Berg, Hugo van den, 1968-
Hormones as tokens of selection : qualitative dynamics of homeostasis and regulation in organismal biology / Hugo Antonius van den Berg. - 1 online resource (pages)
The nature of homeostasis -- Gradient-driven regulatory dynamics -- Coupling and pleiotropy -- Differential inclusions -- Application to mammalian nutrient budgets -- The evolutionary perspective -- Critique and outlook.
Hormones as Tokens of Selection addresses deep questions in biology: How are biological systems controlled? How can one formulate general theories of homeostasis and control and instantiate such theories in mathematical models? How can one use evolutionary arguments to guide our answers to these questions, recognising that the control mechanisms themselves are a product of evolution? Biological systems are exceptionally varied and extremely difficult to understand, because they are complex and experimentation remains limited relative to the challenges at hand. Moreover, biological phenomena occur at a wide range of temporal and spatial scales. Such a deeply convoluted subject calls for a unifying and coherent theoretical foundation -- one which recognises and departs from the primary importance of mathematical modelling and key physicochemical principles to theory formation in the life sciences. This Focus monograph proposes and outlines such a foundation, departing from the deceptively simple proposition that hormones are tokens of evolutionary pressures. Features Provides a coherent and unified approach to a multifaceted problem Pays close attention to both the biological and mathematical modelling aspects of the subject matter, exploring the philosophical background where appropriate Written in a concise and innovative style
9780429026508 0429026501 9780429637186 0429637187 9780429640353 0429640358 9780429643521 0429643527
Hormones--Genetics.
Homeostasis--Genetics.
Evolution (Biology)
MEDICAL / Physiology
SCIENCE / Life Sciences / Human Anatomy & Physiology
MATHEMATICS / General
MATHEMATICS / Applied
SCIENCE / Life Sciences / Cytology
QP571
612.4/05
Hormones as tokens of selection : qualitative dynamics of homeostasis and regulation in organismal biology / Hugo Antonius van den Berg. - 1 online resource (pages)
The nature of homeostasis -- Gradient-driven regulatory dynamics -- Coupling and pleiotropy -- Differential inclusions -- Application to mammalian nutrient budgets -- The evolutionary perspective -- Critique and outlook.
Hormones as Tokens of Selection addresses deep questions in biology: How are biological systems controlled? How can one formulate general theories of homeostasis and control and instantiate such theories in mathematical models? How can one use evolutionary arguments to guide our answers to these questions, recognising that the control mechanisms themselves are a product of evolution? Biological systems are exceptionally varied and extremely difficult to understand, because they are complex and experimentation remains limited relative to the challenges at hand. Moreover, biological phenomena occur at a wide range of temporal and spatial scales. Such a deeply convoluted subject calls for a unifying and coherent theoretical foundation -- one which recognises and departs from the primary importance of mathematical modelling and key physicochemical principles to theory formation in the life sciences. This Focus monograph proposes and outlines such a foundation, departing from the deceptively simple proposition that hormones are tokens of evolutionary pressures. Features Provides a coherent and unified approach to a multifaceted problem Pays close attention to both the biological and mathematical modelling aspects of the subject matter, exploring the philosophical background where appropriate Written in a concise and innovative style
9780429026508 0429026501 9780429637186 0429637187 9780429640353 0429640358 9780429643521 0429643527
Hormones--Genetics.
Homeostasis--Genetics.
Evolution (Biology)
MEDICAL / Physiology
SCIENCE / Life Sciences / Human Anatomy & Physiology
MATHEMATICS / General
MATHEMATICS / Applied
SCIENCE / Life Sciences / Cytology
QP571
612.4/05