Read more
This book focuses on multiple plant stresses and the molecular basis of adaptation, addressing the molecular mechanism and adaptation for both abiotic and biotic stresses.
Ensuring the yield of crop plants grown under multiple individual and/or combined stresses is essential to sustaining productivity. In this regard, the development of broad-spectrum stress-tolerant plants is important.
However, to date information has largely been compiled only on the individual stress tolerance mechanisms, and the mechanisms behind plants' tolerance to two or more individual or simultaneous stresses are not fully understood. Especially combinatorial stress, a new stress altogether, has only recently been made the object of systematic study.
Now several research groups around the world have begun exploring the concurrent stress tolerance mechanisms under both biotic and abiotic stress combinations. This book presents contributions from various experts, highlighting the findingsof their multiple individual and concurrent stress tolerance dissection studies.
List of contents
Please refer to the attached doc.
About the author
Dr. Senthil-Kumar Muthappa is a scientist at National Institute of Plant Genome Research, New Delhi, India. He received his B. Sc. in agriculture from Tamil Nadu Agricultural University, Coimbatore and M. Sc. and Ph. D in crop physiology from University of Agricultural Sciences, Bangalore, India. He was a post-doctoral fellow at The Samuel Roberts Noble Foundation, Ardmore Oklahoma, USA. He has published over 40 research articles and several review articles on understanding plant interaction with drought stress and pathogens. Currently, his research team is working to understand the interaction of drought and pathogen stress and their combined impact on plants.
Summary
This book focuses on multiple plant stresses and the molecular basis of adaptation, addressing the molecular mechanism and adaptation for both abiotic and biotic stresses.
Ensuring the yield of crop plants grown under multiple individual and/or combined stresses is essential to sustaining productivity. In this regard, the development of broad-spectrum stress-tolerant plants is important.
However, to date information has largely been compiled only on the individual stress tolerance mechanisms, and the mechanisms behind plants’ tolerance to two or more individual or simultaneous stresses are not fully understood. Especially combinatorial stress, a new stress altogether, has only recently been made the object of systematic study.
Now several research groups around the world have begun exploring the concurrent stress tolerance mechanisms under both biotic and abiotic stress combinations. This book presents contributions from various experts, highlighting the findingsof their multiple individual and concurrent stress tolerance dissection studies.
