Written by Ad OpsIntroduction and Context
C. Guava is a hybrid cannabis cultivar bred by Crockett Family Farms, a California-bred house known for dialed-in tropical and citrus terpene expressions. The "C." prefix is widely recognized by enthusiasts as shorthand for Crockett, linking this variety to a family of strains designed for vivid fruit-forward profiles and balanced hybrid effects. With an indica/sativa heritage, C. Guava is built to provide a versatile experience that straddles uplifting mental clarity and soothing body ease.
In contemporary markets, hybrid cultivars account for the majority share of retail flower sales in many U.S. legal states, often exceeding 60% of SKU mix in dispensary menus. C. Guava fits squarely within this consumer preference, delivering the kind of modern potency and terpene density that drives repeat purchase behavior. Its name signals exactly what it aims to deliver: a guava-leaning aroma that feels tropical, juicy, and clean.
While some Crockett Family Farms releases have public, well-documented lineages, others are kept relatively close to the chest to preserve breeding advantage. C. Guava is one of those cultivars that carries a bit of mystique, but its sensory fingerprint is a strong clue to its genetic toolbox. Expect a deep dive into how its chemistry translates to flavor, effects, and cultivation performance across a range of growing environments.
History and Breeding Background
Crockett Family Farms emerged from Southern California’s craft-breeding scene and became widely associated with the resurgence of citrus-forward cannabis in the 2010s. The breeder’s collaborations and selections around fruit-centric profiles, especially orange and tropical lines, reset expectations for how loudly a strain can announce itself from across a room. This sensory-first philosophy helps explain why C. Guava leans so strongly into a ripe, exotic fruit halo.
C. Guava likely descends from a program that prioritized both modern potency and high-terpene output, a pairing that remains the gold standard for premium flower. In contemporary legal markets, top-shelf flower often measures 1.5–3.0% total terpene content by weight, and C. Guava’s reputation aligns with that bracket. Breeding toward that outcome requires careful parent selection, stress testing, and a multi-generational culling process to stabilize standout phenotypes.
Unlike legacy “fuel” profiles that emphasize sharp, gassy thiols, C. Guava pushes a tropical register that many consumers perceive as sweeter and less aggressive. That shift lines up with retail data showing growing interest in fruit-forward strains that still deliver 20%+ THC potency. Viewed in that context, C. Guava represents both a continuation of Crockett’s fruit lineage and a response to a market increasingly prioritizing flavor parity with potency.
Genetic Lineage and Naming
The exact parentage of C. Guava has not been publicly detailed by the breeder, which is not unusual for proprietary or limited releases. When lineages are undisclosed, cultivators and sensory analysts infer likely ancestors from aroma, morphology, and terpene output. In C. Guava’s case, dominant citrus-tropical notes suggest contributions from families rich in limonene, myrcene, and ocimene, common to modern fruit-forward hybrids.
Crockett Family Farms has historically been connected to lines that express clean orange and exotic fruit signatures. That heritage makes plausible the presence of citrus-leaning progenitors and perhaps a counterbalancing parent that deepens resin density and calms growth stretch. The result is a hybrid that maintains sativa-like brightness in the nose while expressing indica-informed density and finish.
The “C.” prefix cues the Crockett origin while the “Guava” epithet signals the intended flavor destination with unusual clarity. Naming in cannabis often serves as a genotype-to-phenotype roadmap, and here it is particularly literal. Growers should expect the phenotype assortment to skew toward tropical sweetness, with outlier expressions showing either sharper citrus or rounder, creamy fruit depending on environmental variables and feed.
Botanical Appearance
C. Guava typically produces medium-dense to dense colas with a calyx-stacked structure that favors tight inter-nodal spacing once flower sets. Buds often present as lime to forest green, with sun-kissed, apricot-to-tangerine pistils that weave through a frosty trichome canopy. Under magnification, the glandular heads trend bulbous and cloudy at peak maturity, supporting the hybrid’s reputation for strong resin production.
Leaf morphology in veg often shows a hybridized silhouette, with blades that neither fully narrow like classic sativa nor broaden like deep indica. As plants transition into bloom, internodal stretch can range from 1.5× to 2.0×, making training timing important to preserve canopy uniformity. The finished canopy, when well-managed, forms a level plane that maximizes light interception and produces uniform, market-ready tops.
Because of its resin density and mid-compact floral clusters, airflow is critical to avoid microclimates that foster botrytis in late flower. Growers who prune interior foliage and maintain a 0.8–1.3 kPa VPD window generally report healthier late-cycle leaves and tighter finish. Visually, well-grown C. Guava is the kind of cultivar consumers describe as “sugar-dipped,” a direct product of high trichome coverage and careful drying.
Aroma and Bouquet
As the name promises, C. Guava’s primary aromatic impression is ripe tropical fruit layered with citrus peel and faint floral spice. On a cold grind, many noses pick up guava nectar, pink grapefruit zest, and a hint of sweet herb that reads like fresh-cut basil. Secondary notes can include mango, passionfruit, and a subtle vanilla-cream backdrop, especially in phenotypes higher in linalool and nerolidol.
During combustion or in a warm jar, terpenes volatilize in waves, often beginning with a bright limonene-forward burst before yielding to rounder myrcene sweetness. Caryophyllene adds a peppery undertone that becomes more obvious after the initial fruit blast dissipates. This progression from citrus sparkle to tropical density mirrors the cultivar’s hybrid effects profile: an energetic opening that resolves into poised calm.
Well-cured samples tend to measure higher in total terpene content and read cleaner on the nose, with fewer grassy chlorophyll notes. In practice, that means a 4–8 week cure at stable humidity often deepens the guava motif and clarifies the top notes. Poorly dried product, by contrast, may mute the fruit core and exaggerate pepper or wood, an avoidable outcome with proper post-harvest handling.
Flavor Profile
On the palate, C. Guava delivers a clear-throughline from nose to flavor, a trait consumers equate with quality because it indicates terpene retention. The first draw frequently highlights sweet-tart guava and pink citrus, followed by a creamy, almost sherbet-like mid-palate. Finishes lean peppery and slightly woody from beta-caryophyllene, which also contributes to a satisfying, lingering aftertaste.
Vaporization at 175–200°C (347–392°F) showcases the high notes with less pepper, making it the ideal temperature window for fruit-first appreciation. Combustion, while punchier, can overemphasize caryophyllene and obscure lighter florals if the cherry runs too hot. Users who prefer the full flavor arc often find success with a stepped vape approach: 180°C for the open, then 200°C to access the deeper notes.
In infused formats, especially rosin and live resin, the tropical profile intensifies and can skew toward mango and passionfruit. That shift stems from more complete capture of volatile monoterpenes and esters during fresh-frozen extraction. Flavor carryover in edibles is subtler, but oil-based confections may present a creamy stone-fruit echo in the retronasal finish.
Cannabinoid Profile and Potency
As an indica/sativa hybrid developed for contemporary markets, C. Guava commonly targets THC-dominant expression with trace CBD. Across comparable fruit-forward hybrids, third-party lab results often show THC in the 18–26% range by dry weight, with CBD typically below 1%. Minor cannabinoids such as CBG and THCV can register between 0.1–1.0% combined, depending on phenotype and environmental factors.
From a consumer-experience standpoint, potency near or above 20% THC correlates with strong psychoactive effects for new users and moderate-to-robust effects for those with tolerance. Inhaled cannabinoids reach peak plasma concentration rapidly, with psychoactive onset in 2–10 minutes and peak effects inside 30–60 minutes. Subjective duration typically spans 2–4 hours for inhalation and 4–8 hours for oral ingestion due to first-pass metabolism.
Because potencies are lot-specific, the most reliable indicator is the certificate of analysis (COA) attached to the batch you’re purchasing. Aim to reference both total THC and total terpenes, as higher terpene content (for example, 2.0% versus 0.8%) can intensify perceived potency despite similar THC percentages. For dose guidance, new consumers often start at 2.5–5 mg THC per session, while experienced users may prefer 10–25 mg equivalents, adjusting for personal tolerance and setting.
Terpene Profile and Minor Aromatics
C. Guava’s tropical-citrus aromatic engine is best explained by a terpene ensemble led by d-limonene, beta-myrcene, and beta-caryophyllene. In well-expressed samples, total terpene content commonly measures between 1.5–3.0% of dry flower mass. Within that total, limonene may span 0.3–0.8%, myrcene 0.2–0.7%, and caryophyllene 0.2–0.6%, with supporting roles from linalool (0.05–0.3%), ocimene (0.05–0.2%), and alpha-pinene (0.05–0.2%).
Limonene contributes the zesty pink-grapefruit and orange-rind lift that greets the nose on jar open. Myrcene provides the ripe, juicy backbone often interpreted as guava, mango, or stone fruit, while also amplifying perceived sweetness. Caryophyllene adds peppery depth and interacts with CB2 receptors, a pharmacological footnote that may matter for users seeking body-calming support.
Depending on phenotype and cure, trace compounds like nerolidol and humulene can add creamy floral and woody dryness, respectively. Ocimene often reads as sweet-herbal and helps the bouquet feel airy rather than heavy. This balanced terpene scaffold not only supports a memorable flavor but also guides the cultivar’s experiential arc from bright to composed.
Experiential Effects and Onset
Users commonly describe the initial headspace of C. Guava as clear, upbeat, and lightly euphoric, consistent with a limonene-forward profile. Within 10–20 minutes, body effects settle in, relaxing shoulders and jaw without necessarily tipping into couchlock. The hybrid balance makes it suitable for daylight creative work at modest doses and for evening decompression when taken more liberally.
For inhalation, onset is typically felt in 2–10 minutes, with a peak window around 30–60 minutes and a taper over the next 1–3 hours. In edible form, onset can take 30–120 minutes, with peaks at 2–4 hours and a total duration of 4–8 hours. Set and setting influence outcomes strongly; pairing C. Guava with hydration and a light snack often smooths the ride, particularly for newer users.
Common side effects include dry mouth and dry eyes, which surveys place in the 20–50% and 15–30% ranges, respectively, among THC users. Anxiety or racing thoughts can occur in a minority of users, especially at higher doses or in stimulating environments; reducing dose density and switching to vaporization often helps. Sedation is more likely at the tail end of higher-dose sessions or in phenotypes leaning slightly myrcene-heavy.
Potential Medical Uses and Evidence
C. Guava’s chemistry suggests potential utility where THC-dominant hybrids are already used with some evidentiary support. The National Academies (2017) concluded there is substantial evidence that cannabis is effective for chronic pain in adults, antiemesis in chemotherapy-induced nausea and vomiting, and improving patient-reported spasticity symptoms in multiple sclerosis. As a flavorful, terpene-rich hybrid, C. Guava may be an approachable choice for patients who value palatability alongside effect.
For pain, THC engages CB1-mediated pathways that modulate nociceptive signaling, and combinations with caryophyllene’s CB2 activity may complement anti-inflammatory aims. Observational cohorts frequently report reductions in pain intensity of 20–30% with THC-dominant regimens, though individual responses vary widely. For anxiety-related symptoms, low-to-moderate THC doses paired with calming terpenes like linalool and myrcene can help some users, while higher THC doses may worsen anxiety; careful titration is essential.
Sleep improvement is a common secondary benefit when dosing occurs in the evening, with user surveys noting self-reported improvements in sleep onset latency and maintenance. Appetite stimulation is also likely, given THC’s known orexigenic effects through hypothalamic pathways. As always, medical decisions should be made with a healthcare provider, and patients should consult batch-specific COAs to understand exact cannabinoid and terpene content before initiating therapy.
Comprehensive Cultivation Guide
C. Guava grows as a balanced hybrid with manageable stretch and strong resin production, making it accessible to intermediate growers and rewarding for advanced cultivators. Indoors, expect 1.5×–2.0× stretch during the first 2–3 weeks of flower; structure and timing your training around that window preserves an even canopy. Typical flowering time ranges 63–70 days from flip, with some phenotypes finishing as early as day 60 or taking to day 74 for maximum terpene maturation.
Environmentally, target 24–27°C (75–81°F) daytime and 20–23°C (68–73°F) nighttime in flower, with a diurnal differential around 3–5°C to maintain color and metabolism. Relative humidity should step down over the cycle: 55–65% in late veg, 50–55% in weeks 1–3 flower, 45–50% in weeks 4–6, and 40–45% in the final two weeks. For VPD, aim for 0.9–1.1 kPa early bloom and 1.1–1.3 kPa late bloom to balance transpiration and resin integrity.
Lighting intensity drives resin output; provide 700–900 µmol/m²/s PPFD in mid-to-late flower under LED or HPS. If supplementing CO2 to 900–1200 ppm, you can push PPFD to 1000–1200 µmol/m²/s, but watch leaf temperature and ensure ample root-zone oxygenation. In veg, 300–600 µmol/m²/s supports compact, sturdy growth and promotes rapid node stacking prior to training.
Feeding should be tuned to medium and environment. In soilless coco, maintain pH 5.8–6.2 and EC around 1.2–1.6 mS/cm in veg, 1.6–1.8 in early flower, and 1.8–2.0 at peak bloom, tapering during ripening. In soil, pH 6.2–6.8 is appropriate, with caution to avoid excess nitrogen after week 3 of flower to prevent leafy buds and muted terpenes.
Training methods that work well include topping at the 4th–6th node, low-stress training (LST) to open the plant, and a SCROG net to distribute colas evenly. Light defoliation at pre-flip and again around day 21 of flower clears interior humidity traps and improves light penetration, but avoid aggressive stripping that can stall a fruit-forward cultivar’s momentum. Lollipopping lower branches helps focus energy on top sites and improves airflow under the canopy.
C. Guava responds well to balanced macro ratios and consistent calcium and magnesium support, especially under LED fixtures that drive higher transpiration. Keep an eye on calcium-related tip burn or interveinal chlorosis, which can signal Ca/Mg imbalance or root-zone pH drift. Foliar feeds should be avoided in late flower to preserve trichome heads and avoid microbial risk.
Pest management should be proactive, as dense flowers can shelter spider mites and thrips if left unchecked. Integrated Pest Management (IPM) protocols that rotate beneficial insects (e.g., Amblyseius cucumeris for thrips, Phytoseiulus persimilis for mites), biologicals (e.g., Beauveria bassiana), and cultural controls (e.g., sanitation, intake filtration) are recommended. Maintaining steady environment and avoiding overwatering cuts the risk of botrytis and powdery mildew in the finish.
Indoor yields of 450–600 g/m² are achievable with optimized lighting and canopy management, with top-tier rooms exceeding 600 g/m² when CO2 and PPFD are dialed. Outdoors, in Mediterranean climates with full sun, healthy plants can produce 500–900 g per plant or more, depending on soil volume and season length. Regardless of setting, consistent pruning and airflow are central to maximizing quality and minimizing loss.
Harvest timing should be guided by trichome color and aroma intensity. For a balanced effect, many growers pull when trichomes are roughly 5–15% amber with the remainder mostly cloudy; earlier harvests (0–5% amber) feel brighter, while later (20–30% amber) trends sedative. Terpene peak often coincides with a distinct sweet, overripe-guava scent surge in the last 5–7 days, signaling that finish is near.
Water management is crucial in late flower; allow modest dry-backs to enhance resin pressure without inducing stress that could trigger nanners in sensitive phenotypes. In coco, target 10–20% runoff and avoid EC spikes by monitoring drain-to-waste conductivity. In soil, ensure pots fully drain between irrigations to maintain oxygen at the root interface and prevent anaerobic conditions.
Post-Harvest: Drying, Curing, and Storage
Drying parameters play a decisive role in whether C. Guava’s tropical profile survives into the jar. A 10–14 day slow dry at approximately 60°F (15.5°C) and 60% RH, with minimal air movement on the flowers, preserves monoterpenes and prevents case-hardening. Buds should reach a target final moisture content near 10–12% by weight, which corresponds to a water activity of roughly 0.55–0.65.
After the dry, curing in airtight glass at 58–62% RH for 4–8 weeks rounds the pepper edge and deepens the guava core. Burp jars daily in week one, then taper to every few days as humidity stabilizes; if RH rises above target, vent longer or use desiccant to avoid mold. Proper cures can retain 70–85% of initial terpene load relative to rushed, hot dries, a difference users can smell and taste immediately.
For storage, protect from heat, light, and oxygen—the three drivers of degradation that convert THC to CBN and oxidize terpenes. Opaque containers, cool closets or cellars, and humidity packs maintain integrity over months, though peak flavor is usually within 90 days post-cure. If pressing rosin, many processors prefer fresh-frozen input for live expressions, or carefully cured input for hash rosin, with yields from high-resin hybrids often landing in the 15–25% range depending on micron selection.
