In 1929, Charles Upson Clark (1875-1960), a history Professor at Columbia University carrying out bibliographic research on the early history of the Americas in the Vatican Library, came across a remarkable illustrated Latin manuscript entitled Libellus de Medicinalibus Indorum Herbis (Little Book of Indian Medicinal Herbs) completed in 1552. The manuscript now known as the Codex Cruz-Badianus (CCB) contained 185 illustrations (phytomorphs) of plants with text that described their medicinal uses. This manuscript spread new light on botanical and medicinal knowledge of the indigenous peoples of Mexico known today as the Nahuas or Aztecs. It was to have major repercussions on our knowledge of Aztec culture and the history of New Spain in the 16th century. CCB was produced at the Colegio of Imperial de Santa Cruz at Tlatelolco established in 1536 to train sons of the Aztec nobility for the clergy. The authors were two indigenous faculty members, Martin (Martinus in Latin) de la Cruz and Juan Badiano (Juannes Badianus in Latin) whose Spanish names were conferred upon their baptism. Martin de la Cruz was the Colegio’s indigenous doctor who gave instruction in medicine and Juan Badiano, a Latin teacher and former student translated the book into Latin. The herbal dedicated to the Viceroy Francisco de Mendoza was sent to Spain as a gift to King Carlos I soon after its completion in 1552. The original ended up in the Vatican Library until 1990 when John Paul II returned it to Mexico. In 1931, the Mayanist scholar, William Gates, and the biologist Emily Walcott Emmart became aware of the manuscript and independently translated it to English. In 2009, Martin Clayton, Luigi Guerrini, and Alejandro de Avila identified plants of the CCB based on Emmart’s book and a 17th century copy found in the Windsor library. Of the 185 phytomophs, Gates identified 85 on the generic level, Emmart 9, and Clayton et al. 126. However most of these identifications disagree. In the present work, 183 of 185 phytomorphs are systematically re-evaluated and identified on the generic, as well as specific level, along with their botanical descriptions, previous identifications, putative identification, distribution, names, and uses.
Plant taxonomy is an ancient discipline facing new challenges with the current availability of a vast array of molecular approaches which allow reliable genealogy-based classifications. Although the primary focus of plant taxonomy is on the delimitation of species, molecular approaches also provide a better understanding of evolutionary processes, a particularly important issue for some taxonomic complex groups. Molecular Plant Taxonomy: Methods and Protocols describes laboratory protocols based on the use of nucleic acids and chromosomes for plant taxonomy, as well as guidelines for phylogenetic analysis of molecular data. Experts in the field also contribute review and application chapters that will encourage the reader to develop an integrative taxonomy approach, combining nucleic acid and cytogenetic data together with other crucial information (taxonomy, morphology, anatomy, ecology, reproductive biology, biogeography, paleobotany), which will help not only to best circumvent species delimitation but also to resolve the evolutionary processes in play. Written in the successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible protocols, and notes on troubleshooting and avoiding known pitfalls. Authoritative and easily accessible, Molecular Plant Taxonomy: Methods and Protocols seeks to provide conceptual as well as technical guidelines to plant taxonomists and geneticists.
This overview of dinosaur discoveries in Mexico synthesizes current information about the geography and environment of the region during the Mesozoic when it was the western margin of the ancient continent of Pangea. The book summarizes research on various groups, including turtles, lepidosauromorphs, plesiosaurs, crocodyliforms, pterosaurs, and last but not least, dinosaurs. In addition, chapters focus on trackways and other trace fossils and on K/P boundary (the Chicxulub crater, beneath the Gulf of Mexico, has been hypothesized as the site of the boloid impact that killed off the dinosaurs). Dinosaurs and Other Reptiles from the Mesozoic of Mexico is an up-to-date, informative volume on an area that has not been comprehensively described until now.
Reconstruction of ocean paleoproductivity and paleochemistry is paramount to understanding global biogeochemical cycles such as the carbon, oxygen and sulfur cycles and the responses of these cycles to changes in climate and tectonics. Paleo-reconstruction involves the application of various tracers that record seawater compositions, which in turn may be used to infer oceanic processes. Several important tracers are incorporated into pelagic barite, an authigenic mineral that forms in the water column. Here we summarize the utility of pelagic barite for the reconstruction of export production and as a recorder of seawater S, O, Sr, Ca and Ba.
Ornamental plants are economically important worldwide. Both growers and consumers ask continuously for new, improved varieties. Although there are numerous ornamental species, ornamental plant breeding and plant breeding research is mainly limited to some major species. This book focuses on the recent advances and achievements in ornamental plant breeding. The first part of the book focuses on plant traits and breeding techniques that are typical for ornamental plants. Eminent research groups write these general chapters. For plant traits like flower colour or shape, breeding for disease resistance and vase or shelf life are reviewed. General technical plant breeding chapters deal with mutation breeding, polyploidisation, in vitro breeding techniques and new developments in molecular techniques. The second part of the book consists of crop-specific chapters. Here all economically major ornamental species are handled together with selected representative species from different plant groups (cut flowers, pot plants, woody ornamental plants). In these crop-specific chapters, the main focus is on recent scientific achievements over the last decade.
Monarch butterflies are among the most popular insect species in the world and are an icon for conservation groups and environmental education programs. Monarch caterpillars and adults are easily recognizable as welcome visitors to gardens in North America and beyond, and their spectacular migration in eastern North America (from breeding locations in Canada and the United States to overwintering sites in Mexico) has captured the imagination of the public. Monarch migration, behavior, and chemical ecology have been studied for decades. Yet many aspects of monarch biology have come to light in only the past few years. These aspects include questions regarding large-scale trends in monarch population sizes, monarch interactions with pathogens and insect predators, and monarch molecular genetics and large-scale evolution. A growing number of current research findings build on the observations of citizen scientists, who monitor monarch migration, reproduction, survival, and disease. Monarchs face new threats from humans as they navigate a changing landscape marked by deforestation, pesticides, genetically modified crops, and a changing climate, all of which place the future of monarchs and their amazing migration in peril. To meet the demand for a timely synthesis of monarch biology, conservation and outreach, Monarchs in a Changing World summarizes recent developments in scientific research, highlights challenges and responses to threats to monarch conservation, and showcases the many ways that monarchs are used in citizen science programs, outreach, and education. It examines issues pertaining to the eastern and western North American migratory populations, as well as to monarchs in South America, the Pacific and Caribbean Islands, and Europe. The target audience includes entomologists, population biologists, conservation policymakers, and K–12 teachers.