by Alexei Solovchenko (Author)
Optical screening of excessive and potentially harmful solar radiation is an important photoprotective mechanism, though it has received much less attention in comparison with other systems preventing photooxidative damage to photoautotrophic organisms. This photoprotection in the form of screening appears to be especially important for juvenile and senescing plants as well as under environmental stresses-i.e. in situations where the efficiency of enzymatic ROS elimination, DNA repair and other `classical' photoprotective systems could be impaired. This book represents an attempt to develop an integral view of optical screening-based photoprotection in microalgae and higher plants. Towards this end, the key groups of pigments involved in the screening of ultraviolet and visible components of solar radiation in microalgae and higher plants, and the patterns of their accumulation and distribution within plant cells and tissues, are described. Special attention is paid to the manifestations of screening pigment accumulation in the optical spectra of plants. It is also demonstrated that understanding these effects and their relationships to screening pigments' makeup and spectroscopy in plants provides valuable insights into the state of plants' long-term photoacclimation, as well as ample opportunities for the non-destructive quantification of screening pigments and the assessment of the efficiency of photoprotection providing by these pigments in situ.
Format: Hardcover
Pages: 165
Edition: 1st Edition.
Publisher: Springer
Published: 05 Sep 2010
ISBN 10: 3642138861
ISBN 13: 9783642138867
From the reviews:
The book is well written and clearly structured in seven chapters. ... This book is primarily directed at professionals and experts. ... due to its textbook-like character, comprehensible style of writing and well designed figures and cartoons, the book can also provide detailed insight into the role of plant screening pigments to advanced students in plant biology. (Matthias Gilbert, Journal of Plant Physiology, Vol. 167, 2010)