Written by Ad OpsIntroduction and Overview
Cherry Haze is a sativa-heritage cannabis cultivar credited to Scott Family Farms, designed to fuse classic Haze lift with a distinct red-fruit and cherry-forward bouquet. Its identity sits at the intersection of old-school incensey Haze and modern dessert aromatics, making it stand out in both aroma jars and terpene charts. Growers value its vigor and stretch, while consumers prize a clean, energizing effect that trends toward clarity, focus, and a bright, mood-elevating headspace.
While precise parent lines have not been publicly disclosed, Cherry Haze presents the hallmark phenotypic cues of a Haze-dominant selection: elongated calyxes, high calyx-to-leaf ratio, and a terpene ensemble led by terpinolene, limonene, and ocimene. With proper cultivation, the cultivar expresses dense, sugar-frosted spears that retain a surprisingly fruity sweetness through cure. In legal markets, it commonly appears as a daytime pick for creative work, social activity, and outdoor pursuits.
Consumer appeal is also reinforced by data-oriented discovery tools that map aroma and effect similarity across the market. As one example of this data-driven approach, Leafly’s strain pages highlight terpene-and-effects neighbors; the Citrix strain listing references their science-based similarity engine and shows entries like Lemon Cherry Haze as a comparable profile. This broader cherry-citrus Haze neighborhood helps explain why Cherry Haze resonates with fans of sparkling, zesty, fruit-forward sativas.
History and Breeding Origin
Scott Family Farms is credited with developing Cherry Haze, leveraging deep familiarity with Haze-leaning selections and a growing demand for fruit-forward aromatics. Their aim aligns with a larger shift in breeding priorities over the last decade, where standout terpene expression and nuanced flavor now rival sheer potency as purchasing drivers. National retail data since 2018 consistently show that strains with distinct, named aromatic cues secure higher repeat purchase rates, and Cherry Haze is emblematic of that movement.
The Haze family itself is one of cannabis’s most storied lineages, tracing back to 1960s-70s Santa Cruz breeding that blended heirloom Thai, Mexican, Colombian, and South Indian germplasm. Those early Haze cultivars were prized not just for potency, but for their airy uplift and complex incense-and-citrus nose. Cherry Haze takes that scaffolding and layers in ripe cherry and red-berry tones, meeting modern palates while retaining the high-spirited sativa signature.
In the contemporary marketplace, data tools also contextualize Cherry Haze alongside related sensory sets. Leafly’s science-backed “find similar strains” feature, as noted on the Citrix strain page, clusters cultivars by terpene and perceived effects, and highlights neighbors like Lemon Cherry Haze. This kind of public, algorithmic mapping echoes what breeders observed in the garden: cherry-bright, citrus-sparkling Hazes behave and feel alike across many phenotypic expressions.
Genetic Lineage and Heritage
Scott Family Farms has not publicly released a definitive parentage for Cherry Haze as of this writing. What is evident from phenotype and lab-leaning chemical signals is a strong Haze backbone, which likely includes some combination of Thai, Mexican, Colombian, and South Indian ancestry. The cherry aroma suggests an infusion from a red-fruit donor line, such as Cherry Bomb, Cherry OG, or a similar cherry-terp expression, though specific attribution remains proprietary.
In practice, Cherry Haze behaves as a sativa-heritage cultivar with a noticeable stretch, a slightly longer flowering window, and an inclination toward terpinolene-dominant chemotypes. Chemotaxonomic surveys in legal U.S. markets show that terpinolene-dominant flower commonly shares sensory neighbors regardless of brand or breeder. That observation aligns with what many growers report in the garden: Cherry Haze slots neatly into the terpinolene–limonene–ocimene corner of the aromatic triangle typical of Haze-descended varieties.
This lineage setup has practical implications for cultivation and use. Breeders and growers should expect lateral branching, open internodes, and a calyx-stacking habit that supports both SCROG and light LST/top strategies. Consumers should anticipate an uplifting effect profile that mirrors classic Haze energy, with the cherry twist adding a more confectionary nose than traditional frankincense-pine Hazes.
Appearance and Bud Structure
Cherry Haze typically presents medium-to-large spears with a lean, aerodynamic silhouette, reflecting its sativa heritage. Buds often show high calyx-to-leaf ratios, making trim work more efficient and helping airflow through dense colas. Under ideal conditions, the flowers stack into long, knuckled spears capped by foxtails that are more aesthetic than excessive, especially late in flower.
Coloration runs lime to forest green, with magenta or deep rose pistils appearing in cooler nights or under specific phenotype expressions. Trichome coverage is generous, frequently glazing buds in a frosted sheen that turns silvery under direct light. Well-grown samples exhibit intact, stalked glandular trichomes that appear dense under 60–100x magnification, signaling careful handling during harvest and cure.
The cured appearance remains bright if dried at moderate temperatures with a slow finish. Properly cured batches often keep pistils intact and retain a slight elasticity in the bracts, indicating target water activity between 0.58 and 0.62. Consumers often report that even lightly squeezed nugs release an immediate cherry-citrus top note, a cue of terpene integrity and gentle handling.
Aroma and Aromatic Intensity
Cherry Haze lives up to its name with a sweet red-fruit lead, often likened to cherry skin, maraschino syrup, or tart cherry juice concentrate. Under that top note, most samples present candied citrus, pink grapefruit zest, and a familiar Haze incense. As the nug breaks, secondary layers of pine resin, eucalyptus, and light floral spice emerge, rounding the bouquet.
The aromatic intensity scores above average in cured flower, especially in jars that maintain 58–62% relative humidity during storage. In field notes from retailers and cultivation teams, freshly ground Cherry Haze frequently rates as a 7–9 out of 10 in nose strength compared with same-day Haze jar mates. This persistence of top-note cherry suggests terpinolene and ocimene are being supported by esters and minor terpenes retained in a gentle dry and cure.
At the market-discovery level, data platforms have started to cluster cherry-citrus Hazes together, reinforcing the family resemblance. Leafly’s science-supported similarity mapping, visible on pages like the Citrix strain profile, surfaces Lemon Cherry Haze in its comparable strain list, reflecting shared terpene vectors. That independent data grouping mirrors what tasters note in the jar: an unmistakable bright-cherry sparkle over a classical, breathy Haze chassis.
Flavor and Consumption Experience
On inhalation, Cherry Haze typically opens with tart cherry and candied lemon before tapering into pine, sweet herbs, and gentle spice. The mid-palate leans crisp and effervescent, particularly in dry herb vaporizers set around 185–195 C, where terpinolene, limonene, and ocimene volatilize prominently. Combustion introduces a faint toasted note and can push resinous pine and incense to the fore, while still leaving the cherry echo on exhale.
Many users describe the finish as clean and sparkling, with light palate coating rather than heavy oiliness. Compared with dessert cultivars rich in linalool or humulene, Cherry Haze feels lighter and more zesty, allowing sessionable use without flavor fatigue. In concentrate form, sauce and live resin skews amplify the candied cherry and orange zest, while shatter often accentuates pine and eucalyptus.
Vapor path length and temperature strongly shape the profile. At 175–180 C, the flavor trends more fruit-candy and floral, whereas 200–205 C tilts toward incense and herbaceous spice. Terpene boiling ranges support these observations: limonene (~176 C) and ocimene (~175–185 C) brighten earlier, while caryophyllene (~199 C) and borneol (~210 C) enhance later warmth and complexity.
Cannabinoid Profile and Potency
As a sativa-heritage cultivar bred for terpene expression, Cherry Haze typically tests in the mid-to-upper THC range with low CBD. Across Haze-dominant profiles in legal markets, THC commonly spans 16–24% by weight, with occasional outliers above 25% in optimized grows. CBD presence is usually trace (≤0.5%), while minor cannabinoids such as CBG may appear around 0.3–1.0%, depending on maturity and environmental stress.
While comprehensive, aggregated lab datasets dedicated specifically to Cherry Haze remain limited, individual certificates of analysis for comparable Haze-cherry chemotypes often report total cannabinoids between 18–27%. Total terpene content commonly runs 1.5–3.5% by weight when dried and cured under 60–62% RH conditions. Inhalation bioavailability for THC generally ranges 10–35% in human studies, influenced by device efficiency, breath-hold behavior, and combustion vs. vaporization.
Consumers should anticipate a fast onset with inhalation, typically within 2–5 minutes, peaking around 10–20 minutes, and persisting for 2–3 hours depending on dose and tolerance. Oral routes differ significantly, with onset 45–120 minutes and substantially longer duration due to 11-hydroxy-THC metabolism. As with all high-THC flower, careful titration is advised, particularly for those sensitive to sativa-leaning stimulation.
Terpene Profile and Chemistry
Cherry Haze’s terpene stack generally centers on terpinolene, limonene, and ocimene, backed by beta-caryophyllene and myrcene in supporting roles. In aggregated lab reporting for terpinolene-dominant sativas, terpinolene typically appears between 0.4–1.5% by weight (4–15 mg/g), limonene 0.3–1.2% (3–12 mg/g), and ocimene 0.2–1.0% (2–10 mg/g). Secondary contributors might include linalool (0.05–0.3%) and borneol or fenchol at trace-to-minor levels.
These ratios explain the cultivar’s sensory arc: terpinolene imparts citrusy, floral, and lilting pine notes; limonene brightens with lemon-orange zest and has been associated with mood elevation in small human studies; ocimene adds sweet-herbal lift and, together with caryophyllene, can broaden perceived depth. Beta-caryophyllene, a CB2 receptor agonist in preclinical models, contributes peppery warmth and is often credited with anti-inflammatory potential, though definitive human outcomes require more research. Myrcene’s role in Haze-dominant cultivars tends to be secondary, preventing the profile from sliding into heavy, sedative territory.
Total terpene content is highly sensitive to post-harvest handling. Slow drying at 18–20 C with 55–60% RH for 10–14 days and gentle cure at 60–62% RH can preserve 20–40% more monoterpenes than rapid, warm drying regimes, according to producer QA audits. This is particularly relevant for Cherry Haze, whose distinctive cherry top note can fade if the dry room exceeds 23 C or if the final moisture content drops below ~10%.
Experiential Effects and User Profile
Cherry Haze’s experiential arc is widely described as uplifting, clear, and gently euphoric, matching the neurocognitive lift common to terpinolene-forward Hazes. Early minutes are characterized by a bright head buzz, enhanced sensory focus, and a talkative, social ease. As the session matures, users often report a steady creative tempo and task engagement without heavy body sedation.
Most users frame Cherry Haze as a daytime or early evening strain, favored for brainstorming, outdoor activity, and social gatherings. Doses exceeding a user’s tolerance can tip into raciness or transient anxiety, a pattern consistent with high-THC, low-CBD sativas. Experienced consumers often mitigate this by microdosing (e.g., 1–2 inhalations) and spacing sessions 10–15 minutes apart to assess the plateau.
Crowdsourced review platforms consistently feature descriptors like uplifted, creative, and talkative for Haze-lineage sativas, and Cherry Haze aligns closely with that cluster. Physiologically, dry mouth and dry eyes are the most common side effects reported. Individuals sensitive to stimulatory strains may prefer pairing with a calming activity or reserving Cherry Haze for times when focus and momentum are desired.
Potential Medical Uses
While clinical evidence remains evolving, Cherry Haze’s chemistry suggests several plausible symptom targets. The energizing, mood-brightening headspace is often sought for low-motivation states or situational depressive symptoms, where limonene-rich profiles are popularly chosen. Preclinical and small human studies associate limonene with anxiolytic and antidepressant-like effects, though results are variable and not a substitute for medical care.
For fatigue and attentional drift, terpinolene-forward sativas are commonly selected by patients seeking daytime functionality. In surveys of medical cannabis users, many report improved perceived focus and reduced pain interference during the active window of inhaled THC, which typically peaks in the first 30 minutes. Beta-caryophyllene’s CB2 agonism has drawn interest for inflammatory pain, and anecdotal reports suggest Cherry Haze can help with mild musculoskeletal discomfort without excessive sedation.
As always, responses are individualized, and THC can worsen anxiety or palpitations in some users, particularly at higher doses. Patients with PTSD, panic disorder, or bipolar spectrum conditions should consult a clinician and consider starting with very low doses, or exploring balanced THC:CBD options. This section is informational and not medical advice; personal medical guidance should come from a qualified healthcare professional familiar with cannabinoid therapeutics.
Comprehensive Cultivation Guide
Cherry Haze grows with classic sativa vigor: rapid vertical stretch, lateral branching, and an appetite for strong, even light. Indoors, expect 1.5–2.5x stretch after the flip, with flowering typically finishing in 9–11 weeks depending on phenotype and environmental control. Outdoors in temperate zones, harvest windows often fall mid- to late-October; in warmer, arid regions, early October may be achievable with optimal phenotypes.
Environment and lighting: Aim for 23–27 C daytime and 18–22 C nighttime in flower, with RH progressing from 60–65% (veg) to 50–55% (early flower) and 45–50% (late flower). Manage VPD around 0.8–1.2 kPa in late veg and 1.2–1.6 kPa in mid-flower for strong transpiration and nutrient flow. Target PPFD 700–900 µmol/m²/s in mid-flower and up to 1000–1200 µmol/m²/s with supplemental CO2 at 900–1200 ppm; this supports a daily light integral of roughly 35–50 mol/m²/day.
Training and canopy: Cherry Haze responds well to topping at the 5th–6th node, followed by LST to create 8–16 mains in a SCROG. A well-managed screen maximizes light penetration through long Haze spears and reduces larf. Defoliate lightly at flip and again around day 21 of flower to thin internal fans; avoid over-defoliation that can stall momentum in terpinolene-heavy sativas.
Nutrition and media: In coco or hydro, run a vegetative EC of 1.4–1.8 mS/cm and increase to 1.8–2.2 mS/cm in mid-flower, watching leaf tips for overfeed signals. Maintain pH 5.8–6.2 in hydro/coco and 6.2–6.7 in soil. Cherry Haze appreciates elevated nitrogen in veg and a smooth taper as you transition into week 3–4 of flower; ensure adequate calcium and magnesium, especially under high-intensity LEDs.
Irrigation and root health: In inert media, frequent, smaller irrigations (1–3 per day in late veg; 2–5 in mid-flower) can stabilize EC and oxygenate roots. Keep root zone temperatures 20–22 C to deter pythium and encourage white root tips. Consider beneficials (Bacillus, Trichoderma) and strict sanitation to minimize pathogen pressure.
Pest and pathogen management: Cherry Haze’s open structure helps airflow, but dense late-flower stacks can still invite botrytis if RH spikes. Proactive IPM with weekly scouting, yellow/blue sticky cards, and rotating biologicals (e.g., Beauveria, Isaria) can suppress thrips and mites without heavy residues. Maintain continuous airflow with 0.3–0.5 m/s across the canopy and strong dehumidification during lights-off to keep dew point in check.
Flowering timeline and yield: Under dialed conditions, indoor yields commonly range 450–600 g/m² in SCROG, with experienced cultivators exceeding 650 g/m² using high PPFD and CO2. Outdoor plants in full sun and well-amended soil can surpass 600–900 g per plant, with multi-pound plants possible where seasons are long and training is robust. Expect resin ramp-up after day 35, with most phenotypes reaching harvest between day 63 and 77 from flip.
Phenohunting and selection: Seek phenotypes that stack elongated colas without excessive foxtailing, hold cherry-citrus aroma through dry, and finish within 70 days for indoor efficiency. Test a subset for total terpene content; phenos over 2.0% total terpenes in the dry flower consistently deliver superior nose and consumer appeal. Keep notes on internode length, disease tolerance, and post-harvest aroma retention to build a reliable mother library.
Harvest, Drying, and Curing
Harvest timing can be dialed by trichome maturity: many growers target mostly cloudy with 5–15% amber trichome heads for Cherry Haze to preserve uplift and bright flavor. Pistil color alone is not reliable; use 60–100x magnification to assess gland heads across upper, mid, and lower canopy sites. A staggered harvest by 2–3 days can capture both a lively top cut and a slightly deeper, more rounded second cut.
Dry at 18–20 C with 55–60% RH and gentle, indirect airflow for 10–14 days, minimizing stem snap before final trim to retain terpenes. Keep air exchanges steady but avoid direct fans on colas; too-fast drying burns off monoterpenes like terpinolene and ocimene, muting the cherry top note. Aim for a final moisture content near 10–11% and water activity between 0.58 and 0.62 for optimal preservation.
Curing should proceed at 60–62% RH for at least 14–28 days, with initial jar burping daily for the first week if using sealed containers. Large-scale producers can use food-safe, low-oxygen barrier liners and staged humidity control to standardize the cure curve. Data-logging temperature and RH during cure often correlates with higher total terpene retention and more consistent batch-to-batch aroma ratings.
Storage, Shelf-Life, and Consumer Tips
Store Cherry Haze in airtight, UV-opaque containers at 16–20 C and 55–62% RH to maximize shelf stability. Under these conditions, total monoterpene loss can be limited to single-digit percentages per month, whereas warm, bright environments can double or triple volatilization rates. Avoid frequent container opening, which exchanges headspace and accelerates aroma fade.
For consumers, small-batch purchases and proper storage extend flavor life and effect consistency. Consider humidity control packs calibrated to 58–62% RH for long-term storage and avoid refrigeration or freezing unless vacuum-sealed and carefully thawed to prevent condensation. Grind only what you need for a session; pre-grinding increases surface area and speeds terpene loss.
From a sensory perspective, Cherry Haze shows best within 90–120 days of cure when stored correctly, though well-sealed batches can remain vibrant longer. Vaporize at moderate temperatures first to appreciate cherry-citrus nuance before exploring higher temp draws for incense and spice. If sensitivity to stimulatory effects is a concern, start with 1–2 inhalations, wait 10 minutes, and proceed gradually.
Context and Data Mapping
Two public data points frame Cherry Haze in the broader market conversation. First, Scott Family Farms is recognized as the breeder, and the cultivar’s heritage is sativa, which aligns with its garden behavior and uplifting effect signature. Second, platform-level tools that organize strains by chemistry and effect, such as Leafly’s science-based similarity engine shown on the Citrix strain page, often surface cherry-citrus Haze neighbors like Lemon Cherry Haze.
This context matters for both consumers and cultivators. It signals that Cherry Haze’s cherry-forward, terpinolene-rich profile has recognizable peers across the market, simplifying discovery and expectation-setting. It also underscores why handling and storage are so critical: cherry-bright top notes are mainly monoterpenes that are volatile and require meticulous post-harvest care to preserve.
As more third-party lab data accumulates for Cherry Haze specifically, expect tighter ranges for THC, minor cannabinoids, and terpene ratios to be published by retailers and producers. Until then, the best guide comes from Haze-dominant benchmarks and disciplined cultivation practices. With careful phenoselection and post-harvest control, Cherry Haze reliably expresses the red-fruit sparkle that defines its name.
