We work with elite hybrid seeds selected and tested for Brazil’s tropical and climatic conditions. In protected cultivation, choosing the right genetics is often the defining factor between success and failure.
Hybrids specifically developed and selected for heat, humidity, and soil variations common across Brazilian regions.
Genetic protection against the primary phytosanitary threats affecting tropical protected cultivation.
Optimized genetics designed to maximize productivity per square meter in controlled-environment agriculture.
Greater fruit uniformity, firmness, and shelf life attributes highly valued by retailers and export markets.
Each variety is supported by cultivation protocols tailored to the client’s environment and production objectives.
Tomatoes, peppers, cucumbers, eggplants, and other high-value horticultural crops.
We design and implement greenhouses and controlled cultivation environments tailored to each producer’s operational reality. From basic structures to high-tech systems, we deliver technically sound, economically viable, and operationally sustainable solutions.
Each structure is designed according to crop type, regional climate, production goals, and investment profile.
From low-cost entry projects to fully automated controlled-environment systems.
Irrigation and nutrition systems engineered for each crop with integrated management protocols.
Biological and rational chemical control strategies compatible with national and international certifications.
Projects adapted to Brazil’s diverse climate zones coastal regions, semi-arid areas, cerrado, highlands, and beyond.
Implementation follow-up and technical support during operational stabilization.
We transform data into decisions. Our monitoring and water management systems enable producers to optimize water usage, reduce waste, meet environmental requirements, and access markets that value traceability and sustainability.
Technical evaluation of current water use, identifying inefficiencies and improvement opportunities.
Connected sensors tracking moisture, temperature, conductivity, and water flow with remote dashboard access.
Clear operational metrics including water efficiency per production cycle and area-based consumption analysis.
Technical reports demonstrating responsible water usage increasingly required by certification bodies, banks, and buyers.
Critical parameter notifications with immediate action recommendations to prevent operational losses.
Data-driven models designed to anticipate risks, optimize irrigation cycles, and support strategic decisions.
Before scaling, we validate. We implement pilot units with rigorous monitoring protocols to generate real performance evidence before recommending project expansion. This approach protects investments and significantly improves success rates.
Solutions are tested at reduced scale under full technical control before scaling investment decisions.
Documented operational routines ensuring consistency, reproducibility, and reliable performance comparison.
Continuous monitoring of climate, soil, plant growth, phytosanitary conditions, and operational costs.
Data-based analysis with strategic recommendations for expansion and investment decisions.
Validation across multiple climate zones to identify optimal production conditions.
Pilot results structured as technical documentation for investors and agricultural financing programs.
Technology alone does not create transformation trained people do. That is why operational team development is an integral part of every project, not an optional service.
On-site operational training covering cultivation management, fertigation, and phytosanitary control.
Clear documentation for daily, weekly, and monthly routines, including process flowcharts and visual records.
We develop internal multipliers capable of replicating knowledge and ensuring long-term operational autonomy.
Collaboration with regional technicians and institutions when applicable, strengthening local technical ecosystems.
Technical support channels during the first months after project delivery to ensure operational stabilization.
Periodic team assessments with structured feedback and continuous improvement recommendations.
Agrotechnology has the power to transform entire regions when developed with respect for local realities. CN Agrotech structures projects that combine adapted technologies, local capacity building, and scalable models for regional agricultural development.
Active engagement with producers, technicians, and local leaders before proposing solutions.
Solutions tailored to the infrastructure, human capital, and available resources of each territory.
Training local multipliers who continue disseminating technical knowledge after project completion.
Documented and validated methodologies designed for efficient expansion into additional municipalities and regions.
Projects structured for access to public funding, regional development initiatives, and rural credit programs.
Reports including indicators for income generation, employment creation, food security, and sustainable resource use.