Advanced Biotechnology Project

The Global War

When Science Meets Strategy Against a $3.8 Billion Enemy

People Could Be Fed

From saved rice alone

$0.0B

Lost in Indonesia

Bali + Garut regions

0.0%

Our Elimination Rate

Self-sustaining collapse

The High-Value Problem

Quantifying the Global Impact of Rodent Infestations

Rodent infestations represent one of the most underestimated yet catastrophic global challenges of our time, causing billions in agricultural losses and posing escalating public health risks across major urban centers worldwide. The economic and societal damage extends far beyond surface-level statistics, creating cascading effects that threaten food security and urban sustainability.

Agricultural Devastation: A Crisis of Global Food Security

0 Million

People Could Be Fed Annually

From rice losses in Asia alone

The agricultural impact operates at a scale that threatens global food security. In Asia alone, rice losses caused by rodents could feed approximately 200 million people annually, representing not just economic loss but a humanitarian crisis of wasted potential sustenance.

NYC: 2M rats

IDR 3.8B lost

Indonesia (Bali + Garut)

IDR 3.8B lost

Southeast Asia Rice

5-20% annual loss

Complete Crop Failures

Outbreak years

Urban Crises: Metropolitan Areas Under Siege

Major global cities are experiencing unprecedented rodent population explosions that strain municipal resources and threaten public health infrastructure. Urban rats are among the most important but least-studied wildlife in urban environments.

New York City

Crisis-level density

€Millions

Paris Programs

Annual intervention costs

Global

Urbanization Trend

Unprecedented demand

The Hidden Economic Tsunami

The economic impact extends far beyond direct agricultural losses. Invasive rodents have substantially impacted native ecosystems, food production and storage, local infrastructures, and human health, creating a complex web of interconnected costs.

Infrastructure Damage

Electrical failures, structural damage, maintenance costs

Healthcare Costs

Disease transmission, pest control, public health responses

Food Storage Losses

Post-harvest contamination and spoilage in facilities

Supply Chain Disruption

Transportation delays, recalls, quality control measures

The Core Challenge: Why Conventional Methods Fail

Operating from a profound misunderstanding of rat intelligence and social dynamics

High Social Intelligence

The Underestimated Enemy

Hierarchical colony organization with coordinated defensive behaviors

Information networks for rapid threat communication

Collective decision making for environmental challenges

Empathetic behavior and pro-social companion assistance

Innate Neophobia

Evolutionary Defense Mechanism

Selective sampling: only adventurous individuals approach new baits

Risk assessment through designated "taster" individuals

Temporal delays requiring extended exposure periods

Particularly pronounced with bait stations vs. open trays

Rapid Social Learning

The Colony's Immune System

Poisoning recognition: entire colony learns from single exposure

Memory networks persist across generations

Adaptive responses modify foraging patterns and timing

Social transmission of negative associations

Our Weapon: Biological Warfare 2.0

Redefining success from temporary suppression to sustainable population management

Traditional Approach Limitations

Temporary reduction requiring constant reapplication

Selection pressure creating resistant populations

Environmental contamination from chemical residues

Non-target species impact and ecosystem disruption

Our Biological Solution Advantages

Self-sustaining population collapse mechanism

Species-specific targeting eliminates resistance development

Biodegradable pathogen with no environmental persistence

Ecosystem-safe with built-in containment mechanisms

Technology Platform

CRISPR-Cas9

Genetic Eng.

Bioinformatics

Bio-Agent

CRISPR-Cas9 Genetic Engineering

Pathogenic Bacteria Design

AI-Driven Bioinformatics

The Domino Effect

Population: 0

Healthy colony member

Infected carrier

Global Scalability Framework

Technology Transfer Capability

Standardized development protocols adaptable to regional pest species

Rapid deployment infrastructure for outbreak response

Training and certification programs for local implementation

Economic Sustainability Model

Cost-effective production using existing biotechnology infrastructure

Reduced long-term treatment costs compared to chemical alternatives

Revenue generation through licensing and technology transfer

Elimination Rate

0 days

Speed to Action

Cost Reduction

Environmental Impact

Join the Revolution

Be part of the paradigm shift from temporary suppression to permanent biological management

Funding Progress10% Complete

$10K raised$100K goal