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In this fourth and final installment in the Aquatic and Standing Water Plants of the Central Midwest series, veteran botanist Robert H. Mohlenbrock identifies aquatic and wetland plants in eight central Midwestern states, which include Iowa, Illinois, Indiana, Ohio, Kansas, Kentucky (excluding the Cumberland Mountain region), Missouri, and Nebraska. Nelumbonaceae to Vitaceae: Water Lotuses to Grapes contains 346 highly informative and technically accurate illustrations as well as ecological information, nomenclature, and keys for plants in the aforementioned families, including white water lily, fireweed, smartweed, mild water pepper, hawthorn, and wild strawberry. Mohlenbrock identifies and describes each plant in concise and readable prose and indicates its usual habitats and the states in which it occurs. As with previous volumes, Mohlenbrock organizes each species into three groups: truly aquatic plants, which spend their entire life with their vegetative parts either completely submerged or floating on the water’s surface; emergents, which are usually rooted under water with their vegetative parts standing above the water’s surface; and wetland plants, which live most or all of their lives out of water. With Nelumbonaceae to Vitaceae, Mohlenbrock completes the four-volume series organizing and identifying wetland plants in the central Midwest. The botanical series will aid many, from teachers and students to state and federal employees, focused on conservation efforts and mitigation issues.
Veteran botanist, scientific author, and professor Robert H. Mohlenbrock brings the full depth of his expertise and scholarship to his latest book, Acanthaceae to Myricaceae: Water Willows to Wax Myrtles, the third of four volumes in the Aquatic and Standing Water Plants of the Central Midwest series. This easy-to-use illustrated reference guide covers aquatic and standing water plants for the states of Iowa, Illinois, Indiana, Ohio, Kansas, Missouri, Nebraska, and Kentucky (excluding the biologically distinct Cumberland Mountain region of eastern Kentucky), from spearmint to wintergreen, from aster to waterwort. The volume identifies, describes, and organizes species in three groups, including truly aquatic plants, which spend their entire life with their vegetative parts either completely submerged or floating on the water’s surface; emergents, which are usually rooted under water with their vegetative parts standing above the water’s surface; and wetland plants, which live most or all of their lives out of water, but which can live at least three months in water. Mohlenbrock lists the taxa alphabetically, and within each taxon, he describes the species with the scientific names he deems most appropriate (indicating if his opinion differs from that of the U.S. Fish and Wildlife Service), common names, identification criteria, line drawings, geographical distribution, habitat description, and official U.S. Fish and Wildlife Service wetlands designation as described by the National Wetland Inventory Section in 1988. Acanthaceae to Myricaceae is an essential reference for state and federal employees who deal with environmental conservation and mitigation issues in aquatic and wetland plants. It is also a useful guide for students and instructors in college and university courses focusing on the identification of aquatic and wetland plants.
Plant Systematics, Third Edition, has made substantial contributions to plant systematics courses at the upper-undergraduate and first year graduate level, with the first edition winning The New York Botanical Garden's Henry Allan Gleason Award for outstanding recent publication in plant taxonomy, plant ecology or plant geography. This third edition continues to provide the basis for teaching an introduction to the morphology, evolution and classification of land plants. A foundation of the approach, methods, research goals, evidence and terminology of plant systematics are presented, along with the most recent knowledge of evolutionary relationships of plants and practical information vital to the field. In this new edition, the author includes greatly expanded treatments on families of flowering plants, as well as tropical trees (all with full-color plates), and an updated explanation of maximum likelihood and Bayesian inference algorithms. Chapters on morphology and plant nomenclature have also been enhanced with new material.
The product of twenty-five years of planning, research, and writing, Guide to the Vascular Plants of Tennessee is the most comprehensive, detailed, and up-to-date resource of its kind for the flora of the Volunteer State, home to nearly 2,900 documented taxa. Not since Augustin Gattinger’s 1901 Flora of Tennessee and a Philosophy of Botany has a work of this scope been attempted. The team of editors, authors, and contributors not only provide keys for identifying the major groups, families, genera, species, and lesser taxa known to be native or naturalized within the state—with supporting information about distribution, frequency of occurrence, conservation status, and more—but they also offer a plethora of descriptive information about the state’s physical environment and vegetation, along with a summary of its rich botanical history, dating back to the earliest Native American inhabitants. Other features of the book include a comprehensive glossary of botanical terms and an array of line drawings that illustrate the identifying characteristics of vascular plants, from leaf shape and surface features to floral morphology and fruit types. Finally, the book’s extensive keys are indexed by families, scientific names, and common names. The result is a user-friendly work that researchers, students, environmentalists, foresters, conservationists, and indeed anyone interested in Tennessee and its botanical legacy and resources will value for years to come.
This volume discusses the latest online plant genomics and cytogenetic resources used by plant evolutionary biologists and plant breeders. The chapters in this book are organized into two parts. Part One looks at plant genomic databases, and covers topics such as plant phenomics and genomics research data repositories, InpactorDB, PlanTEenrichment, and PEATmoss, among others. Part Two looks at cytogenetics and chromosome-related databases, and covers resources such as the Plant DNA C-values database, the Delphineae Chromosome Database (DCDB), B-chrom, a Database on B-chromosomes, and the Plant Ribosomal DNA Database. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective databases and offers explicit directions on how to access and get the most of these resources. Cutting-edge and comprehensive, Plant Genomic and Cytogenetic Databases is a valuable instrument for any plant science researcher who is interested in learning more about the wealth of information that is available through the use of these databases.
The recent discovery of diverse fossil flowers and floral organs in Cretaceous strata has revealed astonishing details about the structural and systematic diversity of early angiosperms. Exploring the rich fossil record that has accumulated over the last three decades, this is a unique study of the evolutionary history of flowering plants from their earliest phases in obscurity to their dominance in modern vegetation. The discussion provides comprehensive biological and geological background information, before moving on to summarise the fossil record in detail. Including previously unpublished results based on research into Early and Late Cretaceous fossil floras from Europe and North America, the authors draw on direct palaeontological evidence of the pattern of angiosperm evolution through time. Synthesising palaeobotanical data with information from living plants, this unique book explores the latest research in the field, highlighting connections with phylogenetic systematics, structure and the biology of extant angiosperms.
This book simulates a historical walk through nature, teaching readers about the biodiversity on Earth in various eras with a focus on past terrestrial environments. Geared towards a student audience, using simple terms and avoiding long complex explanations, the book discusses the plants and animals that lived on land, the evolution of natural systems, and how these biological systems changed over time in geological and paleontological contexts. With easy-to-understand and scientifically accurate and up-to-date information, readers will be guided through major biological events from the Earth's past. The topics in the book represent a broad paleoenvironmental spectrum of interests and educational modules, allowing for virtual visits to rich geological times. Eras and events that are discussed include, but are not limited to, the much varied Quaternary environments, the evolution of plants and animals during the Cenozoic, the rise of angiosperms, vertebrate evolution and ecosystems in the Mesozoic, the Permian mass extinction, the late Paleozoic glaciation, and the origin of the first trees and land plants in the Devonian-Ordovician. With state-of-the art expert scientific instruction on these topics and up-to-date and scientifically accurate illustrations, this book can serve as an international course for students, teachers, and other interested individuals.
Written primarily for mid- to upper-level undergraduates, this title the mechanisms of photosynthesis, its role in the evolution of plant-related organisms, from cyanobacteria to flowering plants, and its wider ecological and climatic significance.The primer brings together the latest research to show how the process of photosynthesis has evolved over the last three to four billion years - from its beginnings in bacteria to the various refinements now present in modern land plants.The authors explain how repeated endosymbiotic and gene gain/loss events have led to the evolution of the various algal groups and related non-photosynthetic groups, and how photosynthesis was modified as plants evolved and diversified into different ecological niches around the world. The role ofphotosynthesis in the alteration of the geology and biology of the earth, which enabled the colonisation of the land by plants and animals, is also explored. Finally, this title examines the limitations of photosynthesis and the emerging biotechnological improvements that could make this vitalprocess even more attractive as a source of clean energy, food and other industrial products.Photosynthetic Life is available for students and institutions to purchase in a variety of formats, and is supported by online resources.The ebook offers a mobile experience and convenient access: www.oxfordtextbooks.co.uk/ebooks.The online resources include:For students:- Self-test questionsFor registered adopters of the book:DT Figures from the book, available to download