The saltwater angler's identification guide to entomology and fly patterns with over 450 color photos of prey and flies. Over 150 species and 200 fly patterns for crabs, shrimp, baitfish, and prey fish. Learn what saltwater gamefish eat and why and how to fish flies to mimic live saltwater prey.
Marine researcher Aaron Adams shares his knowledge about sea grass, mangroves, salt marshes, oyster bars, shorelines, beaches, sand flats, and coral reefs from the Caribbean to the Carolinas, the Gulf of Mexico to the Florida coast, to give you what you need to know to fish for tropical, subtropical, and warm-water species. Features: Descriptions of saltwater habitats -- mangroves, salt marshes, oyster bars, and beaches; Behaviour, life cycles, and fishing tips for 25 marine gamefish and their prey; Red drum, spotted seatrout, permit, bonefish, snook, tarpon, barracuda, snapper, ladyfish, weakfish, bluefish, striped bass, cobia, cero mackerel, Spanish mackerel, and jacks.
Marine researcher Aaron Adams shares his knowledge about sea grass, mangroves, salt marshes, oyster bars, shorelines, beaches, sand flats, and coral reefs from the Caribbean to the Carolinas, the Gulf of Mexico to the Florida coast, to give reader swhat they need to know to fish for tropical, subtropical, and warm-water species. Behavior, life cycles, and fishing tips for 25 marine gamefish and their prey are included. Species include red drum, spotted seatrout, permit, bonefish, snook, tarpon, barracuda, snapper, ladyfish, weakfish, bluefish, striped bass, cobia, cero mackerel, Spanish mackerel, and jacks. The updated and revised new edition contains new chapters as well as an all-new art program.
An engagingly written text that bridges the gap between neuroanatomy and clinical neurology A Doody’s Core Title for 2021! “A wonderfully readable, concise, but by no means superficial book that fits well in the current pedagogic environment.” From the Foreword by Allan H. Ropper, MD Clinical Neurology and Neuroanatomy delivers a clear, logical discussion of the complex relationship between neuroanatomical structure and function and neurologic disease. Written in a clear, concise style, this unique text offers a concise overview of fundamental neuroanatomy and the clinical localization principles necessary to diagnose and treat patients with neurologic diseases and disorders. Unlike other neurology textbooks that either focus on neuroanatomy or clinical neurology, Clinical Neurology and Neuroanatomy integrates the two in manner which simulates the way neurologists learn, teach, and think. Clinical Neurology and Neuroanatomy is divided into two main sections. In Part 1, clinically relevant neuroanatomy is presented in clinical context in order to provide a framework for neurologic localization and differential diagnosis. The diseases mentioned in localization-based discussions of differential diagnosis in Part 1 are then discussed in clinical detail with respect to their diagnosis and management in Part 2. Part 1 can therefore be consulted for a neuroanatomical localization-based approach to symptom evaluation, and Part 2 for the clinical features, diagnosis, and management of neurologic diseases. FEATURES • A clear, concise approach to explaining the complex relationship between neuroanatomical structure and function and neurologic disease • Numerous full-color illustrations and high resolution MRI and CT scans • Explanatory tables outline the clinical features, characteristics, and differential diagnosis of neurologic diseases and disorders
No rational mind - given the evidence of buttons and buttonholes in an article of clothing - would deny that both "intelligence" and "design" played roles in the fabrication of such a garment, but - mystery of mysteries - the brightest and most educated in our culture, reject such considerations for all the infinitely more complex living organisms, insisting (dogmatically) that they somehow "evolved" by haphazard, sequential, random mutations. A challenge is therefore, proposed - to anyone anti-"Intelligent Designer", who believes he has not been "brain-washed", but who has at least a "hair-line crack" to open-mindedness - to refute the material herein - the non-factuality and astronomical improbabilities of pure random-chance-mutations of individual elements (among the multi-billions in the DNA helix) as a credible belief system in explaining: ü the spider, butterfly, or bacterium flagellum (Pajaro Dunes Micro-Biology Conference - scientists challenging Darwinism); ü male-female sexuality feelings: irresistible sex-drive before; gratification after - evoking propagation and proliferation of mammalian species; ü the (simple, yet ever so complex) umbilical cord concept for mammals - from kittens to humans? This book is a scholarly review (in layman terms) of all pertinent aspects of Science versus Bible in all applicable fields: Archaeology, Astronomy, Biology, Cosmology, Egyptology, Paleontology, Physics, etc., with over 300 references to the arcane writings of world-class scientists, historians, mathematicians and adventurers.
Introduction -- Part I: Late Antique Fantasies: 1. Qur'ānic Others -- 2. Producing Islam through the Production of Religious Others -- 3. Past Perfect: Opening the Jāhiliyya's Complex Present -- Part II: Subsequent Constructions: 4. Good Jew, Bad Jew -- 5. Making Christians -- 6. Shīʻa: The Other Within -- 7. The Amorphous Zindīq -- Conclusions -- Bibliography.
A Doody's Core Title for 2023! An Engagingly Written Text That Bridges the Gap Between Neuroanatomy and Clinical Neurology Clinical Neurology and Neuroanatomy provides a clear, logical discussion of the relationship between neuroanatomy, clinical localization, and the diagnosis and treatment of neurologic disease. Written in a concise, conversational style, this unique text offers a valuable overview of fundamental neuroanatomy and the clinical localization principles necessary to diagnose and treat patients with neurologic diseases and disorders. The text is divided into main sections. Part I teaches the neuroanatomy essential for clinical localization and demonstrates how to apply this knowledge to clinical reasoning in developing a differential diagnosis for common neurologic symptoms including weakness, sensory changes, visual loss, ataxia, diplopia, anisocoria, and dizziness. A detailed overview of the neurologic examination and a primer on interpretation of neurodiagnostic tests with a focus on neuroimaging and CSF analysis is also included. Part II provides an up-to-date synthesis of the diagnosis and treatment of neurologic diseases including epilepsy, stroke, neurologic infections, demyelinating diseases, dementia, movement disorders, neurologic complications of cancer and its treatment, and conditions of the peripheral nervous system. More than 50 radiologic images of common and rare neurologic conditions and over 30 tables summarizing key aspects of various conditions and their treatment are featured. Clinical Neurology and Neuroanatomy is an ideal companion for students on their neurology rotation, neurology residents, and any healthcare practitioner looking for a quick, clear, up-to-date resource in neurology. NEW IN THE UPDATED AND EXPANDED SECOND EDITION 26 new full-color neuroanatomy illustrations plus numerous high-resolution MRI and CTI scans New sections on multiple cranial neuropathies, vertical diplopia, basal ganglia circuitry, functional movement disorders, neurologic complications of immune checkpoint inhibitors and CAR T-cell therapy, and antibody-mediated neurologic diseases Updated and expanded tables including new treatments for seizures, multiple sclerosis, and migraine; recently described autoantibody-mediated conditions; and revised classification of brain tumors Updated chapter on strokes reviews the latest clinical trial data on acute stroke treatments, use of dual antiplatelet regimens, and PFO closure
The Langlands program has been a very active and central field in mathematics ever since its conception over 50 years ago. It connects number theory, representation theory and arithmetic geometry, and other fields in a profound way. There are nevertheless very few expository accounts beyond the GL(2) case. This book features expository accounts of several topics on automorphic forms on higher rank groups, including rationality questions on unitary group, theta lifts and their applications to Arthur's conjectures, quaternionic modular forms, and automorphic forms over functions fields and their applications to inverse Galois problems. It is based on the lecture notes prepared for the twenty-fifth Arizona Winter School on “Automorphic Forms beyond GL(2)”, held March 5–9, 2022, at the University of Arizona in Tucson. The speakers were Ellen Eischen, Wee Teck Gan, Aaron Pollack, and Zhiwei Yun. The exposition of the book is in a style accessible to students entering the field. Advanced graduate students as well as researchers will find this a valuable introduction to various important and very active research areas.
This book allows readers to grasp both the fundamentals and the latest technological advances in the field of mine drainage, which is increasingly crucial both environmentally and economically. Its extensive coverage of current and promising passive treatment technologies, combined with numerous practical guides, makes it an indispensable tool for early researchers seeking promising trends and identifying gaps. The book systematically explores recent literature on passive treatment research, classifying them as preventative, in-situ, and ex-situ solutions. It covers relevant passive treatments such as permeable reactive barriers, constructed wetlands, gravel bed reactors, saturated rock fills, and passivation techniques, among other common source control tactics. Each technology is discussed in terms of principal mechanisms, state-of-the-art technological advances, advantages and disadvantages, and suitability for a given mine drainage chemistry and flow regime. The book provides a comprehensive view of the entire field, offering researchers and policymakers a reference guide, research ideas, understanding, and practical applications for each technology. Furthermore, the contains an overview of recent trends in material selection for passive treatment applications, primarily through the use of industrial waste and by-products, which incorporate more sustainable practices in mine drainage remediation. Uniquely, the manuscript includes a flowchart based on water chemistry and flow rates to guide readers to ideal treatment options, along with written analysis to further support the readers’ decision-making. Overall, this equips early researchers in the field with knowledge of fundamentals and promising research routes when dealing with different mine drainage complexities while also providing them with promising research avenues that can advance the field further.
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