Section 7CFR657.5



[Code of Federal Regulations]
[Title 7, Volume 6]
[Revised as of January 1, 2003]
From the U.S. Government Printing Office via GPO Access
[CITE: 7CFR657.5]

[Page 472-473]
 
                          TITLE 7--AGRICULTURE
 
   CHAPTER VI--NATURAL RESOURCES CONSERVATION SERVICE, DEPARTMENT OF 
                               AGRICULTURE
 
PART 657--PRIME AND UNIQUE FARMLANDS--Table of Contents
 
                Subpart A--Important Farmlands Inventory
 
Sec. 657.5  Identification of important farmlands.

    (a) Prime farmlands--(1) General. Prime farmland is land that has 
the best combination of physical and chemical characteristics for 
producing food, feed, forage, fiber, and oilseed crops, and is also 
available for these uses (the land could be cropland, pastureland, 
rangeland, forest land, or other land, but not urban built-up land or 
water). It has the soil quality, growing season, and moisture supply 
needed to economically produce sustained high yields of crops when 
treated and managed, including water management, according to acceptable 
farming methods. In general, prime farmlands have an adequate and 
dependable water supply from precipitation or irrigation, a favorable 
temperature and growing season, acceptable acidity or alkalinity, 
acceptable salt and sodium content, and few or no rocks. They are 
permeable to water and air. Prime farmlands are not excessively erodible 
or saturated with water for a long period of time, and they either do 
not flood frequently or are protected from flooding. Examples of soils 
that qualify as prime farmland are Palouse silt loam, 0 to 7 percent 
slopes; Brookston silty clay loam, drained; and Tama silty clay loam, 0 
to 5 percent slopes.
    (2) Specific criteria. Prime farmlands meet all the following 
criteria: Terms used in this section are defined in USDA publications: 
``Soil Taxonomy, Agriculture Handbook 436''; ``Soil Survey Manual, 
Agriculture Handbook 18''; ``Rainfall-erosion Losses From Cropland, 
Agriculture Handbook 282''; ``Wind Erosion Forces in the United States 
and Their Use in Predicting Soil Loss, Agriculture Handbook 346''; and 
``Saline and Alkali Soils, Agriculture Handbook 60.''
    (i) The soils have:
    (A) Aquic, udic, ustic, or xeric moisture regimes and sufficient 
available water capacity within a depth of 40 inches (1 meter), or in 
the root zone (root zone is the part of the soil that is penetrated or 
can be penetrated by plant roots) if the root zone is less than 40 
inches deep, to produce the commonly grown cultivated crops (cultivated 
crops include, but are not limited to, grain, forage, fiber, oilseed, 
sugar beets, sugarcane, vegetables, tobacco, orchard, vineyard, and bush 
fruit crops) adapted to the region in 7 or more years out of 10; or
    (B) Xeric or ustic moisture regimes in which the available water 
capacity is limited, but the area has a developed irrigation water 
supply that is dependable (a dependable water supply is one in which 
enough water is available for irrigation in 8 out of 10 years for the 
crops commonly grown) and of adequate quality; or,
    (C) Aridic or torric moisture regimes and the area has a developed 
irrigation water supply that is dependable and of adequate quality; and,
    (ii) The soils have a temperature regime that is frigid, mesic, 
thermic, or hyperthermic (pergelic and cryic regimes are excluded). 
These are soils that, at a depth of 20 inches (50 cm), have a mean 
annual temperature higher than 32 deg. F (0 deg. C). In addition, the 
mean summer temperature at this depth in soils with an O horizon is 
higher than 47 deg. F (8 deg. C); in soils that have no O horizon, the 
mean summer temperature is higher than 59 deg. F (15 deg. C); and,
    (iii) The soils have a pH between 4.5 and 8.4 in all horizons within 
a depth of 40 inches (1 meter) or in the root zone if the root zone is 
less than 40 inches deep; and,
    (iv) The soils either have no water table or have a water table that 
is maintained at a sufficient depth during the cropping season to allow 
cultivated crops common to the area to be grown; and,
    (v) The soils can be managed so that, in all horizons within a depth 
of 40 inches (1 meter) or in the root zone if the root zone is less than 
40 inches

[[Page 473]]

deep, during part of each year the conductivity of the saturation 
extract is less than 4 mmhos/cm and the exchangeable sodium percentage 
(ESP) is less than 15; and,
    (vi) The soils are not flooded frequently during the growing season 
(less often than once in 2 years); and,
    (vii) The product of K (erodibility factor) x percent slope is less 
than 2.0, and the product of I (soils erodibility) x C (climatic factor) 
does not exceed 60; and
    (viii) The soils have a permeability rate of at least 0.06 inch 
(0.15 cm) per hour in the upper 20 inches (50 cm) and the mean annual 
soil temperature at a depth of 20 inches (50 cm) is less than 59 deg. F 
(15 deg. C); the permeability rate is not a limiting factor if the mean 
annual soil temperature is 59 deg. F (15 deg. C) or higher; and,
    (ix) Less than 10 percent of the surface layer (upper 6 inches) in 
these soils consists of rock fragments coarser than 3 inches (7.6 cm).
    (b) Unique farmland--(1) General. Unique farmland is land other than 
prime farmland that is used for the production of specific high value 
food and fiber crops. It has the special combination of soil quality, 
location, growing season, and moisture supply needed to economically 
produce sustained high quality and/or high yields of a specific crop 
when treated and managed according to acceptable farming methods. 
Examples of such crops are citrus, tree nuts, olives, cranberries, 
fruit, and vegetables.
    (2) Specific characteristics of unique farmland. (i) Is used for a 
specific high-value food or fiber crop; (ii) Has a moisture supply that 
is adequate for the specific crop; the supply is from stored moisture, 
precipitation, or a developed-irrigation system; (iii) Combines 
favorable factors of soil quality, growing season, temperature, 
humidity, air drainage, elevation, aspect, or other conditions, such a 
nearness to market, that favor the growth of a specific food or fiber 
crop.
    (c) Additional farmland of statewide importance. This is land, in 
addition to prime and unique farmlands, that is of statewide importance 
for the production of food, feed, fiber, forage, and oil seed crops. 
Criteria for defining and delineating this land are to be determined by 
the appropriate State agency or agencies. Generally, additional 
farmlands of statewide importance include those that are nearly prime 
farmland and that economically produce high yields of crops when treated 
and managed according to acceptable farming methods. Some may produce as 
high a yield as prime farmlands if conditions are favorable. In some 
States, additonal farmlands of statewide importance may include tracts 
of land that have been designated for agriculture by State law.
    (d) Additional farmland of local importance. In some local areas 
there is concern for certain additional farmlands for the production of 
food, feed, fiber, forage, and oilseed crops, even though these lands 
are not identified as having national or statewide importance. Where 
appropriate, these lands are to be identified by the local agency or 
agencies concerned. In places, additional farmlands of local importance 
may include tracts of land that have been designated for agriculture by 
local ordinance.