Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Environmental Chemistry Chapter 5: Chemistry of the Solid Earth Copyright © 2009 by DBS Contents • Introduction Chemistry of the Solid Earth Introduction • Soil – formed from physical, chemical and biological weathering of rocks • Minerals found in these rocks are predominantly silicates Chemistry of the Solid Earth Introduction • Importance of aluminosilicates in soil • Loss of K, Fe, Ca, Na, and Mg as a result of soil processes • C and N are enriched in soil due to organic matter Chemistry of the Solid Earth Introduction • Organic matter is a significant component of soil • Decomposition of plants, animal waste and microorganisms • Amounts of mineral vs organic components leads to large variety of soil classes Chemistry of the Solid Earth Introduction The Mineral Fraction • Texture – Particle size distribution of mineral components in a soil is described by its texture sand (0.02-2.00 mm) silt (0.002-0.02 mm) clay (< 0.002 mm) Chemistry of the Solid Earth Introduction • Clay Minerals – – – Relative surface area It is on the surface that many chemical and physical processes take place. Smaller = more surface area (clay is tiny!) Chemistry of the Solid Earth Introduction • Textural Classes – Particle size distribution: sand silt clay (0.02-2.00 mm) (0.002-0.02 mm) (<0.002 mm) – Loam = good combination of soil – Sci. explanation = good mix of fine particles Chemistry of the Solid Earth Introduction Definitions: 1. “The unconsolidated mineral material on the immediate surface of the earth that serves as a natural medium for the growth of plants.” 2. “The unconsolidated mineral matter on the surface of the earth that has been subjected to and influenced by genetic and environmental factors of parent material, climate, macro- and micro-organisms, and topography, all acting over a period of time and producing a product – soil – that differs from the material from which it is derived in many physical, chemical, biological and morphological properties and characteristics.” Chemistry of the Solid Earth Introduction • Soil forming factors: – – – – – Climate Macro- and micro-organisms Topography Parent material Time Chemistry of the Solid Earth Introduction • Parent material is acted on as follows… • Process is VERY slow Chemistry of the Solid Earth Introduction Environmental Compartments Chemistry of the Solid Earth Introduction • • • Soil is a combination of all the major components of the surface (atmosphere, lithosphere, hydrosphere and biosphere) Leads to variations in soils with location Chemistry of the Solid Earth Introduction • “Soil Architecture” - a key factor controlling the type and extent of life in soil – Physical network and size distribution of pores – Behavior of water and dissolved solutes – Physical and chemical conditions of soil determine the types and conditions for biological communities and soil quality/health Chemistry of the Solid Earth Introduction • Solid components (mineral and organic) make up ~ 50% by volume Soil is a 3-phase material Chemistry of the Solid Earth Introduction Chemistry of Freshwaters Fundamentals • g Chemistry of the Solid Earth Chemistry of the Solid Earth • A Chemistry of the Solid Earth Summary • A References • A