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Land Capability and its Classification, Watershed Planning and Management | Watershed Planning and Management Notes - Agricultural Engg - Agricultural Engineering PDF Download

Definition of Land Capability

Land capability may be defined as the ability of the land surface to support natural plant growth/ wildlife habitat or artificial crop growth/ human habitat.  Thus, it indicates the type of land use [viz., human habitation, agriculture, pastures, forests, wildlife habitat, etc.] that is suitable over a particular type of land. Different lands have different capabilities depending on the land characteristics like slope, soil type, soil depth and erosion conditions. If certain land characteristics are not conducive for agriculture, it is desirable to utilize or ensure the continuity of that land area for other land uses as mentioned earlier.  

The ultimate goal of allocation of various land capabilities over a vast land area with varied characteristics is to achieve complete soil conservation. Complete soil conservation implies perfect soil health and zero soil erosion on a sustained basis. It also facilitates total water conservation and total vegetation conservation. Thereby it results in integrated watershed management on a long term basis.

In the next section, we shall discuss the classification of land capability based on the land characteristics. This land capability classification should ensure appropriate land use for every land area for peaceful coexistence of different flora and fauna including human habitation and also a sustained productivity through human activities.

3.2 Classification of Land Capability

The Soil Conservation Service (SCS) of the United States Department of Agriculture (USDA) has done a pioneering work on land capability classification [Klingbiel and Montgomery, 1961]. According to that, the land capability is classified broadly into two groups based on the cultivability of the land. The first group consisting of all the lands which are suitable for cultivation is referred to as ‘Group 1 Lands’. The remaining group consisting of all the lands which are unsuitable for cultivation is referred to as ‘Group 2 Lands’.  Each of these two groups are further classified into four classes. Thus ‘Group 1 Lands’ comprise ‘Land Classes I to IV’ which are cultivable and ‘Group 2 Lands’ comprise ‘Land Classes V to VIII’ which are non-cultivable.

The following paragraphs describe each of the two groups and eight land classes in terms of their land characteristics and land use:

Group 1 Lands: Generally Suitable for Cultivation

Class I Lands: These lands are nearly level with slopes generally within 1%.  The soils are deep, fertile, easily workable and are not subjected to damaging overflows. There are hardly any restrictions or limitations for their use. These lands are very good lands which can be safely cultivated by using any farming method to grow any crop, even intensively also. However, proper crop rotation and green manure use should be followed to maintain soil fertility [Mal, 1994].

Class II Lands: These lands generally have gentle slope in the range of 1 to 3%. They can be easily cultivated with some conservation practices like contour farming, strip cropping, bund construction or terracing. Therefore one or more of the following limitations exist which slightly reduce the crop choice [Murthy and Jha, 2011]:

1. Moderate susceptibility to erosion by wind or water;

2. Less than ideal soil depth;

3. Somewhat unfavourable soil structure and workability;

4. Slight to moderate salinity;

5. Occasionally damaging overflows;

6. Wetness existing permanently which can be corrected by drainage; and

7. Slight climatic limitations on land use and management. 

Class III Lands: These lands generally have slopes in the range of 3 to 5% and therefore have severe limitations which further reduce the crop choice or require special conservation practices [like contour farming, strip cropping, cover cropping, bund construction or terracing] or both.  Lands in this class have more restrictions than those in Class II Lands due to land characteristics. All the limitations of Class II Lands are applicable here also, but to a greater extent.  Hay or pasture crops that completely cover the soil should be preferred.  On wet lands of this Class -which usually have heavy and slowly permeable soils, a drainage system along with a suitable cropping plan to improve the soil structure is required.   

Class IV Lands: These lands have fairly good soils [i. e., having shallow soil depth and low fertility] and generally have somewhat steep slopes in the range of 5 to 8%. Therefore they have either very severe limitations that largely restrict the crop choice or require very careful management or both.  Lands may be suitable only for two to three common crops which build and maintain soil -like the fully covering pastures, with occasional grain crops which can be grown usually once in five years. These lands may have one or more of the following permanent features [Murthy and Jha, 2011]:

1. Heavy susceptibility for erosion due to wind, water with severe effects of past erosion;

2. Low moisture holding capacity;

3. Frequent overflows accompanied by severe crop damage;

4. Water logging, excessive wetness and severe salinity; and

5. Moderately adverse climate.

Land Capability Sub-Classes: Lands in Classes II, III and IV are further categorised into sub-classes based on the following limitations:

1. Risk of erosion or past erosion damage is designated by the symbol ‘e’;

2. Wetness damage or overflow is designated by the symbol ‘w’;

3. Soil root zone limitations are denoted by ‘s’; and

4. Climatic limitations are designated by ‘c’.

Group 2 Lands: Generally Not Suitable for Cultivation

Class V Lands:  These lands generally have slopes in the range of 8 to 12%.  They usually have no to little erosion hazard but have other limitations which restrict their use mainly to pastures, forests, wildlife food and cover.  Controlled grazing may be permitted.  Some of the examples of Class V Lands are:

1. Bottom lands subject to frequent overflows that prevent the normal production of cultivated crops;

2. Stony or rocky lands;

3. Few ponded areas where soils are suitable for grasses or trees.

Class VI Lands:  The lands in this Class have shallow soils and generally have quite steep slopes ranging to 18%.  They have severe limitations which restrict their use to pastures with very limited grazing, woodlands, wildlife food and cover.  Some of the limitations of these lands which can’t be corrected are:

1. Severe erosion;

2. Stony texture with shallow rocks

3. Excessive wetness or overflow

4. Low moisture capacity

5. Severe climate.

Class VII Lands:  The lands in this Class are generally eroded, rough, having shallow soil depth and steeper slopes ranging to 25%.  The soils may be swampy or drought prone, with all the limitations of Class VI Lands even to a higher degree.  If there is good rainfall, they may be used for forestry with fully green cover, gully control structures and severely restricted grazing.

Class VIII Lands: These lands are rough with probably the worst soil types and possibly the steepest slopes in excess of 25%. They can only be used with very sound gully control measures for forests –if conducive for tree growth, and also for wildlife habitat.  However, tree felling and grazing should be strictly avoided.

Certain lands in Group 2 can be made cultivable with major earthmoving or other effective and costly reclamation operations. In India, both the Class VII Lands and Class VIII Lands are combined as Class VII Lands.

Keywords: Land capability, land capability classification, Group 1 lands, Group 2 lands.

The document Land Capability and its Classification, Watershed Planning and Management | Watershed Planning and Management Notes - Agricultural Engg - Agricultural Engineering is a part of the Agricultural Engineering Course Watershed Planning and Management Notes - Agricultural Engg.
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FAQs on Land Capability and its Classification, Watershed Planning and Management - Watershed Planning and Management Notes - Agricultural Engg - Agricultural Engineering

1. What is land capability classification and why is it important in agricultural engineering?
Ans. Land capability classification is the process of categorizing land based on its suitability for different uses, such as agriculture, forestry, or urban development. It takes into account factors such as soil type, slope, drainage, and climate. This classification is important in agricultural engineering as it helps in determining the best use of land for agricultural purposes, planning irrigation systems, and managing soil erosion.
2. How is land capability classified and what are the different classes?
Ans. Land capability is classified into different classes based on its limitations and potentials for agricultural use. The United States Department of Agriculture (USDA) has developed a land capability classification system that categorizes land into eight classes. These classes range from Class I (very limited limitations) to Class VIII (very severe limitations) and provide guidance on the suitability of the land for specific agricultural practices.
3. What is watershed planning and management in the context of agricultural engineering?
Ans. Watershed planning and management in agricultural engineering refers to the holistic approach of managing land and water resources within a specific watershed or river basin. It involves assessing the natural resources, identifying potential issues such as soil erosion or water pollution, and developing strategies to address these challenges. The aim is to ensure sustainable use of land and water, protect the environment, and optimize agricultural productivity in the watershed.
4. What are the key components of watershed planning and management in agricultural engineering?
Ans. The key components of watershed planning and management in agricultural engineering include: 1. Land use analysis: Assessing the current land use practices within the watershed and identifying areas of concern such as excessive deforestation or improper agricultural practices. 2. Soil and water conservation measures: Implementing measures to prevent soil erosion, improve water quality, and conserve water resources, such as contour plowing, terracing, and constructing water retention structures. 3. Water resource management: Developing strategies for efficient water use, including irrigation techniques, water storage, and water recycling systems. 4. Nutrient management: Implementing practices to optimize nutrient use in agriculture, such as proper fertilization, crop rotation, and cover cropping, to minimize nutrient runoff and water pollution. 5. Stakeholder engagement: Involving all stakeholders, including farmers, local communities, and government agencies, in the planning and management process to ensure collective decision-making and adoption of sustainable practices.
5. How does agricultural engineering contribute to sustainable land and water management?
Ans. Agricultural engineering plays a crucial role in promoting sustainable land and water management by integrating scientific knowledge and engineering principles. It helps in developing and implementing technologies, practices, and systems that improve agricultural productivity while minimizing negative environmental impacts. Through the use of advanced irrigation techniques, precision farming, soil and water conservation measures, and efficient resource management, agricultural engineering contributes to the conservation of land and water resources, reduction of soil erosion and water pollution, and overall sustainability of agricultural practices.
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