Understanding Statistical Anomalies: A Geographer’s Perspective
Understanding Statistical Anomalies: A Geographer’s Perspective
To help illustrate the statistical peculiarity of the 2020 election data, let’s translate this into a scenario familiar to geographic scientists.
The Death Valley Precipitation Anomaly
Imagine you’re analyzing 150 years of Death Valley precipitation data:
- 1870-2019: Consistent annual rainfall averaging 1.5-2.0 inches
- Natural variations of ±0.5 inches
- Patterns align with regional climate data
- Correlates with nearby weather stations
- Confirmed by geological evidence
- Supported by vegetation patterns
Then suddenly, in 2020:
- Recorded rainfall: 47 inches
- 2,350% increase from historical average
- No corresponding regional precipitation increases
- No major atmospheric river events recorded
- No satellite confirmation of extreme weather
- Limited observer access during measurement period
Most puzzling, in 2021-2024:
- Rainfall returns to exactly 1.9 inches
- Perfectly aligned with historical trend
- No evidence of previous year’s deluge
- No altered erosion patterns
- No changes in alluvial fan deposits
- No flood debris accumulation
- No vegetation pattern changes
The Scientific Dilemma
As geographers examining this data, you’d face several critical questions:
- Physical Evidence: How did 47 inches of rain leave no geological signature?
- Regional Context: Why didn’t surrounding areas record any unusual precipitation?
- Environmental Impact: Where’s the evidence of flooding, erosion, or vegetation response?
- Salt Pan Effects: Why do the salt flats show no signs of such massive water influx?
- Documentation: Why no photographic or satellite evidence of this extreme event?
The Modern Measurement Controversy
Now imagine someone arguing: “Today’s normal measurements must be wrong – look at all the tourists! Look at all the cars in the parking lots! Social media is full of Death Valley visitors!”
This mirrors our election scenario perfectly:
- Questioning normal measurements that:
- Fit 150 years of patterns
- Match regional data
- Show expected physical evidence
- Can be independently verified
- Follow known natural laws
- While accepting anomalous measurements that:
- Defy historical patterns
- Show no physical evidence
- Left no lasting traces
- Had limited verification
- Cannot be independently confirmed
The Scientific Conclusion
In geography, as in election analysis, when presented with two scenarios:
- A return to normal patterns under intense scrutiny
- An unprecedented anomaly under limited observation
The scientific method suggests we question the anomaly, not the return to established patterns.