CropVision Weekly — October 5, 2025 Edition

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✍️ Editor's Note

Welcome to the inaugural edition of CropVision Weekly, your global agri-intelligence digest. As the world navigates changing climates, population growth, and technological disruption, agriculture stands at the forefront of innovation and sustainability. This edition offers a deep dive into global trends, cutting-edge technologies, market insights, startups, and scientific research that are shaping the future of farming.

Through this newsletter, we aim to empower farmers, students, researchers, and entrepreneurs with actionable insights, data-backed trends, and success stories. From AI-driven crop monitoring to global commodity forecasts and sustainable farming innovations, CropVision Weekly brings the most relevant content directly to you.

In this edition, we explore seven critical domains: Agri Trends, Horti World, Agri-Tech, Market Pulse, Agri Startups, Green Farming, and Research Hub. Each section provides detailed analysis, case studies, and actionable takeaways for both Indian and international audiences.

🌾 Agri Trends

Global Agricultural Outlook 2025–2034

According to the OECD–FAO Agricultural Outlook, global agricultural production is expected to increase by approximately 14% over the next decade. Growth is primarily driven by productivity improvements, mechanization, technology adoption, and optimized input usage. Asia and Latin America are projected to lead production growth for staple crops including rice, maize, and soybeans. Meanwhile, Africa is witnessing gradual modernization with targeted investments in irrigation and crop varieties.

Key insights:

• Productivity gains are concentrated in middle-income countries with strong agricultural R&D.
• Climate-resilient crop varieties are being increasingly adopted globally.
• International trade flows are shifting due to domestic consumption demands and export policies.

Country Spotlight: India

India’s agricultural sector is projected to experience steady growth in cereals, pulses, and horticultural crops. Factors driving this growth include enhanced MSP policies, digital agri platforms, crop insurance expansion, and mechanization in key states like Punjab, Haryana, and Uttar Pradesh. Climate-resilient wheat and rice varieties are being distributed, improving both yield stability and farmer incomes.

Brazil’s Robusta Coffee Expansion

Brazil is projected to produce 24.7 million 60-kg bags of robusta coffee in 2025, compared to 19 million in 2020. This increase is supported by drought-tolerant varieties, disease resistance, and conversion of degraded pasturelands. The growth of robusta coffee is also driven by rising demand from emerging global markets.

Planetary Health Diet & Sustainability

The planetary health diet emphasizes plant-based consumption to improve human health and reduce environmental stress. Implementing such dietary changes could prevent up to 15 million premature deaths annually and reduce food-related greenhouse gas emissions by nearly 50% by 2050. For India, promoting this diet could balance nutrition, reduce resource strain, and align agriculture with sustainability goals.

Global Agricultural Policy Updates

• EU Common Agricultural Policy (CAP) 2025: Incentives for climate-smart farming, organic conversion, and carbon credit schemes.
• India MSP & Crop Insurance: Enhanced MSPs for rice, wheat, pulses; wider coverage for horticulture and cash crops.
• US Farm Bill 2025: Focus on precision irrigation adoption and climate-smart agriculture in arid regions.

Technology & Innovation in Agri Trends

Precision agriculture, AI-based forecasting, drone-based monitoring, and IoT sensors are transforming how farmers respond to climate variability, pests, and market demand. Countries investing in digital agriculture are seeing higher productivity with lower input costs, offering lessons for India and other developing economies.

🍃 Horti World

Fruit & Vegetable Sector: Global Insights

The global horticulture market continues to expand with increasing demand for fresh fruits and vegetables driven by urbanization, health awareness, and export opportunities. In 2025, the global fruit and vegetable trade is expected to surpass $150 billion, with Asia-Pacific contributing nearly 40% of global exports. Key growth drivers include advanced greenhouse technology, mechanized harvesting, and cold chain logistics.

India: Regional Horticulture Highlights

• Maharashtra Mango Exports: Alphonso and Kesar varieties remain in high global demand. New packaging innovations and cold chain integration are expected to reduce post-harvest losses by 15–20%.
• Kerala Banana Production: Focused on export-grade bananas for the Middle East. Improved tissue culture techniques and organic farming practices are being widely adopted.
• Punjab & Himachal Pradesh: Apple orchards are adopting smart sensors and drone-based pest management, improving fruit quality and shelf life.

Global Case Studies

• Netherlands: The country continues to lead in greenhouse technology and vertical farming. Innovations include hydroponic tomato cultivation and AI-driven climate control.
• Israel: Precision horticulture techniques, including drip irrigation and remote sensing, have increased crop yields by up to 30% while conserving water.
• Vietnam: Urban hydroponics systems are providing high-quality leafy greens in major cities, reducing dependence on rural supply chains.

Technology Adoption in Horticulture

Technological integration is transforming the horticulture landscape globally. Key areas of innovation include:

• AI-based pest and disease detection for tomato, apple, and grape orchards, enabling timely interventions and reducing chemical usage.
• Drone-assisted fertilizer application for precise nutrient distribution and optimized yield.
• IoT-enabled greenhouse monitoring to maintain optimal temperature, humidity, and soil moisture.
• Cold chain management to minimize post-harvest losses and extend shelf life for domestic and export markets.

Human Stories: Farmers & RAWE Students

In Maharashtra, a group of RAWE (Rural Agricultural Work Experience) students collaborated with local mango farmers to implement a solar-powered cold storage solution. By combining traditional harvesting methods with solar technology, they reduced spoilage by 18% and increased profits for smallholder farmers.

In Kerala, a cooperative of banana farmers adopted tissue culture techniques recommended by agricultural university students. Within one year, yield per hectare increased by 12%, demonstrating the power of technology transfer and youth engagement in rural innovation.

Sustainability Trends in Horticulture

• Shift towards organic certification to access premium export markets.
• Adoption of biodegradable packaging and reduced plastic usage in supply chains.
• Integration of renewable energy sources (solar water pumps, LED lighting in greenhouses) to reduce carbon footprint.

Key Takeaways for India: Investing in greenhouse technology, AI-based crop management, and post-harvest solutions can significantly boost productivity and export competitiveness. Collaboration between RAWE students, agricultural universities, and local farmers is proving to be a scalable model for innovation adoption.

⚙️ Agri-Tech

Global Agri-Tech Trends

The global agri-tech industry has grown exponentially, surpassing $35 billion in 2025, driven by investment in AI, IoT, robotics, blockchain, and precision agriculture. Technology adoption is reshaping productivity, sustainability, and supply chain efficiency. Startups and research institutions are deploying solutions to combat climate risks, reduce resource wastage, and increase profitability.

AI & Machine Learning in Agriculture

Artificial Intelligence is enabling predictive analytics for crop yield, pest and disease detection, and supply chain forecasting. For example:

• AI-powered image recognition identifies early signs of pest infestation in tomato, rice, and maize fields.
• Machine learning models forecast rainfall and irrigation needs, reducing water use by up to 25% in precision farms.
• Predictive algorithms optimize fertilizer and pesticide application, increasing nutrient use efficiency and lowering input costs.

IoT & Smart Farming

Internet of Things (IoT) devices are being widely used in smart greenhouses and open-field farms. Key applications include:

• Soil moisture and nutrient sensors to guide irrigation and fertilization schedules.
• Automated climate control systems for greenhouses, regulating temperature, humidity, and CO2 levels.
• Remote monitoring dashboards for farmers to track crop health and environmental conditions in real-time.

Robotics & Automation

Autonomous farm machinery and robotics are increasingly used in seeding, weeding, and harvesting.

• Autonomous tractors and harvesters reduce labor dependency and increase efficiency in large-scale farms.
• Robotic milking systems improve dairy farm productivity and animal welfare.
• Drone-based spraying and seeding enhance precision while reducing chemical exposure and operational costs.

Blockchain & Supply Chain Transparency

Blockchain technology is gaining traction for tracing crops from farm to fork, ensuring food safety, quality, and fair pricing.

• Farm-to-retail traceability platforms allow consumers to verify origin, organic certification, and sustainability credentials.
• Smart contracts simplify trade and payments for smallholder farmers in India, Africa, and Southeast Asia.
• Reduced fraud and wastage in supply chains increase farmer incomes and improve export credibility.

Startup Impact in Agri-Tech

Emerging agri-tech startups are scaling solutions across geographies:

• CropIn (India): AI-powered farm management platform reaching over 1 million farmers.
• Iron Ox (USA): Robotic greenhouse system producing pesticide-free vegetables at scale.
• Agriculture X (Israel): IoT-driven irrigation platform reducing water consumption by 30% for commercial farms.

Case Studies: India & Global

India: A precision irrigation pilot in Gujarat reduced water usage by 20% while increasing cotton yield by 15%. Netherlands: Fully automated vertical farms produce 3–5 times more leafy greens per square meter compared to traditional farms. Kenya: Blockchain-enabled coffee traceability improved farmer incomes by 12%, securing export contracts in Europe.

Challenges & Opportunities

While adoption is increasing, challenges remain:

• High upfront cost of technology adoption for smallholders.
• Lack of digital literacy in rural areas.
• Interoperability issues between devices and platforms.

Opportunities exist in government-led subsidies, public-private partnerships, and student-driven innovation programs like RAWE and tech incubators.

Key Takeaways for India: Leveraging AI, IoT, and robotics can significantly enhance yield, reduce input costs, and modernize traditional agriculture. Integration with startups and incubators is essential to overcome adoption barriers.

📈 Market Pulse

Global Commodity Price Trends

In 2025, global agricultural commodity markets are showing dynamic movements due to weather variability, geopolitical tensions, and shifting demand. Key highlights include:

• Wheat: Global wheat prices surged 8% over the last quarter, driven by reduced production in Canada and Eastern Europe due to unseasonal heatwaves.
• Rice: Asia-Pacific continues to dominate exports, with Thailand and Vietnam increasing supply to meet Middle East demand. Indian basmati rice exports rose 5% YoY.
• Maize: Prices remain volatile in the US and Brazil, impacted by variable rainfall and increased biofuel demand.
• Soybeans: US-China trade adjustments are influencing global soybean prices, with Indian imports expected to rise marginally.

Indian Market Pulse

Domestic market data shows:

• Paddy: Kharif harvest completed in major states; MSP-supported procurement rising. Local market price: ₹1,900–2,100 per quintal for common varieties.
• Wheat: Rabi sowing area increased by 2% in Punjab and Haryana. Current mandi prices: ₹2,050–2,150 per quintal.
• Horticulture: Tomato prices fell by 12% due to bumper crop in Maharashtra; export demand for mangoes increased 18% YoY.

Rainfall & Crop Yield Forecasts

Monsoon analysis and meteorological projections indicate:

• North-West India: Slightly below-average rainfall in Rajasthan and Gujarat; irrigation planning required for rabi crops.
• Eastern India: Above-average rainfall in Odisha and West Bengal; favorable for rice and pulses.
• Yield Forecasts:
  • Rice: +3% compared to last year due to hybrid variety adoption.
  • Wheat: +2.5% YoY with improved irrigation and fertilizer efficiency.
  • Maize: Stable yields; risk of heat stress in southern states.

Global Export & Trade Insights

- EU exports of cereals to North Africa and the Middle East expected to increase by 6% in 2025. - Latin America’s soybean and maize exports remain strong, with Brazil dominating soybean shipments to Asia. - India’s basmati and horticulture exports projected to grow 5–7% YoY, reflecting growing global demand and improved logistics.

Market Challenges & Opportunities

• Climate variability causing yield fluctuations.
• Rising input costs (fertilizers, labor) impacting margins.
• Adoption of smart contracts and blockchain for transparent commodity trading offers opportunities for smallholder farmers.
• Urban and peri-urban farming creating new local markets for vegetables and fruits.

Key Takeaways: Farmers and traders need to closely monitor weather patterns, commodity price trends, and export demand. Integrating technology for yield prediction and market intelligence is critical for optimizing profits.

💡 Agri Startups

Global Agri Startup Ecosystem

The global agri-tech startup ecosystem continues to expand rapidly, attracting record funding. In 2025, total investment in agri-tech startups surpassed $6 billion, with strong activity in AI-based crop management, precision irrigation, vertical farming, and supply chain traceability. Key innovation hubs include the USA, Israel, Netherlands, and Singapore, with emerging growth in Africa and Southeast Asia.

Notable Global Startups

• Iron Ox (USA): Robotic greenhouses producing pesticide-free vegetables with minimal human intervention. Raised $100M Series C in 2024.
• Agriculture X (Israel): IoT-driven precision irrigation startup reducing water use by 30% for commercial farms. Partnered with multiple export-oriented farms.
• Infarm (Germany): Urban vertical farming solution integrated into supermarkets and restaurants, producing fresh herbs and greens locally.

Indian Agri Startup Highlights

India’s agri-tech sector is seeing robust growth, supported by government initiatives, incubators, and increased venture funding. Notable startups include:

• CropIn Technology: AI-powered farm management platform reaching over 1 million farmers, offering insights on pest management, crop health, and yield forecasting.
• AgNext: Quality assessment and precision analytics platform, using AI and IoT to reduce post-harvest losses and improve crop grading.
• Stellapps: Dairy technology startup offering IoT-enabled milk quality monitoring, cold chain management, and productivity dashboards.
• Bijak: Agri B2B marketplace connecting smallholder farmers directly to buyers, improving pricing transparency and reducing intermediaries.

Funding & Growth Insights

Indian agri-tech startups attracted approximately $1.5 billion in 2025, with investors focusing on:

• Precision agriculture solutions
• Supply chain traceability platforms
• Urban and vertical farming technologies
• AI and predictive analytics for crop management

Successful funding rounds include CropIn’s $30M Series D for expansion into Africa, AgNext’s $20M Series C for IoT integration, and Stellapps’ $15M investment for scaling dairy technology across India.

Case Studies: Impact of Agri Startups

1. CropIn Technology: Farmers using CropIn AI dashboards reported 18% higher yield in maize and soybean due to timely pest alerts and irrigation recommendations. 2. Stellapps: Dairy farmers in Karnataka improved milk collection efficiency by 25% using IoT-based temperature and quality monitoring. 3. Bijak: Smallholder farmers selling turmeric and pulses through the platform increased net income by 12–15%, bypassing traditional intermediaries.

Emerging Trends in Agri Startups

• Urban farming startups focusing on hydroponics and vertical farming to supply city markets.
• Integration of AI, blockchain, and IoT for traceability, quality, and efficiency.
• Climate-smart agriculture solutions offering drought-resistant crops and predictive analytics.
• Collaborations with universities, research institutes, and RAWE students for pilot testing and innovation adoption.

Key Takeaways for India: Agri startups are bridging the gap between traditional farming and modern technology. Policymakers, investors, and farmers should actively engage with these innovations to scale impact, enhance productivity, and improve profitability.

🌍 Green Farming

Global Sustainability Trends in Agriculture

Green farming practices are rapidly gaining importance worldwide as farmers, corporations, and policymakers focus on reducing environmental impact while improving productivity. Sustainable practices include organic farming, reduced chemical usage, conservation agriculture, crop rotation, agroforestry, and regenerative agriculture techniques. Adoption of renewable energy, water-efficient irrigation, and climate-smart farming is helping reduce greenhouse gas emissions and improve soil health.

Indian Green Farming Initiatives

• Zero Budget Natural Farming (ZBNF): Adopted in states like Andhra Pradesh, Karnataka, and Madhya Pradesh, focusing on reducing input costs while maintaining soil fertility.
• Organic Certification Programs: Government schemes support farmers in obtaining organic certifications for exports of spices, rice, and fruits.
• Solar-Powered Irrigation: Deployment of solar pumps in Punjab, Maharashtra, and Rajasthan reduces diesel use and provides sustainable water access.

Regenerative Agriculture

Regenerative agriculture focuses on improving soil health, enhancing biodiversity, and capturing carbon. Key techniques include:

• Cover cropping to protect soil from erosion and increase organic matter.
• Minimal tillage to reduce carbon release and maintain soil structure.
• Integrating livestock for natural nutrient cycling.
• Agroforestry: combining crops and trees to improve ecosystem resilience.

Technology in Green Farming

Modern technology is helping scale sustainable practices:

• IoT sensors for precise water and nutrient management.
• AI-driven pest management to reduce pesticide use.
• Drone monitoring to assess soil health and crop performance.
• Blockchain for traceability and verifying sustainability claims for exports.

Human Stories: Green Farming Impact

In Kerala, a farmer cooperative integrated organic vegetable cultivation with rainwater harvesting. This approach increased yield by 12% while reducing water usage by 20%. In Maharashtra, smallholder grape farmers adopted integrated pest management (IPM) along with drone monitoring. This reduced chemical usage by 30% and improved grape quality for export markets.

Policy & Incentives

• Paramparagat Krishi Vikas Yojana (PKVY): Encourages organic farming clusters and capacity building for farmers.
• National Agroforestry Policy: Promotes tree-crop integration for soil conservation, biodiversity, and carbon sequestration.
• Renewable Energy Integration: Subsidies for solar pumps, biogas units, and energy-efficient cold storage.

Key Takeaways: Green farming is not only essential for environmental sustainability but also offers economic benefits for farmers. Integrating technology, sustainable practices, and policy support is critical to scaling impact across India and globally.

📚 Research Hub

Global Agricultural Research Trends

Cutting-edge research in agriculture is revolutionizing crop improvement, resource management, and sustainability. Recent breakthroughs focus on climate resilience, biotechnology, precision agriculture, and data-driven farming solutions.

CRISPR & Genetic Innovations

CRISPR-Cas9 gene-editing technology is being applied to develop stress-tolerant and high-yielding crops:

• Drought-resistant wheat varieties in Australia and the US showing 15–20% higher survival rates under heat stress.
• CRISPR-modified rice in China with enhanced nitrogen-use efficiency, reducing fertilizer dependency.
• Banana cultivars resistant to Fusarium wilt, developed in Southeast Asia, potentially saving millions in crop losses.

Soil Health & Microbiome Research

Soil microbiome studies are highlighting the critical role of microbes in nutrient cycling, disease suppression, and plant growth promotion:

• Biofertilizers based on native microbial consortia are improving nitrogen fixation and phosphorus availability.
• Compost and vermiculture studies show enhanced organic matter leading to better water retention and soil structure.
• Field trials in India indicate integrating microbial inoculants with minimal chemical fertilizers can increase yields by 10–15%.

Precision Agriculture Research

Research in sensor technology, drones, and AI is advancing precision agriculture:

• Drone-based multispectral imaging helps detect crop stress and nutrient deficiencies in rice, maize, and horticulture crops.
• IoT-enabled soil and climate sensors integrated with AI models optimize irrigation schedules and reduce water usage by up to 25%.
• Remote sensing combined with predictive analytics assists policymakers in early warning for pest outbreaks and yield forecasting.

Climate-Smart Agriculture Studies

Global research emphasizes adaptation to climate variability:

• Heat- and drought-tolerant crop varieties in sub-Saharan Africa improving food security.
• Intercropping and agroforestry trials in Latin America demonstrate enhanced biodiversity and carbon sequestration.
• India-focused studies show adoption of water-saving micro-irrigation techniques improves water use efficiency by 30% in semi-arid regions.

Human & Policy Integration

Universities, research institutions, and RAWE students are actively translating research into field-ready solutions:

• RAWE students in Punjab implemented sensor-based irrigation for wheat fields, reducing water usage while increasing yield.
• Collaborations between Indian Council of Agricultural Research (ICAR) and startups like CropIn are bridging lab research with farmer adoption.
• Policy support, including grants for biofertilizer research and climate-resilient crop trials, is crucial for scaling innovations nationwide.

Key Takeaways: Research-driven innovation is pivotal for future-ready agriculture. Adoption of biotechnology, precision agriculture tools, and soil health interventions can dramatically increase productivity, sustainability, and profitability for farmers globally.

🧭 CropVision Outlook

The Future of Agriculture: 2030 and Beyond

The coming decade will define the most transformative phase in the history of agriculture. As the world faces population growth, climate instability, and shrinking arable land, the fusion of **technology, sustainability, and circular economy models** will become non-negotiable.

From **AI-driven farm management systems** to **regenerative soil technologies** and **carbon-neutral food chains**, agriculture is entering a new era where innovation and responsibility must coexist. The **CropVision Outlook** explores these tectonic shifts shaping the future of food systems globally.

1. The Rise of Agro-Intelligence

Artificial Intelligence (AI) is rapidly evolving from a supportive tool to a decision-making engine in global agriculture. Predictive analytics will guide crop planning, harvest scheduling, and pest management with real-time precision.

• AI-integrated sensors will automatically diagnose soil nutrient needs and trigger micro-fertilization.
• Machine learning will predict yield fluctuations weeks before harvest, optimizing logistics and reducing losses.
• AI-powered farm bots will conduct autonomous seeding, weeding, and harvesting, reducing labor dependence by up to 40%.

2. Regenerative and Carbon-Positive Farming

Regenerative farming is projected to grow into a trillion-dollar global industry by 2035. This model emphasizes soil carbon sequestration, biodiversity restoration, and zero chemical residue farming.

• Global corporations and governments are now integrating **carbon credits for farmers** adopting regenerative practices.
• Agroforestry models are merging with precision farming to balance production and ecology.
• Farmers will soon monetize soil carbon through blockchain-based verification systems, unlocking a new income stream.

3. Decentralized Agri-Economies

The future of agribusiness will rely on **distributed, transparent, and local-first systems** powered by blockchain. Smart contracts will automate fair payments, traceability, and certification.

• Farm-to-fork transparency will become the new norm, allowing consumers to trace produce origins within seconds.
• Micro agri-entrepreneurs will build localized food hubs powered by digital marketplaces and co-operative supply chains.
• Rural fintech solutions and tokenized agri-assets will open global investment opportunities for smallholders.

4. Climate Adaptation through Innovation

Climate change remains the greatest challenge—and opportunity—for the next generation of agricultural thinkers.

• Bioengineering heat- and flood-tolerant crops will protect millions of hectares from productivity loss.
• Smart irrigation networks using cloud-based IoT platforms will make every drop count.
• AI-driven climate simulation models will help policymakers design adaptive farming zones region by region.

5. Urban and Space Agriculture

Agriculture is expanding beyond Earth. NASA, ISRO, and ESA are conducting controlled environment agriculture (CEA) experiments to grow food in extraterrestrial conditions.

• Vertical farms integrated with renewable energy systems will dominate megacities.
• Hydroponic and aeroponic systems are now being miniaturized for smart homes.
• Space agriculture modules are testing regenerative ecosystems for future Mars and lunar missions.

6. Youth & Innovation in Indian Agriculture

India’s young innovators are redefining the global narrative of agri-tech. From smart irrigation startups in Pune to drone-based crop analytics firms in Bengaluru, the ecosystem is flourishing.

• Government-backed incubators such as RKVY-RAFTAAR and NABARD’s Agri Innovation Fund are nurturing startup ecosystems.
• RAWE and B.Sc. Agri students are building prototypes that solve on-ground challenges using IoT, AI, and remote sensing.
• Future agriculture leaders are now being trained in agri-data analytics, robotics, and carbon-smart farming systems.

7. Global Policy Transformation

Nations are rewriting food and agriculture policies to align with sustainability, traceability, and climate neutrality goals.

• UN’s 2030 Food Security Agenda emphasizes soil restoration and food sovereignty.
• EU’s Green Deal and India’s National Mission on Sustainable Agriculture are integrating farmers into carbon markets.
• Public-private partnerships (PPP) will drive cross-border agri-research, especially in seed genetics and water optimization.

CropVision’s 2025 Perspective

As we enter this new era, CropVision by JnanaAgri will continue to serve as the global lens on agri-innovation—connecting researchers, farmers, investors, and policy-makers in one cohesive ecosystem.

Every week, we’ll spotlight pioneering technologies, startup breakthroughs, and actionable strategies to empower decision-makers across the agricultural value chain.

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🌾 CropVision Global Impact Summary

As the curtains close on the first edition of CropVision Weekly, we reaffirm our mission — to create a world where knowledge empowers every farmer, every student, and every agri innovator. Agriculture is no longer just an occupation; it’s the backbone of a global movement toward sustainability, equity, and technological empowerment.

Across continents, from the regenerative farms of Australia to the urban hydroponic towers of Singapore, a silent revolution is unfolding — one that connects soil, science, and society. India, with its rich agricultural heritage and youthful innovation energy, stands at the epicenter of this transformation.

🌍 What CropVision Represents

• Knowledge without borders: Connecting global agri researchers, policymakers, and innovators under one platform.
• Technology for all: Democratizing access to sustainable and digital farming practices.
• Voices from the field: Celebrating grassroots innovators, RAWE students, and local heroes driving change.
• Data-driven impact: Making agriculture measurable, predictable, and globally scalable through insights.

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