This advanced textbook explores the intriguing flora and plant ecology of the Middle East, framed by a changing desert landscape, global climate change, and the arc of human history. This vast region has been largely under-recognized, under-studied, and certainly under-published, due in part to the challenges posed to research by political disputes and human conflict, and a treatise on the subject is now timely. The book integrates Middle Eastern plant geography and its major drivers (geo-tectonics, seed and fruit dispersal, plant functional types, etc.) with the principles of plant ecology. The authors include the many specialized adaptations to desert and dryland ecosystems including succulence, water-conserving photosynthesis, and a remarkable range of other life history strategies. They explore the formation of 'climate relicts', and describe the long history of domestication in the region together with the many reciprocal effects of agriculture on plant ecology. The book concludes by discussing conservation in the region, highlighting five regional biodiversity hotspots where the challenges of desertification, habitat loss, and other threats to plant biodiversity are particularly acute. Plant Ecology in the Middle East is a timely synthesis of the field, setting a new baseline for future research. It will be important reading for both undergraduate and graduate students taking courses in plant ecology, evolution, systematics, biodiversity, and conservation, and will also be of interest and use to a professional audience of botanists, conservation biologists, and practitioners working in dryland ecosystems.
This open access book is unique in its contents. No other title in the book market has tackled this important subject. It introduces innovation as a way of practice for world-class universities. It, then, discusses the criteria for being innovative in the academic world. The book selects some of the top innovative world-class universities to study the factors that qualified them to be innovative, so that any other university can follow their steps to become innovative. The final chapter of the book presents some recommendations in this regard.
This advanced textbook is about Middle Eastern plants and plant ecology, presented within the wider context of the changing landscape, global climate change, and human history (particularly in relation to agriculture, conflict, and religion).
This advanced textbook explores the intriguing flora and plant ecology of the Middle East, framed by a changing desert landscape, global climate change, and the arc of human history. This vast region has been largely under-recognized, under-studied, and certainly under-published, due in part to the challenges posed to research by political disputes and human conflict, and a treatise on the subject is now timely. The book integrates Middle Eastern plant geography and its major drivers (geo-tectonics, seed and fruit dispersal, plant functional types, etc.) with the principles of plant ecology. The authors include the many specialized adaptations to desert and dryland ecosystems including succulence, water-conserving photosynthesis, and a remarkable range of other life history strategies. They explore the formation of 'climate relicts', and describe the long history of domestication in the region together with the many reciprocal effects of agriculture on plant ecology. The book concludes by discussing conservation in the region, highlighting five regional biodiversity hotspots where the challenges of desertification, habitat loss, and other threats to plant biodiversity are particularly acute. Plant Ecology in the Middle East is a timely synthesis of the field, setting a new baseline for future research. It will be important reading for both undergraduate and graduate students taking courses in plant ecology, evolution, systematics, biodiversity, and conservation, and will also be of interest and use to a professional audience of botanists, conservation biologists, and practitioners working in dryland ecosystems.
This open access book is unique in its contents. No other title in the book market has tackled this important subject. It introduces innovation as a way of practice for world-class universities. It, then, discusses the criteria for being innovative in the academic world. The book selects some of the top innovative world-class universities to study the factors that qualified them to be innovative, so that any other university can follow their steps to become innovative. The final chapter of the book presents some recommendations in this regard.
In the last decade, solar energy has experienced a rapid growth, which brings both environmental and economic benefits. In many countries, there is still no electricity grid extension in rural areas, and in the absence of a reliable electricity supply, farmers have to resort to diesel-based pumping irrigation systems. The solar photovoltaic (PV) system generates clean energy and eliminates the risk of environmental pollution in the form of oil spills, contaminated soil and carbon dioxide emissions. Operation and maintenance of the solar PV pumping system is a technical job that requires specialized knowledge and information to keep the system in working condition and sustainable and in working conditions. For this purpose, this sourcebook is designed to provide information on the design, operation, inspection, troubleshooting, and maintenance of solar PV pumping systems.
This book reviews the chemical and biological properties of Artemisia amygdalina Decne, a critically endangered and endemic plant species in the the high-altitude Kashmir Himalayas, which has a high pharmacological potential. It describes the bioactivity-guided isolation of its chemical compounds, their characterization using spectroscopic methods and the development of a simple and reliable RP-HPLC method for the simultaneous quantification of the isolated constituents. The authors discuss the potential pharmacological activities of A. amygdalina, such as antioxidant, cytotoxic, anti-inflammatory, immuno-modulatory and antidiabetic effects, and pave the way for future research.
Design and Analysis of Liquid Hydrogen Technologies: Liquefaction, Storage and Distribution offers readers a comprehensive guide to the development, analysis, design, and assessment methodologies for liquid hydrogen. From the fundamentals to the latest developments and current applications, the book provides an extensive and systematic discussion of the design, simulation, and techno-economic analysis methodologies supported by practical examples, verified codes, and innovative process designs. The book provides a comprehensive overview of the liquid hydrogen economy, followed by detailed advanced thermoeconomic, exergoeconomic, optimization, and dynamic simulation models that are essential for the assessment of the current and future LH2 technologies. The authors then identify current technological challenges and propose innovative solutions for LH2 technologies, with a focus on the liquefaction plants and storage facilities. In-depth analyses are provided of the reliability, safety, and environmental impacts of the different stages of the LH2 supply, transportation, regasification, and distribution. To improve the economic feasibility of LH2 plants, recent advanced energy-integrated systems are discussed. Potential market applications are considered, and detailed techno-economic assessments are provided. Finally, the book critically evaluates the future directions and prospective development of liquid hydrogen technologies, regulations, safety standards, and new markets for liquid hydrogen applications. Bringing together the latest information, Design and Analysis of Liquid Hydrogen Technologies: Liquefaction, Storage and Distribution provides a valuable resource for students, researchers, scientists, and engineers working in the hydrogen economy or involved in the processing, design, manufacturing, quality control, reliability, safety, systems, and testing of cryogenic refrigeration and liquid hydrogen production, storage, and transportation. Describes, in detail, the current operational and conceptual hydrogen liquefaction, storage, transportation, regasification, and distribution technologies Offers comprehensive analytical tools, decision-making tools, and practical examples for the advanced modeling and simulation of liquid hydrogen plants Provides techno-economic, reliability, safety, and environmental impact analysis of liquid hydrogen technologies, along with future prospects
Salinity is one of the acute problems causing enormous yield loss in many regions of the world. This phenomenon is particularly pronounced in arid and semiarid regions. Halophytes can remove salt from various types of problematic soils due to their unique morphological, physiological and anatomical adaptations to these environments. Halophytes are also used for the treatment of certain diseases but scientific documentation in terms of current phytotherapic applications is deficient in this unique group of plants. Different ethnic groups around the world use medicinal halophytes according to their own beliefs and ancestor’s experiences. However, their knowledge about the use of salt tolerant medicinal plants is usually confined to their own community. There is thus a knowledge gap on halophytes which should be bridged and preserved. This book provides a comprehensive account on the distribution of halophytes, their ethnobotanical and medicinal aspects, economic importance, and chemical constituents along with scientific description. The book therefore serves as a valuable resource for professionals and researchers working in the fields of plant stress biology and ethnobotanical aspects.
This book captures how industrial crops can be used in conventional agriculture and greener biopharming for pharmaceutical industries. Pharmaceuticals and industrial compounds are studied from the perspective of their co-existence with plant resources and byproducts. Such plant-based industrial products rely on scientific and technological breakthroughs and provide new opportunities for the agricultural sector, at the same time mitigate the risks associated with climate change. The management of the externalities and of the possible unintended economic effects that arise in this context is critical and poses difficult questions for regulators. The book also provides a review of the emerging agro-industrial biomass technology involved in conversion of most of the solid transgenic industrial crops by products such as plant oil lignocellulosic materials into liquid biobased energy-fuels. The book covers how innovative biotechnology can expand the markets for agricultural producers worldwide, reduce environmental degradation, and provide alternatives to fossil carbon-derived products and energy. Aspects of entrepreneurial biotechnology and bioprospecting are also covered.
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