Volume 30 of the Annual Plant Reviews Series, edited by Garry C. Whitelam and Karen J. Halliday, focuses on the impact of light on plant development. The first part sets the stage by providing detailed, state-of-the-art descriptions of the traditional phytochrome, cryptochrome and phototropin photoreceptor families with special emphasis on knowledge gained in Arabidopsis thaliana. Chapter 1, by A. Hiltbrunner, F. Nagy and E. Schafer, starts by reviewing the long history leading to the identification of the phytochrome family and then mainly concentrates on photochemical properties and the molecular underpinnings of regulated subcellular phytochrome partitioning. In Chapter 2, A. Batschauer and colleagues review structure and function of the cryptochrome family and discuss recent insights into the molecular mechanism of the light-driven electron transfer within the molecules, nicely illustrated by a coloured scheme. The identification of interaction partners begins to shed some light on cryptochrome signalling. Chapter 3, by J. Christie, describes the phototropins and other LOV domain proteins. Particularly useful is the small comparative section on the well-characterized WHITE COLLAR and VIVID proteins in fungi and bacterial LOV-containing proteins. A short paragraph describing bacterial phytochromes would also have added to Chapter 1, since the connection between phytochromes and bacterial histidine kinases is mentioned en passant in later chapters. The second part of the book deals with selected aspects of photoreceptor signal transduction. Chapter 4, contributed by P. Quail, provides an excellent review of a suite of protein factors interacting with the phytochrome family members and the diverse biochemical and genetic means by which they have been identified. In particular, it resolves some of the conflicting interpretations on PHYTOCHROME INTERACTING FACTOR 3 function and how the field has moved from considering PIF3 as master regulator of phytochrome-mediated seedling de-etiolation to PIF3 fulfilling a more specialized function. Chapter 5, by C. Lillo et al., compiles information on the involvement of phosphorylation events in signalling downstream of the phytochrome, cryptochrome and phototropin photoreceptors. Appropriately the chapter ends with the notion that it will be important to integrate all these observations into a coherent network in the future. Chapter 6, contributed by S. Feng and X.W. Deng, introduces the reader to the ubiquitin/proteasome system and highlights its peculiarities as discovered in Arabidopsis, such as the enormous number of 1300 potential components of E3 ubiquitin ligases encoded in the genome. Subsequently it reviews the RING family E3 ubiquitin ligase COP1 that represses photomorphogenesis by promoting the degradation of key transcriptional activators. The chapter ends with an update on additional connections between light signalling and regulated proteolysis. In Chapter 7, G. Jenkins and B. Brown provide a snapshot on signalling events downstream of the UV-B light receptor, which still remain a mystery. They clearly illustrate the distinction between UV-B-triggered stress responses involving non-specific signalling and UV-B-triggered photomorphogenetic responses as a result of signalling events specific to the UV-B range. The chapter ends with a description of the genetic screens in search of the UV-B photoreceptor and of UVR8, the first signalling component of the UV-B-specific photomorphogenetic pathway. The third part of the book describes how selected physiological processes are governed by ambient light. P. Devlin reviews the pathways that promote the transition from vegetative to reproductive development, with special emphasis on the photoperiodic response resulting from the interaction of environmental light with the endogenous circadian clock. K. Franklin and G. Whitelam provide an excellent summary on the so-called shade-avoidance response that allows plants to use the ratio between red and far-red light to detect the presence of neighbours and accordingly adjust their development to escape shading canopies. Transcript profiling performed in the authors' laboratory has significantly advanced knowledge on signalling components mediating the shade-avoidance response, such as the basic helix–loop–helix transcription factors PIL1 and PIL2 (PIF3-like 1 and 2). E.-M. Josse and K. Halliday contribute a chapter on the interaction of photoreceptors with ‘other signals’. If space had permitted, each of these examples – including the circadian clock, phytohormones and ambient temperature – clearly would have deserved a chapter on its own. The last few years have witnessed significant advances in our understanding of the respective interwoven signalling networks, for example how auxin mediates bending of a shoot towards light, one of the classical observations in plant physiology. Particularly interesting is the last part of the book, devoted to applied aspects of photomorphogenesis that are not usually covered extensively in the standard updates on photoreceptors and light responses. M. Hudson discusses approaches to improve plant performance through manipulation of photoreceptors and reviews the use of the phytochrome system to establish a light-regulated gene expression system in yeast, developed by Quail and co-workers. Finally, N. Rajapakse and Y. Shahak describe light impact from a horticultural viewpoint. Overall, the authors provide a very useful update on all aspects of photoreceptor structure, signalling and their impact on plant physiology. Relevant examples from a plethora of species are covered, but data from Arabidopsis thaliana prevail by far. The beauty of the book lies in the fact that in most chapters new insights obtained by genome-wide molecular approaches (revealing that expression of about one-third of the Arabidopsis genes is different in light and dark) or physico-chemical techniques are integrated with a chronological perspective on photoreceptor function and signalling. Inevitably, one encounters some redundancy between individual contributions. Throughout, the literature cited provides a comprehensive resource of research papers and general reviews to consult for further details. The figures are well designed and informative and also well suited for teaching purposes. A few more photographs of, for example, mutant phenotypes would have been illustrative. Some of the chapters are in large parts suited for undergraduates with a background in plant molecular biology, and I highly recommend the book as a valuable read for graduate students and advanced researchers.