#Agriculture & Biotechnology
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mindblowingscience · 2 months ago
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A research group has developed an innovative method for the biofortification of leaves and other green plant tissues, increasing their content of healthy substances such as beta-carotene, the main precursor of vitamin A in the human diet. The work demonstrates that by using biotechnological techniques and treatments with high light intensity, the levels of beta-carotene in leaves can be multiplied up to 30 times by creating new places to store it without affecting vital processes such as photosynthesis. The results are published in the Plant Journal.
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mere-device · 3 months ago
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today i have developed many skills such as:
breaking seedlings with increasingly tiny instruments
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rimirara · 1 year ago
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Balancing Nutrients with Organic Fertilizers: A Practical Approach
In farming and gardening, it's vital to strike the perfect nutrient balance in the soil to ensure plants thrive and yield abundantly. Organic fertilizers offer a practical and environmentally conscious way to maintain that essential nutrient balance in the soil. In this article, we'll dive into the importance of keeping the soil's nutrient levels in check, the benefits of using organic fertilizers, and some helpful advice on making the most of them.
Understanding Nutrient Balance:
Plants require a variety of essential nutrients for their growth, including macronutrients like nitrogen (N), phosphorus (P), and potassium (K), and micronutrients like iron, zinc, and manganese. Imbalances in these nutrients can lead to various issues. For instance, an excess of nitrogen can promote lush foliage but hinder fruit or flower production, while a phosphorus deficiency can limit root development.
Soil naturally contains some of these nutrients, but over time, continuous farming and gardening can deplete them. To maintain healthy and productive plants, it's essential to supplement the soil with the nutrients it lacks.
The Benefits of Organic Fertilizers:
Organic fertilizers are derived from natural sources, such as plant matter, animal products, or microbial activity. They offer several advantages when it comes to nutrient balance and soil health:
1. Slow Release: Organic fertilizers release nutrients gradually as they break down, preventing the risk of nutrient imbalances or leaching. This slow-release nature ensures that plants receive a steady supply of nutrients over time.
2. Improving Soil Structure: Organic fertilizers enhance soil structure and increase water-holding capacity. This allows the soil to retain nutrients better and provides a hospitable environment for beneficial microorganisms.
3. Microbial Activity: Many organic fertilizers contain beneficial microorganisms that contribute to nutrient cycling in the soil. These microbes help break down organic matter and make nutrients more available to plants.
4. Reduced Environmental Impact: Organic fertilizers are environmentally friendly as they do not contribute to water pollution or harm beneficial soil organisms. They are a sustainable alternative to synthetic chemical fertilizers.
Practical Tips for Balancing Nutrients with Organic Fertilizers:
1. Soil Testing: Before adding any fertilizers, it's essential to perform a soil test to understand your soil's current nutrient status. This will guide you in choosing suitable organic fertilizers and determining the required application rates.
2. Choose the Right Organic Fertilizers: Select organic fertilizers that match your soil's nutrient deficiencies. For example, bone meal is a good source of phosphorus, while compost provides a mix of nutrients.
3. Follow Application Guidelines: Organic fertilizers come with recommended application rates. Follow these guidelines to avoid over-fertilization, which can harm plants and the environment.
4. Use Compost: Compost is an excellent organic fertilizer. It not only supplies a variety of nutrients but also improves soil structure. Adding compost to your garden or agricultural plot helps maintain nutrient balance.
5. Crop Rotation: Practicing crop rotation can help prevent nutrient depletion in the soil. Different crops have varying nutrient requirements, so rotating them can ensure the soil remains balanced.
6. Mulching: Applying organic mulch, such as straw or wood chips, can help retain soil moisture and reduce nutrient loss. As the mulch breaks down, it also contributes to the nutrient pool.
In conclusion, achieving nutrient balance in your soil is a critical factor in successful gardening and farming. Organic fertilizers not only deliver vital nutrients but also enhance soil quality and boost microbial life, fostering the overall health of your soil. By adhering to these user-friendly recommendations, you can tap into the advantages of organic fertilizers, ensuring the thriving condition of your plants and the environment.
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ophilosoraptoro · 1 year ago
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Lab Meat. The $1 Trillion Ugly Truth
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philearning · 11 months ago
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TEXTBOOK OF AGRICULTURAL BIOTECHNOLOGY, SECOND EDITION by Ahindra Nag
Buy the book at 30% off + shipping free
TEXTBOOK OF AGRICULTURAL BIOTECHNOLOGY, SECOND EDITION by Ahindra Nag
The book caters the needs of students of higher studies at different levels in colleges, universities, and research institutes. The book is suitable for the undergraduate and postgraduate students of Agricultural Biotechnology. The book has Different Questions with Answers to better understand the techniques used for improving agricultural industries and advanced aspects of applications in agriculture. Go to http://social.phindia.com/xvMF5Ts8
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shastramnursery · 2 days ago
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Tissue Culture Plants
Tissue culture is a method of growing plants from small tissue samples in a sterile environment. It produces identical, disease-free plants quickly, ensuring uniformity and fast growth, making it ideal for commercial production.
Visit: https://bit.ly/3VGGBYi For inquiries, call: +91 97730 17705
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news-buzz · 9 days ago
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Directed evolution of engineered virus-like particles with improved manufacturing and transduction efficiencies
Barcoded information RNAs establish eVLPs with distinct properties All directed evolution programs require a approach to establish desired variants following a range for particular properties47,48. To beat the problem created by the shortage of viral genetic materials inside eVLPs, we envisioned a technique to encode the identification of every eVLP variant utilizing barcoded single-guide RNAs…
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khushicore · 11 days ago
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HUMAN FORM (EXERCISE 3 DRAFT 2) Imagining what the Human Form would be 80 years in the future
Food Food will be personalized through smart “nutrition pods” in homes, which analyze health data and create meal capsules using nutrient-dense algae, lab-grown proteins, and tailored micronutrients. 3D food printers will produce dishes based on dietary needs, reducing food waste. Urban rooftop farms and biomes will produce seasonal vegetables and herbs, allowing for hyper-local and fresh food without the need for long-distance shipping.
Water Communities will operate on closed-loop water systems, capturing, purifying, and recycling all water within each district. Buildings will feature “dew collectors” that harvest water from the air, supplementing traditional sources. Smart sensors will analyze water quality and suggest conservation tips through community apps, ensuring every drop is used efficiently and safely.
Housing Homes will be built from regenerative materials that naturally absorb carbon dioxide. Living walls and roofs will support biodiversity by housing pollinator plants and providing nesting spaces. Community living spaces will be modular and transformable, adapting to residents’ needs over time and minimizing waste in construction. Neighborhoods will include shared gardens and social spaces that foster a sense of belonging.
Education Education will be globally accessible through immersive virtual classrooms and AI mentors that adapt to each student’s learning style. Learning will emphasize empathy, critical thinking, and collaboration with other cultures, creating a well-rounded, globally-aware population. Students will have experiential learning options like virtual field trips to historical events and hands-on labs in sciences, arts, and engineering.
Healthcare Healthcare will be deeply personalized, with AI continuously monitoring health through implanted or wearable micro-devices. Homes will have wellness capsules for preventive care, where individuals can track vitals, administer diagnostics, and even dispense treatments for minor issues. Gene therapies and nano-medicine will target diseases before symptoms appear, while mental health AI will provide ongoing support for emotional well-being.
Social Equity A focus on equity will ensure universal access to resources, with AI tools identifying and addressing systemic disparities in real-time. Community resource centers will provide free access to essential services, from legal aid to education. Basic income and shared ownership models will empower people to lead fulfilling lives without financial strain, ensuring a high quality of life for everyone.
Gender Equality Gender-neutral policies will govern workplaces, education, and healthcare, where systems automatically adapt to prevent discrimination and ensure equal access. Public life will embrace all gender identities, with AI-driven bias detection in policy-making, hiring, and healthcare to create a supportive, equitable environment.
Work & Income Work will focus on societal and environmental impact, with people choosing meaningful projects aligned with their values and talents. Automation will handle routine tasks, and flexible, short-term contracts will allow individuals to work on various projects without traditional career limitations. Basic income will provide security, and jobs will focus on creative and intellectual growth.
Energy / Electricity Energy sources will be entirely renewable, drawing from an interconnected global grid that relies on solar satellites, fusion power, and advanced wind and tidal systems. Every building will generate some power, whether through solar windows, kinetic floors, or wind-capturing facades. AI-managed grids will balance supply and demand globally, ensuring clean, constant power for all.
Peace & Justice Justice will focus on proactive solutions, with AI mediators analyzing and preventing conflicts before they escalate. Legal decisions will be guided by AI to eliminate bias, with a focus on rehabilitation and community repair. Peace will be maintained through citizen-driven councils and data-informed governance, ensuring justice that serves both individuals and society.
Transportation Transportation will be rapid, silent, and eco-friendly, with electric air taxis, maglev trains, and autonomous pods that communicate to optimize routes and reduce traffic. Walkways, bike paths, and green public transit will be woven into city layouts, reducing the need for private vehicles and encouraging low-carbon travel options.
Political Voice Blockchain voting will make democratic processes secure, with real-time community polling allowing citizens to weigh in on local and global decisions continuously. Digital transparency will hold leaders accountable, and citizens will participate in policy discussions via interactive forums, creating a fluid, engaged democracy.
Air Pollution Green technology like air-purifying trees and advanced filtration towers will neutralize urban pollutants. Smart pollution-monitoring systems will detect and address air quality issues in real-time. All vehicles and factories will run on clean energy, making urban air as pure as natural reserves.
Noise Pollution Cities will be designed to minimize noise, with sound-absorbing materials in streets, buildings, and transportation. Noise-reduction sensors will monitor and adjust sound levels in real-time, allowing for dynamic control of city noise. Nature corridors and quiet zones will provide spaces of calm within busy cities.
Non-Human Life Urban planning will prioritize habitats for non-human species, with green corridors, sky gardens, and biodiverse public spaces. AI-driven conservation initiatives will protect local ecosystems, monitor animal populations, and balance human activity with the needs of wildlife, fostering cohabitation.
Chemical Pollution Production processes will rely on sustainable, non-toxic materials, and manufacturing facilities will be carbon-neutral. Specialized filtration systems in factories will remove pollutants from water and air, while decentralized recycling will ensure efficient, eco-friendly waste management. Policies will enforce “green chemistry” standards, replacing harmful chemicals with biodegradable options.
Water Bodies & Supply Water sources will be safeguarded with advanced filtration and AI-monitored purity systems. Large-scale desalination plants, powered by renewable energy, will make ocean water a primary source of drinking water. Floating wetlands and bioengineered plants will support marine biodiversity and maintain water ecosystems' health.
Waste Management Waste will be a thing of the past as a circular economy takes hold. AI-powered sorting systems will redirect waste materials to recycling, composting, or repurposing channels, creating a closed-loop system. Biodegradable packaging and products will eliminate plastic waste, and waste-to-energy systems will provide additional renewable energy sources.
Land Use, Streets & Public Spaces Public spaces will be vibrant, with urban parks, walkable pathways, and shared green areas. Streets will prioritize pedestrian and cyclist accessibility, reducing car dependency. Public squares will host events, cultural activities, and community markets, creating hubs of social and economic engagement within neighborhoods.
Ocean Pollution Autonomous clean-up drones will patrol and cleanse oceans, capturing plastic and pollutants. Coral and marine life restoration projects will rebuild biodiversity in damaged areas, while biodegradable materials will prevent future pollution. Global cooperation will enforce ocean protection zones, fostering healthy marine ecosystems.
Effects of Climate Change Cities will adapt to climate extremes with buildings designed to withstand storms, floods, and extreme heat. Urban forests, wetlands, and green roofs will help regulate temperature and manage water flow. Reforestation and carbon capture technology will mitigate CO2 emissions, while predictive AI will help prepare for natural disasters.
Urban Agriculture & Greenification Cities will integrate agriculture into every available space, from rooftop farms and vertical gardens to community plots. Bioengineered plants will improve air quality and reduce urban temperatures, while automated irrigation systems will optimize water use. Green spaces will create a cooler, more livable environment for all.
Gender & Sexuality Gender inclusivity will be ingrained in every institution, with healthcare, education, and public spaces respecting and supporting all identities. Inclusive laws and policies will ensure that everyone can express themselves authentically without societal restrictions, creating a world of acceptance.
Diversity & Inclusion AI will ensure representation across all sectors, proactively identifying and addressing any bias or inequality. Policies will promote equal opportunity, and educational institutions will prioritize cultural, ethnic, and neurodiverse awareness, fostering communities that celebrate all identities.
Accessibility Universal design will make every environment accessible, with real-time AI assistance guiding individuals with disabilities. Public spaces, transportation, and technology will prioritize accessibility, using innovations like automated wayfinding, speech-to-text devices, and sensory-friendly environments.
Sustainability Sustainability will be a core tenet of all systems, with regenerative practices embedded in production, architecture, and daily life. Circular economy principles will guide product design, and global collaboration will drive environmental protection, creating a society that flourishes alongside the planet.
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amrtechinsights · 24 days ago
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jcmarchi · 1 month ago
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ApertureData Secures $8.25M Seed Funding and Launches ApertureDB Cloud to Revolutionize Multimodal AI
New Post has been published on https://thedigitalinsider.com/aperturedata-secures-8-25m-seed-funding-and-launches-aperturedb-cloud-to-revolutionize-multimodal-ai/
ApertureData Secures $8.25M Seed Funding and Launches ApertureDB Cloud to Revolutionize Multimodal AI
ApertureData, a company at the forefront of multimodal AI data management, has raised $8.25 million in an oversubscribed seed round to drive the development and expansion of its groundbreaking platform, ApertureDB. The round was led by TQ Ventures with participation from Westwave Capital, Interwoven Ventures, and a number of angel investors. The funding will allow ApertureData to scale its operations and launch its new cloud-based service, ApertureDB Cloud, a tool designed to simplify and accelerate the management of multimodal data, which includes images, videos, text, and related metadata.
Addressing the Multimodal Data Crisis
The growth of AI has led to an explosion in the generation of multimodal data across industries such as e-commerce, healthcare, retail, agriculture, and visual inspection. Despite this growth, most organizations struggle to effectively manage and utilize this data.  This inefficiency often hampers AI development, leading to longer project timelines and lower returns on investment.
ApertureData’s flagship product, ApertureDB, addresses this challenge head-on. It provides a unified database platform specifically built for managing large-scale multimodal data, which includes images, videos, documents, and their associated metadata. Unlike traditional databases focused on textual data, ApertureDB integrates graph and vector search capabilities, allowing businesses to streamline their AI workflows and significantly reduce the time spent on data preparation and management.
The Launch of ApertureDB Cloud
ApertureDB Cloud, the company’s new cloud-based platform, extends the power of ApertureDB, making it easier for enterprises to access and deploy their multimodal AI solutions without complex infrastructure setups. Users can now manage vast datasets with just a few clicks, utilizing ApertureDB Cloud’s advanced graph-vector search capabilities and seamless integration with AI applications. The platform offers a unified data layer that centralizes all relevant data types and metadata, providing fast and efficient querying and retrieval, which is crucial for AI development.
With the launch of ApertureDB Cloud, organizations can now try the platform with a risk-free 30-day trial, making it accessible for AI teams looking to streamline their data operations and scale their AI models.
A Game-Changer for AI and Machine Learning Pipelines
ApertureDB is designed to solve some of the biggest bottlenecks in AI development. By unifying multimodal data management, the platform offers several advantages, including:
35x faster dataset creation compared to traditional data integrations, speeding up AI project timelines.
63% reduction in network transfer of large visual data, improving operational efficiency.
Integrated vector similarity search and advanced graph search capabilities for complex data handling.
These features allow organizations to efficiently manage massive datasets, reducing the time spent on manual data preparation from months to just a few days. The platform is already deployed across multiple industries, from retail and e-commerce to biotechnology and generative AI startups. For instance, a major home furnishings retailer is using ApertureDB to manage product images and metadata, optimizing their recommendation systems and customer insights.
In the biotech sector, ApertureDB is helping AI-driven medical imaging and visual inspection applications, providing seamless access to large volumes of multimodal data.
Backed by Leading Investors
The $8.25 million seed round backing ApertureData was led by TQ Ventures, a New York-based venture capital firm focused on software businesses and technology-driven startups. According to Andrew Marks, General Partner at TQ Ventures, ApertureData is uniquely positioned to be a foundational player in the emerging AI landscape:
 “ApertureData has steadily built an amazing business with a wide view on the tech stack. They knew early on that traditional databases, which are geared toward textual data, would be insufficient for managing more complex multimodal data. The quantum of multimodal data and the desire to leverage it for analysis and machine learning is likely to explode over the coming decade as we are already seeing with the growth in use cases for generative and multimodal AI. And so, the work ApertureData is doing today will be foundational towards building the best infrastructure for emerging multimodal AI applications across various industries.”
TQ Ventures, founded in 2018, has a portfolio of over 80 investments and $1 billion under management, giving ApertureData access to a broad network of resources and expertise.
Also participating in the round were Westwave Capital, a pre-seed and seed-stage enterprise investor with a focus on AI, robotics, and analytics, and Interwoven Ventures, a firm specializing in early-stage investments in AI, robotics, and healthcare technology. Both investors bring significant operational experience and industry knowledge to help ApertureData scale and refine its platform for the future of multimodal AI.
Expanding Use Cases for Multimodal Data
ApertureDB’s potential spans a wide range of applications, as industries increasingly generate multimodal data and look for ways to turn this data into actionable insights. The platform’s unique ability to integrate knowledge graphs and multimodal data search functions makes it ideal for AI-driven tasks in e-commerce, agriculture, healthcare, and beyond.
For example, in smart retail, ApertureDB allows retailers to use customer data, images, and metadata to deliver personalized product recommendations and improve the customer experience. In smart agriculture, the platform helps farmers analyze images and geolocation data to optimize farming practices. Medical imaging companies leverage ApertureDB’s ability to handle large multimodal medical datasets, facilitating advanced AI-driven diagnostics.
The Road Ahead for ApertureData
With its newly secured funding, ApertureData plans to scale production deployments, enhance its platform’s user experience, and integrate more ecosystem solutions to cater to various AI and machine learning workflows. The company is also looking to expand its marketing and sales efforts, positioning itself as a leader in multimodal AI data management.
Vishakha Gupta, CEO of ApertureData, envisions a future where the demand for multimodal AI will continue to surge:
“The increasing adoption of multimodal data in powering advanced AI experiences, including multimodal chatbots and computer vision systems, has created a significant market opportunity. As more companies look to leverage multimodality, the demand for efficient management solutions like ApertureDB is expected to grow.”
Co-founded by Vishakha Gupta and Luis Remis, both former researchers at Intel Labs with deep expertise in AI and data infrastructure, ApertureData has grown quickly in response to the needs of the modern AI landscape. Their firsthand experience with managing large datasets of visual data inspired the creation of ApertureDB, a tool that is transforming how companies handle AI and machine learning pipelines.
As enterprises increasingly look to multimodal data to drive AI innovations, ApertureData is poised to lead the charge by providing the critical infrastructure needed to handle the vast, complex datasets of the future. The company’s platform is set to play a vital role in the next generation of AI innovations, helping companies turn data into competitive advantage.
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farmerstrend · 2 months ago
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Breaking the Cycle of Late Blight: How Biotech Potatoes are Revolutionizing Farming in Kenya
Discover how biotech potatoes are transforming farming in Africa and Asia, with breakthrough resistance to late blight disease and impressive yield improvements. Learn about the latest field trials of late blight-resistant biotech potatoes, offering a sustainable solution for smallholder farmers in Kenya and beyond. Explore the remarkable success of bio-engineered potatoes, which promise higher…
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mindblowingscience · 4 months ago
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What do poplar trees, sharks and biofuels have in common? While it might sound a bit like a riddle, a team led by Michigan State University biochemists has reported exciting findings concerning all three in the quest for cleaner energy. Published in the Plant Biotechnology Journal, the team's latest paper explores how poplar trees can be engineered to produce a highly valuable chemical that's commonly obtained from shark livers. Engineering poplars to produce this chemical would greatly boost their economic viability as an already-promising source of biofuels, as well as help cut back on destructive shark harvesting.
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scientificinquirer-blog · 2 months ago
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DAILY DOSE: WHO Urges US Agriculture to Halt Bird Flu; Frankincense Faces Extinction Due to Rising Wellness Demand.
WHO URGES US AGRICULTURE TO CURB H5N1 SPREAD Maria Van Kerkhove, the WHO’s acting director of epidemic and pandemic preparedness and prevention, urged the U.S. agricultural sector to intensify efforts to stop the transmission of H5N1 bird flu in dairy cattle. Since its first detection in cows in late March, 203 herds in 14 states have tested positive. This marks the first instance of H5N1…
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healthcare-skyquest · 2 months ago
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Agricultural Biotechnology Market: Revolutionizing Crop Production and Sustainability
The Agricultural Biotechnology market is at the forefront of transforming global agriculture by enhancing crop yields, improving resistance to pests and diseases, and promoting sustainability. As the demand for food security and sustainable farming practices increases, the agricultural biotechnology market is experiencing significant growth. This article delves into the latest trends, market segmentation, key growth drivers, and leading companies in the agricultural biotechnology industry, offering essential insights for decision-makers.
Market Overview
According to SkyQuest’s Agricultural Biotechnology Market report, the market is currently valued at USD XX, with a projected CAGR of XX%. The growth of this market is driven by advancements in genetic engineering, increasing adoption of biotech crops, and the need for sustainable agricultural practices.
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Market Segmentation
By Product Type:
Transgenic Seeds: Includes genetically modified seeds for crops like corn, soybeans, cotton, and others, designed for higher yields and resistance to pests.
Biopesticides: Natural or genetically engineered pesticides offering an eco-friendly alternative to chemical pesticides.
Biofertilizers: Microbial inoculants that promote plant growth and improve soil fertility.
Other Biotechnological Tools: Includes molecular markers, tissue culture, and micropropagation techniques used in crop improvement.
By Application:
Crop Protection: Utilizes biotechnology for developing pest-resistant and herbicide-tolerant crops, reducing the need for chemical inputs.
Animal Biotechnology: Focuses on improving livestock breeds, enhancing resistance to diseases, and increasing productivity.
Environmental Biotechnology: Involves bioremediation techniques to clean up contaminated soils and promote sustainable land use.
Genetically Modified Organisms (GMOs): The development of GMOs for improved crop characteristics, such as drought tolerance and enhanced nutritional content.
By End-User:
Farmers: Primary users of biotech crops and products for enhanced agricultural productivity.
Agricultural Companies: Invest in R&D and commercialization of biotech products for global markets.
Research Institutes: Focus on developing innovative biotechnology solutions for agriculture.
Government and Regulatory Bodies: Play a crucial role in the approval and regulation of biotech products.
Want to customize this report? — https://www.skyquestt.com/speak-with-analyst/agricultural-biotechnology-market
Key Growth Drivers
Rising Global Food Demand: Increasing population and food security concerns drive the adoption of biotech crops for higher yields.
Technological Advancements: Innovations in genetic engineering, CRISPR, and other biotechnological tools are propelling market growth.
Sustainable Farming Practices: The shift towards sustainable agriculture, with a focus on reducing chemical inputs, supports the growth of biopesticides and biofertilizers.
Government Support and Regulation: Favorable policies and regulatory frameworks encourage the development and adoption of agricultural biotechnology.
Leading Companies in the Market
SkyQuest’s report highlights several key players in the Agricultural Biotechnology market, including:
KWS SAAT SE & Co. KGaA, ChemChina, Limagrain, Nufarm, Marrone Bio Innovations, Performance Plants Inc., Corteva, ADAMA Ltd, MITSUI & CO. LTD, Evogene Ltd., Valent BioSciences LLC, Bayer AG.
Challenges and Opportunities
The agricultural biotechnology market faces challenges such as public perception and regulatory hurdles concerning GMOs. However, these challenges also present opportunities for innovation in non-GMO biotechnologies and expanding market reach in developing regions.
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Future Outlook
The Agricultural Biotechnology market is poised for continued growth as advancements in genetic engineering and increasing demand for sustainable farming practices drive market dynamics. Companies that invest in cutting-edge biotechnological tools and address global food security challenges will lead the way in this dynamic market. For comprehensive insights and strategic recommendations, consult SkyQuest’s in-depth Agricultural Biotechnology Market report.
The Agricultural Biotechnology market is revolutionizing the agriculture industry by offering innovative solutions for crop production and sustainability. Decision-makers who invest in biotechnological advancements will be at the forefront of this rapidly evolving sector. For more detailed insights and emerging trends, refer to SkyQuest's Agricultural Biotechnology Market report.
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creativeera · 3 months ago
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Genetically Modified Seeds: The Controversial Agricultural Revolution
Genetically modified (GM) crops are plants used in agriculture whose DNA has been modified using genetic engineering methods. The most common traits introduced to GM crops are herbicide tolerance and insect resistance. Herbicide Tolerance in Genetically Modified Seeds One of the earliest applications of genetic engineering in agriculture was to make crops tolerant to herbicides, so that weeds could be eliminated with herbicide spraying without killing the crops. Two main herbicide tolerance traits that have been introduced through genetic engineering are glyphosate tolerance and glufosinate tolerance. Glyphosate, marketed by Monsanto under the trade name Roundup, is a broad-spectrum herbicide that kills weeds but not crops engineered to be tolerant. Glufosinate is another broad-spectrum herbicide to which some crops have been engineered to be tolerant. These modifications allow farmers to spray herbicide over the top of entire fields and only kill the weeds, not the crops. Insect Resistance through Bt Technology Many GM crops are genetically engineered to produce one or more insecticidal proteins from the soil bacterium Bacillus thuringiensis (Bt). Known as Bt crops, they are insects resistant. Corn and cotton are the main crops engineered with Bt technology to be resistant to certain Lepidopteran or Coleopteran insect pests. The Bt proteins expressed in these GM crops only affect insect species within these orders and have no reported effects on other organisms including humans. Bt crops allow farmers to reduce or eliminate insecticide applications for key pests. Potential Benefits of GM Crops Besides reducing herbicide and insecticide use, Genetically Modified Seeds are promoted as having benefits such as increased crop yields through built-in pest and weed management, economic gains for farmers, increased food security by boosting global food supplies, and environmental benefits from reducing tillage needs. Many farmers have adopted GM crops due to economic and productivity advantages, reduced labor needs, and opportunities to farm more sustainably. Supporters argue that GM technology can play an important role in helping agriculture meet the challenging demands of feeding a growing global population. Skepticism and Criticism around GM Crops While GM crops have been embraced globally, controversy and skepticism also exists. Some criticism includes concerns over unknown long-term health and environmental risks, possibility of new superweeds and superpests developing resistance, lack of testing and regulation, domination of the seed industry by a few major corporations, and socioeconomic issues around licensing practices and seed patents. Opponents argue that natural plant breeding methods can achieve the same goals as GM without exposing the food supply or environment to potentially hazardous risks that genetic engineering may entail. There are also concerns that the spread of transgenes from genetically modified seeds to wild relatives or conventional crops cannot be prevented and could impact biodiversity. Developing countries are more cautious about adopting GM crops due to lack of local research capacity and health monitoring infrastructure.
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philearning · 1 year ago
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Enhance your agricultural expertise at the universities!
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