Physiologia Plantarum’s Post

'Sustainable agriculture practices involve the application of environment-friendly plant growth promoters and additives that do not negatively impact the health of the ecosystem. Stringent regulatory frameworks restricting the use of synthetic agrochemicals and the increase in demand for organically grown crops have paved the way for the development of novel bio-based plant growth promoters. In this context, microalgae biomass and derived agrochemicals offer novel sources of plant growth promotors that enhance crop productivity and impart disease resistance.' Our agronomists do offer a full & integrated range of biostimulants, including derived from microalgae. Solutions for all crops. https://lnkd.in/dgq4e5UK #biostimulants #microalgae #cropprotection #sustainableagriculture

*Importance of Silicon in Agriculture* #Silicon# (Si) is increasingly recognized as an essential element in agriculture due to its numerous benefits for plant growth and resilience. Here are the key points highlighting the importance of silicon in agriculture: 1. Enhanced Plant Growth and Yield Stimulates Growth: Silicon promotes better root development and enhances the overall biomass of plants. Improves Yield: Studies have shown that silicon supplementation can increase crop yields by improving plant health and vigor. 2. Stress Resistance Biotic Stress: Silicon helps plants resist attacks from pests and diseases by strengthening cell walls and activating natural defense mechanisms. Abiotic Stress: It enhances tolerance to abiotic stresses like drought, salinity, and heavy metal toxicity. Silicon helps maintain water balance and reduce oxidative stress in plants. 3. Improved Structural Integrity Strengthens Cell Walls: Silicon is deposited in plant cell walls, providing structural support and making plants more robust. Reduces Lodging: In crops like rice and wheat, silicon reduces lodging (the bending over of plants), which is crucial for maintaining productivity. 4. Nutrient Management Enhances Nutrient Uptake: Silicon improves the efficiency of nutrient uptake and use, particularly phosphorus, by plants. Reduces Metal Toxicity: It can mitigate the harmful effects of toxic metals like aluminum and manganese in the soil. 5. Disease Suppression Fungal Diseases: Silicon has been shown to reduce the severity of fungal infections such as powdery mildew and blast disease in various crops. Insect Pests: It also reduces damage from insect pests by making plant tissues less palatable and harder to penetrate. 6. Water Management Improves Drought Tolerance: Silicon helps plants better manage water stress by improving water use efficiency and maintaining turgor pressure during drought conditions. Reduces Transpiration Losses: It reduces water loss through transpiration, helping plants conserve water. 7. Soil Health Soil Structure: Silicon improves soil structure and aeration, enhancing root growth and function. Reduces Soil Pathogens: By promoting beneficial microbial activity, silicon can help suppress soil-borne pathogens. Silicon Applications Silicon Fertilizers: Application of silicon fertilizers can be done through soil amendments or foliar sprays. Crop-Specific Benefits: Different crops, including rice, wheat, sugarcane, and cucurbits, show significant benefits from silicon application. Overall, Incorporating silicon into agricultural practices offers a multi-faceted approach to enhancing plant health, resilience, and productivity. Given its benefits, silicon is a valuable tool in sustainable agriculture, helping to meet the growing demands for food production while mitigating environmental stresses. #Silicon#Sustainable Agriculture#Soil#Crop#Health#Yield#Biotic & Abiotic Stress#Environment#

#Straw is a massive and #renewable green biological resource, and it's rational utilization is inextricably linked to #agricultural #sustainability. Straw return is a widely recommended and environmentally friendly agricultural management strategy with multiple benefits, such as increase or maintaining in #soil #organic matter (SOM), total #nitrogen (N), and available #phosphorus (P) levels, reduces soil exchangeable acids, and increases #crop #yields. In addition, straw incorporation can increase soil organic (SOC), and help mitigate the negative effects of heavy chemical fertilizers. In this collaborative 6-year field experiment with Northwest A&F University and The UWA Institute of Agriculture, The University of Western Australia we established five straw return amounts (T0, T1, T2, T3, and T4, representing 0, 3, 6, 9, and 12 tons per ha of straw respectively). Our analysis showed that SOC, N, P contents significantly increased under straw return treatments. We also found that straw return significantly altered the community of #bacteria involved in the #carbon and nitrogen cycle, and their abundance of strong responses depending on the amounts of straw return. In conclusion, our findings revealed common associations and variations of bacterial community diversity with soil factors and crop yields at different straw return rates, and these findings provide insights and options for the development of better straw return strategies and sustainable agriculture in #semi-#arid regions

Climate change is exacerbating the supply chain of saffron and many other precious crops. "By creating bioactive ingredients with plant cell cultivation, we don’t need the land, irrigation, herbicides, or pesticides required by agriculture, or create wasted biomass to extract bioactives" - Frank Jaksch, CEO at Ayana Bio. Thank you Will Chu at Vitafoods Insights for covering our story. #saffron #nutrition #healthandwellness #biotechnology #AyanaBioLife

Potassium humate is widely used in agriculture due to its multiple benefits for soil health and plant growth. Here are some key advantages: 1. Soil Structure Improvement: Potassium humate enhances soil structure, increasing its aeration, water retention, and permeability. This creates a better environment for root development. 2. Nutrient Absorption: It helps in chelating soil nutrients, making them more available to plants. This enhances the uptake of essential nutrients like nitrogen, phosphorus, and potassium. 3. Soil pH Regulation: Potassium humate helps in buffering soil pH, reducing the negative effects of acidic or alkaline soils and creating a more favorable environment for plant growth. 4. Enhanced Root Development: It stimulates root growth and increases root biomass, which improves plant stability and nutrient absorption. 5. **Stress Resistance**: Plants treated with potassium humate show improved resistance to environmental stressors such as drought, salinity, and extreme temperatures. 6. Microbial Activity: It promotes the growth of beneficial soil microorganisms, which play a crucial role in nutrient cycling and organic matter decomposition. 7. Organic Matter Content: Potassium humate adds organic matter to the soil, enhancing its fertility and biological activity. 8. Growth Stimulant: It acts as a natural growth stimulant, promoting seed germination, and improving overall plant vigor and health. 9. Yield and Quality: Use of potassium humate can lead to higher crop yields and improved quality of produce, including better taste, size and nutritional content. 10. Environmental Benefits: By improving soil health and plant efficiency, potassium humate can reduce the need for chemical fertilizers and pesticides, leading to more sustainable agricultural practices. Overall, potassium humate is valuable for enhancing soil health and promoting sustainable agriculture.

NPK consortia (Nitrogen, Phosphorus, and Potassium) consist of microbial consortia designed to improve soil fertility by enhancing nutrient availability and uptake by plants. Here are some benefits of NPK consortia: 1. Improved Nutrient Uptake: NPK consortia help plants better absorb nitrogen, phosphorus, and potassium from the soil, promoting healthier growth and higher yields. 2. Enhanced Soil Health: The microorganisms in the consortia improve soil structure, promote the decomposition of organic matter, and increase nutrient cycling. 3. Reduced Chemical Fertilizer Dependence: NPK consortia can partially replace synthetic fertilizers, reducing environmental pollution and costs associated with chemical inputs. 4. Sustainable Agriculture: These biofertilizers promote eco-friendly farming practices by reducing the need for chemical fertilizers and helping maintain soil biodiversity. 5. Improved Plant Resistance: The microorganisms in the consortia often enhance plant resistance to stress, such as drought, pests, and diseases. 6. Cost-Effective: NPK consortia can reduce input costs in the long term, as they often improve the efficiency of nutrient use. 7. Enhanced Root Growth: These consortia often stimulate root development, enabling better plant establishment and access to water and nutrients. 8. Balanced Nutrient Supply: They help maintain the correct balance of essential nutrients, ensuring that plants receive all three key macronutrients (N, P, K) in optimal proportions. Using NPK consortia can contribute to sustainable agricultural practices and increased productivity for farmers.

🌾 We are proud to share a testimonial from our valued customer Bartholomews Agri Food Ltd highlighting the good results obtained after the application of our DS+ Impact Zero crop nutrition solution, which it is manufactured using #greenhydrogen produced from renewable energy. According to Andrew Stilwell, technical director and agronomist at Bartholomews, "the findings indicate an increase in the #NUE of around 20%, thanks to the technology built into the fertiliser’s coating. Similar results were also recorded in Hampshire on a crop of Skyfall winter wheat. The coating and slow release, and the #nitrificationinhibitor built into the product, gives us far more efficiency from the applied nitrogen than we have observed before in other products. Couple this with the huge cut in #carbonemissions required to make this product and you can see that it ticks a lot of the boxes farmers will need to consider for the future.” Thanks to all our customers for trusting our products and contributing to a greener future! ℹ Read the full news here: https://lnkd.in/eFjFaDvG #WeAreGrupoFertiberia #GreenHydrogen #ImpactZero

Treat things nice and they treat you nice. With our planet’s soils there is no exception. Utilizing organic content (biofertilizers or compost) pays in dividends for soil health. Synthetic fertilizers are awful for soil health as they annihilate natural microbes, enhance emissions and runoff that harm our planet, and often yield low quality crops. While I’m cognizant that industrial agriculture necessitates some synthetic supplementation, there needs to be a reevaluation as to when and how these products are applied. https://lnkd.in/eCRPgYUM #ag #biofertilizer #environment

📰 Camelina: Read all about it! 📰 We're excited to share our latest article, a comprehensive overview of camelina and its potential. Learn how this short season crop supports clean energy, enhances soil health, and contributes to regenerative agriculture. 👉 Why is camelina a game-changer for biofuels? 👉 How does it benefit the soil and environment? 👉 What are the innovative uses beyond biofuel? Read the article ➡️ #visionbioseeds #camelina #cleanfuels

PROVIVI CASE STUDY Provivi, Inc. was recognized for creating Provivi FAWTM , a greener product for controlling the fall armyworm moth—a destructive pest that feeds on corn and other vital crops. Provivi FAWTM is a pheromone produced from renewable plant oils that targets the fall armyworm, reducing the insect’s ability to mate and thereby reducing the need for traditional pesticides to eliminate this pest. Reducing reliance on traditional pesticides can, in turn, reduce human and ecological exposure to pesticides and can improve populations of beneficial insects, such as pollinators. Summary of Technology: The fall armyworm (FAW) is a destructive pest that feeds on more than 80 crops, including corn. To help manage this pest, Provivi created Provivi FAWTM , a pheromone product that targets the fall armyworm. Provivi FAWTM consists of two pheromones that disrupt fall armyworm mating by confusing male fall armyworm moths, greatly reducing the next generation of larvae and thereby increasing crop yield and reducing the need for conventional insecticide applications which may harm beneficial insects. In addition to being the first commercial pheromone product targeting the fall armyworm, Provivi FAWTM also represents an improvement in the methods used to produce this type of pheromone. Provivi developed new reaction methods that reduce the need for fossil-fuel based raw materials and solvents, using fermentation to produce key raw materials from plant materials instead of petroleum. The improvements to the synthesis result in many-fold decreases in aqueous, solid and organic waste generation and the number of reaction steps, raw materials and organic solvents needed. #Sustainability #GreenChemistry