Answer :
Representing consumption-based vs production-based CO2 emissions per capita across different income levels requires comparing data from various countries. Here’s a simplified approach to construct such a bar graph based on general trends observed in recent data:
### Bar Graph: Consumption-based vs Production-based CO2 Emissions per Capita
#### High-Income Level Countries:
1. **Consumption-based CO2 Emissions per Capita:**
- Example: United States, European Union countries
- Data (hypothetical): 15 tons CO2 per capita
2. **Production-based CO2 Emissions per Capita:**
- Example: China, India
- Data (hypothetical): 10 tons CO2 per capita
#### Middle-Low Income Level Countries:
1. **Consumption-based CO2 Emissions per Capita:**
- Example: Brazil, Mexico
- Data (hypothetical): 8 tons CO2 per capita
2. **Production-based CO2 Emissions per Capita:**
- Example: Indonesia, Philippines
- Data (hypothetical): 6 tons CO2 per capita
#### Low-Income Level Countries:
1. **Consumption-based CO2 Emissions per Capita:**
- Example: Ethiopia, Bangladesh
- Data (hypothetical): 3 tons CO2 per capita
2. **Production-based CO2 Emissions per Capita:**
- Example: Nepal, Cambodia
- Data (hypothetical): 2 tons CO2 per capita
### Bar Graph Representation:
- **Y-axis:** CO2 Emissions per Capita (tons)
- **X-axis:** Income Levels (High, Middle-Low, Low)
#### Example Bar Graph (Hypothetical Data):
```
High-Income Level Countries:
Consumption-based: ████████████████ 15 tons
Production-based: ████████ 10 tons
Middle-Low Income Level Countries:
Consumption-based: ████████ 8 tons
Production-based: ██████ 6 tons
Low-Income Level Countries:
Consumption-based: █████ 3 tons
Production-based: ███ 2 tons
```
### Interpretation:
- **Consumption-based vs Production-based:** Typically, high-income countries show higher consumption-based emissions due to imports of goods and services, while middle-low and low-income countries often have lower production-based emissions but are significant contributors to global supply chains.
- **Data Consideration:** Actual data will vary based on country-specific consumption patterns, production methods, and energy sources. It's important to use the latest available data from reputable sources to create accurate representations.
### Bar Graph: Consumption-based vs Production-based CO2 Emissions per Capita
#### High-Income Level Countries:
1. **Consumption-based CO2 Emissions per Capita:**
- Example: United States, European Union countries
- Data (hypothetical): 15 tons CO2 per capita
2. **Production-based CO2 Emissions per Capita:**
- Example: China, India
- Data (hypothetical): 10 tons CO2 per capita
#### Middle-Low Income Level Countries:
1. **Consumption-based CO2 Emissions per Capita:**
- Example: Brazil, Mexico
- Data (hypothetical): 8 tons CO2 per capita
2. **Production-based CO2 Emissions per Capita:**
- Example: Indonesia, Philippines
- Data (hypothetical): 6 tons CO2 per capita
#### Low-Income Level Countries:
1. **Consumption-based CO2 Emissions per Capita:**
- Example: Ethiopia, Bangladesh
- Data (hypothetical): 3 tons CO2 per capita
2. **Production-based CO2 Emissions per Capita:**
- Example: Nepal, Cambodia
- Data (hypothetical): 2 tons CO2 per capita
### Bar Graph Representation:
- **Y-axis:** CO2 Emissions per Capita (tons)
- **X-axis:** Income Levels (High, Middle-Low, Low)
#### Example Bar Graph (Hypothetical Data):
```
High-Income Level Countries:
Consumption-based: ████████████████ 15 tons
Production-based: ████████ 10 tons
Middle-Low Income Level Countries:
Consumption-based: ████████ 8 tons
Production-based: ██████ 6 tons
Low-Income Level Countries:
Consumption-based: █████ 3 tons
Production-based: ███ 2 tons
```
### Interpretation:
- **Consumption-based vs Production-based:** Typically, high-income countries show higher consumption-based emissions due to imports of goods and services, while middle-low and low-income countries often have lower production-based emissions but are significant contributors to global supply chains.
- **Data Consideration:** Actual data will vary based on country-specific consumption patterns, production methods, and energy sources. It's important to use the latest available data from reputable sources to create accurate representations.