Words From Loopy

Cannabis terpenes And there effect

By Sam Loopy January 21, 2025 No Comments

Cannabis terpenes are aromatic compounds found in cannabis that contribute to its scent, flavor, and effects. They interact with cannabinoids like THC and CBD to create the “entourage effect,” potentially influencing the overall experience. Here are some common terpenes and their effects:

1. Myrcene
• Aroma: Earthy, musky, clove-like
• Effects: Sedative, relaxing, may enhance THC effects
• Found in: Mangoes, hops, thyme, lemongrass
• Potential Benefits: Pain relief, muscle relaxation, sleep aid

2. Limonene
• Aroma: Citrus (lemon, orange)
• Effects: Uplifting, stress-relieving, mood-enhancing
• Found in: Citrus fruits, peppermint, juniper
• Potential Benefits: Anti-anxiety, antidepressant, antibacterial

3. Pinene (Alpha & Beta)
• Aroma: Pine, fresh forest
• Effects: Alertness, improved focus, memory retention
• Found in: Pine needles, rosemary, basil
• Potential Benefits: Anti-inflammatory, bronchodilator (may help with asthma), neuroprotective

4. Linalool
• Aroma: Floral, lavender-like
• Effects: Calming, anti-anxiety, sedative
• Found in: Lavender, mint, cinnamon
• Potential Benefits: Stress relief, sleep aid, anti-seizure properties

5. Caryophyllene
• Aroma: Spicy, peppery
• Effects: Anti-inflammatory, calming
• Found in: Black pepper, cloves, cinnamon
• Potential Benefits: Pain relief, may interact with CB2 receptors to reduce inflammation

6. Humulene
• Aroma: Earthy, woody, spicy
• Effects: Appetite suppressant, anti-inflammatory
• Found in: Hops, coriander, basil
• Potential Benefits: Pain relief, anti-inflammatory, may aid weight management

7. Terpinolene
• Aroma: Floral, citrusy, herbal
• Effects: Uplifting, energetic, mildly sedative in high doses
• Found in: Lilacs, apples, nutmeg
• Potential Benefits: Antioxidant, antibacterial, anti-anxiety

8. Ocimene
• Aroma: Sweet, citrusy, herbal
• Effects: Uplifting, anti-inflammatory
• Found in: Mint, basil, parsley
• Potential Benefits: Antifungal, antiviral, decongestant

9. Eucalyptol (Cineole)
• Aroma: Cool, minty
• Effects: Energizing, refreshing
• Found in: Eucalyptus, tea tree, bay leaves
• Potential Benefits: Anti-inflammatory, pain relief, respiratory support

Each cannabis strain has a unique terpene profile that contributes to its effects. If you’re looking for specific benefits, choosing a strain based on its dominant terpenes can help tailor the experience to your needs.

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Our BTC checkout system

By Sam Loopy January 16, 2025 No Comments

Did you know you can pay your checkout with most popular payment methods and our BTC checkout system.

Lots of the big payment methods offer crypto options now. PayPal and cash app to name 2 big ones.

This allows you to use the app of choice to buy your BTC with any of your usual methods. Then through your account interface on www.loopyseeds.com
In orders any new orders will show up pending payment. Select the payment option BTC and the information pops up to complete the transaction.

We also have other options available, mail in check or money order etc. ask me for any questions.

We accept cash app, Venmo, and PayPal by phone payments.

www.loopyseeds.com

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HLVd and its effects on cannabis.

By Sam Loopy January 13, 2025 No Comments
Hop latent viroid (HLVd) is a plant pathogen that has gained attention for its significant impact on cannabis and hemp cultivation. HLVd and its effects on cannabis:

What is Hop Latent Viroid (HLVd)?
• HLVd is a single-stranded, circular RNA viroid that affects hop plants and other species, including cannabis.
• Unlike viruses, viroids do not code for proteins; they cause disease by interfering with the plant’s normal RNA processes.
• HLVd is latent in some hosts, meaning it can remain asymptomatic, but it often causes severe symptoms in cannabis.

Impact on Cannabis Plants
• Stunted Growth: Infected plants often show reduced height and leaf size.
• Chlorosis and Deformities: Leaves may yellow or appear deformed.
• “Dudding”: The viroid can cause cannabis plants to lose their vigor, producing smaller flowers with reduced resin content and lower cannabinoid and terpene levels.
• Yield Reduction: Total biomass and potency can decrease significantly, with yield losses reported as high as 50-70% in some cases.

Transmission
• Mechanical: HLVd is commonly spread through contaminated tools, such as scissors or pruning shears.
• Propagation Material: Cloning infected mother plants spreads the viroid to new generations.
• Environmental Contact: The viroid can survive on surfaces, increasing the risk of contamination.

Detection
• Early detection is crucial to prevent the spread of HLVd in cannabis operations. Methods include:
• PCR Testing: Polymerase chain reaction (PCR) tests are highly sensitive and can detect HLVd in plant tissues.
• ELISA Tests: Enzyme-linked immunosorbent assays are another diagnostic tool but may be less sensitive than PCR.

Management and Prevention
1. Sanitation: Regularly sterilize tools and equipment to minimize mechanical transmission.
2. Quarantine: Isolate new plants or clones until they test negative for HLVd.
3. Tissue Culture: Clean plant propagation using tissue culture techniques can help eliminate HLVd from infected plants.
4. Testing: Routinely test mother plants and stock plants for HLVd.
5. Resistant Strains: Research into viroid-resistant cannabis strains is ongoing but not yet widely available.

Research and Industry Concerns

HLVd has become a significant concern for cannabis cultivators due to the financial losses associated with reduced yields and product quality. Research is ongoing to better understand the viroid’s biology and develop effective treatments or resistant strains.
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Integrated pest management

By Sam Loopy January 3, 2025 No Comments

Beneficial insects play an essential role in integrated pest management (IPM) for cannabis cultivation. They help control pests naturally, reducing the need for chemical pesticides. Here’s a list of beneficial insects commonly used in cannabis growing:

Predatory Insects
1. Ladybugs (Hippodamia convergens)
• Feed on aphids, whiteflies, and spider mites.
• Particularly effective during the early stages of infestations.
2. Lacewings (Chrysoperla spp.)
• Larvae are voracious predators of aphids, thrips, and mealybugs.
3. Praying Mantises (Tenodera sinensis)
• Generalist predators that consume a wide variety of pests, including caterpillars and beetles.
4. Predatory Mites (e.g., Phytoseiulus persimilis, Amblyseius swirskii)
• Control spider mites, thrips, and whiteflies.
• Amblyseius swirskii is particularly useful in warm, humid conditions.
5. Minute Pirate Bugs (Orius spp.)
• Prey on thrips, aphids, and small caterpillars.

Parasitic Insects
1. Parasitic Wasps (e.g., Encarsia formosa, Aphidius colemani)
• Target specific pests like whiteflies and aphids by laying eggs inside them.
2. Nematodes (e.g., Steinernema feltiae)
• Soil-dwelling organisms that control fungus gnats and root-dwelling pests.

Soil Beneficials
1. Rove Beetles (Dalotia coriaria)
• Feed on fungus gnats, thrips pupae, and other soil-dwelling pests.
2. Hypoaspis Mites (Stratiolaelaps scimitus)
• Effective against fungus gnats and thrips in the soil.

Benefits of Using Beneficial Insects
• Eco-Friendly: Reduces reliance on chemical pesticides.
• Pest-Specific: Targets pests without harming plants or beneficial organisms.
• Sustainable: Supports a balanced ecosystem within the grow environment.

Tips for Success
1. Early Introduction: Release beneficial insects at the first sign of pests or as a preventive measure.
2. Environmental Conditions: Maintain optimal humidity, temperature, and lighting conditions for the insects.
3. Avoid Pesticides: Minimize or eliminate pesticide use, as it can harm beneficial insects.
4. Monitor Populations: Regularly check pest and predator populations to ensure effectiveness.

Implementing beneficial insects as part of your IPM strategy can greatly improve plant health and yield in cannabis cultivation.

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Vapor Pressure Deficit (VPD)

By Sam Loopy January 3, 2025 No Comments
Vapor Pressure Deficit (VPD) is a critical concept in cannabis cultivation, as it directly impacts plant transpiration, nutrient uptake, and overall growth. Here’s a breakdown of what VPD is and how it relates to growing cannabis:

What is VPD?

VPD measures the difference between the amount of moisture in the air and the air’s moisture-holding capacity at a given temperature. It combines humidity and temperature into one metric and is expressed in kilopascals (kPa).
• Low VPD: Indicates high relative humidity and low evaporation potential. Plants transpire less, which can lead to waterlogging and poor nutrient uptake.
• High VPD: Indicates low relative humidity and high evaporation potential. Plants transpire more, which can cause dehydration and stress.

Why is VPD Important for Cannabis?
1. Optimized Transpiration:
• Transpiration is how plants regulate water and nutrient uptake.
• Proper VPD ensures plants transpire at an optimal rate, promoting healthy growth.
2. Photosynthesis Efficiency:
• VPD affects stomata opening. When VPD is balanced, stomata remain open, allowing for efficient gas exchange (CO₂ intake and oxygen release).
3. Pest and Mold Prevention:
• Incorrect VPD (too low or too high) can create conditions favorable for pests, mold, and mildew.
4. Stress Reduction:
• A proper VPD minimizes stress, ensuring the plants allocate energy to growth and cannabinoid production rather than survival.

Ideal VPD for Cannabis

The ideal VPD depends on the growth stage:

Stage Temperature (°F) Relative Humidity (%) VPD Range (kPa)
Seedling/Clone 70–75 65–70 0.4–0.8
Vegetative 75–85 55–65 0.8–1.2
Flowering 70–80 40–50 1.2–1.6

How to Adjust VPD
1. Increase VPD:
• Lower relative humidity.
• Increase temperature.
2. Decrease VPD:
• Increase relative humidity.
• Lower temperature.
3. Tools to Monitor/Control:
• Use a hygrometer and thermometer to measure humidity and temperature.
• Employ humidifiers, dehumidifiers, and heaters/coolers to adjust conditions.

By maintaining optimal VPD throughout the cannabis lifecycle, you can significantly improve plant health, yield, and cannabinoid production.
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Hugelkultur

By Sam Loopy January 3, 2025 No Comments
Using wood as a soil amendment is a concept often associated with hugelkultur (German for “mound culture”). This technique involves incorporating woody materials into the soil to improve fertility, moisture retention, and microbial activity. Here’s how wood can be effectively used in soil and the benefits it provides:

Hugelkultur Basics
1. What It Is:
Hugelkultur involves building raised garden beds or mounds by layering wood (logs, branches, twigs), organic matter, and soil. The wood decomposes over time, enriching the soil.
2. How to Build a Hugelkultur Bed:
• Start with a base layer of logs, branches, or other woody materials.
• Add smaller branches, twigs, or wood chips.
• Layer with organic materials like leaves, grass clippings, and compost.
• Cover with soil (6-12 inches thick) to create a planting layer.

Benefits of Using Wood in Soil
1. Moisture Retention:
Decomposing wood acts like a sponge, absorbing and releasing water, reducing the need for frequent irrigation.
2. Nutrient Cycling:
As wood breaks down, it slowly releases nutrients like nitrogen, phosphorus, and potassium, improving soil fertility.
3. Improved Soil Structure:
The porous nature of decomposing wood enhances aeration and drainage in heavy soils while retaining moisture in sandy soils.
4. Microbial Habitat:
Decomposing wood provides a home for beneficial soil microbes and fungi, promoting a healthy soil ecosystem.

Considerations When Using Wood in Soil
1. Nitrogen Drawdown:
Fresh wood (especially high-carbon materials) may temporarily deplete soil nitrogen as microbes use it for decomposition. To counteract this, add nitrogen-rich materials (e.g., green plant matter, manure) or compost to balance the carbon-to-nitrogen ratio.
2. Wood Type:
• Good Choices: Hardwood (oak, maple), softwood (pine, spruce), and fruit tree wood.
• Avoid: Treated, painted, or chemically-treated wood, which can leach harmful substances into the soil.
3. Size of Wood Pieces:
Larger logs decompose more slowly, providing long-term benefits. Smaller wood pieces or wood chips break down faster, giving quicker results but requiring more frequent replenishment.

Alternative Uses of Wood in Soil
1. Wood Chips as Mulch:
Spread wood chips on the surface to suppress weeds, retain moisture, and slowly add organic matter to the soil.
2. Biochar:
Charred wood (biochar) can be added to soil to improve its ability to retain nutrients and water while reducing nutrient leaching.
3. Woody Composting:
Mix small wood pieces into a compost pile to create a balanced, nutrient-rich soil amendment.

Using wood as a soil amendment through hugelkultur or other methods is a sustainable and effective way to enhance garden productivity, especially in areas with poor or depleted soils.
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Integrated pest management

By Sam Loopy January 2, 2025 No Comments
Beneficial insects play an essential role in integrated pest management (IPM) for cannabis cultivation. They help control pests naturally, reducing the need for chemical pesticides. Here’s a list of beneficial insects commonly used in cannabis growing:

Predatory Insects
1. Ladybugs (Hippodamia convergens)
• Feed on aphids, whiteflies, and spider mites.
• Particularly effective during the early stages of infestations.
2. Lacewings (Chrysoperla spp.)
• Larvae are voracious predators of aphids, thrips, and mealybugs.
3. Praying Mantises (Tenodera sinensis)
• Generalist predators that consume a wide variety of pests, including caterpillars and beetles.
4. Predatory Mites (e.g., Phytoseiulus persimilis, Amblyseius swirskii)
• Control spider mites, thrips, and whiteflies.
• Amblyseius swirskii is particularly useful in warm, humid conditions.
5. Minute Pirate Bugs (Orius spp.)
• Prey on thrips, aphids, and small caterpillars.

Parasitic Insects
1. Parasitic Wasps (e.g., Encarsia formosa, Aphidius colemani)
• Target specific pests like whiteflies and aphids by laying eggs inside them.
2. Nematodes (e.g., Steinernema feltiae)
• Soil-dwelling organisms that control fungus gnats and root-dwelling pests.

Soil Beneficials
1. Rove Beetles (Dalotia coriaria)
• Feed on fungus gnats, thrips pupae, and other soil-dwelling pests.
2. Hypoaspis Mites (Stratiolaelaps scimitus)
• Effective against fungus gnats and thrips in the soil.

Benefits of Using Beneficial Insects
• Eco-Friendly: Reduces reliance on chemical pesticides.
• Pest-Specific: Targets pests without harming plants or beneficial organisms.
• Sustainable: Supports a balanced ecosystem within the grow environment.

Tips for Success
1. Early Introduction: Release beneficial insects at the first sign of pests or as a preventive measure.
2. Environmental Conditions: Maintain optimal humidity, temperature, and lighting conditions for the insects.
3. Avoid Pesticides: Minimize or eliminate pesticide use, as it can harm beneficial insects.
4. Monitor Populations: Regularly check pest and predator populations to ensure effectiveness.

Implementing beneficial insects as part of your IPM strategy can greatly improve plant health and yield in cannabis cultivation.
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Ultra violet light effects on cannabis thc production

By Sam Loopy January 1, 2025 No Comments
Ultraviolet (UV) light can influence the production of secondary metabolites in plants, including THC (tetrahydrocannabinol) in cannabis. Here’s a detailed overview of how UV light, particularly UV-B and UV-A, affects cannabis THC production:

1. Role of UV Light in THC Production
• UV-B Radiation: Studies suggest that exposure to UV-B light can stimulate the production of THC in cannabis plants. THC acts as a protective compound, shielding the plant from UV radiation. UV-B stress triggers the plant to produce more trichomes (resin glands) where THC is synthesized.
• UV-A Radiation: While less energetic than UV-B, UV-A can also contribute to trichome development and secondary metabolite production, though its effects are generally less pronounced than UV-B.

2. Mechanism
• Stress Response: Cannabis plants produce THC as part of their defense mechanism against environmental stressors, including UV radiation.
• Gene Activation: UV light activates specific genes responsible for synthesizing THC and other cannabinoids, as well as terpenes, enhancing the overall resin production.

3. Optimal Exposure
• Moderate exposure to UV-B light during the flowering stage can enhance THC levels. Overexposure, however, can damage the plant’s cells and negatively impact overall health and yield.
• Controlled UV light supplementation in indoor or greenhouse cultivation can be particularly effective, as natural UV exposure may be inconsistent.

4. Factors Influencing UV Effects
• Plant Genetics: Some cannabis strains are more responsive to UV light than others due to their genetic predisposition for cannabinoid production.
• Intensity and Duration: The amount of UV exposure (intensity and time) plays a critical role in determining its effects.
• Growth Environment: Indoor and greenhouse growers can fine-tune UV light exposure to maximize THC production without damaging plants.

5. Practical Applications
• UV-B lamps are often used in indoor cultivation setups to mimic natural UV exposure and stimulate THC production during the flowering stage.
• Outdoor growers in regions with high UV levels (e.g., high altitudes or near the equator) often observe naturally higher THC levels in their plants.

6. Considerations and Risks
• Prolonged UV exposure can cause photodamage to plants, including leaf burn and reduced photosynthesis.
• Proper protective equipment should be used when working around UV light to avoid harm to human skin and eyes.
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Fem seeds

By Sam Loopy January 1, 2025 No Comments
I get asked all the time about this. And yes I plan to offer them soon as I’m happy with my work on that.
Why can I offer no eta?
That’s simply impossible. My strains have over a decade in to stabilizing them to resist herm.
So to even get them to try to flip often requires more than sts spray for me . And then I require extensive testing on that output . To ensure the herm resistance carries over to the fem line.
This is honestly something new for me because I have for decades been a anti fem- hermie seed guy..
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Curing Cannabis for optimal flavor

By Sam Loopy January 1, 2025 No Comments
Curing cannabis properly enhances its flavor, aroma, potency, and smoothness. Here’s a step-by-step guide to curing cannabis for the best results:

1. Preparation
• Ensure your buds are properly dried. Buds should feel dry on the outside, and smaller stems should snap instead of bending. However, the larger stems may still retain some flexibility.
• Gather airtight containers, such as glass jars, ceramic jars, or specialized curing containers.

2. Fill the Containers
• Loosely pack the jars: Fill jars about ¾ full to allow airflow while minimizing empty space. Overpacking can lead to uneven curing or mold growth.
• Avoid crushing the buds, as this can damage trichomes.

3. Initial Burping Phase (First 1-2 Weeks)
• Seal the jars: Close the containers to trap moisture and allow the curing process to begin.
• Burp daily: Open the jars for 5–15 minutes once or twice a day to release excess moisture and replace stale air with fresh air. This also prevents mold.
• Inspect for signs of mold or overly damp buds during this phase. If buds feel too moist, leave the jar open longer to dry slightly.

4. Long-Term Curing (Weeks 3-8 or Longer)
• After the first 1–2 weeks, reduce the burping frequency to once every few days.
• Over time, the moisture inside the buds will redistribute evenly, enhancing the flavor and aroma.

5. Monitoring Humidity
• Use small hygrometers inside jars to monitor relative humidity.
• Optimal range: 58–62% RH.
• If RH exceeds 65%, open the jar to let moisture escape or add a humidity control packet (e.g., Boveda packs).
• If RH drops below 55%, the buds may overdry and lose quality. Rehydrate carefully using humidity packs.

6. Taste Testing
• After 2–4 weeks, you’ll notice improved flavor and aroma. However, a longer cure (4–8 weeks or more) often results in richer, more complex profiles.

7. Storage
• Once cured, keep jars sealed in a cool, dark place to preserve terpenes and potency. Avoid exposing the buds to direct light, heat, or fluctuations in humidity.

Properly cured cannabis provides a smooth, flavorful smoke or vapor, with terpenes and cannabinoids preserved at their best.
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