This article is about the crop growth principle. For the "Law of the Maximum" established during the French Revolution, see general maximum.
The Law of Maximum also known as Law of the Maximum is a principle developed by Arthur Wallace which states that total growth of a crop or a plant is proportional to about 70 growth factors. Growth will not be greater than the aggregate values of the growth factors. Without the correction of the limiting growth factors; nutrients, waters and other inputs are not fully or judicially used resulting in wasted resources.[1][2][3]
Applications
The growth factors are arithmetically additive. The factors range from 0 for no growth to 1 for maximum growth. Actual growth is calculated by the total multiplication of each growth factor. For example, if ten factors had a value of 0.5, the actual growth would be:
0.5 x 0.5 x 0.5 x 0.5 x 0.5 x 0.5 x0.5 0.5 x 0.5 x 0.5 or 0.001 of optimum (0.1%).
If each of ten factors had a value of 0.9 the actual growth would be:
0.9 x 0.9 x 0.9 x 0.9 x 0.9 x 0.9 x0.9 0.9 x 0.9 x 0.9 or 0.349 of optimum (34.9%).
Hence the need to achieve maximal value for each factor is critical in order to obtain maximal growth.
Demonstrations of "Law of the Maximum"
The following demonstrates the Law of the Maximum. For the various crops listed below, one, two or three factors were limiting while all the other factors were 1. When two or three factors were simultaneously limiting, predicted growth of the two or three factors was similar to the actual growth when the two or three factors were limits individually and then multiplied together.
Percent of Optimum growth
(Measured growth)
predicted growth
(calculated growth)
Soybeans
Low phosphorus
83%
Low nitrogen
71%
Both low phosphorus
actual result 57%
59% (83% x 71%)
and low nitrogen
Wheat
Low moisture
66%
Low nitrogen
27%
Both low moisture
actual 18%
18% (66% x 27%)
and low nitrogen
Bush beans
Nickel addition
42%
Copper addition
71%
Vanadium addition
39%
All 3 metals
actual 10%
11% (42% x 70% x 39%)
Tomato
Presence of insects
37%
Nutrient deficiencies
78%
Both presence of insects and nutrient deficiencies