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The natural classification of the fungi;postscript to the keys and thelists of genera;key to the orders of fungi;plasmodiophorales;chytridiales;blastocladiales;monoblepharidales;hyphochytridiales;oomycetales;mucorales and kickxellales;entomophthorales;endomycetales;candidaceae;sporobolomycetales;taphrinales, exobasidiales, ustilaginales;pezizales;helotiales, phacidiales;eurotiales;sphaeriales;dothideales;sphaeropsidales;melaconiales;moniliales;references.
The Book Incorporates In A Comparative Manner The Various Important Classifications Of Fungi Given By Different Workers. It Deals With The Morphology, Taxonomy, Life Cycles Of Various Groups Of Fungi And Also Includes The Disease Cycle And Control Measures Of Fungal Pathogens, Responsible For Causing Diseases Of National As Well As International Importance. The Book Has Been Written To Cater To The Needs Of Honours And Postgraduate Students Of Indian Universities. The Aim Of The Book Is To Bring In All The Recent Information In Fungi In One Volume. General Topics Like Heterothallism, Parasexual Cycle, Sex Hormones, Evolutionary Tendencies In Lower Fungi, Evolution Of Conidium From A Sporangium, Sexuality In Ascomycetes With Special Reference To Degeneration And Modification Of Sex Organs, Phylogeny Of Fungi Have Been Discussed At Length. Important Topics Like Ecology, Economic Importance Of Fungi In Various Ways, Applications Of Fungi In Biotechnology And Fungi As Symbionts Of Photobionts, Plants And Insects Has Also Been Discussed In Detail. Appendices Like Important Text And Reference Books, Mycoiogical Journals, Fungal Culture Collection Centres Of The World, Mounting Media And Common Culture Media For Fungi Have Been Included.
In contrast to the second edition, the third edition of ‘‘Fungi and Food Spoilage’’ is evolutionary rather than revolutionary. The second edition was intended to cover almost all of the species likely to be encountered in mainstream food supplies, and only a few additional species have been included in this new edition. The third edition represents primarily an updating – of taxonomy, physiology, mycotoxin production and ecology. Changes in taxonomy reflect the impact that molecular methods have had on our understanding of classification but, it must be said, have not radically altered the overall picture. The improvements in the understanding of the physiology of food spoilage fungi have been relatively small, reflecting perhaps the lack of emphasis on physiology in modern mic- biological science. Much remains to be understood about the specificity of particular fungi for particular substrates, of the influence of water activity on the growth of many of the species treated, and even on such basic parameters as cardinal temperatures for growth and the influence of pH and preservatives. Since 1997, a great deal has been learnt about the specificity of mycotoxin production and in which commodities and products-specific mycotoxins are likely to occur. Changes in our understanding of the ecology of the included species are also in most cases evolutionary. A great number of papers have been published on the ecology of foodborne fungi in the past few years, but with few exceptions the basic ecology of the included species remains.
Biology of Conidial Fungi, Volume I covers the history, classification, distribution, and ecology of conidial fungi. Conidial fungi are anamorphic (asexual) fungi of presumed ascomycetous or basidiomycetous origin. Organized into three parts encompassing 14 chapters, the book begins with a brief introduction to the history of conidial fungi. It then describes the systematics, classification, and taxonomy of a particular group of fungi, such as Hyphomycetes, Celomycete, conidial yeasts, and conidial lichen-forming fungi. The dimorphism and pleomorphism properties of these fungi are also examined. Significant topics on the general aspects of the soil, freshwater, marine, and aerial ecology of conidial fungi are considered in other chapters. This volume is of value to researchers and advanced students who are interested in the basic aspects of conidial fungi.
Today’s accelerated pace of research, aided by new instruments and techniques that combine the approaches of genetics, biochemistry, and cell biology, has changed the character of mycology. A new approach is necessary for the organization and study of fungi. Fungi: Experimental Methods in Biology presents the latest information in fungal biology generated through the application of genetics, molecular biology, and biochemistry. This book analyzes information derived through real experiments, and focuses on unresolved questions in the field. Divided into six sections comprising 14 chapters, the text describes the special features of fungi, interactions of fungi with other organisms, model fungi in research, gene manipulation, adaptations, and natural populations. Each chapter is self-contained and written in a style that enables the reader to progress from elementary concepts to advanced research, benefiting both beginning research workers and experienced professionals. A comprehensive appendix covers the principles in naming fungi and discusses their broad classification.
A comprehensive study of the biology, taxonomy, and ecology of each of the soil biotic groups. The first chapter presents an ecological approach to soil studies. The remaining 42 chapters provide specific information on each of the taxonomic groupings. Contains illustrated identification keys to each group. Some keys go by functional morphological delineations; others lead the reader to classical identification at family, genus, or species levels. Some incorporate descriptions of new genera and species. Especially useful for the study of mesic, xeric, and hydric terrestrial sites. Includes an extensive bibliography.
Now in its third edition the Encyclopedia of Astrobiology serves as the key to a common understanding in the extremely interdisciplinary community of astrobiologists. Each new or experienced researcher and graduate student in adjacent fields of astrobiology will appreciate this reference work in the quest to understand the big picture. The carefully selected group of active researchers contributing to this work are aiming to give a comprehensive international perspective on and to accelerate the interdisciplinary advance of astrobiology. The interdisciplinary field of astrobiology constitutes a joint arena where provocative discoveries are coalescing concerning, e.g. the prevalence of exoplanets, the diversity and hardiness of life, and its chances for emergence. Biologists, astrophysicists, (bio)-chemists, geoscientists and space scientists share this exciting mission of revealing the origin and commonality of life in the Universe. With its overview articles and its definitions the Encyclopedia of Astrobiology not only provides a common language and understanding for the members of the different disciplines but also serves for educating a new generation of young astrobiologists who are no longer separated by the jargon of individual scientific disciplines. This new edition offers ~170 new entries. More than half of the existing entries were updated, expanded or supplemented with figures supporting the understanding of the text. Especially in the fields of astrochemistry and terrestrial extremophiles but also in exoplanets and space sciences in general there is a huge body of new results that have been taken into account in this new edition. Because the entries in the Encyclopedia are in alphabetical order without regard for scientific field, this edition includes a section “Astrobiology by Discipline” which lists the entries by scientific field and subfield. This should be particularly helpful to those enquiring about astrobiology, as it illustrates the broad and detailed nature of the field.
Microbiomics and Sustainable Crop Production Microbiomics and Sustainable Crop Production presents an overview of the current state of the art in microbiome research, discussing many new technologies and approaches in order to bridge knowledge gaps between field and lab experimental systems. New and emerging strategies to improve the survival and activity of microbial inoculants are covered, including the use of selected indigenous microbes, optimizing microbial delivery methods, and taking advantage of modern gene editing tools to engineer microbial inoculants. The two highly qualified authors address new molecular tools and powerful biotechnological advances, providing readers with knowledge of the complex chemical and biological interactions that occur in the rhizosphere and ensuring that strategies to engineer the rhizosphere are safe, beneficial to productivity, and result in improvements to the sustainability of agricultural systems. The relationship between phyllosphere microbial communities and functional traits of plants is also explored. Finally, approaches and priority areas for future research on phyllosphere microbiology are suggested. Topics covered in this comprehensive resource include: Transmission modes of bacteria and fungi and the nature of their interactions in the endosphere Characteristics of ‘core microbiomes’, which may be deployed to organize otherwise uncontrollable dynamics of resident microbiomes Model microbiome-plant systems, as well as the stability, resilience, and assembly of agricultural microbiomes Engineering and management of agricultural microbiomes for improving crop health, including reasons to modify plant microbiomes Microbiome research in the omics era and new efforts and challenges in assigning functions to microbes For students of plant biotechnology, agricultural sciences, and agricultural engineering, along with researchers working in related fields, Microbiomics and Sustainable Crop Production is an important resource to understand many complex modern ideas related to the subject and how they can be applied to practical applications.
Biotechnology is a word that was originally coined to describe the new processes which could be derived from our ability to manipulate, in vitro, the genetic material common to all organisms. I t has now become a generic term encompassing all "applications" of living systems, including the more traditional fermentation and agricultural industries. Recombinant DNA technology has opened up new opportunities for the exploitation of microorganisms and animal and plant cells as producers or modifiers of chemical and biological products. This series of handbooks deals exclusively with microorganisms which are at the forefront of the new technologies and brings together in each of its volumes the background information necessary to appreciate the historical development of the organisms making up a particular genus, the degree to which molecular biology has opened up new opportunities, and the place they occupy in today's biotechnology industry. Our aim was to make this primarily a practical approach, with emphasis on methodology, combining for the first time information which has largely been spread across a wide literature base or only touched upon briefly in review articles. Each handbook should provide the reader with a source text, from which the importance of the genus to his or her work can be identified, and a practical guide to the handling and exploitation of the organisms included.