Agriculture, once tuned to the calm rhythm of seasons, now faces turbulence—erratic rains, weakening soils, and the growing urgency of food insecurity. Machines provide power, automation brings speed, yet both remain blind to the deeper intelligence of nature: the ability to sense, anticipate, and respond. What if roots could adapt to hidden water, soil could ask for breath, and fields could predict the stresses of tomorrow? This study presents NeuroPlan Fusion, a brain-inspired agricultural framework that reimagines farms as intelligent, evolving ecosystems. Just as the human brain integrates sight, sound, and memory into thought, NeuroPlan Fusion unifies soil, root, canopy, and micro-weather dynamics into a single adaptive decision-making system. Around its cognitive core, the NeuroMind OS, specialized modules act as distributed senses—SonicRoot guiding roots, VermoCall echoing soil life, ChipInPlan declentalised decision making mesh ,NeuroScot Drone watching from above, AgriTalk AI enabling dialogue, and AgriSafe Sentinel ensuring safety.By bridging fragmented tools into one coordinated intelligence, this study addresses a critical gap in agriculture: the absence of adaptive frameworks that can evolve with uncertainty. NeuroPlan Fusion envisions farming not as static practice but as living intelligence—where fields can adapt, predict, and think, almost alive .Agriculture, once tuned to the calm rhythm of seasons, now faces turbulence—erratic rains, weakening soils, and the growing urgency of food insecurity. Machines provide power, automation brings speed, yet both remain blind to the deeper intelligence of nature: the ability to sense, anticipate, and respond. What if roots could adapt to hidden water, soil could ask for breath, and fields could predict the stresses of tomorrow? This study presents NeuroPlan Fusion, a brain-inspired agricultural framework that reimagines farms as intelligent, evolving ecosystems. Just as the human brain integrates sight, sound, and memory into thought, NeuroPlan Fusion unifies soil, root, canopy, and micro-weather dynamics into a single adaptive decision-making system. Around its cognitive core, the NeuroMind OS, specialized modules act as distributed senses—SonicRoot guiding roots, VermoCall echoing soil life, ChipInPlan mapping micro-weather, NeuroScot Drone watching from above, AgriTalk AI enabling dialogue, and AgriSafe Sentinel ensuring safety.By bridging fragmented tools into one coordinated intelligence, this study addresses a critical gap in agriculture: the absence of adaptive frameworks that can evolve with uncertainty. NeuroPlan Fusion envisions farming not as static practice but as living intelligence—where fields can adapt, predict, and think, almost alive.