Written by Ad OpsIntroduction to KIF+ Autoflowering by BAMA Seeds
KIF+ Autoflowering is an autoflowering cannabis cultivar developed by BAMA Seeds, built on a balanced ruderalis, indica, and sativa foundation. Autoflowering genetics incorporate Cannabis ruderalis to trigger flowering by age rather than photoperiod, enabling reliable seed-to-harvest cycles regardless of light schedule. This design appeals to both first-time growers and experienced cultivators seeking rapid, compact runs with consistent outcomes. The KIF+ name evokes resin-forward cultivation, hinting at a strain selected for trichome density and aromatic complexity.
Because BAMA Seeds developed KIF+ Autoflowering with a ruderalis/indica/sativa heritage, growers can expect hybrid growth traits and versatile effects. The ruderalis component contributes to the auto-timing and resilience, while indica inputs typically add density and body effects. Sativa influence often translates to brighter aromatics and an energetic top note in the effect profile. This balanced lineage positions KIF+ Autoflowering as a flexible choice for daytime creativity that can still settle into evening relaxation.
For context, autos comprise a growing share of seed sales globally due to shorter cycles and compact stature, with many cultivators reporting two to three harvests per season outdoors in temperate climates. Average indoor cycle length for autos is 70 to 90 days, with many modern hybrids achieving potent THC levels comparable to photoperiod strains. KIF+ Autoflowering fits within this modern, potency-forward auto category, while preserving the pragmatic efficiency that defines the format.
Breeding History and Development Timeline
Autoflowering cannabis emerged from the stabilization of ruderalis traits with high-potency indica and sativa lines in the 2000s, then surged in quality during the 2010s as breeders refined resin output and terpene density. BAMA Seeds contributes to this arc with KIF+ Autoflowering, selectively crossing to fix early flowering, branch-to-bud uniformity, and harvest-time consistency. Each generation of selection typically involves culling for rapid onset of pistils (often by days 18 to 25 from sprout), compact internodes, and robust trichome coverage by week 5. The outcome is a cultivar capable of finishing fast without sacrificing modern cannabinoid potential.
The KIF+ label signals a resin-forward phenotype common to advanced autos, where breeders prioritize glandular trichome density per square centimeter. Breeding programs for autos often measure days to first preflower, apical dominance, and variance in mature height; reducing variance is key to predictable canopies. In many commercial auto lines, coefficient of variation in plant height can exceed 20 percent; tightening that window improves light distribution and yield per square meter. BAMA Seeds’ approach with KIF+ Autoflowering appears to focus on narrowing these variances while retaining hybrid vigor.
Growers familiar with autos report that stability in onset time and terminal stretch increases planning accuracy in multi-crop schedules. When a cultivar predictably stretches 25 to 60 percent during early flower, it can be placed into fixed vertical environments without repeated canopy resets. KIF+ Autoflowering belongs to this modern class of autos designed to adhere to a narrow schedule, enabling tight production calendars indoors and rapid succession planting outdoors.
Genetic Lineage and Ruderalis/Indica/Sativa Balance
KIF+ Autoflowering is explicitly noted as a ruderalis/indica/sativa hybrid, which implies a three-way composition with ruderalis providing autoflower timing, indica contributing density and robustness, and sativa supplying aromatics and heady brightness. A working assumption for many contemporary autos is roughly 20 to 40 percent ruderalis, with the remainder split between indica and sativa heritage. While the exact percentages for KIF+ Autoflowering are proprietary to BAMA Seeds, its observed structure suggests an indica-leaning hybrid with sativa-driven top notes in aroma. Such balance typically produces hybrid effects that shift with dose and context.
From a physiological perspective, ruderalis inheritance reduces photoperiod sensitivity by enabling flowering via age-related developmental cues. Indica components often shorten internode spacing and increase calyx-to-leaf ratios, elevating harvest efficiency. Sativa influence can lengthen the terpene spectrum, boosting monoterpenes like limonene and alpha-pinene that contribute to clarity and uplift. Together, this composition matches the profile of autos that finish in under 90 days while remaining resinous and aromatic.
Genetic diversity within autos can produce phenotypic splits, especially in terminal height and bud density. In practice, the best auto lines reduce phenotype spread to under 25 percent difference in final height across plants started the same day. KIF+ Autoflowering is positioned to achieve that kind of uniformity, making it suitable for single-height scrogs and uniform trellis setups where even canopy development matters.
Plant Morphology and Visual Appearance
KIF+ Autoflowering typically presents as a medium-height auto with a compact to moderately branching structure. Under standard indoor conditions, plants often reach 60 to 100 centimeters in height, with a stretch factor of 1.25x to 1.6x after preflowers emerge. Internodes are short to medium, enabling dense bud stacking along main and secondary colas. Leaves lean hybrid—broad like indica near the base, with narrower blades on upper growth as flowering advances.
Bud morphology favors dense, golf-ball to torpedo-shaped flowers with high calyx-to-leaf ratios that trim efficiently. Trichome coverage is one of the standout features, with visible frost layering by weeks 5 to 6 from sprout in dialed environments. Anthocyanin expression can appear in cooler night temperatures, producing lavender flecks on sugar leaves in some phenotypes. Pistils usually begin cream to tangerine and darken to copper as terpenes concentrate late in flower.
Visual maturity cues include opaque to cloudy trichomes by days 60 to 70 from sprout in many grows, with amber percentages rising steadily thereafter. Yield density varies with lighting and nutrition, but KIF+ Autoflowering responds predictably to strong light and balanced EC, resulting in tight bud formation. Plants maintain a tidy footprint, making them well-suited to 3- to 5-gallon fabric pots and 40 to 60 centimeter spacing in intensive indoor layouts.
Aroma and Bouquet
The aroma profile of KIF+ Autoflowering leans resinous, with a layered bouquet that often includes sweet-spicy top notes followed by earthy resin and citrus. Growers commonly report a blend reminiscent of cracked pepper, sweet lemon rind, and damp forest floor, pointing toward a caryophyllene, limonene, and myrcene ensemble. Freshly abraded flowers can release a pine-forward, herbal edge, suggesting alpha-pinene and terpinolene in minor proportions. Late-flower jars emit a sugary, hash-like sweetness that aligns with the strain’s name.
Aromatics usually intensify between days 50 and 70 from sprout as terpene biosynthesis peaks, particularly when night temperatures are maintained near 20 to 22 Celsius. Total terpene content in well-grown autos often falls in the 1.0 to 3.0 percent by weight range, and KIF+ Autoflowering is expected to align with this. Drying conditions dramatically influence the nose; excessive heat or rapid drying above 25 Celsius can drive terpene losses over 30 percent. Retaining terpenes requires slow drying at 60 Fahrenheit and 60 percent relative humidity for 10 to 14 days.
Grind aroma brings out brighter citrus and pepper tones, which translate to a mouth-watering fragrance when rolled or packed. For stealth grows, a carbon filter rated for 350 to 500 cubic meters per hour per 4x4-foot tent is advisable, as mid-late flower odor is assertive. Filter performance typically declines by 10 to 20 percent across a 12-week cycle, so having a filter backup improves odor control during peak weeks.
Flavor and Palate
On the palate, KIF+ Autoflowering tends to open with sweet citrus and herbal zest, followed by warming pepper and a resinous, hashish-like finish. Vaporization at 175 to 185 Celsius highlights limonene-driven lemon candy tones, while higher temperatures around 200 Celsius reveal caryophyllene’s spicy depth. Combustion maintains the sweet-spicy signature but can mute subtler pine elements compared to vaporization. A clean flush during the final 7 to 10 days helps preserve the delicate top notes and reduces harshness.
Terpene retention is strongly correlated with curing practices, and KIF+ Autoflowering responds well to slow cures in airtight glass jars. Ideal curing maintains jar headspace humidity at 58 to 62 percent, with daily burping during the first two weeks. Achieving a final moisture content near 10 to 12 percent with water activity around 0.55 to 0.65 minimizes mold risk while preserving volatility. Flavor depth typically peaks around weeks 4 to 6 of cure, where the peppery-sweet profile rounds into a smooth, dessert-like finish.
Paired experiences include herbal teas with citrus zest, chocolate with black pepper, or simple sparkling water to clear the palate. Users sensitive to peppery profiles often note the smoothing benefits of a terpene-friendly lower-temp vaporizer setting. The resin-forward finish stands up well in hash and rosin production, preserving its core flavor even after mechanical or heat-based processing.
Cannabinoid Profile and Potency Metrics
As with many modern autos, KIF+ Autoflowering is expected to exhibit THC-dominant chemotypes, with reported THC ranges commonly falling between 18 and 22 percent in optimized grows. CBD content is typically low, often under 1 percent, while minor cannabinoids like CBG can appear in the 0.3 to 1.0 percent range. Total cannabinoids can reach 20 to 25 percent under strong light and proper nutrition, aligning with the best of current autoflowering offerings. Variability is normal in autos, and environment can shift potency by several percentage points.
Cannabinoid expression correlates with light intensity and spectrum, with blue-rich light supporting compact morphology and red-heavy light promoting floral biomass. Indoor PPFD between 600 and 900 micromoles per square meter per second across 18 to 20 hours can yield daily light integrals of 39 to 65 mol per square meter per day, adequate for high-potency autos. Nutrient electrical conductivity in the 1.6 to 2.0 mS per cm range during peak flower supports resin production without excessive salt stress. Late-harvest windows that carry 10 to 20 percent amber trichomes often produce a slightly heavier effect profile.
Potency testing should target decarboxylated totals for consistency across lab methods. For growers in regulated markets, sample size of at least 1 gram homogenized flower per batch and triplicate runs improve statistical reliability. Inter-lab variance for THC can range from 5 to 10 percent relative due to methods and calibration, so repeated testing is advisable when establishing marketing ranges.
Dominant Terpenes and Minor Volatiles
KIF+ Autoflowering’s terpene profile is expected to be led by beta-caryophyllene, limonene, and myrcene, a trio common in hybrid autos that deliver pepper, citrus, and earthy sweetness. Typical concentrations might include caryophyllene at 0.2 to 0.6 percent, limonene at 0.2 to 0.5 percent, and myrcene at 0.3 to 0.9 percent by weight, depending on environment. Supporting terpenes may include alpha-pinene (0.05 to 0.2 percent), linalool (0.05 to 0.15 percent), and humulene (0.05 to 0.2 percent) that add herbal, floral, and woody nuances. Total terpene content of 1.5 to 2.5 percent is a realistic target in carefully dried and cured flowers.
Terpene expression is sensitive to temperature, nutrient balance, and harvest timing. Maintaining late-flower night temperatures under 22 Celsius reduces terpenoid volatilization, and minimizing mechanical handling preserves glandular heads. Sulfur-based foliar applications after week three of flower can taint flavor; avoiding them protects the terpene bouquet. Using living soil or microbially active coco blends may increase terpene intensity by enhancing micronutrient availability.
Minor volatiles such as esters and ketones contribute to sweetness and mouthfeel. Although present in trace amounts, they can influence perceived quality, especially after cure. Storing finished flower in opaque containers at 15 to 18 Celsius slows terpene oxidation, with data showing terpene losses of 25 to 40 percent over six months in room-temperature clear jars versus 10 to 20 percent in cool, opaque storage.
Experiential Effects and User Reports
KIF+ Autoflowering’s hybrid effects typically begin with clear-headed uplift and sensory brightness, followed by a warm body relaxation that remains functional at moderate doses. Inhalation onset is usually 5 to 10 minutes, with peak effects at 30 to 45 minutes and a total duration of 2 to 3 hours. Many users describe mood elevation and focus during the first hour, transitioning into a calmer, grounded state suitable for evening wind-down. Higher doses may tilt toward couch-friendly relaxation with a gentle, dreamy finish.
Common reports include enhanced appreciation for music, light euphoria, and a smooth comedown without excessive sedation. Scattered individuals sensitive to limonene-forward profiles may experience brief, energetic stimulation that pairs well with creative tasks. With edibles, onset times extend to 45 to 120 minutes and effects can last 4 to 8 hours or more, necessitating careful dose titration. A start-low approach—2.5 to 5 milligrams THC—is prudent for new consumers.
Side effects are typical for THC-dominant cannabis: dry mouth, dry eyes, and, at high doses, transient anxiety or racing thoughts in some users. Hydration, paced dosing, and setting intention reduce the likelihood of discomfort. Individuals with sensitivity to strong sativa-like onset may prefer evening use or vaporizer temperatures under 185 Celsius to emphasize calming components.
Potential Therapeutic and Medical Applications
The hybrid profile of KIF+ Autoflowering suggests potential utility for stress reduction and mood support, largely attributable to THC interacting with endocannabinoid signaling. Observational data and controlled trials have documented THC’s analgesic potential in chronic pain, with meta-analyses indicating small to moderate effect sizes compared to placebo. The presence of beta-caryophyllene, a dietary cannabinoid that binds to CB2 receptors, may modulate inflammatory pathways in preclinical models. Limonene and linalool are frequently associated with anxiolytic and mood-lifting effects in aromatherapy literature, though human cannabis-specific data remain limited.
For sleep, many hybrid THC-dominant strains support sleep onset at higher doses, especially when harvested with 10 to 20 percent amber trichomes. Myrcene is commonly linked with perceived sedation in user reports, though controlled evidence is mixed, and effects likely arise from multi-compound synergy. Low CBD content suggests less counterbalancing of THC’s psychoactivity, so sensitive individuals may benefit from pairing with CBD-rich products for a gentler experience. Always consult a clinician when using cannabis for medical conditions, particularly if taking other medications.
Patients with nausea, appetite loss, or neuropathic pain frequently report benefit from THC-dominant products. Edible preparations of KIF+ Autoflowering can provide longer-lasting coverage for nocturnal symptoms, but careful titration is key to avoid overconsumption. Clinical best practices recommend starting with 1 to 2.5 milligrams THC in naive users and increasing by small increments every 2 to 3 days until desired effects are reached.
Cultivation Guide: Germination to Harvest
Germination rates for quality autoflowering seed often exceed 90 percent when temperature and moisture are stable. Use a moistened paper towel or direct sowing into starter plugs at 24 to 26 Celsius with high humidity around 80 to 95 percent. Seedlings typically emerge in 48 to 72 hours, and roots should be transplanted promptly to avoid early stress. Because autos have a fixed lifecycle, minimize transplant shock by sowing into final containers whenever possible.
Vegetative growth is compressed in autos, often lasting 2 to 3 weeks before preflowers appear by days 18 to 25. Light schedules of 18 hours on and 6 hours off or 20 on and 4 off support rapid development; a rest period helps respiration and root growth. Aim for PPFD of 350 to 500 micromoles per square meter per second in early veg, stepping up to 600 to 900 by early flower. Maintain temperatures at 24 to 28 Celsius day and 20 to 22 Celsius night, with relative humidity of 60 to 70 percent in seedling and 55 to 65 percent in veg.
Flowering initiates automatically, with stretch peaking around days 28 to 40 in most phenotypes. Reduce humidity to 50 to 55 percent in early flower and 45 to 50 percent in late flower to deter botrytis. Keep VPD near 0.9 to 1.2 kPa in veg and 1.2 to 1.6 kPa in flower for optimal gas exchange. Typical seed-to-harvest time for KIF+ Autoflowering is expected to range from 70 to 90 days depending on phenotype, light intensity, and nutrition.
Harvest readiness is best judged by trichome color and overall plant health. For a hybrid effect, many growers target mostly cloudy trichomes with 10 to 15 percent amber. For a more sedative result, allow 15 to 25 percent amber while watching for terpene fade. Flush by supplying balanced water or low-EC solution for 7 to 10 days before harvest in coco or hydro, or taper nutrients in living soil.
Indoor Cultivation Parameters and Yield Optimization
Indoors, KIF+ Autoflowering thrives in 3- to 5-gallon fabric pots with well-aerated media, such as 70 percent coco coir and 30 percent perlite or a high-quality living soil with ample aeration. EC guidelines start at 0.6 to 0.8 mS per cm for seedlings, 1.2 to 1.6 in veg, 1.6 to 1.8 in early flower, and up to 2.0 in mid-late flower if plants are not showing tip burn. Maintain solution pH of 5.8 to 6.2 in coco and 6.2 to 6.8 in soil. Target runoff of 10 to 20 percent to prevent salt buildup in inert media.
Lighting intensity strongly drives yield. Deliver PPFD around 600 to 900 micromoles per square meter per second over 18 to 20 hours to achieve daily light integrals of roughly 39 to 65 mol per square meter per day. With sufficient PPFD and stable environment, indoor yields for modern autos commonly reach 400 to 550 grams per square meter, and experienced cultivators can exceed these ranges. Individual plant yields often fall between 60 and 150 grams dry per plant in 3- to 5-gallon containers.
Airflow and CO2 availability influence both biomass and trichome development. Oscillating fans positioned above and below the canopy reduce microclimates, lowering disease risk. If enriching CO2, maintain 900 to 1,200 ppm during lights on, which can increase yields by 15 to 30 percent when PPFD exceeds 800 micromoles and all other parameters are dialed. Ensure that enrichment ceases during dark periods to conserve gas and prevent waste.
Outdoor and Greenhouse Strategies
Outdoors, KIF+ Autoflowering benefits from full sun, achieving strong terpene synthesis under daily light integrals above 40 mol per square meter during peak summer. Autos allow multiple cycles per season; in temperate zones, many growers execute two to three runs from late spring through early fall. Expect heights of 70 to 110 centimeters outdoors with good soil and direct sun, with yields of 40 to 180 grams per plant depending on pot size and season length. Larger fabric pots, 25 to 50 liters, buffer against heat and moisture swings.
Planting strategy should minimize transplant shock. Direct sowing into final containers or transplanting at day 7 to 10 from sprout reduces growth pauses that cut final yield. In hot climates, mulching and morning watering maintain consistent root-zone moisture and temperature. Greenhouses extend shoulder seasons, offering frost protection and humidity control during flowering.
Pest pressure is higher outdoors; integrated pest management should start early. Sticky cards, weekly leaf inspections, and preventative biologicals like Bacillus thuringiensis for caterpillars and Beauveria bassiana for broad-spectrum control reduce outbreaks. Avoid heavy foliar sprays after week three of flower to preserve trichomes and prevent residue.
Nutrient Management, pH, and Watering
KIF+ Autoflowering performs best with balanced macronutrients and sufficient calcium and magnesium. A general ratio of 3-1-2 NPK in veg and 1-2-3 in bloom aligns with plant demand, while maintaining 80 to 120 ppm calcium and 40 to 60 ppm magnesium supports cell structure and chlorophyll function. Potassium demand rises in mid-late flower, often peaking at 200 to 300 ppm without causing antagonism. Monitor for tip burn and leaf clawing as early signs of overfeeding.
pH management is critical for nutrient uptake. In coco and hydroponics, maintain 5.8 to 6.2; in soil, 6.2 to 6.8. Allow minor pH swing within that window to broaden availability of microelements like iron, manganese, and zinc. Regularly calibrate pH pens and avoid stale nutrient solutions that can drift.
Watering frequency depends on media. In coco, daily irrigation once or twice per day in late flower maintains steady EC and oxygenation, targeting 10 to 20 percent runoff. In soil, water to slight runoff every 2 to 3 days, allowing the top 2 to 3 centimeters to dry between events. Overwatering reduces root oxygen and can slash yields; a simple weight check of pots prevents misjudgment.
Silica supplements at 50 to 100 ppm monosilicic acid equivalent strengthen cell walls and improve stress tolerance. Amino acid chelates can enhance micronutrient uptake during stressful transitions. Avoid high-urea nitrogen late in flower to keep ash clean and flavors crisp.
Training, Canopy Management, and Pruning
Because autos have a fixed clock, training must be gentle and timely. Low-stress training during days 14 to 28 from sprout is the safest approach, bending the main stem and securing side branches to widen the canopy. Light topping at the third node can work in vigorous phenotypes if done early, but it can reduce yield if the plant stalls. Many growers prefer a single tie-down and selective leaf tucking to expose bud sites without inducing stress.
Defoliation should be conservative. Removing 10 to 20 percent of large fan leaves around day 25 to 35 can open the canopy, but avoid heavy stripping that slows growth. A single-layer trellis or soft plant ties organize branches and prevent leaning during late flower. By maintaining even canopy height, light distribution improves, boosting grams per watt.
Canopy uniformity also reduces microclimates that foster powdery mildew and botrytis. Keep 20 to 30 centimeters of clearance between the canopy and lights, adjusting per fixture type. For LEDs with strong center intensity, aim for 600 to 900 micromoles per square meter per second at canopy level, validated with a PAR meter or reliable map from the manufacturer.
Pest, Disease, and Stress Management
An integrated pest management program for KIF+ Autoflowering should combine prevention, monitoring, and targeted interventions. Begin with clean starting media, sterilized tools, and intake filtration on indoor tents or rooms. Deploy sticky cards and inspect leaf undersides weekly for mites, thrips, and aphids. Threshold-based responses prevent unnecessary sprays while keeping populations below economic injury levels.
Biological controls are effective for common pests. Phytoseiulus persimilis targets spider mites, while Amblyseius swirskii and cucumeris help with thrips. For fungal issues, potassium bicarbonate or Bacillus subtilis-based biopesticides can treat powdery mildew in early stages. Maintain VPD within suggested ranges and prune overcrowded growth to reduce humidity pockets.
Environmental stress is a leading cause of yield loss in autos. Temperature swings over 8 Celsius between day and night can induce stretch and reduce resin output. Light stress from excessive PPFD above 1,000 micromoles without CO2 enrichment can bleach tops; raise lights or dim fixtures to avoid photoinhibition. Salt stress reveals as leaf tip burn and lockout; corrective flushes with balanced pH water and moderate EC restore balance.
Harvest Timing, Drying, and Curing
Harvest KIF+ Autoflowering when trichomes are mostly cloudy with your desired fraction of amber, typically between days 70 and 90 from sprout. Examine calyx trichomes with a 60x loupe rather than sugar leaves, which often amber earlier. Pistil color is supportive but not definitive; target overall plant vitality and aroma maturity. A staged harvest—removing top colas first—can allow lower buds a few extra days to ripen.
Dry whole plants or large branches at 60 Fahrenheit and 60 percent relative humidity for 10 to 14 days. Gentle airflow should cause a faint leaf rustle without directing air on buds. When small stems snap rather than bend, move to cure. Trim either wet or dry based on preference; dry trimming tends to preserve more terpenes but requires careful handling.
Cure in glass jars filled to 70 to 80 percent of volume, with humidity packs to maintain 58 to 62 percent RH. Burp daily for the first 10 to 14 days, then weekly for the next month. Aim for stable water activity of 0.55 to 0.65 and a final moisture content near 10 to 12 percent. Properly cured flower maintains quality for 6 to 12 months in cool, dark storage, with slower terpene decline compared to warm or brightly lit spaces.
Compliance, Testing, and Post-Harvest Analytics
Where testing is required, submit representative samples that reflect the entire batch, including top and mid-canopy buds. Homogenization before testing improves accuracy; sample mass of 1 to 3 grams is standard in many labs. In addition to cannabinoids, request terpene profiling to quantify caryophyllene, limonene, myrcene, and supporting terpenes. Consistent lab partners reduce inter-lab variance, improving trend analysis over multiple runs.
Microbial and heavy metal screens may be mandated in regulated markets. Keep drying rooms clean, monitor water activity to deter mold, and avoid contaminated inputs that can introduce lead, cadmium, or arsenic. Proper IPM and post-harvest hygiene are better than remediation; ozone and UV can damage terpenes and should be used cautiously if at all. Document batch parameters—EC, pH, PPFD, temperature, RH—to correlate with lab outcomes for continuous improvement.
For extractors, KIF+ Autoflowering’s resinous morphology is well-suited to solventless and hydrocarbon extraction. Wash temperatures of 0 to 4 Celsius and careful agitation protect trichome heads in ice water hash. Yields vary widely, but well-grown resin-forward autos can achieve 3 to 5 percent hash yield and higher in standout phenotypes. Caryophyllene-rich profiles often translate robustly into rosin with peppery-sweet depth.
Conclusion and Grower Takeaways
KIF+ Autoflowering from BAMA Seeds blends ruderalis reliability with hybrid potency, delivering a resin-rich plant that finishes quickly and fits in tight spaces. Expect 70 to 90 days seed to harvest, medium stature, and yields that scale with light intensity and environmental stability. Aromas and flavors lean sweet-citrus and pepper-spice over an earthy resin base, supported by a caryophyllene, limonene, and myrcene terpene ensemble. Potency is typically THC-dominant, with total cannabinoids often reaching into the low 20s percent when grown well.
Success with KIF+ Autoflowering hinges on gentle training, balanced nutrition, and consistent climate. Keep PPFD between 600 and 900 micromoles per square meter per second, manage VPD within target ranges, and avoid high-stress techniques after week three. Plan your harvest by trichome maturity, dry slow at 60-60, and cure with discipline to protect terpenes. With these practices, KIF+ Autoflowering delivers fast, flavorful, and potent results across indoor, outdoor, and greenhouse environments, true to its BAMA Seeds ruderalis/indica/sativa heritage.
