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Organismal Physiology Lecture No. 1.docx

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Department
Biology
Course
Biology 2601A/B
Professor
Tamsen Taylor
Semester
Fall

Description
Organismal Physiology Lecture No.1: Temperature I th Tuesday September 11 , 2012 Temperature: -Human beings are one of the few organisms that inhabit environments that encompass both temperature extremes. Accomplishing a feat most organisms cannot, they are able to do this through the production of suitable shelters, tools, cultures, etc. -Other life forms usually preside in one extreme environment, like penguins in the Antarctic and Baobab trees in the African savannah, and find more primitive solutions to surviving under such conditions. -Temperature is defined as the measure of the speed or intensity of the incessant random motions that all the atoms and molecules of any substance undergo on an atomic/molecular scale. More exactly, the temperature of a substance is proportional to the product of the mean-square-speed of the random molecular motions and the molecular mass. Distinction Between Temperature & Heat: -While temperature is the intensity of motion by the atoms vibrating in an object, heat can be defined as the amount of energy present in an object. It is temperature that determines the direction of heat (energy) transfer, which is always from warmer to cooler conditions. The Energy Balance Equation: -Energy balance can be calculated according to the following equation: R (radiation) + H (convection) + C (conduction) + M (metabolism) + L (latent heat) = 0. When the sum of these factors is zero, the energy content of the organism is balanced; it is neither gaining nor losing energy. -Radiation energy can impact organisms directly (either from the sun or the atmosphere), indirectly (by reflecting off of other organism and their environment), or it can be emitted by the organism itself. Convection describes the movement of heat energy through fluid mediums (e.g. wind chill), while conduction describes the transfer of energy through solid mediums (e.g. hot rocks, soils). -Metabolic heat production is determined by the amount of O co2sumption and is coupled with latent heat, the amount of water evaporation or condensation present in an organism (either through breathing or off the surface of skin). Common Biological Temperatures: -(-80°C) – hardened conifer leaves still survive. (-0.6°C) – melting point of ‘normal’ physiological fluids. -(15°C) – developmental threshold for many plants. (37°C) – body temperature of most mammals. -(53.6°C) – highest recorded temperature of a metazoan. (50-70°C) – most proteins denatured. Classifications Of Thermal Biology: -Endotherms – generate internal heat. -Ectotherms – rely on external temperatures to determine body temperature -Homeotherms – defend a constant body temperature -Poikotherms – Allow body temperature to vary. -Heterotherms – have more than one temperature set point, or switch between homeo/poikothermy. -Regional endothermy/heterothermy – Different body temperatures in different parts of the body. Quantifying Metabolism: -As oxygen consumption corresponds to metabolic activity, metabolism can be calculated according to the following equation: M (metabolic rate) = a (constant) x 10 n (constanb(body temperature) -Logarithmically, the equation can be modified to a linear form (y = mx + b): log(M) = nT b log(a) The Temperature Coefficient: -Q10 also known as the temperature coefficient, is the ratio of the rate of a process at one temperature over the rate of the same process at a temperature 10°C lower. In other words, Q 10 calculates how much the rate of metabolism changes for every 10°C drop in temperature. -A formula for this concept would look as follows: Q 10= R Trate of metabolism at temperature x) / R (T-10)rate of metabolism at temperature x - 10) -Because the temperature metabolic rate relationship is not exactly exponential, the impact of a change of temperature varies with temperature; Q 10is not constant. The same relationship with Q h10ds true for plant functions like respiration. -If 10 is approximately equal to 1, a physical or chemical process is taking place. If Q 10is approximately in between 2 and 3, a biological process is taking place. Cause Of Temperature Changes: -Temperature determines motion and therefore the rate at which molecules encounter one anoth
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