CANADA LAND INVENTORY LEVEL II UTM DIGITAL DATA SOIL CAPABILITY FOR AGRICULTURE 1. Coverage Specifications Original Map Scale: 1:250,000, except for British Columbia where the original scale was 1:125,000 Resolution : originally .00024412 of a degree which corresponds to approximately 25 meters Map Projection : Universal Transverse Mercator (UTM) Datum : NAD27 Spheroid : Clarke 1866 Units of Measure : meters 2. CLI Level II UTM Digital Data Enhancements CLI Level II UTM digital data have undergone the following transformation from their original Level I representation: a) The data are fully integrated with the corresponding CLI shoreline layer, i.e. the CLI polygons are no longer extended into the water. b) The data are projected to UTM. c) Additional computed variables are included to facilitate user interpretation of the data. d) A secondary attribute Component Table (CMP.DBF) is included and compatible with the ArcView Component Table Extension developed by Agriculture Canada. Note(s): i) The CLI shoreline is based on older edition topographic base maps which may no longer be current. ii) Strict adherence to the 6-degree UTM zone convention has been made during the projection of the data to UTM, i.e.: Zone 22 - all maps East of 54 W. Longitude Zone 21 - all maps between 54 and 60 W. Longitude Zone 20 - all maps between 60 and 66 W. Longitude Zone 19 - all maps between 66 and 72 W. Longitude Zone 18 - all maps between 72 and 78 W. Longitude Zone 17 - all maps between 78 and 84 W. Longitude Zone 16 - all maps between 84 and 90 W. Longitude Zone 15 - all maps between 90 and 96 W. Longitude Zone 14 - all maps between 96 and 102 W. Longitude Zone 13 - all maps between 102 and 108 W. Longitude Zone 12 - all maps between 108 and 114 W. Longitude Zone 11 - all maps between 114 and 120 W. Longitude Zone 10 - all maps between 120 and 126 W. Longitude Zone 09 - all maps West of 126 W. Longitude DO NOT ATTEMPT TO PROCESS OR VIEW DATA ACROSS UTM ZONES. iii) In the process of integrating the CLI shoreline with these data, every attempt has been made to conserve the look and contents of the printed CLI maps. To this end, a restricted small area dissolve procedure has been applied to the overlay results. We apologize if any of these small areas persists, or if small areas have been eliminated as a result of this procedure. iv) To reduce file sizes and the time for download, a mild coordinate reduction has been applied to the original lat/lon data before projection to UTM. 3. Attribute Schema (Polygon Attribute Table - PAT.DBF) a) Standard ArcInfo Polygon Attribute Table (PAT) variables: AREA Num 13,6 Area, in square meters PERIMETER Num 13,6 Perimeter, in meters COVER_# Num 11,0 Standard ArcInfo Polygon Number COVER_ID Num 11,0 Standard ArcInfo User ID b) Computed User Variables: Prime_AGR Num 3,0 The percentage (base 100) of the polygon which is considered as prime or arable agriculture land, i.e. the percentage of the polygon which is in classes 1-3. Marge_AGR Num 3,0 The percentage (base 100) of the polygon which is considered as marginal agriculture lands, i.e. the percentage of the polygon which is in classes 4-5. Limit_AGR Char 25 The major limitation which prevents the polygon from being classed in a higher rating, based on subclass groupings (see section 7 below). c) Component Table Extension Pointer CMP_Index Char 10 Unique polygon identification code for the secondary Component Table (CMP.DBF). d) Original Digital Data Classification: For NON-IRRAGATED LANDS, at the time of the inventory Class_A Char 1 The primary and/or dominant CLI class Percent_A Char 1 The proportion (% base 10) of the polygon in Class_A (blank = 100%) Subclas_A1 Char 1 The primary limitation for the proportion of the polygon in Class_A Subclas_A2 Char 1 The secondary limitation for the proportion of the polygon in Class_A Class_B Char 1 The secondary CLI class Percent_B Char 1 The proportion (% base 10) of the polygon in Class_B (blank = 0%) Subclas_B1 Char 1 The primary limitation for the proportion of the polygon in Class_B Subclas_B2 Char 1 The secondary limitation for the proportion of the polygon in Class_B Class_C Char 1 The tertiary CLI class Percent_C Char 1 The proportion (% base 10) of the polygon in Class_C (blank = 0%) Subclas_C1 Char 1 The primary limitation for the proportion of the polygon in Class_C Subclas_C2 Char 1 The secondary limitation for the proportion of the polygon in Class_C For IRRIGATED LANDS, at the time of the inventory Class_D Char 1 The primary and/or dominant CLI class Percent_D Char 1 The proportion (% base 10) of the polygon in Class_D (blank = 100%) Subclas_D1 Char 1 The primary limitation for the proportion of the polygon in Class_D Subclas_D2 Char 1 The secondary limitation for the proportion of the polygon in Class_D Class_E Char 1 The secondary CLI class Percent_E Char 1 The proportion (% base 10) of the polygon in Class_E (blank = 0%) Subclas_E1 Char 1 The primary limitation for the proportion of the polygon in Class_E Subclas_E2 Char 1 The secondary limitation for the proportion of the polygon in Class_E Class_F Char 1 The tertiary CLI class class Percent_F Char 1 The proportion (% base 10) of the polygon in Class_F (blank = 0%) Subclas_F1 Char 1 The primary limitation for the proportion of the polygon in Class_F Subclas_F2 Char 1 The secondary limitation for the proportion of the polygon in Class_F Note(s): i) To classify the data in a manner similar to the way the CLI paper maps were printed, use field Class_A. ii) For a more meaningful interpretation of agricultural land potential, use fields Prime_AGR and Marge_AGR, or a combination of both with an incremental color palette. iii) For a better understanding of what factor(s) limit the land for agriculture, use fields Limit_AGR or Subclas_A1. iv) For the location of specific land unit types, use a combination of classes and limitation subclasses. v) For maps in Alberta which have a combined non-irrigated/irrigated classification, and namely maps 72e,72l,82h and 82i, the percentages across all non-irrigated/irrigated classes add up to exactly 100%. vi) For maps in British Columbia which have a combined non-irrigated/irrigated classification, and namely maps 82e,82g,82j,82k,92c,92f,92g,92h,92k,92o,92p, 93a,93b,103i and 103p, the percentages across all non-irrigated/irrigated classes add up to 200%. In the computation of prime and marginal agricultural lands, a 50-50 percentage distribution has been assumed between irrigated and non-irrigated lands. 4. Component Table Attribute Schema (CMP.DBF) CMP_Index Char 10 Polygon identification code CMP Num 1,0 Component Number (1..6) Percent Num 3,0 Percentage (base 100) of the component Class Char 1 CLI Class Subclass1 Char 1 Primary limitation subclass Subclass2 Char 1 Secondary limitation subclass Irrigated Char 1 Irrigated land indicator ("Y" = yes, "N" = no) Note(s): i) This table creates a "many-to-one" relationship with the Polygon Attribute Table (PAT.DBF) and should not be utilized in ArcView without the Component Table Extension provided by Agriculture Canada. ii) The Component Table Extension for ArcView can be obtained via FTP from: ftp://res.agr.ca/CANSIS/TOOLS/ct_map_1.3.avx 5. Valid CLI Classes 1 . No Significant Limitations 2 . Moderate Limitations; moderate conservation practices required. 3 . Moderately Severe Limitations; range of crops restricted or special conservation practices required. 4 . Severe Limitations. 5 . Forage Crops - Improvement practices feasible 6 . Forage Crops - Improvement practices not feasible 7 . No Capability for arable culture or permanent pasture 0 . Organic Soils 8 . Unclassified areas; see note below W . Water Note: Unclassified areas (Class_A=8) make use of the Subclas_A1 field to indicate why the area was not classified, as follows: Class_A=8, Subclas_A1= BLANK - Unmapped Area Class_A=8, Subclas_A1= Z - Water Area Class_A=8, Subclas_A1= T - Forest Reserves Class_A=8, Subclas_A1= O - National Parks Class_A=8, Subclas_A1= B - Urban Areas Class_A=8, Subclas_A1= W - Provincial Parks Class_A=8, Subclas_A1= I - Irrigated Rating Only 6. Valid Limitation Subclasses C . Adverse climate D . Undesirable soil structure and/or low permeability E . Erosion F . Low fertility I . Inundation by streams or lakes M . Moisture limitation N . Salinity P . Stoniness R . Consolidated bedrock S . Cumulative adverse soil characteristics T . Topography limitation W . Excess water X . Cumulative minor adverse characteristics 7. Limitation Subclass Groupings (LIMIT_AGR) C . Climate D,F,M,N,S . Soil Limitations E,W,I . Erosion/Inundation P,R . Stoniness/Bedrock T . Topography X . Cumulative 8. Narrative Description of CLI Classification In this classification the mineral soils were grouped into 7 classes on the basis of soil survey information. Soils classed as 1,2,3 or 4 were considered capable of sustained use for cultivated field crops;those in classes 2 and 6 for perennial forage crops; those in class 7 for neither. Some of the important factors on which the classification was based are: The soils would be well managed and cropped, under a largely mechanized system. Land requiring improvements, including clearing, that could be made economically by the farmer himself, was classed according to its limitations or hazards in use after the improvements had been made. Land requiring improvements beyond the means of the farmer himself was classed according to its present condition at the time of the inventory. The following were not considered: distances to market, kind of roads,location,size of farms,type of ownership, cultural patterns, skill or resources of individual operators, and hazard of crop damage by storms. The classification did not include capability of soils for trees, tree fruits, small fruits, ornamental plants, recreation or wildlife. The classes were based on intensity, rather than kind, of their limitations for agriculture. Each class included many kinds of soil, and many of the soils in any class required unlike management and treatment. For provinces other than Saskatchewan, Alberta and British Columbia, only Class A to C fields are coded, with no distinction made between irrigated and non-irrigated land. In Saskatchewan and Alberta, land was again classified according to its use at the time of the inventory, but a further differentiation was provided for irrigated and non-irrigated land. If a land unit was entirely non-irrigated, the classification for this land was coded in Classes A to C. If a land unit was completely irrigated the classification for the land was coded in Classes D to F. If a land unit was comprised of both irrigated and non-irrigated land, then a complex classification was required to represent the area. The portion of the classification that applied to the non-irrigated area in the land unit was coded in classes A to C while the portion pertaining to the irrigated land was coded in Classes D to F. Up to three of the Classes A to F may have been coded for such land unit and the percentages add up to a total of 10. Land given a capability classification of 6 or 7 did not warrant irrigation since the benefits derived from irrigation would have been negligible. For this reason, capability classes 6 and 7 always appeared in the non-irrigated portion (classes A to C) of a land unit classification. On the Canada Land Inventory paper maps, the symbols pertaining to an irrigated land area was printed in red. 9. CLI Agriculture Class Descriptions Class 1 Soils in this class have no significant limitations in use for crops. The soils are deep, are well to imperfectly drained, hold moisture well, and in the virgin state were well supplied with plant nutrients. They can be managed and cropped without difficulty. Under good management they are moderately high to high in productivity for a wide range of field crops. Class 2 Soils in this class have moderate limitations which restrict the range of crops or require moderate conservation practices. The soils are deep and hold moisture well. The limitations are moderate and the soils can be managed and cropped with little difficulty. Under good management they are moderately high to high in productivity for a fairly wide range of crops. Class 3 Soils in this class have moderately severe limitations which restrict the range of crops, or require special conservation practices. The limitations are more severe than for Class 2 soils. They affect one or more of the following practices: timing and ease of tillage, planting and harvesting, choice of crops, and method of conservation. Under good management they are fair to moderately high in productivity for a fair range of crops. Class 4 Soils in this class have severe limitations which restrict the range of crops, or require special conservation practices, or both. The limitations seriously affect one or more of the following practices: timing and ease of tillage, planting and harvesting, choice of crops, and method of conservation. The soils are low to fair in productivity for a fair range of crops but may have high productivity for a specially adapted crop. Class 5 Soils in this class have very severe limitations which restrict their capability to producing perennial forage crops, and improvement practices are feasible. The limitations are so severe that soils are not capable of use for sustained production of annual field crops. The soils are capable of producing native or tame species of perennial forage plants, and may be improved by use of farm machinery. The improvement practices may include clearing of bush, cultivation, seeding, fertilizing or water control. Class 6 Soils in this class are capable only of producing perennial forage crops, and improvement practices are not feasible.The soils provide some sustained grazing for farm animals, but the limitations are so severe that improvement by use of farm machinery is impractical, terrain may be unsuitable for use of farm machinery, the soils may not respond to improvement, or the grazing season may be very short. Class 7 Soils in this class have no capability for arable culture or permanent pasture. This class also includes rock land, other non-soil areas and bodies of water too small to show on maps at mapping scale. Class 0 Organic soils.(Not placed in capability classes). 10. CLI Subclass Descriptions 'C' Adverse climate - This subclass denotes a significant adverse climate for crop production as "median" climate which is defined as one with sufficiently high rowing-season temperatures to bring crops to maturity. 'D' Undesirable soil structure and/or low permeability This subclass indicates soils that are difficult to till or soils where water is absorbed very slowly or where the depth of rooting zone is restricted by conditions other than a high water table or consolidated bedrock. 'E' Erosion This subclass includes soils where damage from erosion is a limitation to agricultural use. Damage is assessed on loss of productivity and on the difficulties in farming with gullies. 'F' Low fertility - Included are soils having low fertility that either is correctable with careful management in the use of fertilizers and soil amendments, or is difficult to correct by any practical means. The limitations may be due to lack of plant nutrients, high acidity or alkalinity, low exchange capacity, high levels of carbonates or presence of toxic compounds. 'I' Inundation by streams or lakes - This subclass includes soils subjected to inundation causing crop damage or restricting agricultural use. 'M' Moisture Limitations - This consists of soils where crops are affected by drought owing to inherent soil characteristics. These soils usually have low water-holding capacity. 'N' Salinity - Soils of this subclass possess excessive soluble salts which adversely affect crop growth or restrict the range of crops that may be grown. 'P' Stoniness - These soils are sufficiently stony to hinder tillage, planting and harvesting operations. 'R' Consolidated bedrock - This subclass includes soils where the presence of bedrock near the surface restricts their agricultural use. Consolidated bedrock at depths greater than 3 feet from the surface is not considered as a limitation except on irrigated lands where a greater depth of soil is desirable. 'S' There are two interpretations accorded to subclass S. In the case of maps generally produced before 1969, subclass S will be used in place of subclasses D,F,M or N. If two or more of subclasses D,F,M or N are applicable to the same area, then again subclass S will be substituted. On most of the maps subsequent to 1969, the applicable subclass D,F,M or N will appear if an area is classified with a single subclass. For areas classified with two or more of D,F,M or N then subclass S will appear, denoting a combination of subclasses. 'T' Topography = This subclass is made up of soils where topography is a limitation. Both the percent of slope and the pattern or frequency of slopes in different directions affect the cost of farming and the uniformity of growth and maturity of crops as well as the hazard of erosion. 'W' Excess water - This subclass includes soils where excess water other than that brought about by inundation is a limitation to agricultural use. Excess water may result from inadequate soil drainage, a high water table, seepage or from runoff from surrounding areas. 'X' This subclass is comprised of soils having a limitation resulting from the cumulative effect of two or more adverse characteristics. For full details see 'The Canada Land Inventory, Soil Capability Classification for Agriculture' Report No. 2, 1969. 11. Accreditation The Canada Land Inventory extraction and distribution is managed by: The Canada Centre for Remote Sensing Natural Resources Canada Government of Canada Room 650 - 615 Booth Street Ottawa, ON, Canada K1A 0E9 Based on significant research and development by: The National Archives of Canada Statistics Canada Agriculture and Agri-Food Canada Data processing completed by: Spatialanalysis Ottawa, Ontario, Canada K1Y ON3 The National Archives of Canada retains intellectual property. (Copyright) Her Majesty the Queen in Right of Canada, 1999.