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Applied Soil Chemistry


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target="_blank" rel="nofollow" href="#u47fab393-bb3f-5f52-8b02-d14d26c36300">Chapter 2 provides background information on the chemical weathering of minerals. A discussion of the weathering sequence of minerals from the soil mainly sheds light on the factors which control the rate of chemical weathering, including temperature and time factors, biotic process, oxidation, reduction, comparative stability of various minerals, water, leaching, and acidity.

      Chapter 3 discusses the effect that agricultural management systems have on soil health by evaluating reduced processing systems, organic fertilizers, and biological control of weeds, along with their effect on the bioeconomy, including agriculture, forestry, fishing, aquaculture, woodworking, biorefineries, and nanobiotechnology. The data provided is based on the evaluation of indicators of physical, chemical, biological, microbiological, and biochemical soil health. The benefits of soil resilience and better adaptation to extreme events are also included.

      Chapter 4 discusses the advances in soil chemistry which are based on the analysis of the soil at an in-situ level and the presence of carbon speciation in soil. The analysis of the soil using sensors, the internet of things, machine learning, artificial intelligence, and drones with big data are also discussed.

      Chapter 5 details the various components of soil, including solid, liquid and gaseous phases. Different soil characteristics like structure, soil color, texture, bulk density and particle size are discussed in detail. These are important parameters for understanding soil behavior. Sorption behavior of soil for removal of heavy metals is also discussed.

      Chapter 6 relates to inclusive edaphology and environmental reactions. Parameters such as composition, textures, soil organic matter, salinity, acidity and chemical reaction of soil are discussed. The main focus is on different kinds of contaminants like pesticides, modern agriculture, synthetic chemicals and their effects on plant growth.

      Chapter 7 describes fertilization and fertilizer types. The purpose of fertilization and its application methods are discussed. Fertilizers can be classified into two types depending on the source from which they are obtained: organic (natural) fertilizer and chemical fertilizer. The importance of the use of fertilizers in agricultural lands for sustainable agriculture is explained.

      Chapter 8 discusses several approaches which are used to control the overabundance of heavy metals present in soil. The focus of this chapter are the techniques utilized in the past few years to estimate heavy metal content and its mitigation process.

      Chapter 9 details the importance and benefits of modeling studies about the retention and mobilization of pollutants. Recently applied models and primary outcomes of modeling studies are also discussed. Additionally, several personal computer programs, which are used for running models, are exemplified in this study.

      Chapter 10 provides details of the different laws of soil chemistry. The reaction of ions with the variable charged mineral surfaces, organic matters and clay minerals are discussed. The role of water movement through saturated and unsaturated media is also discussed, with a major focus on gravitational and capillary forces.

      Chapter 11 discusses various aspects of assessing the quality of soil using mechanical and physicochemical parameters. Mechanical parameters, which play an essential role in plant growth, are also discussed. There is also a discussion of ion-exchange properties, which is the primary focus of the studies on physicochemical parameters.

      Chapter 12 explains the necessary soil functions that could lead to an increase in agricultural production. Essential soil biological processes and their relationship with soil pH are also discussed along with microbial ecophysiological indicators and activities of soil enzymes.

      Chapter 13 provides detailed information on the application of pesticides in agriculture. It also elaborates on the numerous types of pesticides, including neonicotinoids, pyrethroids, organochlorines, organophosphates, triazines, carbamates, and pyrethroids. The merits and demerits that are associated with chemical pesticides are also highlighted. This chapter also includes the modes of action and the detrimental effects of these pesticides.

      Inamuddin, Mohd Imran Ahamed, Rajender Boddula and Tariq Altalhi February 15, 2021

      Potential and Challenges of Carbon Sequestration in Soils

       Erfan Sadatshojaei1*, David A. Wood2 and Mohammad Reza Rahimpour3

       1Department of Chemical Engineering, Shiraz University, Shiraz, Iran

       2DWA Energy Limited, Bassingham, Lincoln, United Kingdom

       3Department of Chemical Engineering, Shiraz University, Shiraz, Iran

       Abstract

      Keywords: Soil as a carbon store, carbon turnover time, climate change mitigation, soil disturbance, organic matter decomposition, humification and peat formation, carbon mineralization, soil C sequestration potential

      List of Abbreviations and Units

      1 petagram (Pg) = 1015 grams = 1 gigatonne

      1 kilogram (kg) of carbon is equivalent to 44/12 of carbon dioxide

      1 hectare (ha) = 107,639 square feet = 10,000 square meters

      1 acre = 43,560 square feet = 4047 square meter