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"How lovely to discover a book on the craft of writing that is also fun to read . . . Alison asserts that the best stories follow patterns in nature, and by defining these new styles she offers writers the freedom to explore but with enough guidance to thrive." ―Maris Kreizman, Vulture A Publishers Weekly Best Book of 2019 | A Poets & Writers Best Books for Writers As Jane Alison writes in the introduction to her insightful and appealing book about the craft of writing: “For centuries there’s been one path through fiction we’re most likely to travel― one we’re actually told to follow―and that’s the dramatic arc: a situation arises, grows tense, reaches a peak, subsides . . . But something that swells and tautens until climax, then collapses? Bit masculosexual, no? So many other patterns run through nature, tracing other deep motions in life. Why not draw on them, too?" W. G. Sebald’s Emigrants was the first novel to show Alison how forward momentum can be created by way of pattern, rather than the traditional arc--or, in nature, wave. Other writers of nonlinear prose considered in her “museum of specimens” include Nicholson Baker, Anne Carson, Marguerite Duras, Gabriel García Márquez, Jamaica Kincaid, Clarice Lispector, Susan Minot, David Mitchell, Caryl Phillips, and Mary Robison. Meander, Spiral, Explode is a singular and brilliant elucidation of literary strategies that also brings high spirits and wit to its original conclusions. It is a liberating manifesto that says, Let’s leave the outdated modes behind and, in thinking of new modes, bring feeling back to experimentation. It will appeal to serious readers and writers alike.
The course of the Meander is so famously indirect that the river's name has come to signify digression - an invitation Jeremy Seal is duty-bound to accept while travelling the length of it in a one-man canoe. At every twist and turn of his journey, from the Meander's source in the uplands of Central Turkey to its mouth on the Aegean Sea, Seal illuminates his account with a wealth of cultural, historical and personal asides. It is a journey that takes him from Turkey's steppe interior - the stamping ground of such illustrious adventurers as Xerxes, Alexander the Great and the Crusader Kings - to the great port city of Miletus, home of the earliest Western philosophers. Along the way Seal unpicks the history of this remarkable region, but he also encounters a rich assortment of contemporary characters who reveal a rural Turkey on the cusp of change. Above all, this is the story of a river that first brought the cultures of East and West into contact - and conflict - with one another, its banks littered with the spoil of empires, the marks of war, and the detritus of recent industrialisation. At once epic, intimate and insightful, Meander is a brilliant evocation of a land between two worlds.
Finishing your own quilts is easier than you think Turn the corner to free-motion success with a meandering makeover! Best-selling author Angela Walters shows you that free-motion quilting doesn't have to be scary - with a couple designs in your pocket, you can finish almost any quilt on your home machine and enjoy the process. Practice 8 meandering stitches for beginners, plus creative variations on each, with step-by-step visuals and quilted samples. Start your free-motion journey on the right foot with proven techniques to help you disguise mistakes and transition between designs with ease. • Thrive at free-motion quilting with popular teacher and best-selling author Angela Walters • Just starting out? Angela includes the basics of quilting and supplies • Troubleshoot mistakes, master the meander, and practice fluid movement between quilt stitches
Abby Phillips Metzger's book of personal stories recounts a forgotten Oregon river, the Willamette, as it was before white settlement. Once a rich network of channels and sloughs, the Willamette today bears the scars of development and degradation. Yet, through canoe trips and intimate explorations of the river, Metzger discovers glints of resiliency: a beaver trolling through a slough, native fish in quiet backwaters, and strong currents that carry undertones of the wild Willamette. Together with tales from farmers and scientists alike, these experiences lead Metzger to ask whether something scarred can fully heal, and whether a disjointed river can be whole again. A story of re-discovery as told by a learner, Meander Scars will appeal to readers of literary nonfiction, river advocates, naturalists, and outdoor enthusiasts interested in sustaining healthy river systems for themselves, their children, and beyond.
The sinuous form and peculiar evolution of meandering rivers has long captured the imagination of people. Today, meandering rivers exist in some of the most densely populated areas in the World, where they provide environmental and economic wealth and opportunities, as well as posing hazards. Through geological time, the ancestors of these modern meanders built deposits that are now host to mineral resources, groundwater, and hydrocarbons. This Special Publication illustrates the breadth of current research on meandering rivers and their deposits. The collection of research papers demonstrates the state of science on fluvial process–product relationships. The articles cover fundamental and applied studies of both modern and ancient rivers, are based on state-of-the-art technology, include complementary philosophical approaches, and span a wide range of spatial and temporal scales. This book includes some of the most recent advances in the study of the morphodynamics and sedimentology of meandering rivers, and is an important resource for those who want to investigate fluvial systems and their deposits.
Draws on the author's own experiences as a watershed planner, teacher, and activist to tell the story of the Great Lakes region's experiment in restoring a complicated natural system of flowing water.
This unique book’s subject is meanders (connected, oriented, non-self-intersecting planar curves intersecting the horizontal line transversely) in the context of dynamical systems. By interpreting the transverse intersection points as vertices and the arches arising from these curves as directed edges, meanders are introduced from the graphtheoretical perspective. Supplementing the rigorous results, mathematical methods, constructions, and examples of meanders with a large number of insightful figures, issues such as connectivity and the number of connected components of meanders are studied in detail with the aid of collapse and multiple collapse, forks, and chambers. Moreover, the author introduces a large class of Morse meanders by utilizing the right and left one-shift maps, and presents connections to Sturm global attractors, seaweed and Frobenius Lie algebras, and the classical Yang-Baxter equation. Contents Seaweed Meanders Meanders Morse Meanders and Sturm Global Attractors Right and Left One-Shifts Connection Graphs of Type I, II, III and IV Meanders and the Temperley-Lieb Algebra Representations of Seaweed Lie Algebras CYBE and Seaweed Meanders
Meandering patterns shaped by fluid flows are found over a broad range of landscapes, from bedrock channels to rivers and estuaries, deep-marine environments, supraglacial streams and other planets such as Mars and Venus. During the last six decades, meanders have been widely investigated by researchers from different fields, such as fluid mechanics, geomorphology, ecology, civil- and petroleum engineering, and geology. This volume seeks to push the science of meandering forward by bringing together insights gained from field, laboratory and numerical investigations of meandering streams found in distinct environmental and geological contexts. The authors pay particular attention to the interactions between autogenic and allogenic processes that affect meander kinematics and the resulting morphology, sedimentology and stratigraphic architecture. The findings presented in this volume contribute to a better understanding of stream meandering in diverse settings, with broad implications for stream and wetland restoration, land management, infrastructure design, oil exploration and production, carbon sequestration, hazard mitigation and planetary palaeoenvironmental reconstructions.
This thesis examines the morphological changes of non-tidal meandering rivers at the spatial scale of several meanders. With this purpose, a physics-based mathematical model, MIANDRAS, has been developed for the simulation of the medium-term to long-term evolution of meandering rivers. Application to several real rivers shows that MIANDRAS can properly simulate both equilibrium river bed topography and planimetric changes. Three models of different complexity can be obtained by applying different degrees of simplification to the equations. These models, along with experimental tests and field data, constitute the tools for several analyses. At conditions of initiation of meandering, it is found that river bends can migrate upstream and downstream. This depends on meander wave length and width-to-depth ratio, irrespective of whether the parameters are in the subresonant or the superresonant range.