Chapter 1 - Basic Properties of Radiation, Atmospheres, and Oceans

Summary

Introduction

This chapter presents a brief overview of the spectra of the shortwave solar and longwave terrestrial radiation fields and the basic structure of atmospheres and oceans. Some general properties of the emission spectra of the Sun and the Earth are described. Their broad features are shown to be understandable from a few basic radiative transfer principles. We introduce the four basic types of matter that interact with radiation: gaseous matter, aqueous matter, particles, and surfaces. The stratified vertical structure of the bulk properties of an atmosphere or ocean is shown to be a consequence of hydrostatic balance. The vertical temperature structure of the Earth's atmosphere is shown to result mainly from radiative processes. Optical paths in stratified media are described for a general line-of-sight direction. Radiative equilibrium, the greenhouse effect, feedbacks, and radiative forcing are introduced as examples of concepts to be dealt with in greater detail in Chapter 12.

The ocean's vertical temperature structure, and its variations with season, are discussed as resulting from solar heating, radiative cooling, latent heat exchange, and vertical mixing of water masses of different temperature and salinity. Its optical properties are briefly described, along with ocean color. Section 1.7 prepares the reader for the notation and units used consistently throughout the book.

Parts of the Spectrum

In Table 1.1, we summarize the nomenclature attached to the various parts of the visible and infrared spectrum.