Improving Photosynthetic Efficiency in Sports Turf


Book Description

Jeff Haag is a native of Crestline, Ohio, and a graduate of Defiance College with a Bachelor of Science degree. He has been in the turf grass profession for the past 25 years, while serving as the sports turf manager/golf course superintendent at Bowling Green State University, and assistant sports turf manager at the University of Louisville. He currently serves as the sports turf specialist at John Carroll University in University Heights, Ohio. Jeff has published four scientific articles pertaining to the science involved in maintaining intensively manicured turf grass for both sports turf and golf course turf; Preventing Summer Stress, Preventing Turf Grass Cell Damage, Grow playable healthy turf: factors that can damage chloroplasts, and methods to help prevent them, and Playing Defense verse Free Radicals.




Molecular and Biochemical Enhancement of Chlorophyll in Sports Turf


Book Description

As sports turf managers we love green aesthetically pleasing turf. Chlorophyll is a key component in photosynthesis, however, certain events can disrupt it's development. This book elaborates on proper chlorophyll development and methods to help prevent it's breakdown.




Preventing Photorespiration"s Damaging Effects To Sports Turf


Book Description

RuBP oxygenase-carboxylase (rubisco), a key enzyme in photosynthesis, is the molecular equivalent of a good friend with a bad habit. In the process of carbon fixation, rubisco incorporates carbon dioxide (\text{CO}_2CO2) into an organic molecule during the first stage of the Calvin cycle. Rubisco is so important to plants that it makes up 30\%%30%% or more of the soluble protein in a typical plant leaf^11. But rubisco also has a major flaw: instead of always using \text{CO}_2CO2 as a substrate, it sometimes picks up \text O_2O2 instead. This side reaction initiates a pathway called photorespiration, which, rather than fixing carbon, actually leads to the loss of already-fixed carbon as \text{CO}_2CO2. Photorespiration wastes energy and decreases sugar synthesis, so when rubisco initiates this pathway, it's committing a serious molecular faux pas.




Managing Reactive Oxygen Species In Sports Turf


Book Description

Reactive oxygen species can have detrimental effects on sports turf. This book describes the causes of reactive oxygen species, its photosynthetic targets, and nutrients and compounds that can manage and prevent them.




Protecting The Electron Transport Chain In Sports turf


Book Description

The Electron Transport Chain is an important part of photosynthesis. This book discusses its function, factors that can disrupt it, and nutritional methods to protect it.




Oil Crop Genomics


Book Description

Plants are an important source of fats and oils, which are essential for the human diet. In recent years, genomics of oil biosynthesis in plants have attracted great interest, especially in high oil-bearing plants, such as sesame, olive, sunflower, and palm. Considering that, genome sequencing projects of these plants have been undertaken with the help of advanced genomics tools such as next generation sequencing. Several genome sequencing projects of oil crops are in progress and many others are en route. In addition to genome information, advanced genomics approaches are discussed such as transcriptomics, genomics-assisted breeding, genome-wide association study (GWAS), genotyping by sequencing (GBS), and CRISPR. These have all improved our understanding of the oil biosynthesis mechanism and breeding strategies for oil production. There is, however, no book that covers the genomes and genomics of oil crops. For this reason, in this volume we collected the most recent knowledge of oil crop genomics for researchers who study oil crop genomes, genomics, biotechnology, pharmacology, and medicine. This book covers all genome-sequenced oil crops as well as the plants producing important oil metabolites. Throughout this book, the latest genomics developments and discoveries are highlighted as well as open problems and future challenges in oil crop genomics. In doing so, we have covered the state-of-the-art of developments and trends of oil crop genomics.




Handbook of Photosynthesis


Book Description

The Fourth Edition of the Handbook of Photosynthesis offers a unique and comprehensive collection of topics in the field of photosynthesis, serving as an invaluable resource in this field. With contributions from 95 scientists and experts from over 20 countries, this volume has been divided into 13 parts, each serving independently to facilitate the understanding of the material. FEATURES Presents comprehensive information on photosynthesis under normal and environmental stress conditions Covers artificial photosynthesis and its future-related issues Contains 25 new chapters and 18 extensively revised and expanded chapters Includes three new sections: Influence of Nanoparticles on Photosynthesis; Protection of Photosynthesis System and Stress Alleviation Strategies by Photosynthates Manipulations and Photosynthesis Efficiency in Plants under Multiple Abiotic and Biotic Stressors; and Artificial Photosynthesis and Its Future Contains numerous tables, figures, illustrations, and case studies to facilitate the comprehension of the material as well as thousands of index words A primary resource in its field, Handbook of Photosynthesis, Fourth Edition, provides a comprehensive resource for researchers, academics, and for university courses, with the information as a valuable source to plan, implement, and evaluate strategies for dealing with photosynthesis issues.







Rice


Book Description




Turfgrass Biology, Genetics, and Breeding


Book Description

The cultivation of various turfgrasses has evolved into a dynamic, multi-billion dollar industry. Yet, there is still a real lack of information available for those seeking to understand the complex science behind its growth. This book, edited by two knowledgeable and highly respected experts, presents for the first time a comprehensive study of the various types of turfgrasses, their genetic and biological makeup, and the specifics of when, how, where and why each species was adapted for use. The only book that deals specifically with the science behind the major types of turfgrasses, Turfgrass Biology will prove to be an invaluable, time-saving reference and research tool for professionals interested or engaged in the genesis of turfgrasses.