The genus Vaccinium contains more than 400 species. If you love blueberries, cranberries, and lingonberries, you will now be able to successfully grow them for edible and ornamental uses.
Many North American plants have characteristics that are especially promising for creating varieties needed to expand food production, and there are excellent prospects of generating new economically competitive crops from these natives. The inadequacy of current crops to meet the food demands of the world’s huge, growing population makes the potential of indigenous North American food plants even more significant. These plants can also generate crops that are more compatible with the ecology of the world, and many also have inherent health benefits. Presenting detailed scholarship, a thoroughly accessible style, and numerous entertaining anecdotes, North American Cornucopia: Top 100 Indigenous Food Plants is a full-color book dedicated to the most important 100 native food plants of North America north of Mexico that have achieved commercial success or have substantial market potential. The introductory chapter reviews the historical development of North American indigenous crops and factors bearing on their future economic success. The rest of the book consists of 100 chapters, each dedicated to a particular crop. The book employs a user-friendly chapter format that presents the material in sections offering in-depth coverage of each plant. The first section of each chapter provides information on the scientific and English names of the plants, followed by a section on the geography and ecology of the wild forms, accompanied by a map showing the North American distribution. A section entitled "Plant Portrait" comprises a basic description of the plant, its history, and its economic and social importance. This is followed by "Culinary Portrait," concerned with food uses and culinary vocabulary. The chapters then provide an analysis of the economic future of each crop, discuss notable and interesting scientific or technological observations and accomplishments, and present extensive references.
Nutritional Composition of Fruit Cultivars provides readers with the latest information on the health related properties of foods, making the documentation of the nutritive value of historical cultivars especially urgent, especially before they are lost and can't be effectively compared to modern cultivars. Because there is considerable diversity and a substantial body of the compositional studies directed towards commercial varieties, this information is useful for identifying traits and features that may be transposed from one variety to another. In addition, compositional and sensory features may also be used for commercialization and to characterize adulteration. Detailed characterization of cultivars can be used to identify "super-foods". Alternatively, unmasked historical cultivars may be the focus of reinvigorated commercial practices. Each chapter in this book has sections on the botanical aspects, the composition of traditional or ancient cultivars, the composition of modern cultivars, a focus on areas of research, the specialty of the communicating author of each chapter, and summary points. - Presents the botanical aspects and composition of both traditional and modern plants, including in-depth insight into current research, and overall summary points for each fruit for consistent comparison and ease of reference - Provides important information in the consideration of preservation, transference, or re-introduction of historical/traditional cultivars into current crop science - Provides details on compositional and sensory parameters, from aroma and taste to micro- and macronutrients - Includes data on nutraceuticals and novel components that have proven to impact on, or be important in, food quality, storage, processing, storage, and marketing
*2023 GardenComm Media Awards Silver Laurel Medal of Achievement The easy-to-use resource for growing healthy, resilient, low-maintenance trees, shrubs, vines, and other fruiting plants from around the world—perfect for farmers, gardeners, and landscapers at every scale. Illustrated with more than 200 color photographs and covering 50 productive edible crops—from Arctic kiwi to jujube, medlar to heartnut—this is the go-to guide for growers interested in creating diversity in their growing spaces. "[Levy and Serrano] go way beyond the standard fare. . . . With their help, you’ll be growing persimmons, currants and hazelnuts in no time."—Modern Farmer Cold-Hardy Fruits and Nuts is a one-stop compendium of the most productive, edible fruit-and nut-bearing crops that push the boundaries of what can survive winters in cold-temperate growing regions. While most nurseries and guidebooks feature plants that are riddled with pest problems (such as apples and peaches), veteran growers and founders of the Hortus Arboretum and Botanical Gardens, Allyson Levy and Scott Serrano, focus on both common and unfamiliar fruits that have few, if any, pest or disease problems and an overall higher level of resilience. Inside Cold-Hardy Fruits and Nuts you’ll find: Taste profiles for all fifty hardy fruits and nuts, with notes on harvesting and uses Plant descriptions and natural histories Recommended cultivars, both new and classic Propagation methods for increasing plants Nut profiles including almonds, chestnuts, walnuts, and pecans Fertilization needs and soil/site requirements And much more! With beautiful and instructive color photographs throughout, the book is also full of concise, clearly written botanical and cultural information based on the authors’ years of growing experience. The fifty fruits and nuts featured provide a nice balance of the familiar and the exotic: from almonds and pecans to more unexpected fruits like maypop and Himalayan chocolate berry. Cold-Hardy Fruits and Nuts gives adventurous gardeners all they need to get growing. Both experienced and novice gardeners who are interested in creating a sustainable landscape with a greater diversity of plant life—while also providing healthy foods—will find this book an invaluable resource.
Recent interest in the health-related, culinary, and biological properties of berries is stimulating new initiatives in berry breeding and production. Breakthroughs in molecular technologies allow genomics-enabled approaches to augment research efforts. This volume documents the basic botany and culture of four major berry crops and follows the sci
Fleshy Fruits are a late acquisition of plant evolution. In addition of protecting the seeds, these specialized organs unique to plants were developed to promote seed dispersal via the contribution of frugivorous animals. Fruit development and ripening is a complex process and understanding the underlying genetic and molecular program is a very active field of research. Part of the ripening process is directed to build up quality traits such as color, texture and aroma that make the fruit attractive and palatable. As fruit consumers, humans have developed a time long interaction with fruits which contributed to make the fruit ripening attributes conform our needs and preferences. This issue of Frontiers in Plant Science is intended to cover the most recent advances in our understanding of different aspects of fleshy fruit biology, including the genetic, molecular and metabolic mechanisms associated to each of the fruit quality traits. It is also of prime importance to consider the effects of environmental cues, cultural practices and postharvest methods, and to decipher the mechanism by which they impact fruit quality traits. Most of our knowledge of fleshy fruit development, ripening and quality traits comes from work done in a reduced number of species that are not only of economic importance but can also benefit from a number of genetic and genomic tools available to their specific research communities. For instance, working with tomato and grape offers several advantages since the genome sequences of these two fleshy fruit species have been deciphered and a wide range of biological and genetic resources have been developed. Ripening mutants are available for tomato which constitutes the main model system for fruit functional genomics. In addition, tomato is used as a reference species for climacteric fruit which ripening is controlled by the phytohormone ethylene. Likewise, grape is a reference species for non-climacteric fruit even though no single master switches controlling ripening initiation have been uncovered yet. In the last period, the genome sequence of an increased number of fruit crop species became available which creates a suitable situation for research communities around crops to get organized and information to be shared through public repositories. On the other hand, the availability of genome-wide expression profiling technologies has enabled an easier study of global transcriptional changes in fruit species where the sequenced genome is not yet available. In this issue authors will present recent progress including original data as well as authoritative reviews on our understanding of fleshy fruit biology focusing on tomato and grape as model species.
Provides detailed information on identity, nature, bioavailability, chemopreventative effects and postharvest stability of specific chemical classes with known bioactive properties.