Farmer's Pride International
አግሮ-ኢኮሎጂካልን ማሳደግ ግብርና ለ ተመጣጣኝ የምግብ አሰራሮች
An Agriculture Subsidiary of the Hunter's Global Network PTY LTD
የግብርና ምርምር
የገበሬዎች ኩራት ኢንተርናሽናል ግሎባልን ተቀላቅሏል። በግብርና ውስጥ የምርምር ሥራዎች ፣ አሁን በቴክኖሎጂ ጥቅም ላይ ይውላል
ከሰባት ወር ባነሰ ጊዜ ውስጥ የሰው ልጅ የእውቀት መጠን በእጥፍ እንደሚጨምር ይገመታል። በሌላ አነጋገር ይህንን ካነበብክበት ጊዜ ጀምሮ ከሰባት ወር ባነሰ ጊዜ ውስጥ ህብረተሰባችን በዙሪያችን ስላለው አለም እውቀት ዛሬ ካለው በእጥፍ ይበልጣል።
ተግባራዊ ለማድረግ አቅደናል። የግብርና ሳይንስ የእንስሳትን እና የሰብል ምርትን ለመጨመር ፣የእርሻ መሬትን ምርታማነት ለማሻሻል ፣በበሽታ እና በነፍሳት ምክንያት የሚደርሰውን ኪሳራ የሚቀንስ ፣የተቀላጠፈ መሳሪያዎችን የሚያዳብሩ እና አጠቃላይ የምግብ ጥራትን የሚያሳድጉ ሂደቶችን ለማግኘት በንቃት ይፈልጋል።
በግብርና ላይ የምናደርጋቸው የምርምር ስራዎች የገበሬዎችን ትርፍ ለማሳደግ እና አካባቢን ለመጠበቅ መንገዶችን ይፈልጋሉ። ይህም ሸማቾች ለምግባቸው እና ለፋይበር ምርቶቻቸው ዝቅተኛ ክፍያ እንዲከፍሉ ያስችላቸዋል፣ ይህም ገንዘባቸውን ለሌሎች ነገሮች እንዲያውሉ ያስችላቸዋል።
Transforming Agricultural Research and Development (R&D) for a Resilient and Equitable Future;
At Farmer’s Pride International (FPI), the focus of research and development (R&D) is to address the critical challenges faced by the world’s poor and disadvantaged communities. With an emphasis on improving productivity and managing natural resources, FPI’s R&D efforts encompass a wide range of areas, including food crop innovation, biodiversity conservation, forestry, agroforestry, livestock management, aquatic resources, soil and water nutrient optimization, water management, and agriculture-related policy development. Additionally, FPI is dedicated to strengthening scientific capacity within developing countries, creating pathways for sustainable progress and equitable development.
Evolving Agricultural R&D for Changing Global Dynamics:
The landscape of agricultural R&D is shifting rapidly, with significant implications for global poverty, hunger, and socio-economic outcomes. Middle-income countries are emerging as key players in agricultural innovation, driven by increased public investment in R&D. This growth positions these nations as competitive producers of agricultural innovations and products. However, high-income countries continue to hold an advantage in innovation due to robust private-sector R&D investment. Balancing this dynamic requires strategic public-private partnerships that bridge innovation gaps and enhance equity in global agricultural systems.
Public investment in agricultural R&D remains crucial for global food security and environmental sustainability. Despite the high economic returns associated with agricultural R&D, the sector is characterized by long-term time horizons and delayed impacts. The lag between R&D investment and realization of benefits underscores the need for stable and sustained funding, particularly in regions like Sub-Saharan Africa, where volatility in public agricultural R&D expenditure is prevalent. To address this challenge, FPI is committed to fostering partnerships, creating innovative funding mechanisms, and advancing policies that stabilize and enhance R&D investments worldwide.
SMART Goals for Agricultural R&D:
Specific:
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Strengthen agricultural R&D capacity in 15 developing countries by 2030, focusing on innovative crop production, biodiversity conservation, and resource management techniques.
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Enhance access to advanced agricultural technologies for 10 million farmers through collaborative R&D efforts by 2028.
Measurable:
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Achieve a 25% increase in crop yields and resource efficiency in pilot regions through R&D-driven innovations within 5 years.
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Develop 20 scalable solutions for climate-resilient farming practices by 2027.
Achievable:
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Partner with 50 research institutions, governments, and private-sector entities to co-develop sustainable agricultural technologies.
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Secure $1 billion in R&D funding through public and private investments by 2030.
Relevant:
Align with Sustainable Development Goals (SDGs), particularly Zero Hunger (SDG 2) and Life on Land (SDG 15), by advancing sustainable agricultural practices and preserving biodiversity.
Time-Bound:
Implement 10 flagship R&D projects in Sub-Saharan Africa and Asia within the next 3 years to address region-specific challenges in food security and resource management.
Pathways for Implementation:
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Partnership Development: Establish collaborations with global research institutions, universities, governments, and private enterprises to foster innovation and resource sharing.
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Innovative Funding Mechanisms: Leverage blended finance, grants, and public-private partnerships to ensure stability and scalability of R&D initiatives.
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Capacity Building: Strengthen local research capacity by providing training programs, scholarships, and technology transfer initiatives in developing countries.
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Policy Advocacy: Work with governments to implement policies that encourage sustained investment in agricultural R&D and incentivize private-sector participation.
Monitoring, Evaluation, and Learning (MEAL):
Monitoring:
Track progress through key performance indicators (KPIs) such as farmer adoption rates of R&D-driven innovations, improvements in crop yields, and resource efficiency metrics.
Evaluation:
Conduct annual evaluations of R&D projects to assess their impact on productivity, environmental sustainability, and economic outcomes.
Learning:
Analyze evaluation results to identify best practices, address gaps, and inform future R&D strategies. Establish a knowledge-sharing platform to disseminate findings to stakeholders globally.
Reporting:
Provide detailed updates to stakeholders, funders, and partners through periodic reports, dashboards, and case studies highlighting successful R&D initiatives.
Call to Action
Farmer’s Pride International invites investors, policymakers, and development partners to join us in transforming agricultural R&D into a powerful driver of global food security, poverty alleviation, and environmental sustainability. Together, we can build a resilient agricultural future that benefits all.
FPI-I invests much of its resources in bringing good results as it implement the RUAIPP , for great results we have borrowed ideas from FAO's Agroecology Principles stated on the diagramdiagram below:
Expanding Agriculture Economics in the Context of Innovation and Economic Development:
Agricultural economics plays a critical role in shaping global food systems, reducing poverty, and fostering sustainable development. Farmer’s Pride International (FPI) is committed to leveraging innovation in agricultural economics to address systemic challenges while enhancing productivity and sustainability. This strategy outlines how FPI approaches agricultural economics through targeted activities, SMART goals, pathways, and Monitoring, Evaluation, and Learning (MEAL) frameworks.
Key Activities in Agricultural Economics:
To address the challenges of underinvestment and constrained technological choices, FPI identifies several critical activities:
1. Research & Development (R&D) in Agricultural Economics
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Economic Modeling: Develop advanced models to assess the economic viability of emerging agricultural technologies and systems.
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Resource Use Optimization: Conduct studies on the efficient use of land, water, and other natural resources.
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Market Analysis: Analyze local, regional, and international market dynamics to create actionable insights for farmers and agribusinesses.
2. Capacity Building & Training:
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Train farmers in financial literacy, budgeting, and business management to enhance economic decision-making.
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Develop courses for policymakers on the economic impacts of agricultural innovations and sustainable practices.
3. Policy Advocacy & Institutional Reform:
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Advocate for public investment in agricultural R&D to address market failures.
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Support the establishment of agricultural innovation funds and tax incentives to drive private-sector participation.
4. Promotion of Technological Innovations:
Research and promote cost-effective technologies for precision farming, renewable energy integration, and post-harvest loss reduction.
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Partner with tech firms to create mobile platforms for real-time pricing, market access, and economic decision-making tools.
5. Enhancing Rural Infrastructure:
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Support the development of transportation, storage, and market linkages to reduce transaction costs for rural farmers.
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Advocate for rural electrification to power agro-industries and reduce energy costs.
6. Economic Diversification Strategies:
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Promote value addition in agricultural products to increase incomes.
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Encourage diversification into high-value crops, livestock, and aquaculture to reduce dependency on traditional staples.
7. Community Engagement:
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Facilitate participatory approaches to identify community-specific economic challenges and opportunities.
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Support cooperatives and farmer organizations to enhance collective bargaining power.
SMART Goals for Agricultural Economics
Specific:
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Establish 20 regional economic hubs to support agricultural innovation and market integration by 2030.
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Implement financial literacy programs reaching 1 million farmers by 2028.
Measurable:
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Achieve a 30% increase in average farmer incomes in target regions by 2030.
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Reduce post-harvest losses by 25% through technological interventions by 2027.
Achievable:
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Secure $300 million in funding for agricultural economic research and development by 2026.
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Partner with 50 institutions globally to co-develop and implement economic strategies for farmers.
Relevant:
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Align with SDG 1 (No Poverty), SDG 2 (Zero Hunger), and SDG 8 (Decent Work and Economic Growth).
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Address challenges in resource-constrained and climate-affected regions.
Time-Bound:
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Establish policy frameworks for sustainable agricultural economics in 10 countries by 2027.
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Train 50,000 policymakers, extension workers, and researchers in agricultural economics by 2028.
Pathways to Implementation:
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Global Collaboration:
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Partner with international organizations, governments, and private firms to fund and implement agricultural economic strategies.
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Leverage FPI’s R&D HQ in the USA to provide technical expertise.
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Policy Integration:
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Work with governments to design and implement policies that encourage R&D investment and sustainable farming practices.
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Develop economic incentives to drive private-sector innovation in agriculture.
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Market Development:
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Facilitate the creation of farmer-friendly markets with transparent pricing mechanisms.
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Develop infrastructure for supply chain efficiency and minimize post-harvest losses.
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Technology Dissemination:
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Use digital platforms to share research findings and provide decision-making tools to stakeholders.
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Promote low-cost, scalable technologies tailored to the needs of smallholder farmers.
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Knowledge Transfer & Capacity Building:
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Organize workshops and training sessions for farmers, policymakers, and extension workers.
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Develop online courses on agricultural economics to reach a global audience.
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Monitoring, Evaluation, and Learning (MEAL)
Monitoring:
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Use digital tools to track progress in key economic indicators such as income growth, yield improvements, and market access.
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Implement real-time monitoring systems to ensure timely data collection and analysis.
Evaluation:
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Conduct baseline, mid-term, and end-term evaluations to measure project outcomes against objectives.
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Use randomized controlled trials (RCTs) to evaluate the effectiveness of specific economic interventions.
Learning:
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Establish feedback mechanisms to incorporate lessons learned into ongoing projects.
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Organize annual forums for stakeholders to share insights and refine strategies.
Reporting:
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Publish annual reports highlighting achievements, challenges, and future directions.
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Disseminate findings through academic journals and industry publications.
Expected Outcomes:
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Improved economic resilience among farmers through diversified income streams.
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Enhanced global food security through increased productivity and reduced waste.
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Stronger public-private partnerships driving innovation and market development.
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Empowered rural communities with equitable access to resources and opportunities.
Call to Action:
Farmer’s Pride International (FPI) invites funders, investors, and partners to collaborate in advancing agricultural economics for a more sustainable, equitable, and prosperous future. Together, we can harness the power of innovation to transform agriculture and uplift millions of lives globally.
WHY A-R& D
In the late 19th century public agricultural research institutions were set up in the advanced industrialized nations of today. These paved the way for technological change and transformation in the agricultural systems of these countries (Ruttan, 1982). In the last 50–100 years, dramatic changes in agricultural productivity and production have taken place, driven in large part by investments in public and private agricultural research (Alston and Pardey, 2014). These increases in agricultural productivity have by and large occurred across the globe, encompassing high-income (Andersen and Song, 2013; Khan et al., 2017; Thirtle et al., 2008) as well as middle- and low-income countries (Adetutu and Ajayi, 2020; Fan et al., 2000; Suphannachart and Warr, 2011), and involving their respective public sector agricultural R&D organizations. Today, nearly all countries in some form or another have national agricultural research institutes (Fuglie, 2018).
Thus, public sector agricultural research and development (R&D) has played an important role in increasing agricultural total factor productivity (TFP) across countries (Fuglie, 2018; Rawat and Akter, 2020). These past patterns of growth in agricultural productivity have had important implications for food security and poverty (Alston et al., 2009a). In current times the role for agricultural R&D has expanded further. From boosting agricultural productivity and improving food security, agricultural R&D is now also viewed as a powerful means to ensure environmental sustainability and tackle climate change (Acevedo et al., 2018). The former through interventions and innovations that can minimize ecological damage while increasing productivity (Swaminathan, 2017); the latter through research that focusses on combatting potential threats and adverse effects arising from a mean rise in temperature, and also by mitigating the effects of global green-house gases resulting from agriculture (Lobell et al., 2013).
According to the 2019 Global Agricultural Productivity Report, in order to sustainably meet the needs of an estimated 10 billion people in 2050, global agricultural productivity would need to increase from the current average annual rate of 1.63% to a rate of 1.73% per annum (Steensland, 2019). Given the limited natural resources and degradation of the resources already in use (Fuglie, 2015), increases in agricultural productivity would need to accrue from intensification, i.e. by raising the yield per hectare. This makes the role of public agricultural R&D in raising agricultural productivity critical. Thus, stagnant or declining levels of public investment in agricultural R&D put future agricultural productivity growth at risk (Fuglie, 2015).
RESEARCH AND DEVELOPMENT FUNDING
Funding for agricultural research and development (R&D), both public and private, has decreased over the years. The success of the Green Revolution may have resulted in a complacent attitude among funding agencies. Given the recognition of the need for food and the cost of research and development, most people now view this reduction in funding as a huge mistake. Several agencies, NGOs, and private sector firms are now reversing this trend. Private funding plays an important role in taking the new developments to the farmer. However, many of the breakthroughs in research happen in the public sector. An investment in the public sector is essential to create breakthroughs in helping the world meet the food demands of the future.
FPI TASK ON AGRICULTURE RESEARCH AND DEVELOPMENT:
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Agriculture Economics
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The state of public agricultural R&D today
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A shift in the traditional bastions of agricultural research
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Sustainable Food Systems and Agriculture
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Cluster Farming in Agriculture
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Agriculture in Fragile States
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Agriculture Production
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Integrated Management of Soil Fertility
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The benefits of Technology in Agriculture
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AR&D in fighting poverty and Hunger in Africa
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Agroecology systems in Agriculture
የግብርና ምርምር
በምርምር እድገት
በአጠቃላይ የግብርና የወደፊት እጣ ፈንታ ብሩህ ነው።
በግብርና ምርምር ላይ ተጨማሪ ኢንቨስትመንቶችን እናበረታታለን, በግብርና ምርምር እና ቀጣይነት ያለው ሙከራ በመታገዝ ዛሬ የምንደሰትበት የኑሮ ደረጃ ይሻሻላል ተብሎ ይጠበቃል.
የእንስሳት ክትባት - ከታሪክ አኳያ በሽታዎች በከብት እርባታ ላይ ከፍተኛ ጉዳት ያደርሳሉ. የክትባት እና የመድኃኒት አቅርቦት መጀመሩ የእንስሳትን ጤና አሻሽሏል። የእንስሳት ክትባት, በክትባት ወይም በመከተብ እንስሳት በሽታን የመቋቋም ችሎታ የመስጠት ሂደት በሽታዎችን ቀንሷል. ከበሽታ ነፃ በሆነ አካባቢ ውስጥ ያሉ እንስሳት በጣም ዝቅተኛ በሆነ ዋጋ ለአምራቾች ማሳደግ ይችላሉ, እና ቁጠባው ለተጠቃሚዎች ይተላለፋል.
ሰው ሰራሽ ማዳቀል- የላቁ እንስሳት የላቁ ወላጆች ውጤቶች ናቸው። ሰው ሰራሽ ማዳቀል ማለት በሰው ሰራሽ ቴክኒኮች የወንድ የዘር ፈሳሽ በሴቷ የመራቢያ ትራክት ውስጥ ማስቀመጥ ነው። ሰው ሰራሽ ማዳቀልን በማስተዋወቅ ጂኖችን ከላቁ ሴር ወይም ከወንድ ወላጅ ማስተላለፍ በከፍተኛ ሁኔታ ጨምሯል። በዘመናዊ የዘር ማሰባሰብ፣ ማከማቻ እና ስርጭት ቴክኒኮች ማንኛውም አምራች ማለት ይቻላል በኢንዱስትሪው ውስጥ ያሉትን ምርጥ ጂኖች ማግኘት ይችላል ።
ባዮሎጂካል ቁጥጥር - ተባዮች የግብርና ምርታማነትን በእጅጉ ይቀንሳሉ. አንዱ የተባይ መቆጣጠሪያ ዘዴ ባዮሎጂካል ቁጥጥር ነው። በባዮሎጂ ቁጥጥር አንዳንድ የተባይ መቆጣጠሪያ ዘዴዎች አዳኝ ነፍሳትን፣ ባክቴሪያን፣ ፈንገሶችን እና ቫይረሶችን ያካትታሉ። ነጭ ዝንቦችን ለመቆጣጠር የጥገኛ ተርብ ወደ ግሪንሃውስ አካባቢ መግባቱ የባዮሎጂካል ቁጥጥር ምሳሌ ነው። አዋቂዎቹ ተርቦች በነጭ የዝንብ እጮች ላይ እንቁላሎቻቸውን ይጥላሉ። እንቁላሎቹ በሚፈልቁበት ጊዜ ተርብ እጮች ነጭ የዝንብ እጮችን ይበላሉ. ሌላው ምሳሌ በሜዳ እና በአትክልት ሰብሎች ላይ ተባዮችን ለመቆጣጠር ባክቴሪያው ባሲለስ ቱሬንጊንሲስን መጠቀም ነው።
ልዩ የሰብል ምርት - ተመራማሪዎች ለተወሰኑ የንግድ ስራዎች ልዩ የሆኑ ሰብሎችን በማዘጋጀት ላይ ይገኛሉ። ለምሳሌ እንደ ከፍተኛ ፕሮቲን፣ ዘይት ወይም የስታርች ይዘት ያሉ ልዩ ባህሪያት ያላቸውን ሰብሎች ያካትታሉ። አንዳንድ የበቆሎ ዝርያዎች በተለይ ለኤታኖል ምርት ተዘጋጅተዋል። በተጨማሪም ከፍተኛ የአመጋገብ ዋጋ ያላቸውን ሰብሎች የማምረት ስራ እየተሰራ ነው።
ትክክለኛ ቴክኖሎጂዎች- የአለምአቀፍ አቀማመጥ ስርዓት (ጂፒኤስ)፣ የጂኦግራፊያዊ መረጃ ስርዓቶች (ጂአይኤስ)፣ ማይክሮ ኮምፒውተሮች እና የማሽነሪ ተቆጣጣሪዎች የእርሻን ውጤታማነት ያሻሻሉ ትክክለኛ ቴክኖሎጂዎች ናቸው።
ምድርን የሚዞሩ ሳተላይቶች በመስክ ላይ ወይም በመሳሪያዎች ላይ ከመሬት ተቀባይ ጋር የተገናኙ ናቸው። ስርዓቱ በመስክ ላይ ያሉ የማሽን ስራዎችን ለመቆጣጠር በጂአይኤስ ፍርግርግ ካርታዎች ላይ ትክክለኛ ነጥቦችን ያገኛል። ይህ ቴክኖሎጂ በተለይ ማዳበሪያን በመተግበር እና የመኸር መረጃን ለማግኘት ይጠቅማል
የግብርና ምርምራችን የእንስሳትና የሰብል ምርትን ለመጨመር፣የእርሻ መሬትን ምርታማነትን የሚያሻሽሉ፣በበሽታና በነፍሳት ምክንያት የሚደርሰውን ጉዳት የሚቀንስ፣የተቀላጠፈ መሳሪያዎችን ለማዘጋጀት እና አጠቃላይ የምግብ ጥራትን የሚያሳድጉ አሰራሮችን ለማግኘት ይፈልጋል። ተመራማሪዎች የገበሬዎችን ትርፍ ለማሳደግ እና አካባቢን ለመጠበቅ መንገዶችን ይፈልጋሉ።
ይቀላቀሉን ፣ ይደግፉን ፣ በስራችን ላይ ኢንቨስት ያድርጉ!