Key Factors That Enhance Crop Production
Owing to the massive geographical diversity seen in India, one can understand how difficult it must be to formulate a plan to increase crop yields that would help everyone equally. Different parts of India have different kinds of soil, different rainfall, different groundwater reserves and of course, different access to fertilisers and industrialisation. Increasing crop yield is a very important point to secure in an agriculture-based country such as India.
In India, there has been a 4x rate rise in food grain production in India from 1960 to 2004, with just 25 percent growth in the cultivable land area. Despite the Green Revolution and numerous plannings and laws that have gone into place to ensure better yield and more prospective agriculture, the results have not been that good. This needs to change since India still relies quite a bit on agricultural output for economic development, not just for maintaining the population of the country but also to meet the huge export demands.
Before learning the details of “how to improve crop yield?”
Let's understand the meaning of crop yield.
Crop Yield Definition: Crop yield is a measure of the quantity of farm production produced per unit of land area.
This was achieved by various practices involved in farming and they are divided into three stages they are:
Crop variety improvement - Choosing right seeds for planting
Crop production improvement - Cultivating of the crop plants
Crop protection management – Protecting the crop from loss
Crop Variety Improvement
Initial challenge to improve crop yields is to find a crop variety that increases crop yield.
Breeding will be useful to select various strains of crops for features such as disease resistance, fertilizer response, product quality and high yields.
Hybridization helps to incorporate desirable characters into crop varieties.
Introducing a gene that would provide the required characteristic to increase crop yield.
The aim of improving high yielding crop varieties
To get higher yield by increasing the productivity of the crop per acre.
To obtain an Enriched quality of crop products (quality factor may vary from crop to crop). For example: Baking quality is considered in wheat; protein quality in pulses, oil; preserving quality in fruits and vegetables.
To grow Biotic and abiotic resistant Crops, where they can be protected from diseases, insects and nematodes, drought, salinity, waterlogging, heat, cold and frost
The duration of the crop from sowing to harvesting is shortened because, the shorter the time, more economical is the variety, which helps farmers to grow multiple rounds of crops in a year and also reduces the cost of crop production.
Wider adaptability crops are grown because crop production is not altered by different environmental conditions
Desirable agronomic characteristics like can be grown
Desirable characters for fodder crops: Tall and profuse branching
Desired characters for cereals: dwarfness
Crop Production Improvement
It is the money or financial conditions that let farmers to take advantage of different farming practices and technologies. There is a correlation between the higher yields and inputs.
Production practices can be at various levels. They include production practices at ‘no cost’, production practices ‘low cost’ and production practices at ‘high cost’.
Nutrient Management
Plants need the nutrients which are necessary for growth and these are supplied by air, water and soil.
There are sixteen vital nutrients which are important for plants.
Air supplies carbon and oxygen. Hydrogen comes from water.
Soil supplies the other thirteen nutrients to plants. Among which, nutrients which are required in larger quantities are called Macro nutrients and nutrients which are required in lesser quantities are called Micronutrients.
These nutrient deficiencies affect plant physiological processes including reproduction, growth, and disease susceptibility. By providing these nutrients in the form of manure and fertilizers, the soil can be cultivated to increase yield.
Irrigation
One of the main reasons why India’s crop yield suffers is due to irrigation problems. India is blessed with fertile soil, but that would be fruitless if there is not adequate irrigation to go with it. While some parts of the country receive enough rainfall, others do not. Moreover, with the recent changes in climate, rainfall has become very unpredictable. In fact, sometimes rainfall occurs right before harvest, thus ruining all the hard work of the farmers and making the crops unfit for harvesting.
One of the main goals of the Green Revolution was to make sure that better irrigation channels were introduced in India. While there have certainly been many improvements, a much more concrete effort is needed to make sure that crop yield improves.
Cropping Patterns
To get maximum benefit, three ways of cropping patterns can be used. They are:
Mixed cropping
Inter cropping
Crop rotation
When two or more crops are grown simultaneously on the same land then it is known as mixed cropping.
For Example: groundnut + sunflower, wheat + gram or wheat + mustard.
When two or more crops simultaneously on the same field in a definite pattern is known as Intercropping.
For Example: finger millet (bajra) + cowpea (lobia).
Crops are selected in such a way that they have specific nutrient needs. This ensures maximum use of the supplied nutrients, and also prevents the spread of pests and diseases to all plants in a field that belong to one crop.
The planting of different crops in a pre planned succession on a piece of land is known as crop rotation. The crop rotation is done for different crop types, depending on the period.
Crop Protection Management
A large number of insects, insect pests, and diseases infest the field crops. If weeds and pests are not controlled at the right time then the crops can be damaged so much that most of the crop is lost.
Measures to overcome the damage
During the early stages of crop growth, the removal of weeds from cultivated fields is essential for a good harvest.
Should be safeguarded from insects because:
They cut the root, leaf and, stem
They drain the sap of cells from different parts of the plant
They bore into stem and fruits, thus affect the health of the crop
Usage of pesticides (herbicides, insecticides and fungicides) protects crops from diseases caused by pathogens.
Weed control methods also include mechanical removal.
Preventive methods such as proper preparation of seed beds, timely seeding of crops, intercropping and rotation of crops also help in weed control.
Other preventive measures against pests include the use of resistant varieties, and ploughing in summer, where fields are planted deep in summer to destroy weeds and pests.
Storage of grains is very important as loss is very high at this stage because of insects, rodents, fungi, mites in the place of storage. Those factors can be controlled through proper treatment and systematic warehouse management.
Summary
Improvement in crop yield is achieved by various practices involved in farming and they are divided into three stages: Crop variety improvement where right seeds are chosen for planting through breeding, hybridization; Crop production improvement, in this step crop plants are cultivated. It includes nutrient management, irrigation and cropping patterns and the last step is Crop protection management where crops are protected from pests, weeds and any other damages.
FAQs on Proven Methods to Improve Crop Yields
1. What is meant by the term 'Improvement in Crop Yields' in biology?
Improvement in Crop Yields refers to the scientific strategies and practices used to increase the productivity of agricultural crops per unit of land. Given the world's growing population and limited arable land, the primary goal is to maximise the harvest of grains, vegetables, and fruits from a given area through advancements in crop variety, production, and protection. This ensures food security and meets increasing demand.
2. What are the three main approaches for improving crop yields according to the CBSE syllabus?
The three major scientific activities undertaken to improve crop yields are:
- Crop Variety Improvement: This involves developing and selecting plant varieties with desirable characteristics, such as higher yield, better quality, and resistance to diseases and pests.
- Crop Production Management: This focuses on optimising the resources and conditions for growing crops, including nutrient supply, irrigation, and cropping patterns.
- Crop Protection Management: This involves safeguarding the crops from weeds, insect pests, and diseases both in the field and during storage.
3. What is the importance of crop variety improvement in agriculture?
Crop variety improvement is crucial because it helps in developing new crop strains that possess several desirable traits. The main objectives are to enhance:
- Higher Yield: To increase the production of the crop per acre.
- Improved Quality: To enhance characteristics like baking quality in wheat, protein content in pulses, or oil quality in oilseeds.
- Biotic and Abiotic Resistance: To make crops resistant to diseases (biotic) and tolerant to stresses like drought, salinity, or extreme temperatures (abiotic).
- Wider Adaptability: To develop varieties that can be grown successfully under different environmental conditions.
4. How does the technique of hybridization help in creating better crop varieties?
Hybridization is a method of crossing two genetically dissimilar parent plants to produce a new individual, or 'hybrid', that combines the desired characteristics of both parents. For example, a crop variety with high yield can be crossed with another variety that has strong disease resistance. The resulting hybrid aims to possess both high-yield potential and disease resistance, leading to an overall superior crop.
5. What is the difference between macronutrients and micronutrients for plants?
The key difference lies in the quantity required by the plants. Macronutrients are essential elements needed by plants in relatively large amounts for proper growth and development. The primary macronutrients are Nitrogen (N), Phosphorus (P), and Potassium (K). In contrast, micronutrients are elements required in very small or trace amounts, but they are equally vital. Examples include iron, manganese, and zinc.
6. Compare the use of manures and chemical fertilisers in farming.
Both manures and fertilisers supply nutrients to the soil, but they differ significantly. Manure is an organic substance derived from animal and plant waste. It improves soil structure and water retention but is bulky and not nutrient-specific. Chemical fertilisers are commercially produced inorganic compounds that supply specific nutrients like nitrogen or phosphorus. They are highly concentrated and provide rapid results but can degrade soil health and cause water pollution if overused.
7. Why are different cropping patterns, like inter-cropping and crop rotation, beneficial for farmers?
Different cropping patterns are beneficial because they help maximise resource utilisation and maintain soil fertility.
- Inter-cropping involves growing two or more crops simultaneously in the same field in a definite pattern. This practice can suppress weeds and reduce the spread of pests and diseases.
- Crop rotation is the practice of growing different crops in a pre-planned succession on the same piece of land. It helps break pest cycles and prevents the depletion of specific soil nutrients, thereby improving long-term soil health and yield.
8. How do weeds negatively impact the growth of main crops?
Weeds are unwanted plants in a cultivated field that negatively impact crop growth primarily through competition. They compete with the main crop for essential resources such as sunlight, water, space, and soil nutrients. This intense competition can significantly reduce the growth and yield of the desired crop. Some weeds may also produce toxic substances that inhibit crop growth or host pests and diseases.
9. What is Integrated Farming, and how does it exemplify a sustainable agricultural practice?
Integrated farming is a sustainable agricultural system that combines different farming activities, such as crop cultivation with livestock rearing, poultry, or fish farming. This approach creates a cyclical system where the waste product from one activity becomes a valuable input for another—for example, using cattle dung as manure for crops. It increases overall farm productivity, provides farmers with multiple sources of income, and promotes efficient resource recycling, making agriculture more sustainable and economically viable.
