Farming Systems And Sustainability

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Farming Systems and sustainability

Nature is dynamic. It causes inheritable changes in all living organisms. For thousands of years, farmer around the world have been selecting and conserving varieties of different crop Plants that they cultivated. This process has generated a rich wealth of varieties in each crop plant, seen to be most abundant in countries near the equator and India is no exception. In the world there are Mega centers of Biodiversity-2/”>Biodiversity of which aware present in India. This is because in India, the different soils and agro-climatic situations are present. So Indian farmers grow a large number of crops. Generation of Indian farmers, with their continued selection and conservation, has created a rich wealth of varieties in many crops. Therefore India is the original home of many crops such as rice, little and kodo Millets, red gram, moth bean, jute, pepper, cardamom, many vegetables and fruit species. These plants were identified from the wild, selected and cultivated by Indian farmers over hundreds of years. The present wealth of varieties in India includes both crops that originated in the country and those that were introduced from the other countries during the distant and recent paste are soybean, sunflower, oil pail and kiwi fruit.

The Indian economy is predominantly rural and agriculture oriented. In agriculture, 85% of the holdings are less than two hectares and the declining trend in the Average size of the farmer holdings, poses a serious problem. Majority of them are dry lands, which depend on erratic monsoon rains. The rest of the area is cultivated with supplemental Irrigation. The farmers concentrate mainly on crop production, which is invariably subjected to a high degree of uncertainly income and EMPLOYMENT.

In India the cultivable land is 143.8 million hectares and there is very little possibility of extending it further. Therefore, to meet the requirement of food grains for increasing Population, the only option open is through time and effective space utilization in agriculture. The time concept relates to increasing the intensity of Cropping under assured irrigated conditions, whereas space utilization pertains to building up of vertical dimension through multi-tier cropping and farming system approach. Thus by making use of these time and space concept either in irrigated or in rained areas, the productivity per unit area per unit time can be substantially enhanced. Therefore the only way to increase an agricultural production in the small/marginal units of farming is to increase is to increase the productivity per unit time and area. This may be achieved of quicker maturing varieties with equal yields or by improving techniques of culture, fertilizer use, weed and pest control.

The Green Revolution in mid sixties stirred by research based new technological developments involving new materials, models and ways of organizing farm inputs (water, fertilizer, chemical etc) and government’s policies transformed the agriculture dramatically. The outcome chewed a many fold increase in production and productivity viz. food grain production of 211 million tones ( which was only 74.23 million tones in 1966-67 ) and food grain productivity of 1697 kg/ha ( which was only 644 kg/ha in 1966-67 ). The country thus became self sufficient in food production despite tremendous pressure to sustain 16% of world human population and 10% of cattle population with just 2.4% of total land.

However modern crop production technology has considerably raised output but has residues in farm produce, gene erosion of fossil fuel based inputs such as fertilizer, pesticide, herbicides and labour spacing but energy intensive farm machinery.  Land water and plant (bio diversity) are the natural Resources and conservation of these Natural Resources is vital important. As far as resources degradation is concentrated, India is facing top Soil depletion, falling ground water table and contamination of water, ecological imbalance due to deforestation and healthy hazards linked to increase use of toxic agro- chemical because of increase in food consumption. The adverse soil loss is estimated to be over 16 tones/ha/year, which is layer of top soil. Annual top soil loss is 6000 million tones, which carries about 8.4 million tones of nutrients and it is more than what we are using today. Similarly tat energy research institute ( TERI ) reported that more than 10% of GDP is being lost annually on account of Environment and around 11-26% of country’s apicultural output is lost on account of soil degradation.

Sustainable Agriculture

In India progress in agriculture was through explitation of recourses to serve the interest of rules in the power. In the post- independence era, we were faced with the difficult task of feeding an increasing population and were burned by recurring import of food grains. Attending self- sufficient in food grain production was the challenges and a goal before Agriculture scientist. The element of strategy to achieve self- sufficiency in food production within a short time were to expand the area under cropping, make large investments in development of Water Resources, develop input supplies and market Infrastructure-2/”>INFRASTRUCTURE. Developments and promotion of high yielding varities responsive to high inputs was the cornerstone for green revolution of 1970.

We are self sufficient in food grain production. Now the question arises whether to follow the same strategies, which resulted in green revolutions or to redefine them. Consideration of our past achievement new challenges and the related development worldwide can answer this question.

  • Although we are now self sufficient in food grain production, the per capital availability has not increased significantly and a large fraction of population are still below POVERTY line due to lack of purchasing capacity.
  • At the present, Growth rate of 2 % per annum, we will be about 1.3 billion by 2025 and 1.6 billion by 2060. hence there is need to produce more from shrinking resources base.
  • Major gains in productivity and production in the past three ecades have been from areas, which had no serious limitation to production (adequate irrigation productive soils, ideal Climate etc.) productivity and production increases was moderate in eastern and central India and Deccan plateau.
  • Even in areas with no serious limitation for production, technology adopted for enhancing productivity has also simultaneous weekend the resource base resulting in a series of second – generation problems.

Modern crop production technology has considerably raised output but has created problems of land degradation pesticide residue in farm produce, gene erosion, and Atmosphere and Water Pollution. The natural resources base is degraded and diminished and the quality of the environment sustaining human life is adversely affected. Agricultural production has sustained man and great civilization. The History of the world reveals that great civilization flourished along irrigation sources and mismanagement of these resources saw the extinction of these civilizations. With expanding population and rapid depletion and degradation of the natural resource base. Sustainable agriculture has assumed very great significance. The task of meeting the needs of the present generation without eroding the ecological assets of the future generation is receiving up priority by environmental planners.

 


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Farming Systems and Sustainability

Sustainable agriculture is a system of agriculture that focuses on producing food and fiber while protecting the environment and conserving natural resources. It is a holistic approach to agriculture that takes into account the social, economic, and environmental impacts of Farming practices.

There are many different types of sustainable agriculture, but they all share some common principles. These principles include:

  • Conservation of natural resources: Sustainable agriculture practices protect soil, water, air, and biodiversity.
  • Efficient use of resources: Sustainable agriculture practices use resources wisely and avoid waste.
  • Recycling and reuse: Sustainable agriculture practices recycle and reuse materials whenever possible.
  • Pollution prevention: Sustainable agriculture practices prevent pollution and minimize the use of toxic chemicals.
  • Economic viability: Sustainable agriculture practices are economically viable and profitable.
  • Social Justice: Sustainable agriculture practices promote social justice and Equity.

There are many benefits to sustainable agriculture. It can help to improve Food Security, reduce poverty, protect the environment, and promote Economic Development. Sustainable agriculture can also help to mitigate Climate Change and build resilience to extreme weather events.

There are many challenges to sustainable agriculture. One challenge is that it can be more expensive than conventional agriculture. Another challenge is that it can be difficult to scale up sustainable agriculture practices to meet the needs of a growing population.

Despite the challenges, sustainable agriculture is a promising approach to meeting the needs of the future. It has the potential to provide food for a growing population while protecting the environment.

Here are some specific examples of sustainable agriculture practices:

  • Agroecology: Agroecology is a science-based approach to agriculture that integrates ecological principles with social and economic considerations. Agroecological practices include Crop Rotation, Intercropping, and cover cropping.
  • Agroforestry: Agroforestry is a system of land use that integrates trees and crops. Agroforestry practices include Alley Cropping, silvopasture, and tree planting.
  • Climate-Smart Agriculture: Climate-smart agriculture is a type of agriculture that helps to reduce greenhouse gas emissions and adapt to climate change. Climate-smart agriculture practices include conservation agriculture, improved irrigation, and drought-tolerant crops.
  • Conservation agriculture: Conservation agriculture is a system of agriculture that minimizes soil disturbance and maximizes crop yields. Conservation agriculture practices include no-till farming, cover cropping, and crop rotation.
  • Crop rotation: Crop rotation is a system of planting different crops in the same field each year. Crop rotation helps to improve soil Health and reduce the risk of pests and diseases.
  • Integrated pest management: Integrated pest management is a system of pest control that uses a variety of methods, including biological control, cultural control, and chemical control. Integrated pest management helps to reduce the use of pesticides and protect the environment.
  • Organic Farming: Organic farming is a system of agriculture that uses natural methods to produce food and fiber. Organic farming practices include crop rotation, cover cropping, and composting.
  • Permaculture: Permaculture is a system of agriculture that mimics the patterns and relationships found in nature. Permaculture practices include using perennial plants, rainwater harvesting, and composting.
  • Sustainable agriculture: Sustainable agriculture is a system of agriculture that meets the needs of the present without compromising the ability of future generations to meet their own needs. Sustainable agriculture practices include conservation agriculture, integrated pest management, and organic farming.
  • Water management: Water management is the process of controlling the use of water in agriculture. Water management practices include irrigation, drainage, and water conservation.
  • Zero Tillage: Zero tillage is a system of farming that does not involve plowing the soil. Zero tillage helps to conserve soil and water and reduce the use of pesticides.

These are just a few examples of the many sustainable agriculture practices that are available. By adopting sustainable agriculture practices, farmers can help to protect the environment, improve food security, and promote economic development.

What is sustainable farming?

Sustainable farming is a method of crop and Livestock production that uses land, water, labor, capital, energy, and other resources in a way that helps to maintain or improve environmental quality and the productivity of the land over the long term.

What are the benefits of sustainable farming?

There are many benefits to sustainable farming, including:

  • Improved soil health: Sustainable farming practices help to improve soil health by reducing erosion, increasing organic matter, and promoting biodiversity.
  • Reduced water pollution: Sustainable farming practices help to reduce water pollution by reducing runoff and nutrient leaching.
  • Increased crop yields: Sustainable farming practices can help to increase crop yields by improving Soil fertility and reducing pest and disease problems.
  • Reduced greenhouse gas emissions: Sustainable farming practices can help to reduce greenhouse gas emissions by reducing the use of fossil fuels and by sequestering carbon in the soil.
  • Improved animal welfare: Sustainable farming practices can help to improve animal welfare by providing animals with more space, better Nutrition, and access to the outdoors.

What are the challenges of sustainable farming?

There are some challenges to sustainable farming, including:

  • Higher costs: Sustainable farming practices can be more expensive than conventional farming practices.
  • Lower yields: Sustainable farming practices can sometimes lead to lower yields than conventional farming practices.
  • Increased risk: Sustainable farming practices can sometimes be more risky than conventional farming practices, due to factors such as weather variability and pest and disease outbreaks.
  • Lack of support: Sustainable farming practices can sometimes be difficult to implement due to a lack of support from government policies, financial institutions, and other stakeholders.

What are some examples of sustainable farming practices?

Some examples of sustainable farming practices include:

  • Crop rotation: Crop rotation is a practice in which different crops are grown in the same field in a planned sequence. This helps to improve soil health and reduce the risk of pests and diseases.
  • Cover cropping: Cover cropping is a practice in which a cover crop is planted between Cash Crops. Cover crops help to improve soil health, prevent erosion, and suppress Weeds.
  • No-till farming: No-till farming is a practice in which the soil is not disturbed during planting. This helps to reduce erosion and improve soil health.
  • Integrated pest management: Integrated pest management is a system of pest control that uses a variety of methods, including biological control, cultural control, and chemical control. This helps to reduce the use of pesticides and protect the environment.
  • Organic farming: Organic farming is a system of crop and livestock production that uses natural methods to manage pests, diseases, and weeds. Organic farming practices help to improve soil health, reduce pollution, and protect wildlife.

What are the future trends in sustainable farming?

The future trends in sustainable farming are likely to include:

  • Increased use of technology: Sustainable farming practices are likely to become more efficient and effective as new technologies are developed.
  • Increased collaboration: Sustainable farmers are likely to collaborate more with each other, with researchers, and with other stakeholders to share information and develop new solutions.
  • Increased consumer demand: Consumer demand for sustainable food is likely to continue to grow, which will create opportunities for sustainable farmers.
  • Increased government support: Governments are likely to provide more support for sustainable farming, as they recognize the benefits of these practices for the environment, the economy, and human health.
  1. Which of the following is not a type of farming system?
    (A) Organic farming
    (B) Conventional farming
    (C) Sustainable farming
    (D) Industrial farming

  2. Which of the following is the most common type of farming system in the world?
    (A) Organic farming
    (B) Conventional farming
    (C) Sustainable farming
    (D) Industrial farming

  3. Which of the following is the goal of sustainable farming?
    (A) To produce food without harming the environment
    (B) To produce food that is safe and nutritious
    (C) To produce food that is affordable
    (D) All of the above

  4. Which of the following is not a benefit of sustainable farming?
    (A) It helps to reduce soil erosion
    (B) It helps to conserve water
    (C) It helps to reduce greenhouse gas emissions
    (D) It helps to increase crop yields

  5. Which of the following is a challenge of sustainable farming?
    (A) It can be more expensive than conventional farming
    (B) It can be more labor-intensive than conventional farming
    (C) It can be more difficult to scale up than conventional farming
    (D) All of the above

  6. Which of the following is a type of sustainable farming practice?
    (A) Crop rotation
    (B) Cover cropping
    (C) No-till farming
    (D) All of the above

  7. Which of the following is a type of sustainable farming technology?
    (A) Precision agriculture
    (B) Vertical farming
    (C) Aquaponics
    (D) All of the above

  8. Which of the following is a benefit of using sustainable farming practices?
    (A) They can help to reduce soil erosion
    (B) They can help to conserve water
    (C) They can help to reduce greenhouse gas emissions
    (D) All of the above

  9. Which of the following is a challenge of using sustainable farming technologies?
    (A) They can be expensive
    (B) They can be difficult to implement
    (C) They can be difficult to scale up
    (D) All of the above

  10. Which of the following is the future of farming?
    (A) Sustainable farming
    (B) Conventional farming
    (C) Industrial farming
    (D) It is too early to say