Lesson 3 — The Textile Supply Chain Overview
A step-by-step journey from fiber to end-of-life.
Watch the Lesson
In this lesson, you’ll learn:
The seven stages of the textile supply chain, from fiber to end-of-life
The environmental and social impacts at each stage
How global supply chains connect multiple countries in one product
Real examples of good practices and high-risk areas
How to map the journey of any garment you own or create
Introduction
Before a garment reaches a consumer, it travels through a long, global, and often invisible supply chain.
Fibers grown in one country may be spun in another, woven in a third, sewn in a fourth, and sold worldwide.
To understand sustainability, we first need to understand this journey — because every stage carries specific risks, responsibilities, and opportunities for improvement.
Think of this lesson as a world tour of your clothing:
from fields and factories to shipping routes, store shelves, and finally, what happens after the product’s first life ends.
1. Fiber Production
This is where our journey begins — with raw material creation.
Types of fibers:
Natural: cotton, wool, linen, hemp
Synthetic: polyester, nylon, acrylic
Regenerated: viscose, modal, lyocell
Environmental impacts:
Cotton farming = high water + pesticide use
Synthetic fibers = fossil fuels + greenhouse gas emissions
Wool = land use + methane from sheep
Example:
BCI cotton farms in India have reduced water use by up to 20% through improved irrigation.
Social impacts:
Farmer livelihoods
Labor rights in harvesting and processing
2. Yarn Production
Raw fibers travel to spinning mills — sometimes thousands of kilometers away.
Impact hotspots:
High energy consumption
Worker safety risks in older mills
Use of chemicals (e.g., mothproofing for wool)
Example:
A mill in Italy operating on 100% renewable energy cuts its carbon footprint by 40% compared to traditional spinning.
3. Fabric Production
Here, yarn becomes fabric through weaving or knitting.
Environmental considerations:
Weaving machines consume significant energy
Dyeing and finishing use water and chemicals
Chemical discharge can contaminate local water systems
Example:
Some denim factories in Bangladesh now use laser and ozone finishing, saving millions of liters of water annually.
4. Garment Manufacturing
This is where clothing takes shape.
Key issues:
Worker safety and fair wages
Overtime pressure
Waste from offcuts and defects
Example:
The 2013 Rana Plaza collapse exposed unsafe working conditions and triggered global audit reforms.
5. Distribution & Retail
Finished garments begin their global journey to stores or customers.
Impact hotspots:
Transport emissions from ships, trucks, and planes
Packaging waste (polybags, boxes, tags)
Example:
Some brands now ship multiple garments in a single recyclable bag to reduce packaging waste.
6. Use Phase
This stage is controlled by consumers — and it has a bigger impact than most people think.
Environmental impacts:
Washing, drying, and ironing require energy
Synthetics release microfibers into waterways
Example:
Washing clothes in cold water and air-drying can reduce a garment’s carbon footprint by up to 30%.
7. End-of-Life / Next Life
What happens after a garment’s first life?
Possible pathways:
Donation or resale
Recycling into new fiber
Downcycling (e.g., insulation)
Landfill or incineration
Example:
Ghana’s Kantamanto Market receives massive volumes of second-hand clothing weekly — much of it unsellable waste.
Circular alternatives:
repair, rental, resale, closed-loop recycling.
8. Key Stakeholders Along the Journey
Across the supply chain, sustainability is shaped by:
Farmers and raw material suppliers
Spinning mills
Weaving/knitting factories
Garment manufacturers
Brands and retailers
Logistics and warehousing
Consumers
Recyclers and waste handlers
Understanding roles helps identify where interventions matter most.
9. Practical Exercise
Choose one garment you own or plan to produce.
Map its journey across the seven supply chain stages.
Identify three stages where you see the highest sustainability risks.
Write one improvement or intervention for each stage.
You’ll use this mapping later in the course.
Closing
Every stage of the supply chain carries unique sustainability challenges — but also unique opportunities to innovate and reduce impact.
In the next lesson, we’ll explore how to measure sustainability using real textile metrics, from CO₂ emissions to water use, chemical safety, and waste.