Circulation and Respiration Basic features Distribute nutrients throughout body Remove wastes from cellular activity Exchange gases Advanced features Defend against infection Cell communication – hormones
Why is a circulatory system necessary? Rate of diffusion limits effective transfer of nutrients. Fluid carries nutrient and dissolved gases to cells. Connects organs of exchange with the rest of the body Organs of exchange in animals Nutrients – stomach, intestines Gases – gills or lungs
Simple Distribution in Radiates Fluid filled channels distribute nutrients Branching Increases surface area Allows rapid diffusion to all cells
Open and Closed Circulatory Systems
Open Closed Blood and interstitial fluid the same - Hemolymph Exchange occurs at sinus Separate blood and interstitial fluid Exchange occurs at blood vessels
What Are the Features of Our Circulatory System? Fluid Vessels – tubes to carry fluid Pump to move fluid Valves to keep fluid moving in one direction Blood cells
Vertebrate Circulatory Schemes
Mammalian Circulatory System Pulmonary Loop Systemic Loop
Valve Structure of the Heart One way valves keep blood flowing in one direction
Cardiac Cycle
Cardiac Muscle Each cell is electrically connected to the next
Control of Heart Rhythm Coordinated contraction keeps blood flowing in one direction
Blood Vessels Arteries Veins Capillaries Blood moves by pressure from heart Veins Blood moves by action of valves and skeletal muscles Capillaries Many small branches to increase surface area
Structure of Blood Vessels
Vein vs. Artery Thin flexible wall One way valves Moved by skeletal muscles Thick more rigid wall No one way valves Moved by heart
Effects of Blood Vessel Branching As cross-sectional area increases blood velocity decreases As surface area increases blood pressure decreases
Veins
Blood Flow in Veins
Control of Blood Flow in Capillaries Blood can be diverted prevented from entering capillary net
Movement of Fluid in and Out of Capillaries
Blood Components of Blood
Blood Cells
Blood Clotting Warfarin
Gas Exchange
Gas Exchange in Aquatic Invertebrates
Gill Structure in Fish
Countercurrent flow Maximizes oxygen uptake Greatest difference in Oxygen content comes into contact with water
The human respiratory tract
Alveoli Structure 1
Alveoli Structure 2
Negative Pressure Breathing
Oxygen Loading and Unloading Hemoglobin in red blood cells carries oxygen and carbon dioxide
Hemoglobin Found in red blood cells Multiple protein complex with iron molecule Each hemoglobin binds to 4 oxygen or carbon dioxide molecules In general: High oxygen/low carbon dioxide – releases carbon dioxide and binds to oxygen Low oxygen/high carbon dioxide – releases oxygen and binds to carbon dioxide
Oxygen Dissociation Oxygen dissociation is greater at lower pH Metabolically active tissues have lower pH
Carbon Dioxide Exchange
Effect of respiratory poisons Carbon monoxide and cyanide Bind to hemoglobin more strongly than oxygen or carbon dioxide and don’t release Cells do not receive oxygen