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Evaluate the role of the agricultural research and development (R&D) ecosystem, including the network of central and state-level research institutes, universities, and private sector collaborations, in the development and the commercialization of innovative agricultural technologies, and discuss the measures required to enhance the funding, the coordination, and the translation of research outcomes into practical applications.
The agricultural R&D ecosystem, encompassing universities, state and federal research institutes, and private sector collaborations, plays a pivotal role in developing and commercialising innovative agricultural technologies. Universities conduct fundamental research and train scientists, whileRead more
The agricultural R&D ecosystem, encompassing universities, state and federal research institutes, and private sector collaborations, plays a pivotal role in developing and commercialising innovative agricultural technologies. Universities conduct fundamental research and train scientists, while state and federal institutes focus on applied research for region-specific challenges. The private sector bridges the gap between lab research and market application, ensuring technologies are practical and accessible.
To enhance this ecosystem, increased funding is essential. Government and private investments through grants, subsidies, and tax incentives can support more research. Improving coordination is also critical. Centralised bodies or consortia can synchronize efforts, and regular collaborative meetings can enhance information sharing.
Facilitating technology transfer is vital. Strengthening extension services and creating technology transfer offices can help translate research into practical applications by training farmers and demonstrating new technologies. Policy support is necessary to streamline regulatory processes and protect intellectual property rights, fostering innovation and commercialization. Lastly, capacity building through education and training for researchers, extension workers, and farmers ensures the successful adoption of new technologies.
By focusing on funding, coordination, technology transfer, policy support, and capacity building, the agricultural R&D ecosystem can effectively develop and commercialize technologies, boosting productivity and sustainability in agriculture.
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A disruptive approach to research & development (R&D), with a focus on last mile obligations of the agricultural system is necessary to realize India's objective of doubling farmer's income. Discuss.
Geostrategic significant Central Asian region forms a part of India’s extended neighborhood. Its geographical proximity, strategic location, and historical linkages Geostrategic significant Central Asian region forms a part of India’s extended neighborhood. Its make it an important partner for IndiaRead more
Geostrategic significant Central Asian region forms a part of India’s extended neighborhood. Its geographical proximity, strategic location, and historical linkages Geostrategic significant Central Asian region forms a part of India’s extended neighborhood. Its make it an important partner for India. At the heart of Eurasia, the region is surrounded by Russia, West Asia, South Asia (Afghanistan) and China. Any geopolitical changes in the region may impact several states in the neighbourhood including India. Central Asian countries are also endowed with commercially viable quantities of most minerals like coal, oil, gas, uranium, gold, lead etc. Despite the immense significance of the region resulting in the Connect Central Asia Policy of 2012, India has not been able to strengthen its ties with the Central Asian countries due to following reasons:
Given the geostrategic and diplomatic significance of the region, it is important for India to deepen its relationship with countries in this region by:
Central Asian regional dynamics will become very interesting with India’s involvement in the region in the coming years. Growing synergies between them will promote security, stability, economic growth and development of all countries.
See lessStating the issues associated with agricultural extension in India, discuss the role of Krishi Vigyan Kendras (KVKs) in strengthening the national agricultural research extension system.
Agricultural extension is the application of scientific research and new knowledge to agricultural practices through farmer education, training and assistance. It is aimed to develop agriculture practices through research and development. The Indian Council of Agricultural Research (ICAR) has initiaRead more
Agricultural extension is the application of scientific research and new knowledge to agricultural practices through farmer education, training and assistance. It is aimed to develop agriculture practices through research and development. The Indian Council of Agricultural Research (ICAR) has initiated several extension approaches including Krishi Vigyan Kendras (1974) with its mandate ranging from vocational training to technology assessment and demonstration for its application and capacity development.
However, there are various issues with agricultural extension in India, including
Role of Krishi Vigyan Kendras (KVKs) in strengthening the national agricultural research extension system
Due to changing agricultural conditions—including climate change, increasingly degraded and marginalized land coming into production, limited water availability, increasing use of inputs, rising fuel costs, and unknown market opportunities—farmers require access to timely, reliable, and relevant information that can support the complexity within which their farm enterprises operate.
See lessDiscuss the alignment of the technology missions in agriculture with the larger policy objectives of the government, such as the enhancement of agricultural productivity, the improvement of farmers' incomes, and the achievement of sustainable development goals, and analyze the potential trade-offs and the synergies between these objectives.
Aligning technology missions in agriculture with broader government policy objectives such as enhancing agricultural productivity, improving farmers' incomes, and achieving sustainable development goals involves balancing potential trade-offs and leveraging synergies effectively. Here’s an analysisRead more
Aligning technology missions in agriculture with broader government policy objectives such as enhancing agricultural productivity, improving farmers’ incomes, and achieving sustainable development goals involves balancing potential trade-offs and leveraging synergies effectively. Here’s an analysis of these aspects:
Policy Objectives and Alignment with Technology Missions:
1. Enhancement of Agricultural Productivity:
2. Improvement of Farmers’ Incomes:
3. Achievement of Sustainable Development Goals (SDGs):
Potential Trade-offs and Synergies:
1. Trade-offs:
2. Synergies:
3. Inclusive Growth: Technology missions can target marginalized groups (e.g., women farmers, smallholders) through inclusive approaches, fostering social equity and poverty reduction.
Measures to Maximize Synergies:
Conclusion:
The alignment of technology missions in agriculture with broader government policy objectives requires careful consideration of trade-offs and synergies. By integrating sustainable practices, promoting inclusivity, and leveraging innovative technologies effectively, governments can enhance agricultural productivity, improve farmers’ incomes, and contribute to achieving sustainable development goals. Balancing these elements ensures that technology missions not only drive economic growth but also foster resilience and equity within the agricultural sector.
See lessAnalyze the potential of the integration of technology missions with other social welfare programs, such as the Mahatma Gandhi National Rural Employment Guarantee Act (MGNREGA) and the Pradhan Mantri Kisan Samman Nidhi (PM-KISAN), in enhancing the overall food and livelihood security of the target beneficiaries, and discuss the measures required to ensure the seamless convergence and the effective implementation of these programs.
Integrating technology missions with social welfare programs like MGNREGA and PM-KISAN can significantly enhance food and livelihood security for beneficiaries by leveraging technological advancements to improve efficiency, transparency, and outreach. Here’s an analysis of the potential benefits andRead more
Integrating technology missions with social welfare programs like MGNREGA and PM-KISAN can significantly enhance food and livelihood security for beneficiaries by leveraging technological advancements to improve efficiency, transparency, and outreach. Here’s an analysis of the potential benefits and measures required for effective implementation:
Potential Benefits:
1.Enhanced Efficiency and Transparency:
2. Improved Monitoring and Accountability:
3. Better Targeting and Inclusion:
4. Data-Driven Decision Making:
5. Capacity Building and Skill Development:
Measures for Seamless Convergence and Effective Implementation:
1.Policy Alignment and Coordination:
2. Infrastructure Development:
3. Capacity Building:
4. Privacy and Data Security:
5. Feedback Mechanisms and Grievance Redressal:
6. Awareness and Communication:
7. Monitoring and Evaluation:
Conclusion:
Integrating technology missions with social welfare programs like MGNREGA and PM-KISAN holds immense potential to enhance food and livelihood security for beneficiaries through improved efficiency, transparency, and outreach. However, achieving seamless convergence requires careful planning, infrastructure development, capacity building, and stakeholder engagement. By addressing these measures effectively, governments can ensure the effective implementation of integrated programs that maximize benefits for vulnerable populations in rural areas.
See lessHow has climate change affected agricultural production and productivity in India? Do you think climate smart water saving agri-technologies have become the need of the hour?
Climate change events like erratic monsoon patterns, heat stress due to temperature extremes, changes in pest and disease patterns, reduced water availability, etc. affect agricultural production and productivity. According to a study by the National Innovations in Climate Resilient Agriculture, raiRead more
Climate change events like erratic monsoon patterns, heat stress due to temperature extremes, changes in pest and disease patterns, reduced water availability, etc. affect agricultural production and productivity. According to a study by the National Innovations in Climate Resilient Agriculture, rain fed rice yields in India are projected to reduce by less than 2.5% in 2050 and 2080 and irrigated rice yields by 7% in 2050 and 10% in 2080 scenarios. Further, wheat yields are projected to reduce by 6-25% and maize yields by 18-23% in 2100.
To meet the challenges posed by climate change, while also meeting food and energy needs in an environmentally and socially sustainable way, climate smart water saving agri-technologies are becoming popular around the globe.
This is due to their significance in the following ways:
Though climate-smart water-saving agri-technologies are significant, their implementation and widespread adoption face several challenges like cost and affordability, lack of awareness about these technologies, etc. It is necessary to make these technologies available, accessible and affordable for farmers. Also, an integrated approach needs to be implemented in agricultural water management through adoption of innovative measures such as water harvesting, micro-irrigation and resource conservation farming to increase water-use efficiency in agriculture.
See lessWhat are the economic and environmental benefits of nanofertilizers for sustainable crop production? State the concerns in the adoption of nanofertilizers by Indian farmers.
Nanofertilizers are nutrients that are encapsulated or coated within nanomaterial in order to enable controlled release, and their subsequent slow diffusion into the soil. Nano urea and Nano DAP (Di- Ammonium Phosphate) are some of the prominent nanofertilizers available in India. The following areRead more
Nanofertilizers are nutrients that are encapsulated or coated within nanomaterial in order to enable controlled release, and their subsequent slow diffusion into the soil. Nano urea and Nano DAP (Di- Ammonium Phosphate) are some of the prominent nanofertilizers available in India.
The following are some of the economic and environmental benefits of nanofertilizers pertaining to sustainable crop production:
Despite offering numerous benefits pertaining to sustainable crop production, nanofertilizers have some concerns, which are as follows:
The future of nanofertilizers for sustainable crop production and time period needed for their general adaptation as a source of plant nutrients depend on varied factors such as production of novel nanofertilizer products as per requirement, associated risk management, etc. Further, a thorough audit of the field trials and evaluation of the application of nanofertilizers on different crops in different regions need to be conducted.
See lessWhat is Integrated Pest Management (IPM)? Highlighting its objectives, discuss the various components of IPM.
Integrated Pest Management (IPM) is the careful consideration of all available pest control techniques and subsequent integration of appropriate measures that discourage the development of pest populations. It combines biological, chemical, physical, and crop-specific management strategies and practRead more
Integrated Pest Management (IPM) is the careful consideration of all available pest control techniques and subsequent integration of appropriate measures that discourage the development of pest populations. It combines biological, chemical, physical, and crop-specific management strategies and practices to grow healthy crops minimize the use of pesticides, and reduce or minimize risks posed by pesticides to human health and the environment for sustainable pest management. It is a dynamic process that makes use of an ecological systems approach and has the following objectives:
Various components of IPM include:
Indiscriminate and injudicious use of chemical pesticides in agriculture has resulted in several associated adverse effects, due to which the government of India has adopted IPM as a cardinal principle since 1985. As we approach the 21st century, there is an increasing demand for organically produced food and conservation of biodiversity. Further, an unpolluted environment is the need of the hour. In this regard, IPM, as a tool, can lead the future of sustainable agriculture.
See lessAnalyse the performance of the Sub-Mission on Agricultural Mechanization (SMAM) scheme launched to promote farm mechanization in India.
The Sub-Mission on Agricultural Mechanization (SMAM) was launched in 2014-15 with the objective of increasing the reach of farm mechanization to marginal and small farmers and also to areas with low power availability. It involves creating hubs for hi-tech and high value farm equipment, creating awaRead more
The Sub-Mission on Agricultural Mechanization (SMAM) was launched in 2014-15 with the objective of increasing the reach of farm mechanization to marginal and small farmers and also to areas with low power availability.
It involves creating hubs for hi-tech and high value farm equipment, creating awareness among stakeholder through demonstration and capacity building and ensuring performance testing and certification of agricultural machines at designated testing centres all over the country.
The performance of SMAM scheme so far
Challenges in its implementation:
Measures to overcome the challenges:
Agriculture mechanization is the future and India needs to leverage its capacity and make it sustainable and accessible to increase productivity and decrease the cost of cultivation. Moreover, going forward, farm machinery, a $100-plus billion global industry, has enormous potential to reduce import dependence and utilise Indian made machinery in agriculture.
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