metabolism in conformers and regulators

Descripción

National 5 Biology Mapa Mental sobre metabolism in conformers and regulators, creado por Fraser McLellan (S4) el 13/04/2019.
Fraser McLellan (S4)
Mapa Mental por Fraser McLellan (S4), actualizado hace más de 1 año
Fraser McLellan (S4)
Creado por Fraser McLellan (S4) hace más de 5 años
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Resumen del Recurso

metabolism in conformers and regulators
  1. conformers
    1. conformers cannot regulate internal their environment
      1. therefore they cannot control their metabolic rate
      2. the body temperature of a conformer depends upon the temperature of the external environment
        1. examples of conformers are reptiles and invertebrates
          1. an example of conforming is desert lizards burrowing beneath the sand to cool down
          2. an advantage of being a conformer is having no physilogical mechanism for controlling metablic rate results in low energy costs to the organism
            1. a disadvantage of being a conformer is only being able to occupy a narrow range of ecological niches as they are less able to adapt and survive to changing environments
            2. regulators
              1. In regulators metabolism is used to control the internal environment of the organism
                1. the internal environment remains stable even in a change in external environment this is called homeostasis
                  1. homeostasis is controlled via the hypothalamus
                    1. the hypothalamus is the temperature monitoring centre in the brain that receives nerve impulses that come from receptors in the skin
                  2. an advantage of being a regulator is being able to occupy a wide range of niches
                    1. a disadvantage of being a regulator is the high energy costs to keep the internal environment the same
                      1. regulators can control their internal environment
                      2. thermoregulation is the process in which an organism controls it's internal body temperature
                        1. mammals have to maintain an internal body temperature of 37 degrees celsius in order to facilitate optimum enzyme activity and the movement of molecules via diffusion
                          1. the ways in which regulators control their internal body temperature are:
                            1. for overheating
                              1. vasodilation- allowing blood to go to the surface of the skin where heat is lost
                                1. increasing sweat rate- heat is lost through turning sweat into vapour through which heat is lost
                                  1. a decrease in metabolic rate which lowers heat production
                                  2. for increasing the internal temperature
                                    1. vasoconstriction- blood vessels are restricted and blood flow to skin is stopped so less heat is lost
                                      1. hair erector muscles contract- hair stands on end and trap an insulating layer of warmer air next to the skin
                                        1. shivering- skeletal muscles around the body contract and this repeated muscle activity generates heat
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