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EcologyPhysiology.  ECOLOGY How organisms relate to each other and to their surroundings.

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Presentation on theme: "EcologyPhysiology.  ECOLOGY How organisms relate to each other and to their surroundings."— Presentation transcript:

1 EcologyPhysiology

2  ECOLOGY How organisms relate to each other and to their surroundings.

3   The total number of different species to inhabit one area. The more the species, the more will survive in case of disasters to the habitat. Biodiversity 6a: Students know biodiversity is the sum total of different kinds of organisms and is affected by alterations of habitats.

4   Natural ecosystems can undergo many alterations and can make necessary changes to accommodate them. Sometimes, alterations are too great and nature cannot recover.  Climate – ice age, drought  Human activity – pollution, destruction  Nonnative species – organism that is not native to area, usually has no natural predators & grows unchecked  Population size – too many deaths or births or migration Ecosystem Changes 6b: Students know how to analyze changes in an ecosystem resulting from changes in climate, human activity, introduction of nonnative species, or changes in population size.

5  Succession  Order of life inhabiting an area – always smallest to biggest 6b: Students know how to analyze changes in an ecosystem resulting from changes in climate, human activity, introduction of nonnative species, or changes in population size.

6   Population is the total amount of one species in a given area. The change in the size of the population is determined by four factors:  Birth rate – number of organisms born & surviving  Death rate – number of organisms dying  Immigration – number of organisms moving INTO area  Emigration – number of organisms moving FROM area Population Size 6c: Students know how fluctuations in population size in an ecosystem are determined by the relative rates of birth, immigration, emigration, and death. Population Size BIRTHS ImmigrationDEATHS Emigration

7  Biogeochemical Cycles 6d: Students know how water, carbon, and nitrogen cycle between abiotic resources and organic matter in the ecosystem and how oxygen cycles through photosynthesis and respiration.

8   Food Chains & Webs  What eats what?  Producers (plants)  Consumers (animals – herbivores, carnivores, omnivores)  Decomposers (bacteria, fungi) – eat any dead organism Producers, Consumers, Decomposers 6e: Students know a vital part of an ecosystem is the stability of its producers and decomposers.

9   Organisms only obtain 10% of energy from what they eat. 90% is released as heat.  Source of all energy is the sun! Energy Pyramid 6f: Students know at each link in a food web some energy is stored in newly made structures but much energy is dissipated into the environment as heat. This dissipation may be represented in an energy pyramid.

10  BIOTECHNOLOGY Manipulating the genes of an organism to produce different results.

11   Humans directly manipulating an organisms genome, usually for the benefit of people  Ex: manufacturing human insulin for people with diabetes  Ex: adding vitamin A to rice to prevent blindness 1.Remove needed gene from human DNA 2.Insert gene into bacterial DNA (plasmid) 3.Insert hybrid plasmid into bacterium 4.Bacteria undergoes transcription & translation to produce desired protein Genetic Engineering Standard 5c: Students know how genetic engineering (biotechnology) is used to produce novel biomedical and agricultural products.

12  PHYSIOLOGY The study of how an organism functions through its organ systems.

13  In with the Good, Out with the Bad 9a: Students know how the complementary activity of major body systems provides cells with oxygen and nutrients and removes toxic waste products such as carbon dioxide.  Circulatory : transport nutrients, wastes (CO 2 ), hormones, and gases throughout body systems; maintains homeostasis  Digestive : extract & absorb nutrients from food; remove wastes; maintains water & chemical balances  Excretory : removes wastes from blood; regulates concentration of body fluids  Respiratory : move air into/out of lungs; controls CO 2 /O 2 exchange between blood & lungs  Nervous : controls sensory & motor functions; regulates behavior & organ systems  Muscular : moves substances through body; provides movement, structure, & support

14  Nervous System 9b: Students know how the nervous system mediates communication between different parts of the body and the body’s interactions with the environment. ccontrols sensory functions – when 5 senses (sight, touch, taste, smell, hearing) get s timulus from external environment, information goes up to brain through nerves and gets processed rregulates behavior & organ systems - if response is required (swatting fly), information goes back down nerves to responding organ system (muscular & skeletal)

15  Feedback Loops 9c: Students know how feedback loops in the nervous and endocrine systems regulate conditions in the body. Feedback loops can be positive (continue response that stimulus triggers) as in childbirth, breast feeding, blood clotting Both endocrine (hormones) and nervous (brain & nerves) systems regulate homeostasis by using feedback loops Stimulus Regulated Factor Detector Response Brain Skin Receptors Sweating Human body wants to maintain all systems via process called homeostasis (staying same) If homeostasis disrupted, will employ responses to get back to original state Nearly all feedback loops are n egative (stop response that stimulus triggers) as in hunger and thirst, and temperature changes Hot 100°F Day Bleeding Blood Clots Blood Vessel Receptors Body Temp. Feedback Loop Normal Temp Platelets

16  Electricity in the Body 9d: Students know the functions of the nervous system and the role of neurons in transmitting electrochemical impulses. Nervous system is made of nerve cells, also called neurons Typical neuron contains dendrites (receive messages), cell body (location of nucleus), axon (communication cable), & axon terminals (send messages) Chemical (dendrites) Electrical (body & axon) Chemical (axon terminals) Messages or communication is transmitted via electrochemical impulses o Chemicals called neurotransmitters attach to dendrite receptors o Electrical pulse sent through cell body down axon o Chemical neurotransmitters sent out of axon terminals to other neurons at synaptic cleft (space in between two neurons)

17  Neurons 9e: Students know the roles of sensory neurons, interneurons, and motor neurons in sensation, thought, and response.  Nervous system divided into two categories:  1. central nervous system (CNS) = brain & spinal cord  Control center of body made of interneurons (neurons that gather information from inside body)  2. peripheral nervous system (PNS) = sensory neurons & motor neurons  Sensory neurons : send info to brain from 5 senses (up)  Motor neurons : send info from brain to muscles or organs to carry out response (down)

18  Infection and Immunity 10a: Students know the role of the skin in providing nonspecific defenses against infection.  Skin (integumentary system) is first line of nonspecific defense in protecting body against any foreign invader ( pathogen ) that can cause infection (usually viruses or bacteria) since it provides a barrier  Break in skin barrier allows pathogen to enter & infect  Second line of nonspecific defense is phagocytosis (white blood cells that eat invader)

19  Infection and Immunity 10b: Students know the role of antibodies in the body’s response to infection.  If phagocytes cannot prevent pathogen from infecting, body undergoes specific defense in which it identifies and targets specific pathogen  Pathogen is now considered an antigen since it causes immune response (usually a virus)  Body produces specific Y-shaped proteins called immunoglobulins (Ig) or antibodies (ANTI-body) to kill antigen (ANTIbody GENerator) using lock & key mechanism (antigen = key, antibody = lock)

20   Antibody is produced when helper T-cell (from Thymus) causes B-cells (from Bone) to construct specific antibody  Antibodies bind to antigen, now phagocytes can eat and destroy them  Entire process takes 7-10 days  Some B cells turn into Memory B cells that will always be prepared to immediately kill same antigen so that individual never experiences symptoms

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22  Vaccines 10c: Students know how vaccination protects an individual from infectious diseases.  A vaccine is an injection of weakened or dead antigen into the body  The immune response produces antibodies as body can’t tell it’s harmless.  Antibodies with phagocytes destroy antigens  Memory-B cells permanently remember antigen so if body encounters it again, immediate attack occurs before disease symptoms develop making individual immune from disease

23  Bacteria & Viruses 10d: Students know there are important differences between bacteria and viruses with respect to their requirements for growth and replication, the body’s primary defenses against bacterial and viral infections, and effective treatments of these infections.  A microbe is anything too small to be visible to the naked eye. Two types of microbes are bacteria and viruses.  Viruses may have a spiny outside layer, called the envelope. Viruses have a core of genetic material ( DNA or RNA ), but cannot reproduce on their own. They infect cells and take over their reproductive machinery to reproduce. They are not considered living.  Bacteria are single-celled prokaryotic living organisms

24   Bacterial infections can be treated with the non-specific immune response or antibiotics, medicines that destroy prokaryotic bacteria without harming eukaryotic humans  Viruses cannot be treated with any medicines, solely the immune response

25  Compromised Immunity 10a: Students know why an individual with a compromised immune system (for example, a person with AIDS) may be unable to fight off and survive infections by microorganisms that are usually benign.  If the immune system is compromised or not working, individual may not be able to survive simple infections like flus or pneumonia  In AIDS (Acquired Immune Deficiency Syndrome), T-helper cells are infected by HIV (Human Immunodeficiency Virus), thus weakening immune system  AIDS patient usually dies from pneumonia


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