Publisher's Weekly Review
The main question posed by this frustrating book is whether the acquired characteristics of one generation can be reliably passed on to future generations. In other words, was 18th-century naturalist Jean-Baptiste Lamarck in fact correct that parents can pass on physical changes they've undergone over their lifetime-for instance, improved musculature-to their children, despite this theory having long been considered disproven by Darwin Ward (Gorgon), a paleontologist and astrobiologist, defines epigenetics as "the study of heritable gene functions that are passed on from one reproducing cell to another, [whether it's] a somatic (body) cell or a germ cell (sperm or ovum), which do not involve a change to the original DNA sequence," while also cautioning that the actual process is "still poorly understood." Ward's analysis ranges widely, taking in the origin of life on Earth, patterns of recovery from mass extinctions, the possible genetic basis for violence, and the genetic impact of various pandemics. Ward references the classic study showing how starvation impacted one and perhaps two generations in the Netherlands following a WWII-era famine, but provides little hard evidence beyond that example. Without a proposed mechanism for such long-lasting effects and without data indicating such effects exist, Ward leaves readers with little more than suppositions. (Aug.) © Copyright PWxyz, LLC. All rights reserved.
Kirkus Review
A fascinating journey into the relatively new field of epigenetics, which "has a great deal to add to the overall understanding of the history of life, beginning with the origin of the first living species itself."According to this outstanding account by paleontologist and astrobiologist Ward (The Flooded Earth: Our Future in a World Without Ice Caps, 2010, etc.), epigenetics is the biological revolution du jour. The author explains that Jean-Baptiste Lamarck (1744-1829), a predecessor of Charles Darwin, believed that species evolved by passing on acquired characteristics. The oft-repeated example was a giraffe stretching to reach leaves in tall trees and giving birth to offspring with longer necks. However, Lamarck was marginalized by Darwin's teaching that acquired traits are never inherited but that children vary slightly from their parents. When a variation provides a survival advantage, its possessor produces more offspring, and this "natural selection" slowly drives evolutionary change. Yet fossil evidence doesn't support it. "New species," writes Ward, "appear with what seems like too much rapidity to be explained by current theory." Bacteria routinely pass genes to neighbors, including unrelated species. Does "horizontal gene transfer" occur in complex organisms? The answer came when studies showed stretches of bacterial and viral DNA in the human genome. Biologists also knew that stressful environmental conditions change gene function. They mistakenly assumed that these changes vanish when the organism produces sex cells for reproduction. It turns out that "major environmental changes during the life of an individual can cause heritable changes to that organism, that can then be passed on to the next generation." This defines epigenetics: a better explanation for life's history and the quick appearance of unique body plans after mass extinctions. Skilled in both science and writing, Ward walks readers through its history, mechanisms, and the current fierce debate over its role.The best introduction so far to one of the most controversial elements of 21st-century evolutionary science. Copyright Kirkus Reviews, used with permission.
Choice Review
Ward, a paleontologist at the University of Washington, makes a bold claim: biologists have overestimated the role of natural selection in shaping species and species assemblies, and underestimated the role of traits acquired and transmitted to offspring. Ward cites altered phenotypes in descendants of toxin-exposed rats and elevated rates of metabolic syndrome in descendants of people exposed to famine. Ward's examples will stimulate conversation about evolution and epigenetics. Nevertheless, the book may have limited utility for students. Ward argues that exaltation of individual scientists like Darwin has canalized scientific paradigms, limiting analysis of complex data. At the same time, he praises Jean-Baptiste Lamarck, among the first to highlight possible inheritance of acquired characteristics. This leaves little room for an alternate possibility: that evolutionary processes championed by Darwin and acquired traits championed by Lamarck are both important. If individuals and species that survive climatic disturbance are those that undergo rapid and transmissible phenotypic change, then the capacity for such responses would, itself, be favored by selection. Ward's book will be accessible to readers at many levels. Undergraduate instructors may find the book useful as a starting point to discuss the impact of individual scientists rather than as a perspective on epigenetic mechanisms. Summing Up: Recommended. All readers. --Diane Patricia Genereux, Broad Institute of Harvard University and Massachusetts Institute of Technology