Carbon Sequestration: Difference between revisions
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Plant up 1B acres of cities with trees. And bite | Plant up 1B acres of cities with trees. And bite 1B out of deserts, afforest 1B, and bite out 1.5B from cropland by perennial polyculture without reducing crop yield. 4B acres more trees. | ||
=Data= | |||
https://chatgpt.com/share/69fe6a34-0fbc-83e8-b495-a3e2d654e608 | https://chatgpt.com/share/69fe6a34-0fbc-83e8-b495-a3e2d654e608 | ||
Latest revision as of 22:59, 8 May 2026
Solution
Plant up 1B acres of cities with trees. And bite 1B out of deserts, afforest 1B, and bite out 1.5B from cropland by perennial polyculture without reducing crop yield. 4B acres more trees.
Data
https://chatgpt.com/share/69fe6a34-0fbc-83e8-b495-a3e2d654e608
| Category | Approx. Billion Acres | Notes |
|---|---|---|
| Total Earth Land Area | 32.1 | Includes deserts, mountains, ice, tundra, cities, agriculture, forests, etc. |
| Existing Forests | 10.0 | About 31% of total land area |
| Total Agricultural Land | 11.9 | Cropland + pasture/grazing land |
| Cropland | 3.9 | Land used directly for crops |
| Pasture / Grazing Land | 8.0 | Rangeland and grazing systems |
| Hot Deserts | 7–8 | Sahara, Arabian, Australian, etc. |
| Urban / Built Infrastructure | 0.5–1.0 | Cities, roads, industrial zones, airports, etc. |
| Target | CO2 Removal Needed | Assumed Average Uptake | Land Required |
|---|---|---|---|
| Offset Current Annual Atmospheric Excess | ~20 Gt CO2/year | 2 tons CO2/acre/year | ~10 billion acres |
| Offset Current Annual Atmospheric Excess | ~20 Gt CO2/year | 4 tons CO2/acre/year | ~5 billion acres |
| Offset Current Annual Atmospheric Excess | ~20 Gt CO2/year | 8 tons CO2/acre/year | ~2.5 billion acres |
| Offset All Current Gross Human Emissions | ~40 Gt CO2/year | 4 tons CO2/acre/year | ~10 billion acres |
Key Insight
At a rough systems level, the amount of land theoretically required to biologically offset current net atmospheric CO2 accumulation is large but not obviously impossible at planetary scale. Roughly 2.5–10 billion acres of highly productive carbon-sequestering ecosystems could theoretically offset the current atmospheric excess of approximately 20 gigatons CO2 per year, depending on ecosystem productivity.
The main constraints are not only land area, but also:
- Water availability
- Soil fertility
- Ecosystem suitability
- Fire and drought risk
- Carbon permanence
- Food production competition
- Governance and economic coordination
The dominant human land transformation today is agriculture and grazing, not cities or roads.