural Revolution Green Revolution Neolithic Revolution
Farming
Dairy Dryland Extensive Free-range Grazing Hobby Intensive animal crop Natural Organic Pig Poultry
Other types
Aquaculture Aquaponics Hydroponics Orchard Ranching Sharecropping Slash-and-burn Stock-free Sustainable Urban
Related
Agribusiness Agricultural engineering Agricultural science Agroecology Agroforestry Agronomy Animal husbandry (sheep) Crop diversity Ecology Livestock Mechanisation Permaculture
Lists
Government ministries Universities and colleges
Categories
Agriculture by country companies Biotechnology Livestock Meat industry Poultry farming
Agriculture and agronomy portal

Intercropping is a multiple cropping practice involving growing two or more crops in proximity. The most common goal of intercropping is to produce a greater yield on a given piece of land by making use of resources that would otherwise not be utilized by a single crop.^[1] Careful planning is required, taking into account the soil, climate, crops, and varieties. It is particularly important not to have crops competing with each other for physical space, nutrients, water, or sunlight. Examples of intercropping strategies are planting a deep-rooted crop with a shallow-rooted crop, or planting a tall crop with a shorter crop that requires partial shade. Inga alley cropping has been proposed as an alternative to the ecological destruction of slash-and-burn farming.^[2]

When crops are carefully selected, other agronomic benefits are also achieved. Lodging-prone plants, those that are prone to tip over in wind or heavy rain, may be given structural support by their companion crop.^[3] Creepers can also benefit from structural support. Some plants are used to suppress weeds or provide nutrients.^[4] Delicate or light-sensitive plants may be given shade or protection, or otherwise wasted space can be utilized. An example is the tropical multi-tier system where coconut occupies the upper tier, banana the middle tier, and pineapple, ginger, or leguminous fodder, medicinal or aromatic plants occupy the lowest tier.

Intercropping of compatible plants also encourages biodiversity, by providing a habitat for a variety of insects and soil organisms that would not be present in a single-crop environment. This in turn can help limit outbreaks of crop pests by increasing predator biodiversity.^[5] Additionally, reducing the homogeneity of the crop increases the barriers against biological dispersal of pest organisms through the crop.

There are several ways pests can be controlled through intercropping:

Trap cropping, this involves planting a crop nearby that is more attractive for pests compared to the production crop, the pests will target this crop and not the production crop.
Repellant intercrops, an intercrop that has a repellent effect to certain pests can be used. This system involved the repellant crop masking the smell of the production crop in order to keep pests away from it.
Push-pull cropping, this is a mixture of trap cropping and repellant intercropping. An attractant crop attracts the pest and a repellant crop is also used to repel the pest away. ^[6]

The degree of spatial and temporal overlap in the two crops can vary somewhat, but both requirements must be met for a cropping system to be an intercrop. Numerous types of intercropping, all of which vary the temporal and spatial mixture to some degree, have been identified.^[7]^[8] These are some of the more significant types:

Mixed intercropping, as the name implies, is the most basic form in which the component crops are totally mixed in the available space.
Row cropping involves the component crops arranged in alternate rows. Variations include alley cropping, where crops are grown in between rows of trees, and strip cropping, where multiple rows, or a strip, of one crop are alternated with multiple rows of another crop. A new version of this is to intercrop rows of solar photovoltaic modules with agriculture crops. This practice is called agrivoltaics.^[9]
Temporal intercropping uses the practice of sowing a fast-growing crop with a slow-growing crop, so that the fast-growing crop is harvested before the slow-growing crop starts to mature.
Further temporal separation is found in relay cropping, where the second crop is sown during the growth, often near the onset of reproductive development or fruiting, of the first crop, so that the first crop is harvested to make room for the full development of the second.

Chili pepper intercropped with coffee in Colombia's southwestern Cauca Department

Coconut and Tagetes erecta, a multilayer cropping^[10] in India

References

↑ Ouma, George; Jeruto, P (2010). "Sustainable horticultural crop production through intercropping: The case of fruits and vegetable crops: A review" (PDF). Agriculture and Biology Journal of North America. 1 (5): 1098–1105.
↑ Elkan, Daniel. Slash-and-burn farming has become a major threat to the world's rainforest The Guardian 21 April 2004
↑ Trenbath, B.R. 1976. Plant interactions in mixed cropping communities. pp. 129–169 in R.I. Papendick, A. Sanchez, G.B. Triplett (Eds.), Multiple Cropping. ASA Special Publication 27. American Society of Agronomy, Madison, WI.
↑ Mt. Pleasant, Jane (2006). "The science behind the Three Sisters mound system: An agronomic assessment of an indigenous agricultural system in the northeast". In John E. Staller; Robert H. Tykot; Bruce F. Benz. Histories of maize: Multidisciplinary approaches to the prehistory, linguistics, biogeography, domestication, and evolution of maize. Amsterdam. pp. 529–537.
↑ Miguel Angel Altieri; Clara Ines Nicholls (2004). Biodiversity and Pest Management in Agroecosystems, Second Edition. Psychology Press.
↑ "Controlling Pests with Plants: The power of intercropping - UVM Food Feed". UVM Food Feed. 2014-01-09. Retrieved 2016-12-01.
↑ Andrews, D.J., A.H. Kassam. 1976. The importance of multiple cropping in increasing world food supplies. pp. 1–10 in R.I. Papendick, A. Sanchez, G.B. Triplett (Eds.), Multiple Cropping. ASA Special Publication 27. American Society of Agronomy, Madison, WI.
↑ Lithourgidis, A.S.; Dordas, C.A.; Damalas, C.A.; Vlachostergios, D.N. (2011). "Annual intercrops: an alternative pathway for sustainable agriculture" (PDF). Australian Journal of Crop Science. 5 (4): 396–410.
↑ Dinesh, Harshavardhan; Pearce, Joshua M. (2016-02-01). "The potential of agrivoltaic systems". Renewable and Sustainable Energy Reviews. 54: 299–308. doi:10.1016/j.rser.2015.10.024.
↑ Improving nutrition through home gardening, Home Garden Technology Leaflet 13: Multilayer cropping, FAO, 2001

External links

Intercropping at Washington State University

Horticulture and gardening

Gardening	History Design computer-aided Garden tool Green wall Arboretum Allotment Butterfly Community Forest French intensive Guerrilla Garden Historic conservation Landscape Native Parterre Raised bed Square foot Sustainable Xeriscaping

Types of gardens	Back Biblical Botanical Butterfly Byzantine Cactus Chinese Color Container Cottage Dutch English Fernery Floating Flower French formal landscape Renaissance Front Greek Greenhouse Hanging Hügelkultur Islamic Italian Japanese Kitchen Knot Korean Market Mary Mughal Orangery Orchard Persian Bagh Charbagh Paradise Philosophical Pleasure Roman Spanish Rain Rose Roof Sacred Scottish Sculpture Sensory Shade Therapeutic Trial Tropical Victory Vineyard Walled Water Wildlife Winter Zen Zoological

Horticulture	Agriculture stock-free sustainable urban Arboriculture Botany Companion planting Crop most valuable Flora Floriculture Fruticulture Genetically modified tree Hydroculture Indigenous Intercropping Landscape architecture Oenology Olericulture Plant breeding propagation Pomology Postharvest physiology Tropical Urban agriculture horticulture forestry reforestation Viticulture

Organic	Biodynamic agriculture List of organic gardening and farming topics Vegan organic gardening

Plant protection	Fungicide Herbicide Index of pesticide articles List of fungicides Pesticide Plant disease forecasting Weed control

Agriculture and agronomy portal Gardening portal Commons

Permaculture

List of projects

Sciences	Agroecology Ecosynthesis Mycoforestry Permaforestry Polyculture Synergistic gardening

Techniques	Companion planting Forest gardening Grassed waterway Holzer Permaculture Intercropping Keyline design Raised-bed gardening Sheet mulching Vegan organic gardening Waru Warn

Components	Composting toilet Folkewall Leaf mold Mulch Spent mushroom compost Three Sisters (agriculture) Tree bog

Organizations	Beacon Food Forest Centre for Alternative Technology Permaculture Association Permaculture College Australia Permaculture Institute of El Salvador Permanent Publications Plants for a Future Pomona College Organic Farm

Permaculturalists	People in permaculture Bill Mollison Brad Lancaster David Blume David Holmgren Geoff Lawton Ianto Evans Jacob Gabriel Patrick Whitefield Paul Stamets Paul Wheaton Robyn Francis Ruth Stout Sepp Holzer

Category Commons Wiktionary

This article is issued from Wikipedia - version of the 12/1/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.

Intercropping

See also

References

External links