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In agriculture, the yield is a measurement of the amount of a crop grown, or product such as wool, meat or milk produced, per unit area of land. The seed ratio is another way of calculating yields.

Innovations, such as the use of fertilizer, the creation of better farming tools, new methods of farming and improved crop varieties, have improved yields. The higher the yield and more intensive use of the farmland, the higher the productivity and profitability of a farm; this increases the well-being of farming families. Surplus crops beyond the needs of subsistence agriculture can be sold or bartered. The more grain or fodder a farmer can produce, the more draft animals such as horses and oxen could be supported and harnessed for labour and production of manure. Increased crop yields also means fewer hands are needed on farm, freeing them for industry and commerce. This, in turn, led to the formation and growth of cities, which then translated into an increased demand for foodstuffs or other agricultural products.

Measurement

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The units by which the yield of a crop is usually measured today are kilograms per hectare or bushels per acre.

Long-term cereal yields in the United Kingdom were some 500 kg/ha in Medieval times, jumping to 2000 kg/ha in the Industrial Revolution, and jumping again to 8000 kg/ha in the Green Revolution.[1] Each technological advance increasing the crop yield also reduces the society's ecological footprint.[citation needed]

Yields are related to agricultural productivity, but are not synonymous. Agricultural productivity is measured in money produced per unit of land, but yields are measured in the weight of the crop produced per unit of land. A farmer can invest a large amount of money to increase his yields by a few percent, for example with an extremely expensive fertilizer, but if that cost is so high that it does not produce a comparative return on investment, his profits decline, and the higher yield can mean a lower agricultural productivity in this case. A yield is a 'partial measure of productivity', because it may fail to accurately measure the actual productivity of the farming operation by not including the totality of the inputs.[2]

Seed multiplication ratio

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The seed multiplication ratio is the ratio between the investment in seed versus the yield. For example, if three grains are harvested for each grain seeded, the resulting multiplication ratio is 1:3, which is considered by some agronomists as the minimum required to sustain human life.[3] One of the three seeds must be set aside for the next planting season, the remaining two either consumed by the grower, or for livestock feed. In parts of Europe the seed ratio during the 9th century was merely 1:2.5, in the Low Countries it improved to 1:14 with the introduction of the three-field system of crop rotation around the 14th century.[4]

Seed multiplication ratio is variable, subject to several factors. Agricultural improvements can raise the ratio, and revisions were recommended in 2018 by the Indian Council of Agricultural Research.[5]

Law of physiological relations

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Alexander Mitscherlich studied crop yields in 1909[6] and articulated a "law of physiological relations".[7] It was compared to the law of diminishing returns in 1942, when Liebig's law of the minimum and the limiting factors of Frederick Blackman were also noted:

Liebig's Law of the Minimum was the formulation of an idea that yield of a crop was determined primarily by the amounts of plant food that were present in minimum quantities. His idea was discussed later as the Limiting Factor by BLACKMAN and again by MITSCHERLICH as the Law of Physiological Relations. The latter was expressed as a logarithmic function between yield and the quantity of plant food constituents, which is virtually the Law of Diminishing Returns.[8]

The relation was reviewed by Hans Schneeberger in 2009.[9]

See also

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References

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  1. ^ Max Roser and Hannah Ritchie, Yields and Land Use in Agriculture, 2016
  2. ^ Preckel, Paul V.; Hertel, Thomas W.; Arndt, Channing; Nin, Alejandro (2003-11-01). "Bridging the Gap between Partial and Total Factor Productivity Measures Using Directional Distance Functions". American Journal of Agricultural Economics. 85 (4): 928–942. doi:10.1111/1467-8276.00498. hdl:10.1111/1467-8276.00498. ISSN 0002-9092. S2CID 154456202.
  3. ^ Pipes, Richard (1974) Russia under the Old Regime (Charles Scribner's Sons, NY) p.8
  4. ^ Bornewasser, J.A. (1977): Winkler Prins Geschiedenis der Nederlanden Prehistorie tot 1500, Amsterdam/Brussel, ISBN 90-1001-744-3
  5. ^ Krishi Bhavan (2018) Revision of Seed Multiplication Ratio from the Indian Council of Agricultural Research
  6. ^ Mitscherlich, E. A. (1909.) "Das Gesetz des Minimums und das Gesetz des abnehmenden Bodenertrags", Land. Jahrb., 38.
  7. ^ Ward Chesworth (editor)(2008) Encyclopedia of Soil Science, p. 434, at Google Books
  8. ^ Howard S. Reed (1942) A Short History of the Plant Sciences, page 247, Chronica Botanica Company
  9. ^ Schneeberger, Hans (1 July 2009). "Mitscherlich's Law: Sum of Two Exponential Processes".
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Ritchie, Hannah; Rosado, Pablo; Roser, Max (2022). "Crop yields". Our World in Data. Retrieved 2024-04-20.

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