Bio-Activated
DAP.
High-load phosphatic nutrition reimagined through organic chelation. Engineered to eliminate Phosphorus fixation and provide 126 hours of sustained release.
Ammoniacal Form
Bio-Available Core
Bio-Polymer Barrier
Kinetics Stability
Microbial Synergy
Bio-Activated DAP is infused with a specialized consortium of **Bacillus** and **Pseudomonas putida**. These microbes restore the ecological health of the rhizosphere, facilitating natural phosphorus solubilization through the secretion of gluconic and citric acids. This biological engine ensures that nutrients remain mobile even in the most hostile, high-pH soil conditions.
Agronomic Recovery Data
Direct recovery in plant tissue
Recorded in Maize/Wheat trials
Total structural weight gain
Synergistic uptake factor
The Bio-Organic Polymer Breakthrough
Phosphorus is notoriously immobile. In the alkaline, calcareous soils predominant in South Asia, conventional Di-Ammonium Phosphate (DAP) faces an immediate chemical "lock-up." Within hours of soil contact, up to **80% of the Phosphorus** reacts with soil Calcium to form insoluble Tri-calcium Phosphate—essentially becoming "stone" in the soil.
Niha Corp has solved this chemical deadlock through a novel **biomass-based, functional controlled-release** system. By applying a hydrophobic bio-polymer coating—developed from biobased amino-oil (Priamine) mixtures—we create a molecular shield that prevents direct contact between Phosphate ions and soil cations. Scanning Electronic Microscopy (SEM) reveals a cohesive, high-adhesion film that extends the nutrient release window from the standard 2-hour dissolution to over **126 hours**. This ensures Phosphorus availability is perfectly synchronized with the crop's "Critical Energy Window."
Synergistic Uptake & Soil Restoration
Beyond controlled release, Bio-Activated DAP triggers a metabolic response in the plant. Institutional trials verify that our formulation enhances **Nitrogen uptake by 24.9%** and **Potassium uptake by 11%**, even though the product primarily targets Phosphate delivery. This "Synergistic Uptake" is driven by the microbial consortium which colonizes the rhizosphere, creating an active nutrient exchange zone.
Furthermore, this technology acts as a tool for **Sustainable P-Mining**. By preventing the buildup of unabsorbed chemical residues, it reduces long-term soil toxicity and prevents the "salting out" effect that can kill young seedlings during germination. This allows for uniform crop stands and deeper root proliferation, securing high-ROI yields even under abiotic stress conditions.
Empirical Yield Metrics
Bio-polymer dissolution delay—verified by SEM/EDX mapping—ensuring Phosphorus availability during the first 21 days of root expansion.
Enhancement in net Phosphorus recovery. Your crop absorbs more nutrient per bag compared to conventional DAP.
Research Benchmark Report
| Performance Metric | Standard DAP | Bio-Activated DAP |
|---|---|---|
| P-Release Half-Life | 2 Hours (Standard) | 126 Hours (Extended) |
| P-Uptake Enhancement | Baseline | +66.7% Recovery |
| Dry Biomass Growth | Baseline | +18.09% Uplift |
| Soil pH Buffering | Nil | Active Organic Catalyst |
Research Verification: Ayub Agricultural Research Institute & NIHACORP R&D Division
High-Yield Technical Stability.
"Bio-Activated DAP is not just a fertilizer; it is a molecular delivery system. By delaying dissolution throughPriamine bio-polymers and restoring rhizosphere health with Bacillus consortia, we ensure the Phosphorus applied at sowing is the Phosphorus harvested in the grain."