The Four Forces of FUTURE SOIL®: Rebuilding the Ground Beneath Us

Soil isn’t just dirt – it’s living infrastructure that our farms, gardens, and environment rely on. After decades of heavy use and climate extremes, many soils have lost their structure, biology, and capacity to hold water. FUTURE SOIL® steps in not as a single product, but as a four-product liquid platform designed to rebuild the ground beneath us. These four forces – FUTURE SOIL® LIQUID BIOCHAR, CLAY BREAKER, SAND LEVEL, and WOOD VINEGAR – work in harmony to restore soil structure, revive soil biology, and supercharge water retention. Each is a liquid innovation tackling a different soil challenge, yet together they form a breakthrough approach to regenerating soils from the bottom up. Below, we explain each product’s science, typical uses, and real-world results proving their impact.

FUTURE SOIL® LIQUID BIOCHAR

FUTURE SOIL® LIQUID BIOCHAR is “the only exact black - flowable biochar mineral complex on Earth, turning lifeless soil into a high-CEC, biologically active medium while delivering slow-release nutrition” . In other words, it’s a liquid form of biochar – tiny carbon particles suspended in a solution with added nutrients and microbes. Biochar has long been celebrated for its ability to retain moisture, bind nutrients, and foster microbial life. By making it liquid, FUTURE SOIL® has created a “soil-reprogramming technology powered by carbon, biology, and science” . Each droplet carries millions of microscopic carbon particles and plant-derived compounds that transform how soil holds water and nutrients, turning dry, tired ground into living, fertile earth .

How it works: Liquid Biochar works on multiple fronts to regenerate soil:

• Bio-Active Carbon Matrix: Porous carbon particles act like micro-sponges and batteries, storing water and nutrients while providing habitat for beneficial microbes . This carbon matrix improves soil’s cation exchange capacity (CEC), meaning the soil can hold and exchange more nutrients and moisture .
• Hydrophobic Soil Fix: The formulation “re-charges and re-opens hydrophobic surfaces, restoring long-lasting capillary flow” . In practical terms, it can recondition water-repellent soils (like dried-out sands or crusted topsoil) so they absorb and distribute water evenly again.
• Biostimulation and Nutrients: Alongside carbon, it contains plant-available nutrients (NPK 1-2-1) and bio-organic compounds. These phenolic and lipid compounds stimulate root growth and help protect against stress . The balanced nutrients spur strong root establishment and steady growth, while reducing fertiliser losses through leaching .
• Water Efficiency and Carbon Storage: By improving soil structure and moisture retention, Liquid Biochar can cut irrigation needs by up to 40% while preventing nutrient runoff . The stable bio-carbon it deposits remains in soil for decades, building long-term fertility and even adding carbon sequestration value .

Where it’s used: FUTURE SOIL® Liquid Biochar is extremely versatile. It benefits farmers, turf managers, landscapers, and gardeners alike by lifting soil performance in many conditions . For example, sports turf and golf courses in heat/drought see more uniform growth and require less water when treated with Liquid Biochar . In broadacre cropping and pastures, it is applied early to build soil moisture resilience and boost nutrient efficiency . It even helps in desert agriculture, turning blowing sands into stable, water-retentive soils and aiding large-scale re-vegetation programs . Home gardeners use it to revive compacted beds and extend watering intervals for healthier plants . In land rehabilitation projects, Liquid Biochar restores structure in dispersive or mined soils to establish vegetation faster and control erosion . Wherever soil is tired, dry or low in organic matter, this jet-black elixir brings it back to life.

Real-world results: The science sounds impressive, but what does it mean for growth and yields? Field and lab studies show dramatic improvements:

• In a NSW pasture trial, adding Liquid Biochar increased pasture yield by +44% (27.9 vs 19.3 tonnes/ha) compared to control, when used alongside fertiliser . Soil carbon in the vicinity of the biochar treatment increased by 24.5%, indicating not just improved growth but also significant carbon build-up in the soil . These pasture trials (conducted in collaboration with Australian researchers) also found enhanced microbial activity and nutrient uptake in the treated soils – clear evidence of a soil life revival.
• In a controlled wheat pot study, Liquid Biochar boosted total plant biomass by +73% over untreated soil . The treated soil held 18% more water at field capacity, confirming the carbon matrix creates pore spaces that act as water reservoirs . Treated plants developed denser roots and higher chlorophyll, using nutrients more efficiently and suffering less water stress . Even a small dose of Liquid Biochar transformed soil function and plant performance in this trial .
• From greener turf to higher crop yields, Liquid Biochar’s ability to “turn soil into a sponge and microbial habitat” is delivering results . It truly acts as the foundation of FUTURE SOIL®’s liquid soil infrastructure – laying down carbon, pores, and life to build on.

*Illustration: FUTURE SOIL® Liquid Biochar being applied – a jet-black, carbon-rich liquid that delivers “terra preta” soil benefits in every drop, transforming dry dirt into fertile soil.

 

FUTURE SOIL® CLAY BREAKER

Heavy clay soils present the opposite challenge of sands – they’re too dense, sealing up and drowning roots. FUTURE SOIL® CLAY BREAKER is a “world-first high-load cationic and non-ionic clay treatment that fractures stubborn hardpans in days, not seasons, opening the soil to water, air, and roots far beyond gypsum’s reach” . In simpler terms, it’s a liquid alternative to gypsum that can break up compacted or sodic clay quickly and deeply. Traditional gypsum takes years to leach down through clay, and wetting agents only address surface water. Clay Breaker instead delivers a one-two chemical punch: a cationic charge to rip clay clusters apart and a non-ionic surfactant to drive the treatment through the soil profile . The result is clay soil transformed into a friable, “open” condition that stays open.

How it works: FUTURE SOIL® Clay Breaker works by physically and chemically restructuring clay soil:

• The cationic phase introduces positively charged molecules that attach to the negatively charged clay particles. This immediately displaces sodium (which causes sodic clay to disperse and seal) and binds clay particles into new aggregates (crumbs) . In essence, it glues tiny clay platelets into larger, stable crumbs that create pore space.
• The non-ionic phase acts as a penetrant and surfactant, lowering water’s surface tension so the solution can move through compact layers . This carries calcium (from any co-applied gypsum or existing soil minerals) deeper into the profile than dry gypsum would reach . By driving water, air and nutrients into formerly sealed soil, Clay Breaker ensures the entire root zone is treated, not just the surface.
• As the treated clay dries after application, the newly formed micro-aggregates “set” in place. The soil gains a stable crumb structure that resists re-compaction or re-sealing . In other words, once you “open” the clay with this treatment, it tends to stay open, unlike temporary fixes. Growers describe it as “letting your soil out of clay jail,” as the ground can finally breathe and drain freely.

Where it’s used: Clay Breaker is ideal anywhere you have hard, compacted, or sodic clays that stifle plant growth. This includes clay-based farm fields, paddocks, orchards, sports grounds, and even construction or mine sites with heavy clay subsoil. Farmers use it as a “liquid gypsum” replacement to fix sodicity and waterlogging much faster than waiting for tons of gypsum to dissolve . It’s safe on turf and crops, so sports turf managers apply it to fix localized dry spots or poor drainage areas on golf greens and fields. Vignerons and orchardists apply it in vine rows to improve infiltration and root depth in clayey soils. Essentially, if you have crusting, surface water pooling, shallow roots or runoff on clay, this product is “the breakthrough liquid that frees compacted, sodic, or hard-setting clay”, rebuilding it from within .

Real-world use cases: FUTURE SOIL® Clay Breaker has already proven itself in the field with striking improvements:

• At a vineyard in Yering, VIC, a heavy clay was treated to compare against control rows. Field core samples showed rapid infiltration improvement and visible soil restructuring within 12 weeks . The treated vine rows developed deeper root systems, stronger shoot vigour, and retained soil moisture longer than untreated rows . This demonstrates how quickly Clay Breaker can turn a compacted vineyard soil into one that vines can fully explore.
• In the Gawler River region of SA, potato growers faced hard-setting grey clay beds. After a single Clay Breaker drench, soil compaction (penetration resistance) dropped from 2.4 MPa to 1.2 MPa in 45 days – effectively halving the hardness of the soil. With softer soil and better aeration, potato roots were able to penetrate deeper, resulting in improved tuber set and more uniform potatoes across the beds . Farmers also reported easier tillage and higher moisture retention in the treated plots .
• In a core test on a dense subsoil clay in Heathcote, VIC, a single heavy application transformed what was a 20 mm thick surface hardpan into 280 mm of friable soil within 12 weeks . Remarkably, within just 14 days the upper 28 cm had already re-structured into an open, moist, root-friendly profile, with new roots quickly following the improved porosity . This kind of rapid deep conditioning is virtually impossible with traditional amendments, highlighting Clay Breaker’s power.
• Even in controlled trials, the product shines. In a Soil CRC research pot trial on sodic clay, Clay Breaker cut clay dispersion (an indicator of sodicity) by 68% in the 10–20 cm layer and 34% in the 20–45 cm layer . The treated plants grew +73% more shoot biomass, and their photosynthetic performance (leaf health) was 16% higher than untreated, thanks to the improved soil structure .

Such results back up the claim that Clay Breaker works “in days, not seasons”, creating lasting structure deep in the soil . It permanently opens up heavy ground, allowing roots, rain, and biology to penetrate where previously nothing moved. Notably, it can be used in tandem with gypsum or lime – rather than replacing them outright, it often carries these inputs deeper and makes them work faster . This synergistic use can save money and time, since less gypsum is wasted at the surface. Clay Breaker is truly a modern tool for age-old clay problems, turning dense, lifeless ground into living, breathing earth .

Illustration: Before and after clay treatment and drainage restored

FUTURE SOIL® SAND LEVEL

At the other end of the spectrum from clays are sandy soils – fast-draining profiles that won’t hold water or nutrients. FUTURE SOIL® SAND LEVEL is “a breakthrough cationic liquid for fast-draining sands and dispersive ‘quicksand’ clays” that binds soil particles, slows infiltration, and locks moisture where roots need it . Essentially, Sand Level is a specialized soil surfactant and “moisture leveller” engineered to make loose sand behave more like a rich loam. Unlike conventional wetting agents (which are usually non-ionic and temporary), Sand Level uses permanent cationic bonding to give sand grains an electrostatic grip on water . It also flocculates (clumps) any fine clay or silt particles present, creating a thin “microfilm” on each grain that holds moisture and nutrients in place .

How it works: When applied to sandy or structurally unstable soils, Sand Level’s positively charged molecules attach firmly to the negatively charged surfaces of sand and clay particles . This does two important things simultaneously:

• It forms a silica-like coating on sand grains that increases friction between particles . On coarse sand (which normally has big pores that water rushes through), this microscopic film effectively “grips” water molecules and slows their downward flow . Instead of rain or irrigation draining straight past roots, the water hangs around longer in the root zone.
• The cationic sites also flocculate fine particles – if there are dispersed clays or silts making a sand behave like quicksand when wet, Sand Level will neutralize their charge and lock them into the sand matrix . This prevents that “soupy” collapse and creates a more cohesive structure. The treated soil develops a stable, uniform surface that resists collapse, slumping, or erosion. It still drains (preventing waterlogging) but “not too fast” – achieving a balanced infiltration that holds moisture and nutrients for plant uptake .

In effect, FUTURE SOIL® Sand Level turns loose sand into structured soil. The top few inches act like a sponge rather than an hourglass. This is why the product is described as “not a polymer, not a wetting agent, but a liquid soil-engineering system” that permanently changes soil behaviour . There are no gels or residues involved – just a clean electrostatic binding, so it doesn’t degrade or clog soil pores over time . One treatment can last a whole season or longer, until the soil is disturbed or new untreated sand is added .

Where it’s used: Sand Level is a boon anywhere soils drain too quickly or suffer erosion due to instability. Key use cases include:

• Turf, Golf Courses & Sports Fields: Many high-end sports surfaces are built on sand for drainage, but this leads to dry spots and intensive watering. Sand Level is used on golf greens, fairways, and athletic fields to keep moisture in the root zone longer and prevent patchy dry-out. It’s been shown to reduce irrigation needs by up to 40% and eliminate localized dry spots, creating uniform moisture across the turf . Treated turf remains firm (no squelchy mud) but holds enough water that greens stay green and recover faster from traffic.
• Landscape & Civil Rehabilitation: On slopes, road embankments, or construction sites with dispersive soils, Sand Level helps stabilise the surface and prevent erosion. Mixed into hydroseeding slurry or sprayed after seeding, it binds the soil and seed together. This yields better seed-to-soil contact, higher germination (strike) rates, and stops precious topsoil or mulch from washing off . For example, in revegetation projects, using Sand Level has prevented wash-outs on hydrophobic sandy slopes by creating a cohesive surface skin.
• Desert & Arid Agriculture: In desert greening trials, Sand Level allowed crops and turf to establish in what were essentially dunes. By slowing percolation in coarse sand and reducing leaching of salts, it makes previously non-viable soils capable of supporting vegetation . It’s even compatible with drip irrigation and fertigation, meaning large-scale desert farms can integrate it to save water.
• Nurseries & Horticulture: In potting mixes, greenhouses or tree nurseries, Sand Level prevents fast-draining media (like coco coir or sandy mixes) from drying unevenly. It stops channeling in drip-irrigated pots and maintains an airy yet moist root zone . Growers report more consistent moisture and less frequent watering in propagation trays and container plants after using Sand Level.
• Coastal & Public Lawns: Parks on sandy soils often suffer from loose, dusty ground and salt-laden runoff. Sand Level gives these areas a firmer, cohesive soil that stands up to foot traffic and wind, while reducing watering frequency . The result is healthier turf in resorts or beachfront lawns, with uniform colour and density instead of dry patches .

Measured results: The impact of Sand Level has been quantified in various trials:

• In a tomato field trial in Lisbon (2023), adding Sand Level (200 L/ha via drip lines) boosted tomato yields by +24% compared to untreated plots . Soils retained moisture better and plants needed watering less often for the same vigor .
• At an almond orchard in Bannerton, VIC, Sand Level was applied through fertigation (200 L/ha). The sandy-loam soil saw a +61.9% increase in steady-state infiltration rate – meaning it could absorb water more evenly, without dry spots causing uneven soak-in . Nutrient leaching dropped significantly (−32.5% nitrate, −40.9% phosphate leaching), showing that fertilisers stayed in the root zone instead of washing out . The treated almond trees even had slightly cooler canopy temperatures (1.6 °C lower), likely due to improved water availability in soil .
• On sugarcane furrows in Queensland, a banded application of Sand Level cut the irrigation set time by 35% while achieving uniform wetting all the way down each furrow . Essentially, water flowed and soaked more efficiently, saving time and water.
• For sports turf (Murray Bridge, SA), two passes of Sand Level (100 L/ha total) yielded +24–31% higher soil moisture in the 0–75 mm root zone and reduced dry patch area by half within a month . Groundskeepers observed more uniform turf growth and cooler surface temperatures during summer stress .

These numbers underline that Sand Level isn’t just a theoretical fix – it measurably changes soil’s water dynamics and plant outcomes. By using it in combination with Liquid Biochar, users can achieve even greater effect: Sand Level slows the water so that Liquid Biochar’s carbon can fully work its way in and build long-term structure . This tag-team has been used to turn literal beach sand into productive soil in trials, proving the concept of “engineering soil in a bottle” is very much a reality.

FUTURE SOIL® WOOD VINEGAR

The fourth component of the FUTURE SOIL® platform addresses the biological and ecological side of soil restoration. FUTURE SOIL® WOOD VINEGAR is a “100% natural smoke extract” – essentially a liquid distilled from the smoke of clean wood biomass . Also known as pyroligneous acid, wood vinegar contains a cocktail of organic acids (like acetic acid), phenols, and esters that are produced when wood is charred. Remarkably, these are the same types of compounds that trigger flushes of new growth in forests after a fire . Thus, Wood Vinegar acts as a potent bio-stimulant: “rich in acetic acid, phenols and esters… it reactivates soil biology and accelerates plant development” . In the FUTURE SOIL® lineup, Wood Vinegar’s role is to wake up dormant soils, boost root growth, and enhance nutrient uptake and pest resistance naturally .

How it works: Wood Vinegar improves plant and soil health through multiple mechanisms:

• Growth Stimulation: At low concentrations, wood vinegar promotes cell division and root elongation. Growers find it stimulates more robust root systems, shoots, flowers, and fruit set . It’s like giving plants a gentle tonic – studies have shown improved germination and seedling vigor when seeds or cuttings are soaked in diluted wood vinegar . This leads to faster establishment and growth.
• Microbial Balance: Wood vinegar can selectively encourage beneficial soil microbes (such as certain bacteria and fungi) while suppressing some pathogenic microbes and soil-borne diseases . This helps create a healthier rhizosphere environment. Farmers have used it to reduce incidences of root rot and damping-off in seedlings by applying it to soil or as a seed treatment.
• Nutrient Uptake: Wood vinegar appears to improve plants’ ability to absorb and utilize nutrients. It likely does this by both chelating some nutrients in soil and by stimulating root hairs. The result is better uptake of fertilizers already in the soil – essentially getting more growth per unit of NPK . This is particularly useful in organic systems or when trying to reduce chemical fertiliser inputs.
• Natural Pest & Disease Deterrent: In higher concentrations (sprayed on foliage), wood vinegar can act as a mild natural pesticide and fungicide. It’s noted to deter certain insects and inhibit fungal spores, reducing pest pressure without synthetic chemicals . It won’t solve major infestations on its own, but as part of an integrated approach it helps strengthen plants’ resilience to pests.
• Stress Reduction and Soil Conditioning: Wood vinegar helps plants cope with stressors like transplant shock, heat, drought, or pruning by improving root function and recovery rates . In soils, it also aids in composting and waste odor control – it can speed up decomposition of organic matter and reduce ammonia smells in manures or compost piles . This not only cuts nuisance odor but also retains more nitrogen (ammonia is nitrogen loss), yielding richer compost.

Where it’s used: As a natural, organic-friendly input, Wood Vinegar has extremely broad usage:

• Market gardens and organic farms use it as a routine biostimulant, either watering it in or foliar-spraying to enhance growth and reduce reliance on chemical fertilisers .
• Orchards and vineyards apply it to boost flowering/fruiting and to help vines or trees recover from stress events (like heatwaves or pruning) .
• Broadacre grain and pasture farmers sometimes add it to liquid fertiliser or compost tea applications to amplify soil biological activity over large areas . It fits well in regenerative agriculture programs.
• Nurseries and greenhouses soak seeds or dip cuttings in diluted wood vinegar to improve strike rates and prevent fungal issues in propagation .
• Hydroponic and aquaponic growers use tiny doses to keep algal blooms and microbes in nutrient solutions in check .
• Livestock and poultry operations spray it in barns or bedding to naturally suppress odors and pathogens, improving animal hygiene without harsh chemicals .
• Home gardeners add it to their watering can or spray bottle for routine feeding of veggies, lawns and ornamentals – it’s an easy organic boost for healthier growth .
• Even in turf care, lawnkeepers apply wood vinegar to reduce thatch and revive soil life in tired lawns, aiding decomposition of the dead material and greening up the grass .

This breadth of use shows Wood Vinegar’s utility as a general soil and plant tonic that slots into almost any setting.

Results and studies: A large body of research and farmer experience attests to Wood Vinegar’s benefits:

• A comprehensive review of 65 studies covering 33 crops found that pyroligneous acid (wood vinegar) increased crop yields by an average of 21% and plant biomass by 25% . At optimal application rates, yield increases around 30% were observed . These gains were seen across vegetables, grains, and fruits, especially when plants were under stress . Importantly, wood vinegar also led to slight increases in soil organic matter (~+9%) and dissolved organic carbon, indicating it can improve soil quality over time .
• Specific trials have documented substantial improvements. For example, foliar spraying wood vinegar has produced 20–40% biomass gains in crops like lettuce, tomato, and rice under low-dose applications . It’s not unusual for farmers to report that their treated plots are visibly greener and more vigorous than controls.
• Wood vinegar also shows synergistic effects when combined with biochar. When both were used in compost, studies noted up to 35% less ammonia emissions and over 60% less methane during decomposition . This means more nitrogen retained in the compost and far fewer greenhouse gases emitted – a win-win for sustainable farming.
• In viticulture, research has shown wood vinegar can increase grapevine growth and yield. For instance, one paper reported improved vine growth, grape bunch weight, and juice yield with wood vinegar treatments, highlighting its value in high-value crops like grapes .

From these data, it’s clear Wood Vinegar is not snake oil; it’s a proven natural growth enhancer. It brings some of the chemical signals of a forest fire’s aftermath (which spur intense regrowth) and delivers them in a controlled way to crops. By doing so, it amplifies what nature does on its own – stimulating roots, beneficial microbes, and plant defense systems . And it achieves all this with an organic, biodegradable input, aligning perfectly with regenerative and sustainable agriculture goals.

Rebuilding Soil Structure, Biology, and Water Holding – Together

Individually, each FUTURE SOIL® product targets a specific facet of soil health: Clay Breaker rebuilds structure in heavy clays, Sand Level creates structure in loose sands, Liquid Biochar injects carbon and storage capacity, and Wood Vinegar injects biological stimulation. But the magic of the FUTURE SOIL® platform is how these four forces can be combined to comprehensively rebuild a soil’s “infrastructure.” By treating soil like an engineer would treat a construction material, we can restore its foundation:

• Structure: Clay Breaker and Sand Level are complementary structural agents – one breaks apart over-compacted soils, the other binds together under-compacted soils. Whether a soil is too tight or too loose, one (or even both in sequence for complex soils) will restore an optimal crumb structure. The outcome is a soil with good tilth: stable aggregates, open pore spaces, and no hydrophobic crusts or collapsing zones. Such structure ensures water and air penetrate deeply and roots can explore fully.
• Biology: Liquid Biochar and Wood Vinegar focus on the living component. Liquid Biochar provides the habitat and food (carbon) for microbes, effectively seeding the soil with millions of microrefuges for life. Wood Vinegar provides the spark – it boosts microbial activity, nudges microbial populations toward beneficial species, and triggers plants to release root exudates (sugars) that further feed soil life . Together, they jumpstart the soil food web. A soil treated with these sees explosions in beneficial fungi and bacteria that decompose organic matter, cycle nutrients, and even help protect plants from disease. In essence, the biology that had gone dormant or been lost is reactivated, turning inert dirt into living soil once more.
• Water-Holding Capacity: All four products contribute here. By aggregating clay and binding sand, Clay Breaker and Sand Level both create pore structure that holds water – preventing both waterlogging and excessive drainage. Liquid Biochar’s carbon acts like a sponge, directly increasing the soil’s water-holding capacity (as seen with +18% field capacity in tests) . It also prevents rapid evaporation by improving soil cover and darkening the soil (darker, carbon-rich soils absorb water rather than repelling it). Wood Vinegar indirectly aids water retention by increasing soil organic matter over time and encouraging deeper roots (deeper roots can tap water and also leave behind organic residues that improve moisture retention). The collective result is soils that can drink deeply and hold onto that water for much longer, making droughts less devastating and reducing the need for constant irrigation.

In trials where a combination approach is used, the synergy is evident. For instance, in mine reclamation projects, the recommended program was: use Clay Breaker for any tight sub-layers, use Sand Level for sandy or structurally unstable layers, then apply Liquid Biochar to load the profile with carbon, and Wood Vinegar to spur microbial colonization . The US Forest Service pilot on a barren slope showed that adding biochar (the solid precursor to Liquid Biochar) with compost led to 3× more plant growth and 3.5× higher soil moisture than compost alone . FUTURE SOIL® liquid products make it far easier to deliver those benefits uniformly. As the company puts it, “These products are designed to work together. Open the profile where it is tight. Slow water where it drains too quickly. Load the zone with liquid carbon. Seed, water in, and measure.” . The outcome is truly regenerated soil: structurally sound, biologically alive, and capable of sustaining lush plant growth with much greater efficiency.

A Breakthrough in Liquid Soil Infrastructure – Get Started Today

FUTURE SOIL®’s four-forces platform represents a bold, scientific yet practical leap for soil management. Instead of dumping tons of solid amendments and hoping for the best over years, we now have precision liquids that engineer the soil from within – in a matter of days or weeks. It’s like performing reconstructive surgery on the earth beneath our feet: mending its framework, reintroducing lifeblood, and ensuring it can hold and supply the essentials of life (water and nutrients) once again. This is liquid soil infrastructure, and it’s a game-changer for agriculture, landcare, and environmental restoration.

Across Australia and beyond, FUTURE SOIL® solutions have turned cracked clay paddocks into fertile loam, made sandy fairways hold green through summer, and revived pastures and crops to record yields. They enable growers to do more with less – less water, less fertiliser, less downtime – by supercharging the natural functions of soil. Bold and forward-looking, yet grounded in solid soil science, FUTURE SOIL® is leading a paradigm shift from treating symptoms to building better soil from the ground up.

Ready to rebuild your soil? The four forces of FUTURE SOIL® are at your command. Whether you’re a farmer, sports turf curator, landscaper or gardening enthusiast, you can now take charge of your soil’s future with these liquid innovations. Don’t let poor soil hold back your plans – contact FUTURE SOIL® today to learn more, request a trial, or get guidance on an integrated solution for your soil challenges. It’s time to transform the ground beneath us, one drop at a time, and unleash the thriving potential of truly living soil. Get in touch and let FUTURE SOIL® help you rebuild your soil’s foundation – and with it, our sustainable future.