Certificate of Analysis
REGULATORY COMPLIANCE

Sample Name:

Cheetah Piss Live Resin Cartridge

Concentrate, Product Inhalable

Date Issued:

11/18/2020

Overall Batch Result:

Pass

Sum Cannabinoids 80.123%
Total Cannabinoids 78.062%
Total THC 67.819%
Total CBD 4.713%
Total Terpenoids 4.836%
PhytoFacts®
Top 3 Terpenoids
  1. β Caryophyllene 1.291%
  2. Myrcene 0.98%
  3. Limonene 0.805%

Sample Information

Sample Details

Sample ID:201116M007

Batch Number:FSRCRTCP.01

Cultivator / Manufacturer

Show Details

Distributor

Show Details

Sampling Method: QSP 1265 - Sampling of Cannabis and Product Batches

NEW

PhytoFacts® Report

aroma
flavor
effect

The PhytoFacts chemometric report provides additional cannabinoid and terpenoid details, including dominant terpenes, entourage effects, aroma, flavor, and more.

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Cannabinoid Analysis - Summary

Sum of Cannabinoids: 80.123%

Total Cannabinoids: 78.062%

Total THC: 67.819%

Total CBD: 4.713%

Moisture:NT

Density:NT

Viscosity:NT

Sum of Cannabinoids = ∆9THC + THCa + CBD + CBDa + CBG + CBGa + THCV + THCVa + CBC + CBCa + CBDV + CBDVa + ∆8THC + CBL + CBN

Total Cannabinoids = (∆9THC+0.877*THCa) + (CBD+0.877*CBDa) + (CBG+0.877*CBGa) + (THCV+0.877*THCVa) + (CBC+0.877*CBCa) + (CBDV+0.877*CBDVa) + ∆8THC + CBL + CBN

Total THC/CBD is calculated using the following formulas to take into account the loss of a carboxyl group during the decarboxylation step:
Total THC = ∆9THC + (THCa (0.877))
Total CBD = CBD + (CBDa (0.877))

Sum of Cannabinoids: The concentration of each individual cannabinoid added together as they are, without accounting for decarboxylation. This measurement is of particular importance for certain cannabis products that are not intended to be heated prior to application or consumption.

Total Cannabinoids: The concentration of each acidic cannabinoid, multiplied by 0.877 to account for the loss of molecular mass that happens as it is converted to a neutral cannabinoid when heated. Then this calculated concentration is added to the concentrations of the corresponding neutral cannabinoid already present. This corrected data is of particular importance to both producers and consumers of products intended to be heated prior to application or consumption.

Terpenoid Analysis - Summary

36 tested, Top 3 Highlighted

Total Terpenoids: 4.836%

 
 
 

1

β Caryophyllene (1.291%)

2

Myrcene (0.98%)

3

Limonene (0.805%)

Safety Analysis - Summary

Δ9THC per Unit: Pass

Pesticides: Pass

Mycotoxins: Pass

Residual Solvents: Pass

Heavy Metals: Pass

Microbiology: Pass

Foreign Material: Pass

View Complete Test Results:

Tested by high-performance liquid chromatography with diode-array detection (HPLC-DAD).

Method: QSP 1157 - Analysis of Cannabinoids by HPLC-DAD

Summary

Total Cannabinoids: 78.062%

Total THC: 67.819%

Total THC (∆9THC+0.877*THCa)

Total CBD: 4.713%

Total CBD (CBD+0.877*CBDa)

Total CBG: 2.75%

Total CBG (CBG+0.877*CBGa)

Total THCV: 0.55%

Total THCV (THCV+0.877*THCVa)

Total CBC: 1.7%

Total CBC (CBC+0.877*CBCa)

Total CBDV: ND

Total CBDV (CBDV+0.877*CBDVa)

Learn more

The cannabis plant contains dozens of active compounds called cannabinoids. These compounds are the primary contributors to the psychoactive effects of cannabis.

Cannabinoid testing determines the potency of a sample to aid in dosage considerations.

Cannabinoid Test Results

11/18/2020

Result Views

Swipe left on table to see additional columns

Compound LOD/LOQ
(mg/g)
Measurement
Uncertainty
(mg/g)
Result
(mg/g)
Result
(%)
Δ9THC 0.06 / 0.18 19.166 557.15 55.715
THCA 0.05 / 0.14 3.547 138.02 13.802
CBD 0.07 / 0.20 2.110 45.58 4.558
CBGA 0.1 / 0.2 0.93 17.9 1.79
CBG 0.06 / 0.19 0.464 11.77 1.177
CBC 0.2 / 0.5 0.29 9.8 0.98
CBCA 0.07 / 0.21 0.403 8.24 0.824
CBN 0.1 / 0.3 0.35 5.3 0.53
THCV 0.1 / 0.2 0.21 4.2 0.42
CBDA 0.02 / 0.07 0.052 1.77 0.177
THCVA 0.07 / 0.20 0.072 1.50 0.150
Δ8THC 0.1 / 0.4 N/A ND ND
CBDV 0.04 / 0.14 N/A ND ND
CBDVA 0.03 / 0.10 N/A ND ND
CBL 0.06 / 0.18 N/A ND ND
SUM OF CANNABINOIDS 801.23 mg/g 80.123%
Unit Mass:

0.5 grams

Swipe left on table to see additional columns

Δ9THC per Unit 1100 per-package limit 278.58 mg/unit Pass
Total THC per Unit 339.10 mg/unit
CBD per Unit 22.79 mg/unit
Total CBD per Unit 23.56 mg/unit
Sum of Cannabinoids per Unit 400.62 mg/unit
Total Cannabinoids per Unit 390.36 mg/unit
Moisture Test Result

Not Tested

Density Test Result

Not Tested

Viscosity Test Result

Not Tested

Learn more

The cannabis plant contains dozens of active compounds called cannabinoids. These compounds are the primary contributors to the psychoactive effects of cannabis.

Cannabinoid testing determines the potency of a sample to aid in dosage considerations.

Terpene analysis utilizing gas chromatography-flame ionization detection (GC-FID).

Method: QSP 1192 - Analysis of Terpenoids by GC-FID

View PhytoFacts COA

See a visual representation of this sample's cannabinoid and terpenoid properties, including entourage effects, aroma, and flavor profile.

Summary

Total Terpenoids (mg/g): 48.36 mg/g

Total Terpenoids (%): 4.836%

Dominant Terpenoids

Below are this sample's 3 most abundant terpenoids by volume. To see more detail for terpenoid content, view the PhytoFacts report.

  1. β Caryophyllene 1.291%

    A sesquiterpene with a fragrance that can be described as spicy, woody, dry, dusty and mildly sweet. It was one of the first organic compounds to fully synthesized in a laboratory and plays a role in the endocannabinoid system as it is a functional CB2 receptor agonist. Found in black pepper, clove, hops, rosemary, black-jack, perilla, spicebush, Indian pennywort, celery, frankincense, vitex, parsley, marigold, tamarind...etc.

  2. Myrcene 0.98%

    A monoterpene with a fragrance that can be described as peppery, spicy, herbal, floral and woody. Although it has a pleasant odor, it is typically used by the perfume industry as precursor for developing other fragrances. Found in hops, houttuynia, bay, thyme, lemon grass, mango, verbena, cardamom, citrus...etc.

  3. Limonene 0.805%

    A monoterpene with a fragrance that can be described as orangey, citrusy, sweet and tart. It is most commonly found in nature as D-Limonene and is a primary contributor to the distinct scent of orange peels, from which it is commonly derived. Found in numerous pines, red maple, silver maple, aspens, cottonwoods, hemlocks, sumac, cedar, junipers...etc.

Learn more

Terpenoid analysis is crucial for differentiating between strains of cannabis, as terpenoids have a major influence on the medical and psychological effects of a plant. The relationship between cannabinoids and terpeneoids is known as the "entourage effect."

Terpenoid Test Results

11/19/2020

Result Views

Swipe left on table to see additional columns

Compound LOD/LOQ
(mg/g)
Measurement
Uncertainty
(mg/g)
Result
(mg/g)
Result
(%)
β Caryophyllene 0.04 / 0.11 0.612 12.91 1.291
Myrcene 0.1 / 0.2 0.79 9.8 0.98
Limonene 0.04 / 0.12 0.295 8.05 0.805
α Humulene 0.03 / 0.08 0.142 4.38 0.438
Linalool 0.04 / 0.1 0.13 2.6 0.26
α Bisabolol 0.1 / 0.2 0.10 2.2 0.22
β Pinene 0.1 / 0.2 0.10 1.3 0.13
Fenchol 0.1 / 0.2 0.07 1.3 0.13
Terpineol 0.03 / 0.1 0.13 1.2 0.12
α Pinene 0.04 / 0.13 0.077 1.17 0.117
Terpinolene 0.04 / 0.1 0.07 1.0 0.10
Valencene 0.02 / 0.06 0.019 0.95 0.095
Nerolidol 0.03 / 0.09 0.040 0.60 0.060
Ocimene 0.05 / 0.1 0.06 0.5 0.05
Caryophyllene Oxide 0.1 / 0.2 0.03 0.4 0.04
Camphene 0.1 / 0.2 N/A <LOQ <LOQ
3 Carene 0.1 / 0.2 N/A <LOQ <LOQ
Fenchone 0.1 / 0.2 N/A <LOQ <LOQ
Borneol 0.1 / 0.3 N/A <LOQ <LOQ
Geraniol 0.04 / 0.11 N/A <LOQ <LOQ
Geranyl Acetate 0.03 / 0.10 N/A <LOQ <LOQ
Guaiol 0.04 / 0.13 N/A <LOQ <LOQ
Sabinene 0.1 / 0.2 N/A ND ND
α Phellandrene 0.1 / 0.2 N/A ND ND
α Terpinene 0.1 / 0.2 N/A ND ND
Eucalyptol 0.1 / 0.2 N/A ND ND
γ Terpinene 0.1 / 0.2 N/A ND ND
Sabinene Hydrate 0.1 / 0.2 N/A ND ND
(-)-Isopulegol 0.03 / 0.08 N/A ND ND
Camphor 0.1 / 0.3 N/A ND ND
Isoborneol 0.1 / 0.2 N/A ND ND
Menthol 0.04 / 0.1 N/A ND ND
Nerol 0.05 / 0.1 N/A ND ND
R-(+)-Pulegone 0.04 / 0.1 N/A ND ND
α Cedrene 0.03 / 0.10 N/A ND ND
Cedrol 0.1 / 0.2 N/A ND ND
TOTAL 48.36 mg/g 4.836%
Learn more

Terpenoid analysis is crucial for differentiating between strains of cannabis, as terpenoids have a major influence on the medical and psychological effects of a plant. The relationship between cannabinoids and terpeneoids is known as the "entourage effect."

Pesticide and plant growth regulator analysis utilizing high-performance liquid chromatography-mass spectrometry (HPLC-MS) or gas chromatography-mass spectrometry (GC-MS).

*GC-MS utilized where indicated.

Method: QSP 1212 - Analysis of Pesticides and Mycotoxins by LC-MS or QSP 1213 - Analysis of Pesticides by GC-MS

Category 1 Pesticide Test Results

11/18/2020

PASS

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Compound LOD/LOQ
(μg/g)
Action Limit
(μg/g)
Measurement
Uncertainty
(μg/g)
Result
(μg/g)
Result
Aldicarb 0.03 / 0.09 ≥ LOD N/A ND Pass
Carbofuran 0.01 / 0.04 ≥ LOD N/A ND Pass
Chlordane* 0.03 / 0.08 ≥ LOD N/A ND Pass
Chlorfenapyr* 0.03 / 0.10 ≥ LOD N/A ND Pass
Chlorpyrifos 0.02 / 0.06 ≥ LOD N/A ND Pass
Coumaphos 0.02 / 0.06 ≥ LOD N/A ND Pass
Daminozide 0.03 / 0.10 ≥ LOD N/A ND Pass
DDVP (Dichlorvos) 0.02 / 0.07 ≥ LOD N/A ND Pass
Dimethoate 0.02 / 0.07 ≥ LOD N/A ND Pass
Ethoprop(hos) 0.03 / 0.08 ≥ LOD N/A ND Pass
Etofenprox 0.02 / 0.05 ≥ LOD N/A ND Pass
Fenoxycarb 0.02 / 0.06 ≥ LOD N/A ND Pass
Fipronil 0.02 / 0.06 ≥ LOD N/A ND Pass
Imazalil 0.02 / 0.06 ≥ LOD N/A ND Pass
Methiocarb 0.02 / 0.06 ≥ LOD N/A ND Pass
Methyl parathion 0.03 / 0.10 ≥ LOD N/A ND Pass
Mevinphos 0.03 / 0.09 ≥ LOD N/A ND Pass
Paclobutrazol 0.02 / 0.05 ≥ LOD N/A ND Pass
Propoxur 0.02 / 0.06 ≥ LOD N/A ND Pass
Spiroxamine 0.02 / 0.05 ≥ LOD N/A ND Pass
Thiacloprid 0.03 / 0.07 ≥ LOD N/A ND Pass
Category 2 Pesticide Test Results

11/18/2020

PASS

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Compound LOD/LOQ
(μg/g)
Action Limit
(μg/g)
Measurement
Uncertainty
(μg/g)
Result
(μg/g)
Result
Abamectin 0.03 / 0.10 0.1 N/A ND Pass
Acephate 0.01 / 0.04 0.1 N/A ND Pass
Acequinocyl 0.02 / 0.05 0.1 N/A ND Pass
Acetamiprid 0.02 / 0.05 0.1 N/A ND Pass
Azoxystrobin 0.01 / 0.04 0.1 N/A ND Pass
Bifenazate 0.01 / 0.02 0.1 N/A ND Pass
Bifenthrin 0.01 / 0.02 3 0.001 0.02 Pass
Boscalid 0.02 / 0.06 0.1 N/A ND Pass
Captan 0.2 / 0.5 0.7 N/A ND Pass
Carbaryl 0.01 / 0.02 0.5 N/A ND Pass
Chlorantraniliprole 0.01 / 0.03 10 N/A ND Pass
Clofentezine 0.02 / 0.06 0.1 N/A ND Pass
Cyfluthrin 0.1 / 0.4 2 N/A ND Pass
Cypermethrin 0.1 / 0.3 1 N/A ND Pass
Diazinon 0.01 / 0.04 0.1 N/A ND Pass
Dimethomorph 0.01 / 0.03 2 N/A ND Pass
Etoxazole 0.010 / 0.028 0.1 N/A ND Pass
Fenhexamid 0.02 / 0.1 0.1 N/A ND Pass
Fenpyroximate 0.03 / 0.08 0.1 N/A ND Pass
Flonicamid 0.01 / 0.04 0.1 N/A ND Pass
Fludioxonil 0.03 / 0.08 0.1 N/A ND Pass
Hexythiazox 0.01 / 0.04 0.1 N/A ND Pass
Imidacloprid 0.01 / 0.04 5 N/A ND Pass
Kresoxim-methyl 0.02 / 0.07 0.1 N/A ND Pass
Malathion 0.02 / 0.05 0.5 N/A ND Pass
Metalaxyl 0.02 / 0.06 2 N/A ND Pass
Methomyl 0.03 / 0.1 1 N/A ND Pass
Myclobutanil 0.03 / 0.1 0.1 N/A ND Pass
Naled 0.03 / 0.1 0.1 N/A ND Pass
Oxamyl 0.02 / 0.06 0.5 N/A ND Pass
Pentachloronitrobenzene* 0.03 / 0.09 0.1 N/A ND Pass
Permethrin 0.03 / 0.09 0.5 N/A ND Pass
Phosmet 0.03 / 0.10 0.1 N/A ND Pass
Piperonylbutoxide 0.003 / 0.009 3 N/A <LOQ Pass
Prallethrin 0.03 / 0.08 0.1 N/A ND Pass
Propiconazole 0.01 / 0.03 0.1 N/A ND Pass
Pyrethrins 0.03 / 0.08 0.5 N/A ND Pass
Pyridaben 0.006 / 0.019 0.1 N/A ND Pass
Spinetoram 0.02 / 0.07 0.1 N/A ND Pass
Spinosad 0.02 / 0.06 0.1 N/A ND Pass
Spiromesifen 0.02 / 0.05 0.1 N/A ND Pass
Spirotetramat 0.01 / 0.02 0.1 N/A ND Pass
Tebuconazole 0.02 / 0.07 0.1 N/A <LOQ Pass
Thiamethoxam 0.03 / 0.08 5 N/A ND Pass
Trifloxystrobin 0.01 / 0.03 0.1 0.001 0.03 Pass
Learn more

Ingesting pesticides can be dangerous, even at the smallest doses. Our pesticide analysis can detect trace amounts of chemical pesticides in dried flowers and cannabis concentrates.

Mycotoxin analysis utilizing high-performance liquid chromatography-mass spectrometry (HPLC-MS).

Method: QSP 1212 - Analysis of Pesticides and Mycotoxins by LC-MS

Mycotoxin Test Results

11/18/2020

PASS

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Compound LOD/LOQ
(μg/kg)
Action Limit
(μg/kg)
Measurement
Uncertainty
(μg/kg)
Result
(μg/kg)
Result
Aflatoxin B1 2.0 / 6.0 20 N/A ND Pass
Aflatoxin B2 1.8 / 5.6 20 N/A ND Pass
Aflatoxin G1 1.0 / 3.1 20 N/A ND Pass
Aflatoxin G2 1.2 / 3.5 20 N/A ND Pass
Total Aflatoxin 20 ND Pass
Ochratoxin A 6.3 / 19.2 20 N/A ND Pass
Learn more

Mycotoxins are toxic compounds which are naturally produced by a variety of fungal species.

Residual Solvent analysis utilizing gas chromatography-mass spectrometry (GC-MS).

Method: QSP 1204 - Analysis of Residual Solvents by GC-MS

Category 1 Residual Solvents Test Results

11/18/2020

PASS

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Compound LOD/LOQ
(μg/g)
Action Limit
(μg/g)
Measurement
Uncertainty
(μg/g)
Result
(μg/g)
Result
1,2-Dichloroethane 0.05 / 0.1 1 N/A ND Pass
Benzene 0.03 / 0.09 1 N/A ND Pass
Chloroform 0.1 / 0.2 1 N/A ND Pass
Ethylene Oxide 0.1 / 0.4 1 N/A <LOQ Pass
Methylene chloride 0.3 / 0.9 1 N/A ND Pass
Trichloroethylene 0.1 / 0.3 1 N/A ND Pass
Category 2 Residual Solvents Test Results

11/18/2020

PASS

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Compound LOD/LOQ
(μg/g)
Action Limit
(μg/g)
Measurement
Uncertainty
(μg/g)
Result
(μg/g)
Result
Acetone 20 / 50 5000 N/A <LOQ Pass
Acetonitrile 2 / 7 410 N/A ND Pass
Butane 10 / 50 5000 N/A <LOQ Pass
Ethanol 20 / 50 5000 N/A <LOQ Pass
Ethyl acetate 20 / 60 5000 N/A ND Pass
Ethyl ether 20 / 50 5000 N/A ND Pass
Heptane 20 / 60 5000 N/A ND Pass
Hexane 2 / 5 290 N/A ND Pass
Isopropyl Alcohol 10 / 40 5000 2.1 72 Pass
Methanol 50 / 200 3000 N/A ND Pass
Pentane 20 / 50 5000 N/A ND Pass
Propane 10 / 20 5000 N/A ND Pass
Toluene 7 / 21 890 N/A ND Pass
Total Xylenes 50 / 160 2170 N/A ND Pass
Learn more

Our residual solvent test identifies the presence of harmful solvents, impurities, and/or other added chemicals that may be left over from processing super-concentrated forms of cannabis.

Heavy metal analysis utilizing inductively coupled plasma-mass spectrometry (ICP-MS).

Method: QSP 1160 - Analysis of Heavy Metals by ICP-MS

Heavy Metals Test Results

11/18/2020

PASS

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Compound LOD/LOQ
(μg/g)
Action Limit
(μg/g)
Measurement
Uncertainty
(μg/g)
Result
(μg/g)
Result
Arsenic 0.02 / 0.1 0.2 N/A ND Pass
Cadmium 0.02 / 0.05 0.2 N/A ND Pass
Lead 0.04 / 0.1 0.5 N/A ND Pass
Mercury 0.002 / 0.01 0.1 N/A ND Pass
Learn more

Cannabis and hemp are plants known as dynamic accumulators. Minerals (including toxic heavy metals) are absorbed, and increase in concentration over time. Known effects of exposure to heavy metals in humans range from neurotoxicity to birth defects or organ failure.

Analysis conducted by polymerase chain reaction (PCR) and fluorescence detection of microbiological contaminants.

Method: QSP 1221 - Analysis of Microbiological Contaminants

Microbiology Test Results

11/19/2020

PASS

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Compound Action Limit Result Result
Shiga toxin-producing Escherichia coli Detect ND Pass
Salmonella spp. Detect ND Pass
Aspergillus fumigatus Detect ND Pass
Aspergillus flavus Detect ND Pass
Aspergillus niger Detect ND Pass
Aspergillus terreus Detect ND Pass
Learn more

Microbiological contaminants testing detects microorganisms such as bacteria, fungi, and yeast that thrive in the same conditions needed for cultivation. Some of these, especially E. coli, can be extremely harmful when ingested.

Visual analysis includes, but is not limited to, sand, soil, cinders, dirt, mold, hair, insect fragments, and mammalian excreta.

Method: QSP 1226 - Analysis of Foreign Material in Cannabis and Cannabis Products

Foreign Material Test Results

11/17/2020

PASS

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Compound Action Limit Result
Total Sample Area Covered by Sand, Soil, Cinders, or Dirt >25% Pass
Total Sample Area Covered by Mold >25% Pass
Total Sample Area Covered by an Imbedded Foreign Material >25% Pass
Insect Fragment Count > 1 per 3 grams Pass
Hair Count > 1 per 3 grams Pass
Mammalian Excreta Count > 1 per 3 grams Pass
Learn more

Our lab staff carefully inspects samples for filth and foreign material including but not limited to hair, insects, feces, packaging contaminants, and manufacturing waste and by-products.

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