Record Display for the EPA National Library Catalog
RECORD NUMBER: 34 OF 247
|OLS Field Name||OLS Field Data|
|Main Title||Cereals [electronic resource] /|
|Author||Carena, Marcelo J.|
|Subjects||Life sciences. ; Agriculture. ; Botany. ; Plant breeding.|
Due to license restrictions, this resource is available to EPA employees and authorized contractors only
Cereal Crop Breeding -- Maize -- Rice Breeding -- Spring Wheat Breeding -- Rye (Secale cereale L.) -- Grain Sorghum -- Durum Wheat Breeding -- Barley -- Winter and Specialty Wheat -- Triticale: A "New" Crop with Old Challenges -- Adding Value to Breeding -- Statistical Analyses of Genotype by Environment Data -- Breeding for Grain Quality Traits -- Breeding for Silage Quality Traits -- Participatory Plant Breeding. Handbook of Plant Breeding series Cereal Breeding Marcelo J. Carena Editor Agriculture depends on improved cultivars, and plant breeders are those who develop improved cultivars through proper germplasm choice. Breeding methods and molecular tools are secondary to germplasm choice in plant breeding. The lack of funding presents a serious threat to plant breeding programs focused on cereal commodity crops. This loss of public support affects breeding continuity, objectivity, and, perhaps equally important, the training of future plant breeders for the utilization and improvement of current plant genetic resources, especially those that are genetically broad based. The research products of breeding programs are important not only for food security, but also for commodity-oriented public and private programs, especially on the fringes of crop production and rural communities. This volume, as part of the Handbook of Plant Breeding series, aims to increase utilization of plant genetic resources and to heighten awareness of the value and impact of plant breeding and biotechnology. Ensuring strong applied plant breeding programs with targeted use of molecular tools to specific traits (e.g. qualitative and highly heritable traits that are difficult to measure) will be essential in ensuring a sustainable use of plant genetic resources. We have an opportunity to greatly enhance agricultural production and value through germplasm adaptation, increased genetic diversity on farms, and maximization of genetic improvement under environmental stresses to meet the growing demands for food security, food quality, and environmental conservation. Cereals presents breeding efforts in major cereal crops (maize, sorghum, rice, spring wheat, winter wheat, durum wheat, barley, rye, and triticale) and chapters devoted to increasing the value of cereal breeding under different scenarios (GxE interaction, grain quality, silage quality, and participatory plant breeding). We hope to include other cereal crops in future editions. The book is a novel and exciting contribution to the field of cereal breeding and should be of great interest to students and scientists alike. Thirty-nine authors representing over 10 developed and developing countries as well international centers (e.g. CIMMYT, ICARDA, FAO) have done an excellent job sharing knowledge and experience to the next generation of plant breeders that will develop the future cultivars for different purposes. We feel this book is very opportune since there has been a serious erosion of public plant breeders especially in the past 10 years. This book is a call to policy makers, breeders, educators, instructors, students, industry leaders, grant donors, grant reviewers, economists, and many others to meet the need for continuous and holistic long-term applied plant breeding programs that will supply the future generation of plant breeders. Without them, there will be no development of future cultivars. More than ever, scientists are encouraged to be creative in their search for needed research in order to address current and future challenges before searching for funding. The conduction of long-term research with applied impact will be beneficial as well as the exploration of plant breeding paradigms and scientific alternatives between enhanced productivity (and uniformity) and enhanced quality of life for all human beings. Millions of people have the right to access to adequate food (FAO, 2008). While food distribution is still a challenge all over the world to alleviate hunger, there is still enough food for an increasing human population and cereal breeding is the best investment to maintain enough food supply under the environmental challenges facing our planet (e.g. global warming, biofuel demand, abiotic stresses). Marcelo Carena is Associate Professor from the Department of Plant Sciences at the North Dakota State University (NDSU), Fargo, ND, USA. Since 1999, Dr. Carena is the Director of the NDSU Corn Breeding and Genetics Program, the most northern public corn research program in North America focused on increasing genetic diversity, drought tolerance, and grain quality in early maturing maize cultivar development. He teaches Quantitative Genetics and Crop Breeding Techniques at NDSU. Prof. Carena is currently Editor of Euphytica and Maydica, and Chair of the Crop Science Society of America Maize Registration Committee. Dr. Carena has trained five Ph.D. and eight MS students, two Visiting Scientists, and several interns over the past 10 years. In the same time, he has released eight early maturing corn inbred lines, has released four improved early maturing populations, and has published over 50 scientific papers, abstracts, book chapters, and editions on maize breeding and genetics.