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Clean Coco Coir for Cannabis Research Study

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Does soil choice really impact the vitality and yield a cannabis plant produces? We wanted to know, too. There are a plethora of ways to improve plant health – from cannabis nutrients, lighting systems, seed or clone genetics – there is a lot of information and advice for a cultivar to apply to their established grow techniques.  

Deciding on a cannabis growing medium or substrate is among these choices. The Rx R&D team decided to dig in and conduct our own study, to provide our customers and industry partners with definitive results on the benefits of growing substrates for cannabis plants. 

As a result, our Clean Coco Coir Study confirms weight and THC potency are higher when cannabis is grown in a clean substrate.

  • Plants that used Rx Green’s Clean Coco growing mediums had a statistically greater stem diameter than the competitor’s substrate.
  • Cannabis buds grown in Clean Coco Coir substrate yielded more bud weight per plant. 
  • THC content in these cannabis plants was higher when grown in a Clean Coco Coir growing medium. 

Our conclusion? Growing mediums matter. Read our Clean Coco Coir research study to understand why.


MEASURING GROWTH, YIELD, AND THC POTENCY

Data presented by: Stephanie Wedryk, PhD, Director of R&D at Rx Green Technologies

PURPOSE

To compare the effect of two different coconut coir substrate products, CLEAN COCO and a leading competitor (Competitor Coco), on cannabis growth, yield, and potency.

PROTOCOL

First, CLEAN COCO and Competitor Coco were chemically tested at Midwest Laboratories, a Colorado State approved laboratory.

CHEMICAL COMPARISON OF COMPETITOR AND CLEAN COCO

Competitor Coco Clean Coco
pH 7.1 7.0
Soluble Salts/EC 1.2 0.28
P 12 <10
K 100 50
Mg <10 <10
Na 82 23
Ca <10 <10
CEC 24 32

Higher CEC (Cation Exchange Capacity) indicates greater ability to hold certain nutrients (K, Ca, Mg, Mn, Fe, Zn) with lower potential to lose them in runoff. CLEAN COCO has a higher CEC than Competitor Coco, ensuring greater nutrient availability. Additionally, Na in high concentrations can be toxic to plants. Competitor Coco has a higher concentration of Na than CLEAN COCO.

Next, the cannabis variety Quattro Kush was planted in CLEAN COCO and Competitor Coco. Clones were transplanted directly into coconut coir substrate and tracked through harvest for differences in growth, yield, and potency

GROWTH: Stem diameter and plant height were measured weekly upon transplant of clones until the fifth week of the flowering cycle. Canopy diameter was measured weekly from clone transplant through the last week of the vegetative cycle.

YIELD: Bud weight was measured per Colorado State compliance regulations, both directly after being harvested and trimmed, and after drying.

POTENCY: THC was measured at an approved Colorado State laboratory.

FINDINGS

GROWTH

Stem Diameter was statistically greater in CLEAN COCO treatments than Competitor Coco during the flowering cycle.

Height of Quattro Kush in CLEAN COCO and Competitor Coco was statistically equivalent.

Canopy of Quattro Kush grown in CLEAN COCO and Competitor Coco was statistically equivalent.

YIELD

Quattro Kush grown in CLEAN COCO yielded more bud weight per plant.

POTENCY

THC in Quattro Kush was higher when grown in CLEAN COCO.

CONCLUSION

Quattro Kush grown in CLEAN COCO had increased growth, yields, and potency compared to the Competitor Coco. CLEAN COCO has the potential to improve cannabis yield and potency compared to competitor brands. Our team believes that the combination of low salts and high CEC via strict quality controls led to the outperformance via the use of CLEAN COCO.

Cannabis Flushing Research Study

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Does flushing your cannabis plants really make a difference to the overall end result? The act of flushing cannabis is often questioned for its efficacy and the actual length of the flushing period is debated. Our Rx Green R&D team came together to debunk the truth behind this urban myth in cultivation.

The study looked into how different flushing times affect the taste, chemicals, and smoking quality of the Cherry Diesel cultivar.

  • We tested the effects of 14, 10, 7, and 0 days of flushing cannabis plants.

It’s interesting to note that even in this cannabis flushing research study, there still is no clear indication of whether you should flush cannabis plants and the impacts it has as a result.

  • Rx Green’s cannabis flushing study showed no major differences in the results of flush treatments for cannabis plants.

While the range of flushing periods for cannabis is often debated, no scientific studies or research has further validated this commercial cultivation practice.

Surprisingly, this research study further proved that there is no clear indicator of when to flush cannabis plants and the impact it has on the end result.

For a more in-depth look into our cannabis flushing research study, read the full study below.


IMPACT OF DIFFERENT FLUSHING TIMES ON QUALITY AND TASTE IN CANNABIS SATIVA L.
Data presented by: Stephanie Wedryk, PhD, Director of R&D at Rx Green Technologies Taylor Wall, Research Operations Lead at Rx Green Technologies Ryan Bennett, Research Associate at Rx Green Technologies

SUMMARY

  • Rx Green Technologies evaluated the effects of different flushing times on chemical profile, flavor, and smoking characteristics in Cannabis flower.
  • Flushing periods of 14, 10, 7 and 0 days were imposed on Cherry Diesel.
  • No differences were detected between flush treatments for yield, potency, or terpenes.
  • Analysis of mineral content of leaves indicated small changes in content of iron and zinc.
  • Taste test panelists tended to prefer flower flushed for 0 days.

INTRODUCTION

Taste and combustion qualities of Cannabis are dependent on the chemical characteristics of the flower. These chemical characteristics can be influenced by management practices during the growing cycle. For this reason, many Cannabis growers implement a flushing period where only water is fed to plants in the final days to weeks before harvest. While many cultivators attest to the effects of a flush, no scientific studies have been conducted to validate this practice. Rx Green Technologies has undertaken a first of its kind study to determine the influence of different flushing times on the chemical profile, flavor, and combustion characteristics of Cannabis flower.

MATERIALS AND METHODS

Cannabis variety Cherry Diesel (Cherry OG x Turbo Diesel) was grown at the Rx Green Technologies R&D Facility using Rx Green Technologies nutrients and Clean Coco. Grow A, Grow B and E-Plus were fed during the vegetative stage and Bloom A, Bloom B, E-Plus, and Bulk were fed during the flowering cycle. The first flushing period began 14 days before harvest. The other flushing periods were ten, seven, and zero days before harvest. Each flushing period was tested on 12 different Cherry Diesel plants divided into four different groups (replications) spread evenly across the flowering room tables. Flower and fan leaf samples were collected from each flushing treatment the first day of flush and the day before harvest to quantify concentrations of essential plant nutrients. After harvest, study plants were cured before determining final trimmed flower weight, terpene and THC concentrations. Trim was evaluated by an extractor for THC, yield, and appearance of the extract or “wax”.

To determine smoking flavor and characteristics, samples of each flushing period were distributed to Cannabis industry experts in a blind taste test. Each participant received one sample of each flushing time without knowledge of its treatment. Participants were asked about their personal Cannabis flavor preferences before tasting. After tasting, participants were asked to rate the sample for flavor, harshness of smoke, and color of ash.

Data collected during the course of the study were analyzed statistically to determine whether flushing times affected smoking quality, flower weight, or chemical characteristics of Cannabis. Statistical analysis of data allows us to quantify whether differences in the numbers are due to the treatments imposed or are results of the natural variations observed when growing plants.

RESULTS AND DISCUSSION

Visual differences in fan leaves between flushing times were apparent the day before harvest. Plants flushed for ten or 14 days had leaves that were more yellow, necrotic and dry than plants flushed for zero or seven days (Figure 1a-d). The color of the 14 and ten day flushed leaves indicates a greater breakdown of chlorophyll in the plant, leading to reduced greenness

Figure 1. Fan leaves collected from Cherry Diesel plants the day before harvest. Flushing times depicted are (a) 14 days, (b) 10 days, (c) 7 days, and (d) 0 days.

Yield, THC, and Terpenes

The flower weight, THC and terpene content of cured flower were determined for each flushing period. The data were analyzed statistically to determine whether the numerical differences in the data were due to the treatment. Overall, there were no significant differences between treatments for flower weight, THC or terpene content (Figure 2a-c) (P < 0.05). Flower weight per plant averaged 97.3 g and THC content averaged 21.9%. The dominant terpenes in the flower were beta-myrcene, beta-caryophyllene, and terpinolene, giving the flower an earthy and spicy smell (Figure 2c). Overall, flushing times did not impact flower weight, THC, or terpenes in Cherry Diesel.

Figure 2. Flower weight (a), THC (b) and terpene content (c) for Cherry Diesel flushed for 14, 10, 7 or 0 days before harvest. Significant differences are indicated at the 0.05 probability level.

Mineral Content of Flowers at Harvest

Flower samples taken the day before harvest were analyzed for content of essential plant nutrients. Overall, there was no significant change in the mineral content of flower as a result of different flushing treatments (Figure 3). In Cannabis flushed for 14 days, nitrogen was 6.7% lower than the zero-day flush treatment (Figure 3a). Continuing to feed nitrogen can increase its concentration in the plant, reducing the need for the plant to use its reserves for essential functions. Phosphorus, potassium, calcium, magnesium, and sulfur were similar for all four flushing treatments (Figure 3a-b).

There were changes in iron concentrations due to flushing treatments. Iron was at least 50 ppm higher in flower flushed for 14 or ten days (Figure 3c). Small changes were observed for zinc as well. Zinc was approximately 73 ppm higher in flower flushed for 14 days. The fluctuation in zinc did not follow a consistent pattern like iron. There was no significant change in manganese, boron, copper or molybdenum (Figure 3c). Nutrients like iron and zinc can accumulate in growing media over time. Feeding water during a flush may release some of these nutrients from the media into the plant. Additionally, zinc and iron are involved in the breakdown of chlorophyll occurring during senescence.

Data generated from plant parts, whether it be nutrient or THC concentrations, is naturally variable as only small samples of plants are consumed in the analysis. This may explain some of the variation seen in the data presented here. In other crops, ranges exist which indicate whether nutrient concentrations in leaves are deficient or sufficient for growth. All nutrient concentrations detected in this study are within generally accepted ranges of leaf concentrations for each nutrient. Toward the end of the Cannabis flowering cycle, the plant starts to naturally senescence. Plants that are nearing the end of their life cycle will uptake fewer nutrients as they remobilize nutrients from other plant parts. This may explain why little difference was observed in the mineral content of flower flushed for different times.

Figure 3. Mineral content of Cannabis flower of plants flushed for 14 , 10 , 7 , or 0 days. (a) Nitrogen, phosphorus, and potassium content of Cannabis flower. (b) Calcium, magnesium, and sulfur content of Cannabis flower. (c) Micronutrient content of Cannabis flower.

Extraction Efficiency

Trim from Cherry Diesel was sent to an extractor to determine extraction yield and preferred characteristics of the wax. Cannabis flushed for 14 (17.97%) or ten days (18.21%) had the highest extraction yield compared to the seven (16.39%) or zero (16.17%) day flushes. However, the appearance of the wax for the zero-day flush was preferred over the other flush periods (Figure 4a-d). The zero-day flush was the clearest with least amount of nucleation. Although increased flush time resulted in higher extraction yields, the finished product was not as desirable for extraction.

Figure 4. Wax extracted from Cherry Diesel trim flushed for (a) 14 days, (b) 10 days, (c) 7 days, or (d) 0 days.

Taste and Smoke Characteristics of Flower

Cured flower from Cherry Diesel was evaluated by a group of industry experts for flavor and smoking characteristics in a blind taste test. Overall, the duration of the flushing period had no impact on flavor, smoothness of smoke, or color of ash (Figure 5a-d) (P < 0.05). The seven-day flush period had the highest “bad” rating (21.1%) and the 0-day flush had the highest “great” rating (16.7%). Most panelists rated the flavor of the samples as “okay” or “good”. The ten-day flush had the highest “okay” ratings at 48.6% and the 0-day flush had the highest “good” rating at 47.2% (Figure 4a).

The terpene profile, as tested by a third-party laboratory, indicated earthy to spicy flavors for all flush treatments. Most panelists rated the samples as either “earthy” or “sweet” (Figure 5b). Sweet was chosen as the predominant flavor by 38.9% of panelists for the ten and seven-day treatments and 32% of panelists selected sweet as the dominant flavor for the zero-day treatment. Panelists selected earthy most frequently (32.4%) as the dominant flavor for the 14-day flush.

Taste test panelists rated the ash color and smoke quality of each sample. Ash color was predominantly black or gray (Figure 5c). Smoothness of the smoke increased with decreasing flushing time, although was not significantly different (Figure 4d). Thirty-six percent of testers rated the smoke from the zero-day flush flower as smooth whereas only 19.4% rated the 14-day flush flower as smooth. The 14-day flush had the highest percentage of harsh ratings (41.7%) compared to other samples. Panelists were asked for their flavor preferences before testing in order to determine whether personal preference would affect taste test results. Statistical analysis determined that personal preferences did not influence taste test outcomes (data not shown).

Figure 5. Results of blind taste test of Cherry Diesel flower. (a)Ratings for overall taste of flower as bad, okay, good, and great. (b) Ratings for flavor profile of flower as earthy, sour, spicy, or sweet. (c) Color of ash after smoking of sample rated as white, gray, or black. (d) Smoothness of the smoke while smoking rated as smooth, medium or harsh. Significant differences are indicated at the 0.05 probability level.

CONCLUSION

In a first of its kind study, Rx Green Technologies evaluated the effects of flushing period on yield, potency, terpenes, mineral content, and taste characteristics of Cannabis flower. Overall, the length of the flushing period did not impact yield, potency, terpenes, or taste characteristics of Cannabis flower. Taste test results indicated a trend toward improved flavor and smoke quality with the zero-day flush. While there were no significant differences in nutrient content, there was a trend toward increased iron and zinc in flower flushed for 14 days. The results of this study indicate that there is no benefit to flushing Cannabis flower for improved taste or consumer experience.

 

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Bulk PK Booster Cannabis Research Study

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Of all the elements and details required for successful commercial cannabis cultivation – there are two secret ingredients that are widely known for the crucial role they play.

Bulk PK Booster from Rx Green Technologies is a proprietary blend made up of the secret ingredients of potassium, phosphorus, and calcium.

This study revealed that Bulk PK provided superior nutrient contents to cannabis plants in comparison to the leading competitor’s cannabis nutrients, resulting in boosting the plant’s overall flower production and vigor.

In this Bulk PK Booster cannabis research study, we evaluated the effect of Bulk on two different cannabis cultivars. The statistics were outstandingly clear:

  • Results showed plants that received Bulk PK treatment gained higher bud weight and yield per plant when harvested.
  • No significant statistical differences were shown in THC or terpene content between the Bulk-treated flower and the Non-Bulk treated flower.

To view the full graph of data and results of our Bulk PK Booster plant application, read more about the research study below.


BULK IMPROVES FINAL FLOWER WEIGHT IN CANNABIS MATERIALS AND METHODS RESULTS AND DISCUSSION 

Data presented by: Stephanie Wedryk, PhD, Director of R&D at Rx Green Technologies

 

The use of PK (phosphorus and potassium) boosters during the flowering cycle is a common practice among Cannabis growers. Bulk from Rx Green Technologies is a PK booster designed for Cannabis that contains phosphorus, potassium, and calcium to optimize flower production. Phosphorus plays a key role in giving plants energy to grow flowers and synthesize cannabinoids and terpenes. Potassium supports energy transfer in plants while also playing a role in water balance and protein synthesis. Calcium is a structural component of cell walls and membranes of that is needed as flowers develop. To determine the importance of these nutrients during the Cannabis flowering cycle, we evaluated the effect of Bulk on two Cannabis cultivars on yield, potency, and terpenes.

MATERIALS AND METHOD

Cannabis cultivars Chem Brulee and Quattro Kush were grown at the Rx Green Technologies R&D Facility using Grow A, Grow B, and E-Plus during the vegetative cycle. During the flowering cycle, we applied Bloom A, Bloom B, and E-Plus to all plants. There were two treatments involved in evaluation of Bulk during flower. Bulk was applied to all plants in the first treatment. There was no Bulk applied to plants in the second treatment. Each treatment was replicated 3 times across 18 Quattro Kush plants or 4 times across 24 Chem Brulee plants. After curing and trimming, final flower weight, THC, and terpene content were measured. Data were analyzed statistically to determine differences between treatments.

Figure 1

Figure 1. Trimmed, cured flower weight (g/plant) of Chem Brulee and Quattro Kush with and without Bulk applied during the flowering cycle. Flower weights are the average of 3 replications (Quattro Kush) or 4 replications (Chem Brulee) with a * signifying statistical differences (P < 0.05)

RESULTS AND DISCUSSION

Plants treated with Bulk resulted in higher flower weight per plant in both Chem Brulee and Quattro Kush (Figure 1). This result was statistically significant in Quattro Kush. There were no statistical differences in THC (%) or total terpenes (%) between the No Bulk and Bulk treatments for either cultivar at P<0.05 (data not shown). Feeding of additional P, K, and Ca to Chem Brulee and Quattro Kush had a positive impact on yield. The additional nutrients allowed growth of larger flowers without negative impacts on THC or total terpene content. Using Bulk, with its proprietary formula of P, K, and Ca can enhance yield when applied to Cannabis plants during the flowering cycle.

 

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NOTICE: Always read and follow product label directions. Rx Green Technologies’ products can be used to promote and facilitate the growth of a variety of agricultural products and plants including, without limitation, cannabis. Rx Green Technologies does not own, distribute or sell cannabis. The research facility affiliated with Rx Green Technologies is fully compliant with all applicable state and local code. Please consult your local or state laws regarding what plants may lawfully be grown in your state.