This book provides systematic information on the lychee and modern tools to promote its sustainable growth and development. Including dedicated chapters on the evolution and diversification of the lychee, it highlights its genetic makeup and reciprocal exogenous factors, addressing the narrow genetic pool and lack of natural biodiversity. It also discusses issues related to post-harvest losses and robust approaches at the commercial level. Further, the book offers insights on in vitro propagation methods and prospective transgenic approaches for selected lychee cultivars. Chapters on the production of bioactive compounds and their enhancement through genetic transformation and elicitation are also included, reflecting the latest advances in the field of lychee biotechnology. Lastly, the book explores the use of molecular marker techniques to achieve the desired improvements in fruit trees' medicinal and aesthetic value.

Hersteller:
Springer Verlag GmbH
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Dr. Manoj Kumar is a scientist with sanguine behavior who is adoring about research and development, with a commitment to lifelong learning. He is determined on high quality science that contributes broadly to both increasing intellectual knowledge of plant development and to increasing the ecological niche. He has a high level of professional desire and intellectual hunt, and the potential to fulfil the dream of his high impact publications and the future recognition of these by academic peers. Dr. Kumar has pursued his PhD in Plant Biotechnology from prestigious Jawaharlal Nehru University and then awarded two postdocotoral fellowships consecutively: i) DBT-PDF from IISc Bangalore in 2005 and then NRF-PDF from University of Pretoria. Dr. Manoj Kumar is a researcher of Plant Biotechnology in the Division of Microbial Technology at the Amity University Uttar Pradesh, India. Until recently, he was a coordinator of Bio-resource Chapter (Northern India) and served on editorial boards of five international journals. He referees for many more, including Phytoremediation, Journal of Soil Sediments and many more. The ultimate functional aim is to adapt crop plants in order to increase productivity and adaptability on such Indian soils, with consequent improvement of sustainability in both developed and developing countries. The ultimate intellectual aim is to understand the metabolic fate of microbial mediated precursors in whole plant physiology and genetics through processes occurring at the level of metabolism, particularly through processes rhizosphere communication under in situ and in vitro plants. This aim is being addressed by combining functional genetics and metagenomics approaches with a broad-based understanding of plant microbe healthy interaction. Dr. Kumar's research is the integration of microbial genetics with a breadth of plant physiological approaches to enable novel gene discovery and conferring metabolites. The development and use of process parameters for the study and manipulation of specific rare microbial types for sub-optimal soil conditions, and even in the broader areas of plant cultivation and characterization of its active bio-molecules for industry uses. Dr. Kumar is establishing a "discovery and delivery pipeline", where a balance is being strived between fundamental researches into molecular mechanisms of heavy metal resistance bacterial types on the delivery of those discoveries through the development of susceptible crops with improved abiotic (heavy metals-cobalt, zinc, cadmium) tolerance. In the heavy metal resistance gene research program, metagenomics and functional genomics approaches are being used to discover heavy metal resistance determinant on the transposon that affect traits that are likely to contribute to heavy metal tolerance. These genes i.e. czc (cobalt, zinc and cadmium resistance), and others discovered previously by other researchers, are being characterized to elucidate mechanisms of action and natural variation within the target crops / model testing crop (Arabidopsis thaliana), to a level necessary to facilitate resistancy. The research focuses on the alteration of genes likely to alter heavy metal tolerance in crop plants, and the testing of the effects of these alterations on overall biomass in the field. Work in definition can occur in parallel, as knowledge of some metal resistance conferring genes has primitive to the stage of molecular level, whereas discovery of fundamental processes is still required for such genes and traitsDr. Vivek Kumar is a scientist with involved in teaching, research and guidance, with a pledge to enduring knowledge. Dr. Kumar is working in the Division of Microbial Technology at Amity University Uttar Pradesh, Noida, India. He is serving in Editorial board of reputed international journals viz. Environment Asia, International Journal of Biological & Chemical Sciences, Journal of Adv