The presence of organics in soils is generally associated with high compressibility, significant secondary compression, often unsatisfactory strength characteristics, and low unit weight. As a result of the above, many state DOTs (Departments of Transportation) in the United States have strict limits on the maximum value of the organic content (2-7%) that can be present in soils to be used as sub grades and backfills. The loss on ignition test is the most widely used technique for measuring organic content. However, especially for low organic content soils, this method can significantly overestimate the true organic content. As a result, certain soils may be incorrectly classified and erroneously considered unviable for certain applications; in other cases unnecessary costly treatments may be requested, even if not required. These are the issues motivating the research presented in this report, which addressed the classification of organic soils and the quantification of organic matter in soils. The research reviewed existing classification systems for organic soils, the effects of organic matter on the geotechnical properties of soils, and the methods for determination of organic content. In addition to the review of the existing literature, this research also included experimental work conducted on natural soils with varying organic content, as well as on laboratory prepared ("artificial") organic soils.
This Book Is Written With Special Focus On Issues Relating To Policies And Strategies For Planning And Implementation Of Biogas Programme. The Book Provides A Detailed Overview Of Biogas Technology Covering All The Facets. It Provides Comprehensive History And Progress Of Biomethanation In Select Countries And Regions Where It Has Made Special Mark. It Provides A Detailed Overview Of Developments In India Covering Historical Perspectives, Biogas Potential, Chronological Progress Of Biomethanation, And Enumerates References Made To Biogas At Important Seminars And Conferences By Eminent Personalities From India And Abroad. It Comprehensively Spells Out Various Implementation Strategies Particularly The Turnkey Approach Which Is Largely Responsible For Bringing Biogas Revolution In India Judging By The Unprecedented Spurt In The Number Of Biogas Plants Installed In Recent Years.It Consolidates The Findings And Recommendations Of Several Socio-Economic Surveys On Biomethanation Undertaken In Past In India From Time To Time. It Presents Case-Studies Of Several Community Biogas Plants Which Have Greatly Helped In Improving The Rural Economy. It Also Provides An Overview Of Energy Needs Of Developing Countries, Reviews Integrated Rural Energy Programme (Irep) And The Urjagram Programmes Of The Union Government As Supportive Programmes For Biomethanation, And Views Biogas Programme As An Instrument Of Sustainable Development. It Discusses At Length The Economics And Cost- Effectiveness Of Biogas Systems.The Book Also Identifies Areas For Further Studies And Looks Forward That Biomethanation Will Scale New Eights Even When The Subsidies Are Completely Withdrawn And Market-Driven Approach Under The New Economic Policy Governs The Biogas Programme. In Short, The Book Covers All Related Aspects Involving Policies, Progress And Prospects Of Biomethanation In India And Abroad.
Chapter 11. Medicinal Plants as Alternative Sources of Therapeutics against Multidrug-Resistant Pathogenic Microorganisms Based on Their Antimicrobial Potential and Synergistic Properties
Chapter 11. Medicinal Plants as Alternative Sources of Therapeutics against Multidrug-Resistant Pathogenic Microorganisms Based on Their Antimicrobial Potential and Synergistic Properties
Antibiotics are antimicrobial agents that are used to treat infectious diseases. The outbreak of pathogenic antibiotic-resistant strains illustrates our urgent need to search for new alternative sources of treatment. Hence, an attempt has been made in this review to list some plant extracts, essential/volatile oils, and their antimicrobial activity against different microorganisms using different methods, as well as synergistic effects (plant extract-plant extract, plant extract-essential oils, plant extract-conventional antibiotics, phytochemical-antibiotics, and essential oil-essential oil). Plant products and their active constituents are useful in the treatment of infectious diseases caused by multidrug-resistant microbes, food borne diseases caused by food spoiling microbes, and oral pathogens. Products derived from plants have the potential to control microbial growth in diverse situations, and specifically in the treatment of disease. The various aspects of this review may be helpful for the food, cosmetic, and pharmaceutical industries.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.