How did humans evolve larger and more sophisticated brains? In general, evolution depends on a special combination of circumstances: part genetics, part time, and part environment. In the case of human brain evolution, the main environmental influence was adaptation to a OCyshore-basedOCO diet, which provided the worldOCOs richest source of nutrition, as well as a sedentary lifestyle that promoted fat deposition. Such a diet included shellfish, fish, marsh plants, frogs, birdOCOs eggs, etc. Humans and, and more importantly, hominid babies started to get fat, a crucial distinction that led to the development of larger brains and to the evolution of modern humans. A larger brain is expensive to maintain and this increasing demand for energy results in, succinctly, survival of the fattest."
How did humans evolve larger and more sophisticated brains?In general, evolution depends on a special combination of circumstances: part genetics, part time, and part environment. In the case of human brain evolution, the main environmental influence was adaptation to a 'shore-based' diet, which provided the world's richest source of nutrition, as well as a sedentary lifestyle that promoted fat deposition. Such a diet included shellfish, fish, marsh plants, frogs, bird's eggs, etc. Humans and, and more importantly, hominid babies started to get fat, a crucial distinction that led to the development of larger brains and to the evolution of modern humans. A larger brain is expensive to maintain and this increasing demand for energy results in, succinctly, survival of the fattest.
The evolution of the human brain and cognitive ability is one of the central themes of physical/biological anthropology. This book discusses the emergence of human cognition at a conceptual level, describing it as a process of long adaptive stasis interrupted by short periods of cognitive advance. These advances were not linear and directed, but were acquired indirectly as part of changing human behaviors, in other words through the process of exaptation (acquisition of a function for which it was not originally selected). Based on studies of the modem human brain, certain prerequisites were needed for the development of the early brain and associated cognitive advances. This book documents the energy and nutrient constraints of the modern brain, highlighting the significant role of long-chain polyunsaturated fatty acids (LC-PUFA) in brain development and maintenance. Crawford provides further emphasis for the role of essential fatty acids, in particular DHA, in brain development, by discussing the evolution of the eye and neural systems. This is an ideal book for Graduate students, post docs, research scientists in Physical/Biological Anthropology, Human Biology, Archaeology, Nutrition, Cognitive Science, Neurosciences. It is also an excellent selection for a grad student discussion seminar.
A Publishers Weekly Best Book of the Year From an obesity and neuroscience researcher with a knack for engaging, humorous storytelling, The Hungry Brain uses cutting-edge science to answer the questions: why do we overeat, and what can we do about it? No one wants to overeat. And certainly no one wants to overeat for years, become overweight, and end up with a high risk of diabetes or heart disease--yet two thirds of Americans do precisely that. Even though we know better, we often eat too much. Why does our behavior betray our own intentions to be lean and healthy? The problem, argues obesity and neuroscience researcher Stephan J. Guyenet, is not necessarily a lack of willpower or an incorrect understanding of what to eat. Rather, our appetites and food choices are led astray by ancient, instinctive brain circuits that play by the rules of a survival game that no longer exists. And these circuits don’t care about how you look in a bathing suit next summer. To make the case, The Hungry Brain takes readers on an eye-opening journey through cutting-edge neuroscience that has never before been available to a general audience. The Hungry Brain delivers profound insights into why the brain undermines our weight goals and transforms these insights into practical guidelines for eating well and staying slim. Along the way, it explores how the human brain works, revealing how this mysterious organ makes us who we are.
2022 NATIONAL INDIE EXCELLENCE AWARDS FINALIST — HEALTH: GENERAL “It is exceptionally well organized and presented, making it an ideal and highly recommended addition to personal, community, college, and university library Health/Medicine collections.” —Midwest Book Review Nature puts a “survival switch” in our bodies to protect us from starvation. Stuck in the “on” position, it’s the hidden source of weight gain, heart disease, and many other common health struggles. But you can turn it off. Dr. Richard Johnson has been on the cutting edge of research into the cause of obesity for more than a decade. His team’s discovery of the fructose-powered survival switch—a metabolic pathway that animals in nature turn on and off as needed, but that our modern diet has permanently fixed in the “on” position, where it becomes a fat switch—revolutionized the way we think about why we gain weight. In Nature Wants Us to Be Fat, he details the mounting evidence on how this switch is responsible both for excess fat storage and for many of the major diseases endemic to the Western world, including heart disease, cancer, and dementia. Dr. Johnson also reveals the surprising link between the survival switch and health conditions such as gout, kidney disease, liver disease, stroke—and even behavioral issues like addiction and ADHD. And, most important, he shares a science-based plan to help readers fight back against nature. Guided by ongoing clinical research—plus fascinating observations from the animal kingdom, evolution, and history—Dr. Johnson takes you along on an eye-opening investigation into: What you can do to turn off your survival switch What we have in common with hibernating bears, sperm whales, and the world’s fattest bird Why it’s fructose (not glucose) that drives insulin resistance and metabolic disease The foods we eat that trigger the body to make its own fructose The surprising role salt and dehydration play in fat accumulation The surprising link between the survival switch and health conditions such as gout and liver and kidney diseases, and even behavioral issues like addiction and ADHD Dr. Johnson not only provides new recommendations for how we can prevent or treat obesity, but also how we can use this information to reduce our risk of developing disease. Nature wants us to be fat, and when we understand why, we gain the tools we need to lose weight and optimize our health.
Since Descartes famously proclaimed, "I think, therefore I am," science has often overlooked emotions as the source of a person’s true being. Even modern neuroscience has tended, until recently, to concentrate on the cognitive aspects of brain function, disregarding emotions. This attitude began to change with the publication of Descartes’ Error in 1995. Antonio Damasio—"one of the world’s leading neurologists" (The New York Times)—challenged traditional ideas about the connection between emotions and rationality. In this wondrously engaging book, Damasio takes the reader on a journey of scientific discovery through a series of case studies, demonstrating what many of us have long suspected: emotions are not a luxury, they are essential to rational thinking and to normal social behavior.
Presents the State-of-the-Art in Fat Taste TransductionA bite of cheese, a few potato chips, a delectable piece of bacon - a small taste of high-fat foods often draws you back for more. But why are fatty foods so appealing? Why do we crave them? Fat Detection: Taste, Texture, and Post Ingestive Effects covers the many factors responsible for the se
The human brain and its one hundred billion neurons compose the most complex organ in the body and harness more than 20% of all the energy we produce. Why do we have such large and energy-demanding brains, and how have we been able to afford such an expensive organ for thousands of years? Guts and Brains discusses the key variables at stake in such a question, including the relationship between brain size and diet, diet and social organization, and large brains and the human sexual division of labor. Showcasing how small changes in the diet of early hominins came to have large implications for the behavior of modern humans, this interdisciplinary volume provides an entry for the reader into understanding the development of both early primates and our own species.
In December 2010, Professor Tim Noakes was introduced to a way of eating that was contrary to everything he had been taught and was accepted as conventional nutrition ‘wisdom’. Having observed the benefits of the low-carb, high-fat lifestyle first-hand, and after thorough and intensive research, Noakes enthusiastically revealed his findings to the South African public in 2012. The backlash from his colleagues in the medical establishment was as swift as it was brutal, and culminated in a misconduct inquiry launched by the Health Professions Council of South Africa. The subsequent hearing lasted well over a year, but Noakes ultimately triumphed, being found not guilty of unprofessional conduct in April 2017. In Lore of Nutrition, he explains the science behind the low-carb, high-fat/Banting diet, and why he champions this lifestyle despite the constant persecution and efforts to silence him. He also discusses at length what he has come to see as a medical and scientific code of silence that discourages anyone in the profession from speaking out against the current dietary guidelines. Leading food, health and medical journalist Marika Sboros, who attended every day of the HPCSA hearing, provides the fascinating backstory to the inquiry, which often reads like a spy novel. Lore of Nutrition is an eye-opener and a must-read for anyone who cares about their health.