Written by Ad OpsOverview And Naming
Apollo 710 is a boutique hybrid bred by Riot Seeds, a long-running underground breeder known for bold, oil-forward projects and irreverent naming. The moniker is a deliberate double reference: Apollo nods to classic Apollo lines popularized in the 1990s, while 710 is oil upside down, a wink to modern extract culture. The intention is clear even before the first grind—this cultivar was conceived with resin production and concentrate performance squarely in mind.
As with many Riot Seeds one-offs and limited releases, Apollo 710 has lived more in grow tents and private rooms than in catalogs and dispensary shelves. Its reputation has spread through forum threads, Discord groups, and small-batch testers rather than large commercial drops. That grassroots provenance means real-world details are abundant, but official documentation is intentionally sparse.
Because Apollo 710 targets the extraction crowd, discussions often prioritize trichome density, terpene yield, and wash or press returns over bag appeal alone. Even so, the better phenotypes have eye-catching structure, making them equally at home on the top shelf. Growers who appreciate resin-first breeding with a nod to classic cerebral profiles will find the name fitting and the intent unmistakable.
Breeding History And Origins
Riot Seeds has a track record of crossing legacy lines with contemporary resin monsters to create strains that speak to both connoisseurs and hash makers. Apollo 710 fits that ethos, positioning itself as a hybrid designed to pull the best of old-school uplift and new-school hydrocarbon or rosin performance. In conversations around this cultivar, the breeder’s objective is frequently summarized as heady enough to be memorable, greasy enough to be profitable.
The Apollo half of the name evokes Apollo 13-style energy—cerebral, sparkling, and creative—though Riot Seeds has not publicly released a definitive pedigree for this particular hybrid. In typical underground fashion, parentage details are kept close to the vest to protect competitive advantage. That opacity is not unusual in the craft breeding world where limited drops and phenotype hunts are part of the culture.
It is worth noting that public genealogy databases often contain entries labeled unknown for lines whose parents are not disclosed. Seed-focused repositories such as SeedFinder even maintain sections dedicated to unknown strain lineages, underscoring how common guarded pedigrees are in legacy and craft projects. In this context, Apollo 710’s partially veiled origins place it alongside many respected cultivars whose reputations were built in gardens rather than on paper.
Genetic Lineage: What We Know And What We Don’t
To date, Riot Seeds has not provided a confirmed, line-by-line family tree for Apollo 710. Community speculation typically centers around an Apollo-leaning parent paired with a resin bomb from the 710 era, but speculation is not evidence. The most accurate public stance is that Apollo 710 is a boutique hybrid with undisclosed, likely polyhybrid parentage.
The prevalence of non-disclosed pedigrees is well documented in the hobbyist and craft scenes. Resources like SeedFinder’s compilation of unknown strain genealogies show how breeders and seedmakers sometimes intentionally keep a parent unlisted to protect intellectual property or preserve rarity. Apollo 710 falls neatly into that pattern of guarded lineage combined with public performance testing through grow logs.
For growers, the practical implication of an opaque lineage is to plan for phenotype variation across seed runs. Expect a spectrum where some plants lean taller and more terpinolene-forward, while others compact with denser, caryophyllene-rich resin. A structured selection process and detailed notes are essential to lock in the expressions that match your target effects and extraction goals.
Morphology And Appearance
Across seed batches, two macro-phenotypes are frequently observed: a taller, Apollo-leaning architecture with vigorous internodal spacing, and a shorter, hashplant-leaning frame with tight nodes. The tall phenotype tends to develop speared colas with fox-tailing potential under high PPFD, while the squat phenotype stacks golf-ball to small soda-can flowers that finish notably dense. Both expressions show heavy trichome coverage by mid-flower, with stalked glandular trichomes frosting sugar leaves by week five to six.
Coloration runs from bright lime to a deeper forest green, often with lavender to royal-purple hues on cooler night temps below 64–66°F (18–19°C). Pistils begin a vibrant tangerine or peach and mature to copper and rust, contrasting nicely against the resin sheen. Calyxes are moderately swollen on the tall pheno and visibly bulbous on the squat resin-first pheno.
Trichome heads present a mix of 70–90 microns typical of modern hybrids, with a meaningful portion of larger-head resin that hash makers prize for solventless. Under 60x magnification, a balanced field of bulbous and capitate-stalked trichomes is visible, with maturity marked by cloudy heads turning 10–20% amber depending on harvest preference. The trim is medium difficulty due to dense sugar leaves, but a mechanical trim can be used at low speed if chilled properly to protect resin.
Aroma And Bouquet
Apollo 710’s nose spans citrus-bright to fuel-spiced depending on the selected phenotype. The Apollo-leaning phenos release high-note terpinolene and limonene expressions—think sweet grapefruit, lemon zest, and a whisper of pine cleaner. The hashplant-leaning phenos skew toward caryophyllene and myrcene, blending warm black pepper, moist soil, and sweet petrol.
When broken up, a secondary layer often emerges with fresh-cut herb and floral lilac surrounded by volatile esters. Many growers report a surprisingly loud top note in mid flower, indicating terp production keeps pace as calyxes swell. In sealed jars, the aroma remains stable over weeks when cured between 58–62% RH, with minor volatilization if RH creeps above 65%.
On the lab bench, total terpene content in comparable resin-forward hybrids commonly ranges 1.5–3.5% by weight under optimized conditions. The brighter phenotype tends to volatilize more during aggressive dry room conditions, so a slow dry at 60°F/60% RH helps lock in the top end. The heavier, pepper-fuel phenotype tolerates slightly drier conditions with less perceived loss of loudness.
Flavor And Mouthfeel
The first pull on the citrus-leaning phenotype brings candied grapefruit and lemon rind, followed by pine and a subtle floral finish. Vaporized at 370–390°F (188–199°C), those high notes present cleanly with a sweet, lingering aftertaste that suggests terpinolene supported by limonene. At combustion temperatures, expect a little more bitterness and a chewier mouthfeel as caryophyllene and humulene come forward.
The fuel-spice phenotype is heavier on the palate, delivering cracked black pepper, cardamom, and a toffee-diesel finish. When pressed into rosin and dabbed at 480–520°F (249–271°C), the concentrate retains a warm, dessert-spice profile with a persistent oil-slick mouthfeel. Cold-start dabs accentuate the sweetness and suppress the sharper diesel edges.
Flush quality, dry speed, and cure discipline shape flavor dramatically. A 10–14 day whole-plant hang at 60/60 conditions followed by a 4–6 week cure produces the most balanced expression in blind tastings. Over-drying below 55% RH collapses high notes and can yield a flat, woody profile irrespective of phenotype.
Cannabinoid Profile And Potency
Riot Seeds has not published official potency ranges for Apollo 710, and results will vary with environment, harvest timing, and phenotype. That said, modern resin-forward hybrids commonly test in the 18–26% THC range in North American adult-use markets, with top decile batches exceeding 28% under optimized conditions. CBD in such lines is typically below 1%, with minor cannabinoids like CBG in the 0.1–1.0% window and CBC often under 0.5%.
From a user-experience perspective, the ratio between THC and terpene load is as informative as absolute THC. Batches with 2.0–3.0% total terpenes often feel more potent per milligram due to entourage effects and faster onset. For dosing, experienced users inhaling 5–10 mg THC per session often report noticeable uplift in two to three puffs with the Apollo-leaning phenotype.
Onset via inhalation typically occurs within 2–10 minutes, peaking around 30–45 minutes, with total duration of 2–4 hours depending on tolerance. The brighter phenotype can feel brisk and head-forward at the peak, while the heavier one may sit more firmly in the body. As always, titration is key, and new users should start with low inhalation volumes and pause to assess.
Terpene Profile And Minor Volatiles
Expect a primary terpene triad anchored by beta-caryophyllene, limonene, and myrcene across most expressions, often totaling 1.5–3.0% by weight in well-grown flowers. In Apollo-leaning phenos, terpinolene can rise to co-dominance, adding sparkling citrus-pine aromatics and a mentally stimulating tone. Secondary contributors like linalool, ocimene, and humulene appear in trace-to-moderate amounts and shape perceived effects and flavor persistence.
Terpinolene-dominant cannabis has been associated with uplifting, focus-friendly effects and a lighter body feel. Conversely, myrcene-heavy profiles are often reported as more sedative, especially when paired with caryophyllene’s warm spice. This split tracks closely with the two broad phenotypes observed in Apollo 710, making lab tests and sensory evaluation valuable during phenotype selection.
Solventless makers tend to prefer larger, mechanically stable trichome heads in the 90–120 micron range for high returns. While Apollo 710 shows many heads in the 70–90 micron band, the squat resin phenotype frequently enriches the 90+ fraction, improving wash or dry sift performance. Concentrate returns correlate with both head size distribution and total terpene content; producers should test small batches at different microns to optimize yield and quality.
Experiential Effects And Use Cases
The Apollo-leaning phenotype is typically described as clear, energetic, and creatively engaging for the first 60–90 minutes. Users report enhanced focus, uplifted mood, and a social ease that suits daytime sessions, collaboration, or light exercise. Overconsumption can tip into raciness for sensitive individuals, especially with terpinolene-forward batches.
The hashplant-leaning phenotype trends toward euphoria built on warm body relaxation and muscle softening. It suits evening use, long films, or recovery after physical activity, with a lower likelihood of mental jitter. Many find it ideal for winding down without full sedation if dosed modestly.
In both cases, pairing with activities matters. The bright phenotype aligns with music, brainstorming, or gaming that benefits from rapid pattern recognition. The heavier phenotype pairs with tactile hobbies, slow cooking, or spa-style self-care where a steady physical calm enhances the experience.
Potential Medical Applications
While individual response varies, the brighter phenotype’s mood elevation and focus can be relevant for stress-related fatigue, low motivation, and situational anxiety in low doses. Patients often note improved task initiation and reduced rumination when terpinolene and limonene are prominent. However, high-THC terpinolene-forward batches may exacerbate anxiety for some; conservative titration is recommended.
The heavier, caryophyllene-myrcene phenotype aligns with applications in musculoskeletal discomfort, tension headaches, and sleep onset difficulties. Beta-caryophyllene’s activity at CB2 receptors has been studied for its potential anti-inflammatory and analgesic properties, complementing THC’s well-known analgesia. Myrcene’s sedative reputation in cannabis folklore aligns with user reports of easier sleep initiation when this terpene is dominant.
Evidence reviews, including national academies’ assessments, have found substantial support for cannabinoids in chronic pain, chemotherapy-induced nausea, and spasticity related to multiple sclerosis. Inhaled formats often provide the fastest relief window (2–10 minutes), which can be critical for breakthrough symptoms. As always, medical decisions should be made with a clinician familiar with cannabinoid therapeutics and local regulations.
Comprehensive Cultivation Guide: Strategy And Planning
Because Apollo 710’s lineage is undisclosed, plan your grow around phenotype discovery and environment control. Run at least 5–10 seeds if possible to map the range of expressions and select keepers based on your target effect and extraction goals. Label every plant, photograph weekly, and track data on internode length, stretch factor, resin onset, and aroma shifts.
Flowering time generally falls in the 8–10 week range for modern hybrids, with the bright phenotype often finishing in 60–65 days and the heavier resin block needing 63–70 days. Expect a 1.5–2.0x stretch from flip for the tall phenotype and 1.2–1.4x for the squat one. If vertical space is tight, consider earlier training and more aggressive topping on the Apollo-leaning plants.
Projected yields in optimized indoor runs land around 400–600 g/m², with dialed-in, high-PPFD, CO2-enriched rooms pushing 600–800 g/m². Solventless-friendly returns typically sit in the 3–5% range of fresh-frozen input for average material and 5–7% for standout keeper phenotypes, while hydrocarbon extraction can reach 18–30% depending on cut and maturity. These figures assume best practices in environment, irrigation, and post-harvest handling.
Cultivation: Environment, Lighting, And VPD
Maintain vegetative temperatures at 75–80°F (24–27°C) lights on and 68–72°F (20–22°C) lights off, with a VPD of 0.8–1.2 kPa for rapid, healthy growth. In flower, target 74–78°F (23–26°C) lights on with 1.2–1.5 kPa VPD for dense buds and robust resin formation. Late flower can tolerate a slight temperature drop to encourage color without sacrificing terp retention.
Provide 400–600 µmol/m²/s PPFD in late veg and 700–1,000 µmol/m²/s in mid-to-late flower for non-CO2 rooms. With CO2 enrichment at 1,000–1,200 ppm, PPFD can be raised to 1,100–1,200 µmol/m²/s, often improving yield by 20–30% compared to ambient CO2 baselines when other inputs are optimized. Keep daily light integral around 40–50 mol/m²/day in flower for best quality-to-yield balance.
Relative humidity should sit at 60–65% in early veg, 50–55% in early flower, and 45–50% by week six to reduce botrytis risk. Strong, oscillating airflow above and below the canopy is essential, especially for the dense squat phenotype. A gentle leaf temperature differential of 1–2°F below air temperature signals adequate transpiration and stomatal function under most LED spectrums.
Cultivation: Media, Nutrition, And Irrigation
Apollo 710 performs well in buffered coco, living soil, and rockwool, provided EC and pH are controlled. For coco and rockwool, aim for a root-zone pH of 5.8–6.2; in living soil, 6.4–6.8 favors balanced nutrient availability. Target an inflow EC of 1.2–1.6 in veg, 1.6–2.0 in early flower, and 1.9–2.2 in peak bloom, adjusting based on runoff trends and leaf color.
Nitrogen should be tapered by week four of flower to avoid leafy buds, especially in the squat phenotype that naturally packs density. Potassium and phosphorus demand climb from week three through peak bloom; supplement with balanced bloom boosters while monitoring for excesses that can suppress calcium and magnesium uptake. Maintain a steady Ca:Mg ratio around 2:1 to support cell wall integrity and chlorophyll stability.
Use frequent, small irrigations in inert media to keep the substrate near field capacity without waterlogging. Automated drip with 3–8 pulses per lights-on period is efficient for coco, while living soil prefers deeper, less frequent waterings to maintain microbial activity. Aim for 10–20% runoff in inert systems to prevent salt buildup, and flush lightly in the final 7–10 days if using mineral nutrients.
Cultivation: Training, Canopy, And IPM
The tall phenotype responds well to topping at the 5th node and subsequent low-stress training to create a flat, even canopy. Consider a SCROG net to manage stretch and maximize light interception across colas. The squat phenotype can be topped once and then left to stack, or manifolded to four to eight mains for uniform density.
Defoliation is helpful but should be measured. Remove large fan leaves that shade developing bud sites around day 21 and again at day 42 of flower, evaluating the plant’s recovery within 72 hours. Over-defoliation can reduce terpene content and stress the squat phenotype, which already packs tight clusters.
An integrated pest management plan is non-negotiable. Deploy weekly scouting, yellow sticky cards, and biological controls like Amblyseius cucumeris for thrips, Amblyseius swirskii for whiteflies, and Phytoseiulus persimilis for spider mites where legal. Maintain strict sanitation, positive pressure if possible, and rotate contact and systemic bioinsecticides according to label to prevent resistance.
Harvest Timing, Drying, And Curing
Harvest timing should follow resin maturity rather than calendar days. For a brighter, racier effect, harvest at mostly cloudy trichomes with <10% amber; for a deeper body effect, wait until 15–25% amber. The Apollo-leaning phenotype often peaks flavor around day 63–66, while the heavier cut can benefit from 66–70 days for full oil development.
Dry whole plants or large branches for 10–14 days at 60°F and 60% RH with gentle air exchange. Avoid blowing air directly on flowers to prevent terpene loss and case hardening. When stems snap rather than bend, finish trim and jar at 58–62% RH with one to two daily burps in week one, tapering in weeks two to four.
Solventless makers should set aside their coldest, frostiest top colas for a separate fresh-frozen harvest if that’s the target product. Freeze within two hours of chop to preserve volatile terpenes and minimize oxidation. For flower, a 4–6 week cure deepens the pepper-fuel complexity in the squat phenotype and polishes citrus in the bright phenotype.
Phenotype Selection, Seed Choice, And Documentation
Because Apollo 710 is a limited, breeder-driven project, expect variability in seed lots across time. Run multi-plant selections and keep clones of top candidates until final smoke tests confirm your keeper. Evaluate on clear criteria: structure, internodal spacing, resin head size, wet and dry aroma, press or wash returns, and subjective effect.
Many growers debate regular versus feminized seed paths when starting a new project. Industry resources cataloged by sites like CannaConnection discuss the pros and cons extensively—regular seeds allow for broader genetic exploration and breeding, while feminized seeds streamline space and time for flower-focused operations. Choose according to your goals and infrastructure rather than trend alone.
Keep meticulous records. Photograph weekly under consistent light, record EC/PPM and pH, log VPD and canopy temperatures, and capture harvest metrics including wet and dry weight, jar RH, and lab results where possible. That dataset will be invaluable when deciding which phenotype earns a permanent spot in the garden.
Concentrates, 710 Culture, And Expected Returns
The 710 in Apollo 710 isn’t just a clever name; it signals a selection bias toward resin abundance and extract suitability. On dry-cure rosin, exceptional phenotypes can return 20–25% from high-grade flower, while average cuts often land 15–20% under correct press parameters. Fresh-frozen solventless yields in the 4–6 star range are realistic with standout material, commonly equating to 3–7% hash yield from input mass.
Hydrocarbon extraction tends to produce higher gravimetric yields, often 18–30% depending on resin maturity and trichome density. The brighter phenotype’s terp structure can translate into exceptionally aromatic live resins and badders, whereas the heavier cut may shine in diamonds-and-sauce formats. For solventless, targeting the 90–120 micron fraction often balances yield and melt quality for this cultivar.
Manage expectations by doing R&D runs before committing large harvests to any one process. Start with 100–200 g test lots, document micron distribution, and compare low-temp versus higher-temp rosin presses. The data you gather will help dial in both product quality and operational efficiency.
Context, Sources, And Data Caveats
Apollo 710’s breeder of record is Riot Seeds, as noted in grower circles and breeder communications. The cultivar’s exact lineage has not been formally disclosed, and that is typical within the craft scene. It aligns with the broader phenomenon of guarded pedigrees and partially unknown genealogies documented in seed databases that even maintain sections for unknown strain lineages.
Because official lab panels for Apollo 710 are limited in public circulation, cannabinoid and terpene ranges herein reflect contemporary hybrid benchmarks observed across North American markets. These benchmarks—such as THC commonly ranging 18–26% and total terpenes often 1.5–3.5% by weight—are consistent with verified lab outputs for resin-forward hybrids under optimized grows. Real-world results depend on phenotype, environment, and post-harvest discipline.
For growers debating seed format and cultivation approach, industry guides like those indexed on CannaConnection’s sitemap highlight foundational topics including feminized versus regular seeds. Such resources are useful for framing choices, but nothing replaces phenotype-specific observation in your room. Treat the figures in this guide as planning targets, then refine with your own measurements over successive cycles.
