Jayjay

Jayjay BIOLOGICAL CONTROL SPECIALIST FOR PLANT PESTS AND DISEASES. GO BIOLOGICAL FARMING

GOING BACK TO THE BASICS OF FARMING WILL HEAL THE LANDFOR HEALTHY FARMING, HEALTHY FOOD, HEALTHY PEOPLE AND HEALTHY ENVI...
05/03/2024

GOING BACK TO THE BASICS OF FARMING WILL HEAL THE LAND
FOR HEALTHY FARMING, HEALTHY FOOD, HEALTHY PEOPLE AND HEALTHY ENVIRONMENT
GO BIOLOGICAL FARMING
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HOW TO MEASURE AND MONITOR THE SOIL QUALITY AND HEALTH IN MIMICKED FOREST SOIL SYSTEMS?By: Dennis L. Bialen a.k.a DocGer...
23/01/2024

HOW TO MEASURE AND MONITOR THE SOIL QUALITY AND HEALTH IN MIMICKED FOREST SOIL SYSTEMS?
By: Dennis L. Bialen a.k.a DocGerms TotheRescue

Soil quality and health are important indicators of the performance and sustainability of mimicked forest soil systems. Soil quality refers to the soil's capacity to support plant growth and provide ecosystem services, such as water regulation, nutrient cycling, and carbon sequestration. Soil health refers to the soil's resilience and ability to cope with disturbances, such as drought, erosion, and pollution .
To measure and monitor the soil quality and health in mimicked forest soil systems, some of the parameters that can be used are :
- Soil organic matter (SOM): SOM is the amount of organic material in the soil, such as plant residues, microorganisms, and humus. SOM is a key indicator of soil fertility, as it provides nutrients, improves soil structure, increases water retention, and enhances soil life. SOM can be measured by various methods, such as loss-on-ignition, wet oxidation, and dry combustion .
-Soil pH:
Soil pH is the measure of the acidity or alkalinity of the soil. Soil pH affects the availability of nutrients, the activity of soil organisms, and the solubility of toxic elements in the soil. Soil pH can be measured by using a pH meter, a pH indicator, or a pH test kit .
- Soil texture:
Soil texture is the proportion of sand, silt, and clay particles in the soil. Soil texture influences the soil's drainage, aeration, water holding capacity, and nutrient retention. Soil texture can be determined by using a soil texture triangle, a hydrometer, or a feel method .
- Soil bulk density:
Soil bulk density is the mass of dry soil per unit volume of soil. Soil bulk density reflects the soil's compaction, porosity, and root pe*******on. Soil bulk density can be measured by using a core sampler, a ring sampler, or a clod method .
- Soil microbial biomass:
Soil microbial biomass is the amount of living microorganisms in the soil, such as bacteria, fungi, protozoa, and nematodes. Soil microbial biomass indicates the soil's biological activity, diversity, and function. Soil microbial biomass can be estimated by using methods such as substrate-induced respiration, fumigation-incubation, and fumigation-extraction .
These are some of the parameters that can be used to measure and monitor the soil quality and health in mimicked forest soil systems. By using these parameters, farmers and researchers can evaluate the effects of mimicking forest soil practices on the soil and the plants, and adjust their management accordingly. 😊

GOING BACK TO THE BASICS OF FARMING WILL HEAL THE LAND
FOR HEALTHY FARMING, HEALTHY FOOD, HEALTHY PEOPLE AND HEALTHY ENVIRONMENT
GO BIOLOGICAL FARMING
For more information about BIOLOGICAL FARMING TECHNOLOGY, message us or call our hotline numbers every weekdays during office hours
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HOW TO TURN COMPOST FERTILIZER INTO BIOCHAR, SYNGAS, AND BIO-OIL?By: Dennis L. Bialen Compost fertilizer is a type of or...
17/01/2024

HOW TO TURN COMPOST FERTILIZER INTO BIOCHAR, SYNGAS, AND BIO-OIL?
By: Dennis L. Bialen

Compost fertilizer is a type of organic fertilizer that is made from decomposed organic matter, such as plant residues, animal manure, or food waste. It can improve soil quality, crop yield, and environmental health by providing nutrients, organic matter, and beneficial microorganisms to the soil. However, compost fertilizer also has some drawbacks, such as high moisture content, low nutrient density, and high greenhouse gas emissions.
One way to overcome these drawbacks is to use pyrolysis, a process of heating organic matter in the absence of oxygen, which results in the production of biochar, syngas, and bio-oil. These products have different uses and benefits, depending on their composition and properties.

Biochar
Biochar is a solid, carbon-rich material that can be used as a soil amendment. Biochar can improve soil properties, such as water retention, nutrient availability, microbial activity, and carbon sequestration. Biochar can also reduce greenhouse gas emissions, such as methane and nitrous oxide, from compost fertilizer.
To produce biochar from compost fertilizer, you need to heat the compost in a closed container at temperatures ranging from 300°C to 700°C. The heating time and temperature affect the yield and quality of biochar. Generally, higher temperatures and longer heating times produce more biochar, but with lower carbon content and higher ash content.
Biochar can be applied to the soil by mixing it with compost or other organic materials, or by incorporating it into the soil directly. The optimal application rate and frequency depend on the type and quality of biochar, the soil characteristics, and the crop needs. Some studies have suggested that biochar application rates of 5 to 20 tons per hectare can improve soil fertility and crop productivity.

Syngas
Syngas is a mixture of hydrogen and carbon monoxide, with some carbon dioxide and methane. It can be used as a fuel for power generation, heating, or transportation. It can also be converted into various chemicals, such as methanol, ammonia, and synthetic fuels, through catalytic processes. Syngas is considered a renewable and clean energy source, as it can reduce greenhouse gas emissions and fossil fuel dependence .
To produce syngas from compost fertilizer, you need to heat the compost in a closed container at temperatures higher than 700°C, and collect the gas that is released. The heating time and temperature affect the composition and quality of syngas. Generally, higher temperatures and longer heating times produce more syngas, but with lower hydrogen and carbon monoxide content and higher carbon dioxide and methane content.
Syngas can be used as a fuel by burning it in a combustion engine, a gas turbine, or a fuel cell. It can also be upgraded to higher-quality fuels or chemicals by using catalysts, such as iron, nickel, or cobalt, and applying high temperature and pressure. This is called the Fischer-Tropsch process, and it can produce synthetic diesel, gasoline, or jet fuel.

Bio-oil
Bio-oil is a liquid mixture of organic compounds, such as alcohols, acids, esters, phenols, and terpenes. It can be used as a fuel for boilers, engines, or turbines, or as a feedstock for refineries or biorefineries. It can also be upgraded to higher-quality fuels or chemicals, such as bio-diesel, bio-gasoline, or bio-ethanol, through gasification or hydro-treatment. Bio-oil is also a renewable and environmentally friendly energy source, as it can utilize waste biomass and reduce waste disposal problems .
To produce bio-oil from compost fertilizer, you need to heat the compost in a closed container at temperatures lower than 500°C, and collect the liquid that condenses. The heating time and temperature affect the yield and quality of bio-oil. Generally, lower temperatures and shorter heating times produce more bio-oil, but with higher water content and lower energy content.
Bio-oil can be used as a fuel by burning it in a boiler, an engine, or a turbine. However, bio-oil has some disadvantages, such as high viscosity, low stability, high acidity, and low heating value, which limit its direct use. Therefore, bio-oil needs to be upgraded to improve its properties and performance. This can be done by gasifying bio-oil to produce syngas, or by hydro-treating bio-oil to remove oxygen and increase hydrogen content.

Conclusion
Compost fertilizer is a valuable resource that can be transformed into biochar, syngas, and bio-oil by using pyrolysis. These products have different uses and benefits, such as improving soil quality, providing renewable energy, and producing useful chemicals. Pyrolysis can be a sustainable way of managing compost fertilizer and harnessing its usefulness.

GOING BACK TO THE BASICS OF FARMING WILL HEAL THE LAND
FOR HEALTHY FARMING, HEALTHY FOOD, HEALTHY PEOPLE AND HEALTHY ENVIRONMENT
GO BIOLOGICAL FARMING
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RESPONSABLING PAGGAMIT AT PAG CONTROL NG MGA DAMO PARA SA SUSTAINABLE FARMING SA PANAHON NG MGA HIGH-TECH NA TECHNOLOHIY...
03/01/2024

RESPONSABLING PAGGAMIT AT PAG CONTROL NG MGA DAMO PARA SA SUSTAINABLE FARMING SA PANAHON NG MGA HIGH-TECH NA TECHNOLOHIYA.
By: Dennis L. Bialen
Ang mga damo ay isa sa mga pinakamalaking problema sa agrikultura, dahil sila ay nakakaapekto sa produksyon at kalidad ng mga pananim. Ang mga damo ay nakakakumpetensya sa mga pananim sa tubig, ilaw, nutrisyon, at espasyo. Ang mga damo ay maaari ring magdala ng mga sakit at peste na makakasira sa mga pananim. Ang mga damo ay kailangang kontrolin upang makamit ang target na ani at mapanatili ang magandang yield potential.
Ang paggamit ng mga herbicide ay ang pinakakaraniwang paraan para patayin ang mga damo, ngunit ito ay hindi ang pinakamagandang paraan. Ang mga herbicide ay maaaring makasama sa kalusugan ng lupa, ng mga pananim, at ng mga hayop. Ang mga herbicide ay maaaring makapagbawas ng biodiversity at makapagpabago ng ecosystem function. Ang mga herbicide ay maaaring makapagdulot din ng paglaban sa mga damo, na nangangahulugan na ang mga damo ay hindi na mamamatay sa mga herbicide na ginagamit.
Ang sustainable farming ay isang uri ng agrikultura na naglalayong maprotektahan at mapabuti ang kalikasan habang nagbibigay ng sapat at masustansyang pagkain sa mga tao. Ang sustainable farming ay nagsasangkot ng paggamit ng mga natural at renewable na mapagkukunan, pag-iwas sa mga nakakasama at nakakapinsalang kemikal, pagpapanatili ng biodiversity at ecosystem services, at pagtugon sa mga pangangailangan at hamon ng mga magsasaka at ng lipunan.
Ang responsibling paggamit at pag control ng mga damo ay isang mahalagang bahagi ng sustainable farming. Ito ay nangangailangan ng pag-unawa sa mga katangian at papel ng mga damo sa mga ecosystem, at paggamit ng mga epektibo at sustainable na pamamaraan para kontrolin ang mga damo nang hindi umaasa sa mga herbicide. Ang responsibling paggamit at pag control ng mga damo ay nakakatulong sa pagpapabuti ng kalidad at produktibidad ng lupa at ng mga pananim, at sa pagpapababa ng mga negatibong epekto sa kalikasan at sa kalusugan ng mga tao.
Ang ilan sa mga pamamaraan para sa responsibling paggamit at pag control ng mga damo ay ang mga sumusunod:
- Integrated W**d Management (IWM). Ito ay ang paggamit ng iba't ibang mga pamamaraan para kontrolin ang mga damo nang hindi umaasa sa mga herbicide. Ang mga pamamaraan ay maaaring maging mekanikal, kultural, biyolohikal, o natural. Ang IWM ay naglalayong makamit ang pinakamababang antas ng mga damo na hindi makakaapekto sa ani at kalidad ng mga pananim, habang pinapanatili ang kalusugan at balanse ng lupa at ng ecosystem. Ang IWM ay isang holistic at dynamic na diskarte na nangangailangan ng pag-aaral at pagsubaybay sa mga kondisyon at sitwasyon sa bawat bukid at pananim.
- Cover cropping. Ito ay ang pagtatanim ng mga halaman na makakatulong sa pagprotekta at pagpapabuti ng lupa. Ang mga halaman na ito ay maaaring magbigay ng mulch, green manure, nitrogen fixation, pest control, at iba pang benepisyo. Ang mga halaman na ito ay maaaring makapagpigil sa pagtubo ng mga damo sa pamamagitan ng pagbabawas ng ilaw at espasyo na magagamit ng mga damo. Ang mga halaman na ito ay maaaring makipagtulungan sa mga pananim sa pagkuha ng mga nutrients, tubig, at ilaw. Ang mga halaman na ito ay maaaring makapagpataas ng ani at kalidad ng mga pananim. Ang ilan sa mga halimbawa ng mga halaman na maaaring gamitin para sa cover cropping ay ang mga legumes, grasses, brassicas, at buckwheat.
- Mulching. Ito ay ang paglalagay ng isang materyal sa ibabaw ng lupa upang maprotektahan at mapabuti ang lupa. Ang mulch ay maaaring maging organiko o inorganiko. Ang mulch ay nakakatulong sa pagpapanatili ng moisture at temperatura ng lupa, pagpapababa ng erosion at compaction, pagpapabuti ng fertility at structure, at pagpapababa ng mga sakit at peste. Ang mulch ay nakakatulong din sa pagpigil sa pagtubo ng mga damo sa pamamagitan ng pagharang sa ilaw at pagpapahirap sa paglabas ng mga binhi ng mga damo. Ang ilan sa mga halimbawa ng mga materyal na maaaring gamitin para sa mulching ay ang mga dahon, dayami, papel, plastik, at tela.
- Allelopathy. Ito ay ang paggamit ng mga halaman na may kakayahang makaimpluwensya sa paglaki at pag-unlad ng ibang mga halaman sa pamamagitan ng paglabas ng mga kemikal na tinatawag na allelochemicals. Ang allelopathy ay maaaring magkaroon ng positibo o negatibong epekto sa mga halaman, depende sa uri, dami, at oras ng paglabas ng mga allelochemicals. Ang allelopathy ay maaaring gamitin para kontrolin ang mga damo sa pamamagitan ng pagtatanim ng mga halaman na makakapaglabas ng mga allelochemicals na makakasama sa mga damo. Ang ilan sa mga halimbawa ng mga halaman na may allelopathic na katangian ay ang mga rye, sorghum, sunflower, marigold, at eucalyptus.
- New technologies and precision agriculture tools. Ito ay ang paggamit ng mga makabagong teknolohiya at kagamitan na makakatulong sa pagtukoy, pagsubaybay, at pagkontrol ng mga damo sa mas epektibo at epektibong paraan. Ang mga teknolohiya at kagamitan na ito ay maaaring magbigay ng mas maraming at mas tumpak na impormasyon tungkol sa mga damo at sa mga pananim, at makapagbigay ng mas angkop at mas tiyak na aksyon para sa bawat sitwasyon. Ang mga teknolohiya at kagamitan na ito ay maaaring makatipid ng oras, pera, at enerhiya, at makapagbawas ng mga negatibong epekto sa kalikasan at sa kalusugan ng mga tao. Ang ilan sa mga halimbawa ng mga teknolohiya at kagamitan na maaaring gamitin para sa pagkontrol ng mga damo ay ang mga Decision Support Systems, robots, remote sensing, UAVs, omics, at nanotechnology.
Ang responsibling paggamit at pag control ng mga damo ay isang napakahalagang aspeto ng sustainable farming. Ito ay nakakatulong sa pagpapabuti ng kalidad at produktibidad ng lupa at ng mga pananim, at sa pagpapababa ng mga negatibong epekto sa kalikasan at sa kalusugan ng mga tao.
Ang responsibling paggamit at pag control ng mga damo ay hindi lamang nakasalalay sa mga pamamaraan na ginagamit, kundi pati na rin sa mga kaalaman at kasanayan ng mga magsasaka. Ang mga magsasaka ay kailangang matuto at mag-adapt sa mga bagong teknolohiya at kagamitan na makakatulong sa kanila na mas mahusay na makilala, masubaybayan, at makontrol ang mga damo. Ang mga magsasaka ay kailangang magkaroon ng access sa mga mapagkukunan ng impormasyon, edukasyon, at suporta na makakatulong sa kanila na magpasya at kumilos nang may basehan at may responsibilidad.
Ang ilan sa mga paraan para mapalawak at mapalakas ang kaalaman at kasanayan ng mga magsasaka sa responsibling paggamit at pag control ng mga damo ay ang mga sumusunod:
- Farmer Field Schools (FFS). Ito ay ang pag-oorganisa ng mga grupo ng mga magsasaka na mag-aaral at mag-eeksperimento sa mga pamamaraan para sa responsibling paggamit at pag control ng mga damo sa kanilang mga bukid. Ang FFS ay nagbibigay ng isang praktikal at partisipatibo na paraan para matuto ang mga magsasaka sa pamamagitan ng pag-observe, pag-analyze, at pag-apply ng mga konsepto at teknik sa mga totoong sitwasyon. Ang FFS ay nagtataguyod din ng pagpapalitan ng kaalaman at karanasan sa pagitan ng mga magsasaka at ng mga eksperto at tagapayo.
- Digital platforms and tools. Ito ay ang paggamit ng mga online na platform at tool na makakapagbigay ng mga impormasyon, rekomendasyon, at serbisyo sa mga magsasaka tungkol sa responsibling paggamit at pag control ng mga damo. Ang mga digital platform at tool ay maaaring maging mga website, mobile app, chatbot, o social media na maaaring magbigay ng mga update, balita, tip, alerto, at iba pang mga makabuluhang datos sa mga magsasaka. Ang mga digital platform at tool ay maaaring makatulong sa mga magsasaka na mas madali at mas mabilis na makakuha ng mga sagot at solusyon sa kanilang mga problema at katanungan.
- Extension services and networks. Ito ay ang pagbibigay ng mga tulong at gabay sa mga magsasaka mula sa mga ahensya, organisasyon, o indibidwal na may kaalaman at karanasan sa responsibling paggamit at pag control ng mga damo. Ang mga extension service at network ay maaaring magbigay ng mga training, seminar, workshop, demonstration, consultation, at iba pang mga aktibidad na makakapagpataas ng kaalaman at kasanayan ng mga magsasaka. Ang mga extension service at network ay maaaring makatulong sa mga magsasaka na mas maayos at mas epektibo na makipag-ugnayan at makipagtulungan sa iba't ibang mga stakeholder sa agrikultura.
Ang responsibling paggamit at pag control ng mga damo ay isang napakahalagang aspeto ng sustainable farming. Ito ay nakakatulong sa pagpapabuti ng kalidad at produktibidad ng lupa at ng mga pananim, at sa pagpapababa ng mga negatibong epekto sa kalikasan at sa kalusugan ng mga tao. Ang responsibling paggamit at pag control ng mga damo ay nangangailangan ng pag-unawa sa mga katangian at papel ng mga damo sa mga ecosystem, at paggamit ng mga epektibo at sustainable na pamamaraan para kontrolin ang mga damo nang hindi umaasa sa mga herbicide. Ang responsibling paggamit at pag control ng mga damo ay nangangailangan din ng pagpapalawak at pagpapalakas ng kaalaman at kasanayan ng mga magsasaka sa mga bagong teknolohiya at kagamitan na makakatulong sa kanila na mas mahusay na makilala, masubaybayan, at makontrol ang mga damo.
Ang responsibling paggamit at pag control ng mga damo ay isang hamon at isang oportunidad para sa mga magsasaka at sa buong lipunan. Ito ay isang paraan para makamit ang isang mas sustainable, mas secure, at mas prosperous na agrikultura at kinabukasan.

GOING BACK TO THE BASICS OF FARMING WILL HEAL THE LAND
FOR HEALTHY FARMING, HEALTHY FOOD, HEALTHY PEOPLE AND HEALTHY ENVIRONMENT
GO BIOLOGICAL FARMING
For more information about BIOLOGICAL FARMING TECHNOLOGY, message us or call our hotline numbers every weekdays during office hours
https://www.youtube.com//videos
https://www.facebook.com/BialexinsCropVaccine
TM- 09368008629
TNT-09633410847

https://shopee.ph/shop/876704443

We provide the best biological control product for your crops pest and diseases. Check out Nature's Care deals and product reviews online now!

HOW TO USE ACTIVATED CARBON AND MYCORRHIZAL LIQUID INOCULANTS FOR IMPROVING CROP HEALTH AND YIELD?By: Dennis L Bialen Ag...
03/01/2024

HOW TO USE ACTIVATED CARBON AND MYCORRHIZAL LIQUID INOCULANTS FOR IMPROVING CROP HEALTH AND YIELD?
By: Dennis L Bialen
Agriculture is one of the most important sectors of the global economy, providing food, fiber, and fuel for billions of people. However, agriculture also faces many challenges, such as soil degradation, nutrient deficiency, pest infestation, disease outbreak, and climate change. These challenges can reduce crop health and yield, and threaten food security and sustainability.
To overcome these challenges, farmers need to adopt innovative and sustainable practices that can improve soil quality, enhance seed germination, and increase plant growth and resistance. One of the promising practices is the use of activated carbon and mycorrhizal liquid inoculants, which are natural and biodegradable products that can benefit agriculture in various ways.
Activated carbon, also known as activated charcoal, is a form of carbon that has been processed to increase its surface area and porosity, making it more effective at adsorbing various substances. Activated carbon can improve soil quality and fertility by enhancing its physical, chemical and biological properties. It can also be used as a seed treatment to protect seeds from fungal diseases and pests, and to promote seed germination and seedling emergence. Moreover, it can improve crop health and yield by influencing various physiological and biochemical processes in plants.
Mycorrhizal liquid inoculants are products that contain mycorrhizal fungi suspended in a non-aqueous liquid carrier. Mycorrhizal fungi are beneficial microorganisms that form symbiotic associations with plant roots, improving plant health and growth by increasing the uptake of water and nutrients, especially phosphorus. Mycorrhizal liquid inoculants can be applied to plant roots to improve soil quality, enhance seed germination, and increase plant growth and resistance.
MycoPlus: The only brand uses the combination of activated carbon and mycorrhizal liquid inoculants. Can have synergistic effects on agriculture, as they can complement each other's functions and benefits. However, there are some factors to consider before using these products, such as the compatibility, dosage, and timing of application, as well as the crop type, soil characteristics, and environmental conditions. Therefore, it is important to follow the instructions and precautions of the products, and consult with an agronomist or an extension agent for more specific advice and recommendations.
In this article, we will discuss the benefits, challenges, and best practices of using activated carbon and mycorrhizal liquid inoculants for improving crop health and yield. We will also provide some examples of successful cases and future prospects of using these products in different agricultural systems.
Benefits of Activated Carbon and Mycorrhizal Liquid Inoculants for Agriculture
Activated carbon and mycorrhizal liquid inoculants can benefit agriculture in various ways, such as improving soil quality, enhancing seed germination, and increasing plant growth and resistance. Here are some of the advantages of using these products:
- Improving soil quality: Activated carbon can increase water retention and reduce soil erosion, especially in sandy soils. It can also reduce soil acidity and increase the availability of nutrients, such as nitrogen, phosphorus, potassium, calcium, magnesium, and micronutrients. Moreover, it can stimulate microbial activity and diversity, which can enhance organic matter decomposition, nutrient cycling, and disease suppression. Mycorrhizal liquid inoculants can improve soil quality by increasing the colonization and functioning of mycorrhizal fungi, which can improve soil structure, water infiltration, and nutrient retention . They can also increase the diversity and abundance of other beneficial microorganisms, such as bacteria, actinomycetes, and protozoa, which can improve soil health and fertility .
- Enhancing seed germination: Activated carbon can be used as a seed treatment to protect seeds from fungal diseases and pests, and to promote seed germination and seedling emergence. It can create a physical barrier that prevents fungal spores and insect eggs from attaching to the seed surface. It can also inhibit the growth of fungal pathogens, such as Fusarium, Rhizoctonia, and Pythium, by reducing the oxygen availability and altering the pH around the seed. Furthermore, it can enhance seed germination and seedling emergence by increasing the water uptake, improving the seed coat permeability, and stimulating the seed metabolism. It can also improve seedling vigor and biomass by providing a source of carbon and nutrients, and by inducing plant defense responses . Mycorrhizal liquid inoculants can enhance seed germination by increasing the colonization and functioning of mycorrhizal fungi, which can improve the water and nutrient uptake, and the stress tolerance of the seeds and seedlings. They can also increase the germination rate and uniformity, and reduce the time to emergence .
- Increasing plant growth and resistance: Activated carbon can improve crop health and yield by influencing various physiological and biochemical processes in plants. It can increase photosynthesis and respiration rates, which can enhance plant growth and productivity. It can also modulate plant hormone levels, such as auxin, gibberellin, cytokinin, and ethylene, which can affect plant development and stress tolerance. Moreover, it can induce systemic acquired resistance, which can increase plant immunity against biotic and abiotic stresses, such as drought, salinity, heat, cold, and pathogens. It can also improve fruit quality and shelf life by reducing ethylene production and respiration, and by maintaining the color, flavor, and texture of fruits . Mycorrhizal liquid inoculants can increase plant growth and resistance by increasing the colonization and functioning of mycorrhizal fungi, which can improve the water and nutrient uptake, and the stress tolerance of the plants. They can also increase the biomass and yield, and improve the quality and quantity of the harvest .
Challenges of Using Activated Carbon and Mycorrhizal Liquid Inoculants for Agriculture
Activated carbon and mycorrhizal liquid inoculants are natural and biodegradable products that can benefit agriculture in various ways. However, they also have some challenges, such as maintaining the viability and activity of the products, ensuring the compatibility with other products, and determining the optimal dose and timing of application. Here are some of the challenges of using these products:
- Maintaining the viability and activity of the products: Activated carbon and mycorrhizal liquid inoculants are living products that contain microorganisms, such as fungi and bacteria, that can be affected by various factors, such as temperature, light, oxygen, moisture, and pH. These factors can reduce the viability and activity of the microorganisms, and affect their performance and benefits on the plants. Therefore, it is important to follow the instructions and precautions of the products, and store them in a cool, dark, and dry place. You should also check the expiration date and the quality indicators of the products before using them, such as the color, odor, and consistency of the liquid. If the products show signs of deterioration, such as discoloration, foul smell, or sedimentation, you should discard them and not use them on your crops .
- Ensuring the compatibility with other products: Activated carbon and mycorrhizal liquid inoculants can be used with other fertilizers or pesticides, but there are some factors to consider before doing so. Activated carbon can adsorb or deactivate some of the active ingredients of fertilizers or pesticides, reducing their effectiveness or altering their behavior. Therefore, it is important to check the compatibility of activated carbon with the specific products you are using, and adjust the application rates or timings accordingly. You should also avoid using activated carbon with herbicides, as they may inhibit the seed germination or damage the seedlings . Mycorrhizal liquid inoculants can be used with other fertilizers or pesticides, but there are some factors to consider before doing so. Some fertilizers or pesticides can inhibit the colonization and functioning of mycorrhizal fungi, reducing their effectiveness or altering their behavior. Therefore, it is important to check the compatibility of mycorrhizal liquid inoculants with the specific products you are using, and adjust the application rates or timings accordingly. You should also avoid using mycorrhizal liquid inoculants with fungicides, as they may kill the mycorrhizal fungi or interfere with their symbiosis .
- Determining the optimal dose and timing of application: Activated carbon and mycorrhizal liquid inoculants can have various effects on soil quality, seed germination, and plant growth and resistance, depending on the dose and timing of application. Too much or too little of these products can have negative or no effects on the plants, while the optimal dose and timing can have positive and significant effects on the plants. Therefore, it is important to determine the optimal dose and timing of application of these products, based on the crop type, soil characteristics, and environmental conditions. You should also monitor the effects of the application on your crops, and adjust the dose and timing accordingly .
Best Practices of Using Activated Carbon and Mycorrhizal Liquid Inoculants for Agriculture
Activated carbon and mycorrhizal liquid inoculants can benefit agriculture in various ways, but they also have some challenges. Therefore, it is important to follow the best.

GOING BACK TO THE BASICS OF FARMING WILL HEAL THE LAND
FOR HEALTHY FARMING, HEALTHY FOOD, HEALTHY PEOPLE AND HEALTHY ENVIRONMENT
GO BIOLOGICAL FARMING
For more information about BIOLOGICAL FARMING TECHNOLOGY, message us or call our hotline numbers every weekdays during office hours
https://www.youtube.com//videos
https://www.facebook.com/BialexinsCropVaccine
TM- 09368008629
TNT-09633410847

https://shopee.ph/shop/876704443

We provide the best biological control product for your crops pest and diseases. Check out Nature's Care deals and product reviews online now!

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M. DEYPALAN Street, PUROK MASAGANA, BARANGGAY POBLACION
Polomolok
9504

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