Stephen J. Simpson and David Raubenheimer
- Published in print:
- 2012
- Published Online:
- October 2017
- ISBN:
- 9780691145655
- eISBN:
- 9781400842803
- Item type:
- chapter
- Publisher:
- Princeton University Press
- DOI:
- 10.23943/princeton/9780691145655.003.0010
- Subject:
- Biology, Animal Biology
This chapter explores the methods of nutritional geometry on the modern human diet, applying the geometric approach to an analysis of a key aspect of human nutrition: the topical subject of human ...
More
This chapter explores the methods of nutritional geometry on the modern human diet, applying the geometric approach to an analysis of a key aspect of human nutrition: the topical subject of human obesity. This analysis leads to three conclusions. First, the available evidence suggests that humans can regulate macronutrient intake, but that the intake target contains a built-in component for fat storage. Failure to use this stored fat promotes obesity. Second, when humans are faced with imbalanced diets, protein intake is prioritized. When the ratio of protein to carbohydrate in the diet is lower than optimal, it is easier to gain the required amount of protein—and hence overconsume fat and carbohydrate—when foods are high in energy density, present in great variety, and easily available throughout the day. Lastly, the regulation of nutrient intake in humans has evolved “assuming” a higher level of energetic expenditure than is usual today.Less
This chapter explores the methods of nutritional geometry on the modern human diet, applying the geometric approach to an analysis of a key aspect of human nutrition: the topical subject of human obesity. This analysis leads to three conclusions. First, the available evidence suggests that humans can regulate macronutrient intake, but that the intake target contains a built-in component for fat storage. Failure to use this stored fat promotes obesity. Second, when humans are faced with imbalanced diets, protein intake is prioritized. When the ratio of protein to carbohydrate in the diet is lower than optimal, it is easier to gain the required amount of protein—and hence overconsume fat and carbohydrate—when foods are high in energy density, present in great variety, and easily available throughout the day. Lastly, the regulation of nutrient intake in humans has evolved “assuming” a higher level of energetic expenditure than is usual today.
Stephen J. Simpson and David Raubenheimer
- Published in print:
- 2012
- Published Online:
- October 2017
- ISBN:
- 9780691145655
- eISBN:
- 9781400842803
- Item type:
- book
- Publisher:
- Princeton University Press
- DOI:
- 10.23943/princeton/9780691145655.001.0001
- Subject:
- Biology, Animal Biology
Nutrition has long been considered more the domain of medicine and agriculture than of the biological sciences, yet it touches and shapes all aspects of the natural world. The need for nutrients ...
More
Nutrition has long been considered more the domain of medicine and agriculture than of the biological sciences, yet it touches and shapes all aspects of the natural world. The need for nutrients determines whether wild animals thrive, how populations evolve and decline, and how ecological communities are structured. This is the first book to address nutrition's enormously complex role in biology, both at the level of individual organisms and in their broader ecological interactions. The book provides a comprehensive theoretical approach to the analysis of nutrition—the Geometric Framework. The book shows how it can help us to understand the links between nutrition and the biology of individual animals, including the physiological mechanisms that determine the nutritional interactions of the animal with its environment, and the consequences of these interactions in terms of health, immune responses, and lifespan. The book explains how these effects translate into the collective behavior of groups and societies, and in turn influence food webs and the structure of ecosystems. It then demonstrates how the Geometric Framework can be used to tackle issues in applied nutrition, such as the problem of optimizing diets for livestock and endangered species, and how it can also help to address the epidemic of human obesity and metabolic disease.Less
Nutrition has long been considered more the domain of medicine and agriculture than of the biological sciences, yet it touches and shapes all aspects of the natural world. The need for nutrients determines whether wild animals thrive, how populations evolve and decline, and how ecological communities are structured. This is the first book to address nutrition's enormously complex role in biology, both at the level of individual organisms and in their broader ecological interactions. The book provides a comprehensive theoretical approach to the analysis of nutrition—the Geometric Framework. The book shows how it can help us to understand the links between nutrition and the biology of individual animals, including the physiological mechanisms that determine the nutritional interactions of the animal with its environment, and the consequences of these interactions in terms of health, immune responses, and lifespan. The book explains how these effects translate into the collective behavior of groups and societies, and in turn influence food webs and the structure of ecosystems. It then demonstrates how the Geometric Framework can be used to tackle issues in applied nutrition, such as the problem of optimizing diets for livestock and endangered species, and how it can also help to address the epidemic of human obesity and metabolic disease.
Stephen J. Simpson and David Raubenheimer
- Published in print:
- 2012
- Published Online:
- October 2017
- ISBN:
- 9780691145655
- eISBN:
- 9781400842803
- Item type:
- chapter
- Publisher:
- Princeton University Press
- DOI:
- 10.23943/princeton/9780691145655.003.0011
- Subject:
- Biology, Animal Biology
This concluding chapter looks at some of the big issues that remain in nutritional biology. Exploding protein into its constituent amino acids means having to deal with 19 extra dimensions, which is ...
More
This concluding chapter looks at some of the big issues that remain in nutritional biology. Exploding protein into its constituent amino acids means having to deal with 19 extra dimensions, which is fine in theory but daunting in practice. However, such an expansion is what will be needed to understand the mechanisms of protein appetite, the role of protein in aging, obesity, and immune function, or the behavioral and metabolic consequences of replacing marine-based animal proteins with plant-derived alternatives in the diets of farmed fish. The next step will be to associate primary response variables such as life span, disease susceptibility, and fecundity with associated physiological, metabolic, and geometric responses. Other issues include nutritional epigenetics and early-life prevention of metabolic disease, human obesity, nutritional immunology, and modeling nutritional interactions.Less
This concluding chapter looks at some of the big issues that remain in nutritional biology. Exploding protein into its constituent amino acids means having to deal with 19 extra dimensions, which is fine in theory but daunting in practice. However, such an expansion is what will be needed to understand the mechanisms of protein appetite, the role of protein in aging, obesity, and immune function, or the behavioral and metabolic consequences of replacing marine-based animal proteins with plant-derived alternatives in the diets of farmed fish. The next step will be to associate primary response variables such as life span, disease susceptibility, and fecundity with associated physiological, metabolic, and geometric responses. Other issues include nutritional epigenetics and early-life prevention of metabolic disease, human obesity, nutritional immunology, and modeling nutritional interactions.