Lena measures pH levels at five vent sites: 5.2, 4.9, 5.5, 5.0, and 4.7. She excludes the highest and lowest values to reduce outlier impact. What is the mean of the remaining three? - Databee Business Systems
Understanding pH Variability in Hydrothermal Vent Sites: An Analysis of Lena’s Measurements
Understanding pH Variability in Hydrothermal Vent Sites: An Analysis of Lena’s Measurements
Studying pH levels in hydrothermal vent ecosystems is crucial for understanding microbial activity, geochemical processes, and the resilience of extremophiles in some of Earth’s most dynamic environments. One researcher, Lena, recently analyzed pH readings from five distinct vent sites, revealing valuable insights into the chemical stability of these underwater habitats.
Lena recorded pH values of 5.2, 4.9, 5.5, 5.0, and 4.7 at separate vents. While these measurements highlight variability in acidity—ranging from mildly acidic to strongly acidic—outliers can distort averages and mislead interpretations. To obtain a more reliable central tendency, Lena excluded the highest and lowest values.
Understanding the Context
The raw data:
5.2, 4.9, 5.5, 5.0, 4.7
- Highest value: 5.5
- Lowest value: 4.7
- Remaining values: 5.2, 5.0, and 4.9
Now, calculating the mean of these three:
(5.2 + 5.0 + 4.9) ÷ 3 = 15.1 ÷ 3 ≈ 5.03
Thus, the mean pH level of the three non-outlier sites is approximately 5.03. This adjusted measure better reflects the typical acidity experienced by organisms living near the central vents, where extreme pH shifts may influence species distribution and biological adaptation.
Key Insights
By strategically excluding extreme values, Lena demonstrates a critical approach to data analysis—minimizing outlier effects to reveal meaningful patterns in complex natural systems. This method supports more accurate assessments of vent chemistry and biological resilience, advancing our understanding of life in Earth’s harsh subterranean environments.
