Comparing EOFs in T Mode and S Mode for Earth Science Statistics
Data & AnalysisEmpirical Orthogonal Functions (EOFs) are widely used in Earth science for the analysis of large data sets, such as ocean or atmospheric data. EOFs can be computed in two different modes: T mode and S mode. T-mode EOFs are based on the temporal covariance matrix of the data, while S-mode EOFs are based on the
Exploring the Stratosphere: Unraveling the Mystery of Joseph Kittinger’s Clouds at 102,000 ft
Weather & ForecastsIn 1960, the United States Air Force launched an experimental balloon to the edge of space, carrying a brave pilot named Joseph Kittinger. As he ascended, Kittinger witnessed a stunning sight: a layer of clouds stretching as far as the eye could see. But what kind of clouds were they? And what can they tell
Revisiting the Two-Layer Hydrostatic Model: Limitations and Implications for Ocean Modeling
Modeling & PredictionThe two-layer hydrostatic model is a commonly used model in oceanography to understand the dynamics of the ocean. The model divides the ocean into two layers, the upper layer and the lower layer, and assumes that the pressure within each layer is hydrostatic. The model is often used to study the response of the ocean
Why Do Some Rivers End Before Reaching the Ocean?
Water BodiesRivers are one of nature’s most beautiful and dynamic features. They are an essential part of the Earth’s ecosystem, providing habitat for a wide variety of flora and fauna. Rivers carry water and nutrients from high elevations to lower elevations, where they eventually flow into larger bodies of water such as lakes, seas, and oceans.
Mapping Japan’s Air Quality: Gridded Data Reveals Pollution Patterns
Energy & ResourcesAir pollution is a major environmental and public health concern worldwide, and Japan is no exception. In recent years, there has been growing interest in the use of gridded air pollution data to better understand the spatial and temporal patterns of pollution and to inform policy and decision making. Gridded air pollution data refers to
The Paradox of Carbon Dioxide Accumulation in the Upper Atmosphere: Exploring the Science behind its Weight and Movement
General Knowledge & EducationThe Carbon Cycle Before we dive into the science behind the accumulation of carbon dioxide in the upper atmosphere, let’s first understand the carbon cycle. The carbon cycle is the process by which carbon is exchanged between the atmosphere, oceans, land, and living organisms. Carbon is constantly cycling through these different reservoirs in different forms