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Download Applied Genetics of Oilseed Crops djvu

Download Applied Genetics of Oilseed Crops djvu

by T Ramanathan

Author: T Ramanathan
Subcategory: Engineering
Language: English
Publisher: Daya Publishing House (September 1, 2004)
Pages: 448 pages
Category: Engineering and Transport
Rating: 4.8
Other formats: txt azw lrf lit

Genetically modified crops (GM crops) are plants used in agriculture, the DNA of which has been modified using genetic engineering methods.

Genetically modified crops (GM crops) are plants used in agriculture, the DNA of which has been modified using genetic engineering methods. In most cases, the aim is to introduce a new trait to the plant which does not occur naturally in the species. Examples in food crops include resistance to certain pests, diseases, environmental conditions, reduction of spoilage, resistance to chemical treatments (. resistance to a herbicide), or improving the nutrient profile of the crop.

Camelina (Camelina sativa L. Crantz) is an oilseed crop gaining interest due to its potential portfolio of derived bio-based . Crantz) is an oilseed crop gaining interest due to its potential portfolio of derived bio-based products. Camelina has emerged in the last decade as a multipurpose crop plant particularly suitable for engineering new lipids for diverse uses, including feed, biofuel and green chemistry.

improvement of oilseed crops, starting with omics to understand metabolic . Help us write another book on this subject and reach those readers. Built by scientists, for scientists.

improvement of oilseed crops, starting with omics to understand metabolic routes and to find out key genes in seed oil production, and also, getting in use of modern biotechnology including genetic engineering and new breeding techniques (NBTs), a modern-breeding tool that has allowed the functional study of genes with potential application for breeding in agriculture, focusing on oilseed crop genetic.

In: Ramanathan T (ed) Applied genetics of oilseed crops. Daya Book, New Delhi, pp 15–73Google Scholar. Ramanathan T (2004) Groundnut. In: Applied genetics of oilseed crops

In: Ramanathan T (ed) Applied genetics of oilseed crops. In: Applied genetics of oilseed crops. Daya Publishing House, New Delhi, pp 15–73Google Scholar. Ranga Rao GV, Wightman JA (1996) Techniques for screening groundnut genotypes for resistance to insect pests.

Breeding of oilseed crops for abiotic stress: learning from past experience. Prebreeding of oilseed crops for climate change. Breeding and selection strategies under changing climates. Can carbon in oilseed crops help mitigate climate change? Interaction between abiotic and biotic stresses: impact on oilseed crops. Designing oilseed crops for a changing climate. Breeding objectives of oilseed crops under a changing climate. Innovative breeding strategies to combat climate change.

The book deals with the genetics of economic characters, approaches for genetic improvement, constraints, problems and prospects of improvement . The book covers all the major oilseed crops, edible as well as non-edible.

The book deals with the genetics of economic characters, approaches for genetic improvement, constraints, problems and prospects of improvement, innovative strategies including integrated approach of conventional breeding and molecular breeding of important oilseeds crops vi. groundnut, sesame sunflower, safflower, niger, linseed, castor and new introduction Jatropha. Breeding for resistance to abiotic and biotic stresses for gaining greater importance in recent years.

Oilseed crops have been grown all over the world and are considered important crops due to their economical value. Heavy metal stress is one of the major abiotic stresses that limit oilseed crop growth and development. Heavy metals cause toxicity in oilseed crops via multiple mechanisms, as symptoms are highly crop, metal, and dose specific. Oilseed crops show potential to ameliorate metal-induced toxicity by adjusting their hemostasis to the optimum level.

Camelina is an underutilized Brassicaceae oilseed plant with a considerable agronomic potential for biofuel and vegetable oil production in temperate regions. In contrast to most Brassicaceae, camelina is resistant to alternaria black spot and other diseases and pests

Camelina is an underutilized Brassicaceae oilseed plant with a considerable agronomic potential for biofuel and vegetable oil production in temperate regions. In contrast to most Brassicaceae, camelina is resistant to alternaria black spot and other diseases and pests.

In eight succinct chapters, Genetic Resources, Chromosome Engineering, and Crop Improvement: Oilseed Crops, Volume 4 focuses on soybean, groundnut, cottonseed, sunflower, safflower, brassica oilseeds, and sesame. This sets the stage for the ensuing crop-specific chapters.