Raven and johnson biology 12th edition pdf free download

Raven and johnson biology 12th edition pdf free download

Table of Contents

Biology: Raven, Peter, Johnson, George, Mason, Kenneth, Losos, Jonathan.

Biology 12th Edition PDF Download, By Sylvia Mader and Michael Windelspecht, ISBN: 78024269 , Goals of the Twelfth Edition The mission of Dr. Sylvia Mader’s text, Biology, has always been to give students an understanding of biological concepts. Biology (8th edition, 2008) by Peter H Raven, George B. Johnson, Kenneth A. Mason, Jonathan Losos, and Susan Singer (ISBN-13 9780073227399). [Filename: Mod1R] – Read File Online – Report Abuse. Office of Public Affairs – Smithsonian Institution National.

Raven and johnson biology 12th edition pdf free download full

Biology: Raven, Peter, Johnson, George, Mason, Kenneth, Losos, Jonathan.

This page intentionally left blank This page intentionally left blank Appalachian State University With contributions by Lynn Preston Tarrant County College Twelfth Edition TM i 12/21/10 9:49 AM TM HUMAN BIOLOGY, TWELFTH EDITION Published by McGraw-Hill, a business unit of The McGraw-Hill Companies, Inc., 1221 Avenue of the Americas, New York, NY 10020. Copyright © 2012 by The McGraw-Hill Companies, Inc. All rights reserved. Previous editions © 2010, 2008, and 2006. No part of this publication may be reproduced or distributed in any form or by any means, or stored in a database or retrieval system, without the prior written consent of The McGraw-Hill Companies, Inc., including, but not limited to, in any network or other electronic storage or transmission, or broadcast for distance learning. Some ancillaries, including electronic and print components, may not be available to customers outside the United States. This book is printed on acid-free paper. 1 2 3 4 5 6 7 8 9 0 QDB/QDB 1 0 9 8 7 6 5 4 3 2 1 ISBN 978-0-07-352546-4 MHID 0-07-352546-4 Vice President, Editor-in-Chief: Marty Lange Vice President, EDP: Kimberly Meriwether David Senior Director of Development: Kristine Tibbetts Publisher: Michael S. Hackett Senior Developmental Editor: Rose M. Koos Senior Marketing Manager: Tamara Maury Senior Project Manager: April R. Southwood Senior Buyer: Sandy Ludovissy Senior Media Project Manager: Jodi K. Banowetz Senior Designer: Laurie B. Janssen Cover Image: © Dawn Kish/Gettyimages Senior Photo Research Coordinator: Lori Hancock Photo Research: Evelyn Jo Johnson Compositor: Electronic Publishing Services Inc., NYC Typeface: 10/12 Palatino LT Std Printer: Quad/Graphics All credits appearing on page or at the end of the book are considered to be an extension of the copyright page. Library of Congress Cataloging-in-Publication Data Mader, Sylvia S. Human biology / Sylvia S. Mader, Michael Windelspecht ; with contributions by Lynn Preston.—12th ed. p. cm. Includes index. ISBN 978-0-07-352546-4—ISBN 0-07-352546-4 (hard copy alk. paper) 1. Human biology. I. Windelspecht, Michael, 1963- II. Title. QP36.M2 2012 612—dc22 2010038108 ii 12/21/10 9:49 AM Brief Contents CHAPTER 1 Exploring Life and Science 1 PART VI Movement and Support in Humans 239 Human Genetics 419 11 Patterns of Chromosome Inheritance 419 CHAPTER PART I Human Organization 19 CHAPTER PART III 2 Skeletal System 239 CHAPTER 12 Muscular System 262 Chemistry of Life 19 CHAPTER CHAPTER 4 Organization and Regulation of Body Systems 65 Integration and Coordination in Humans 285 CHAPTER 5 Cardiovascular System: Heart and Blood Vessels 91 CHAPTER 6 Cardiovascular System: Blood 115 CHAPTER 7 Lymphatic System and Immunity 133 Infectious Diseases Supplement 155 CHAPTER 13 Nervous System 285 Maintenance of the Human Body 91 8 CHAPTER Cancer 447 20 CHAPTER 21 DNA Biology and Technology 491 PART VII Human Evolution and Ecology 517 15 CHAPTER Endocrine System 339 22 Human Evolution 517 CHAPTER 23 Global Ecology and Human Interferences 545 PART V Reproduction in Humans 365 CHAPTER 19 14 Senses 315 CHAPTER 18 Patterns of Genetic Inheritance 467 PART IV CHAPTER PART II CHAPTER CHAPTER 3 Cell Structure and Function 43 CHAPTER CHAPTER 24 Human Population, Planetary Resources, and Conservation 567 16 Reproductive System 365 CHAPTER 17 Development and Aging 393 Digestive System and Nutrition 169 CHAPTER 9 Respiratory System 196 CHAPTER 10 Urinary System 217 iii iii 12/21/10 9:49 AM About the Authors Dr. Sylvia S. Mader has authored several nationally recognized biology texts published by McGraw-Hill. Educated at Bryn Mawr College, Harvard University, Tufts University, and Nova Southeastern University, she holds degrees in both Biology and Education. Over the years, she has taught at University of Massachusetts, Lowell, Massachusetts Bay Community College, Suffolk University, and Nathan Mathew Seminars. Her ability to reach out to scienceshy students led to the writing of her first text, Inquiry into Life, that is now in its thirteenth edition. Highly acclaimed for her crisp and entertaining writing style, her books have become models for others who write in the field of biology. Although her writing schedule is always quite demanding, Dr. Mader enjoys taking time to visit and explore the various ecosystems of the biosphere. Her several trips to the Florida Everglades and Caribbean coral reefs resulted in talks she has given to various groups around the country. She has visited the tundra in Alaska, the taiga in the Canadian Rockies, the Sonoran Desert in Arizona, and tropical rain forests in South America and Australia. A photo safari to the Serengeti in Kenya resulted in a number of photographs for her texts. She was thrilled to think of walking in Darwin’s steps when she journeyed to the Galápagos Islands with a group of biology educators. Dr. Mader was also a member of a group of biology educators who traveled to China to meet with their Chinese counterparts and exchange ideas about the teaching of modern-day biology. Dr. Michael Windelspecht serves as the Introductory Biology Coordinator at Appalachian State University in Boone, North Carolina, where he directs a program that enrolls over 4,500 nonscience majors annually. He was educated at the University of Maryland, Michigan State University, and the University of South Florida. As an educator, Dr. Windelspecht teaches not only introductory biology for nonmajors but also biology for science majors, genetics, and human genetics. In addition to his teaching assignments, Dr. Windelspecht is active in promoting the scientific literacy of secondary school educators. He has led multiple workshops on integrating water quality research into the science curriculum and has spent several summers teaching Pakistani middle school teachers. As an author, Dr. Windelspecht has published five reference textbooks and multiple print and online lab manuals. He served as the series editor for a ten-volume work on the human body. For years, Dr. Windelspecht has been active in the development of multimedia resources for the online and hybrid science classrooms. Along with his wife Sandra, he owns a multimedia production company that actively develops and assesses the use of new technologies in the classroom. iv iv 12/21/10 9:49 AM Preface O ne of the easiest ways to engage today’s students in the sciences is to make the content relevant to their lives. From the latest developments in health and medicine, to environmental issues, students have a fundamental interest in the world around them. Human Biology was designed to integrate the topics of health, wellness, and the environment in a way that perfectly suits the nonmajors’ course. With this purpose in mind, the authors identified several goals that guided them through the revision of Human Biology, Twelfth Edition. • • • • • Homeostasis and Evolution coverage increased Genetics of human disease coverage expanded Case Studies revised to include discussions of medical procedures and the genetics of human disease Applications added to enhance the relevancy of content for students Media assets integrated in textbook and in ConnectTM Biology Increased Coverage of Homeostasis and Evolution Many of the Connecting the Concepts features at the end of each section address homeostasis and direct students to other sections of the textbook to emphasize how the body systems interact to make homeostasis possible. Throughout the textbook, new evolutionary diagrams have been added to indicate the importance of evolution in the study of human biology. In addition, many of the Connections and Misconceptions boxes now relate to evolutionary themes. C 10 H A P T E R Urinary System C A S E S T U D Y P O LY C Y S T I C K I D N E Y D I S E A S E M ichael and Jada were excited about the birth of their child. Married for three years, they already had a healthy daughter, and they were happy that she would have a younger sister to play with. After Aiesha was born, however, it soon became clear that something was wrong. She weighed only 5 lb 4 oz at birth. The first time she urinated, there was an obvious tinge of blood in her urine. In addition, she also seemed to urinate much more frequently than was to be expected for an infant, and her blood pressure was higher than was normal. When her doctors performed ultrasound and magnetic resonance imaging (MRI) scans of her abdominal organs, they found that Aiesha had signs of polycystic kidney disease (PKD). Aiesha’s doctors explained that in PKD, cysts (small, fluid-filled sacs) form within the collecting ducts of the nephrons in the interior of the kidneys. The ultrasound results indicated that both of Aiesha’s kidneys were covered in cysts (see the kidney above and right) and that this usually meant that the cysts were present inside the kidneys as well. Michael and Jada were informed that the presence of these cysts explained Aiesha’s symptoms. The doctors also told Michael and Jada that PKD would most likely cause Aiesha’s kidneys to fail and that they should immediately prepare her for a kidney transplant. Because PKD is a genetic disorder, the physicians suggested that both parents undergo genetic tests to see if they were carriers for PKD. C H A P T E R CO N C E P T S 10.1 The Urinary System In the urinary system, kidneys produce urine, which is stored in the bladder before being discharged from the body. The kidneys are major organs of homeostasis. 10.2 Kidney Structure Microscopically, the kidneys are composed of kidney tubules (nephrons). These tubules have a blood supply that interacts with parts of the tubule as they produce urine. The respiratory and circulatory systems cooperate extensively to maintain homeostasis in the body. For more on the interactions of these two systems, refer to the following discussions. Section 5.5 outlines the circulatory pathways that move gases to and from the lungs. Section 6.2 describes the role of the red blood cells in the transport of gases. 10.3 Urine Formation Urine is composed primarily of nitrogenous waste products and salts in water. Urine formation is a stepwise process. 10.4 Kidneys and Homeostasis The kidneys are involved in the salt–water balance and the acid–base balance of the blood, in addition to excreting nitrogenous wastes. 10.5 Kidney Function Disorders Various types of illnesses, including diabetes, kidney stones, and infections, can lead to renal failure. Hemodialysis is needed for the survival of patients with renal failure. As you read through the chapter, think about the following questions. 1. What is the role of the kidneys in the body? 2. How would problems in the collecting ducts of the nephrons cause kidney failure? 3. Why would problems with the kidneys result in blood in the urine and high blood pressure? Connecting the Concepts B E FO R E YO U B E G I N Before beginning this chapter, take a few moments to review the following discussions. Section 2.2 What determines whether a solution is acidic or basic? Section 3.3 How does water move across a plasma membrane? Improved Coverage of the Genetics of 1 Human Disease 2 Throughout the book, the genetic basis of human diseases (such as Down syndrome, cystic fibrosis, and Huntington 3 disease) is identified and discussed. Many of these conditions are now the focus of the chapter openers, in which the relationship between genetics and some of the more common human diseases is presented. Section 4.8 How do feedback mechanisms contribute to the maintenance of homeostasis? v v 12/21/10 9:49 AM vi Preface Revised Chapter-Opening Case Studies One of the major features of this new edition of Human Biology is a complete reworking of the chapter-opening case studies. As with the chapter-opening material in previous editions, all case studies have a human focus and lead the students into the chapter in an engaging way. For the twelfth edition, many of the case studies include discussions of medical procedures and the genetic basis of human disease. Also, several questions have been added to each case study to integrate the topic of the case study with the material in the chapter. These questions may be assigned by the instructor to assess student understanding of the topic or to facilitate classroom discussions. Each case study is concluded at the end of the chapter to further integrate the chapter concepts, and many of the Thinking Critically About the Concepts questions at the end of the chapter combine case study concepts with chapter content. Students are challenged to thoughtfully integrate these ideas, and the answers to the questions are given in Appendix B. Part IV Integration and Coordination in Humans C Applications to Enhance the Relevancy of Content Connections and Misconceptions In addition to the Focus readings, a feature of Human Biology, Twelfth Edition, is the Connections and Misconceptions applications. Throughout the text, some common questions that are brought up in human biology classrooms are explored, including: Are tanning beds safe? Are stem cells only found in embryos? What is methylmercury and why is it dangerous? These pieces will help students relate the content of the text to their everyday lives and to many of the topics encountered in the media. Connections and Misconceptions What causes cystic fibrosis? In 1989, scientists determined that defects in a gene on chromosome 7 were the cause of cystic fibrosis (CF). This gene, called CFTR (cystic fibrosis conductance regulator), codes for a protein that is responsible for the movement of chloride ions across the membranes of cells that produce mucus, sweat, and saliva. Defects in this gene cause an improper water–salt balance in the excretions of these cells, which in turn leads to the symptoms of CF. To date, there are over 1,400 known mutations in the CF gene. This tremendous amount of variation in this gene accounts for the differences in the severity of the disease in CF patients. 1 By knowing the precise gene that causes the disease, scientists have been able to develop new treatment options 2 for people with CF. At one time, an individual with CF rarely saw his or her twentieth birthday; now it is routine for people to live3into their 30s and 40s. New treatments, such as gene therapy, are being explored for sufferers of CF. vi 13 H A P T E R Nervous System C A S E S T U D Y M U LT I P L E S C L E R O S I S O n her way to work, Sarah noticed that the colors of the traffic lights didn’t seem quite right; the red lights appeared to be more orange than red. At work, she noticed that she was having trouble reading her e-mail. By the end of the day, she had a splitting headache. She kept telling herself that she had just been working too hard. But even as she tried to remain calm, deep down she had a bad feeling. Within a few weeks, she was almost completely blind in one eye and the sensations in her feet felt muffled, like they were wrapped in gauze. Her doctor referred her to a neurologist, who immediately ordered a magnetic resonance imaging (MRI) scan of her brain and a series of somatosensory evoked potential (SSEP) tests to examine how her nervous system was processing electrical impulses. The results indicated that Sarah had multiple sclerosis (MS), which is an inflammatory disease. This disease affects the myelin sheaths, which wrap parts of some nerve cells like insulation around an electrical cord. As these sheaths deteriorate, the nerves no longer conduct impulses normally. For unknown reasons, multiple sclerosis often attacks the optic nerves first before proceeding to other areas of the brain. Sarah’s doctors were able to treat her MS symptoms using high doses of immunosuppressive medications. Unfortunately, there is no cure for MS, but most patients can control the symptoms with daily injections of medication. C H A P T E R In the nervous system, reception of stimuli is associated with sensory neurons; integration is associated with interneurons; and motor output is associated with motor neurons. All neurons use the same methods to transmit nerve impulses along neurons and across synapses. 13.2 The Central Nervous System The central nervous system consists of the brain and the spinal cord. The brain is divided into portions, each with specific functions, and the spinal cord communicates with the brain. The spinal cord provides input to, and output from, the brain. 13.3 The Limbic System and Higher Mental Functions The limbic system involves many parts of the brain. It gives emotional overtones to the activities of the brain, and is important in the processes of learning and memory. 13.4 The Peripheral Nervous System The peripheral nervous system consists of nerves that project from the CNS. Cranial nerves project from the brain. The spinal cord gives rise to spinal nerves. 13.5 Drug Therapy and Drug Abuse Although neurological drugs are quite varied, each type has been found to either promote, prevent, or replace the action of a particular neurotransmitter at a synapse. As you read through the chapter, think about the following questions. 1. Why would a deterioration of the myelin sheaths cause a nerve cell to function incorrectly? 2. How would an MRI and SSEP test indicate that there was a problem with Sarah’s neurological functions? 3. Why are many individuals who contract MS eventually confined to a wheelchair? CO N C E P T S 13.1 Overview of the Nervous System B E FO R E YO U B E G I N Before beginning this chapter, take a few moments to review the following discussions. Section 2.1 How does an ion differ from an atom of an element? Section 3.3 How does the sodium–potassium pump move ions across the cell membrane? Section 4.1 What is the function of nervous tissue in the body? 285 Connections and Misconceptions Does cranberry juice really prevent or cure a urinary tract infection? Research has supported the use of cranberry juice to prevent urinary tract infections. It appears to prevent bacteria that would cause infection from adhering to the surfaces of the urinary tracts. However, cranberry juice has not been shown to be an effective Video Cranberries treatment for an already existing urinary vs. Bacteria tract infection. 12/21/10 3:06 PM Preface vii Media Integration A significant new feature of this edition is the integration of content and animation, video, and audio assets. Virtually every section of the textbook is now linked to MP3 files, animations of biological processes, National Geographic or ScienCentral videos. MP3 Files. These 3- to 5-minute audio files not only serve as a review of the material in the chapter but also assist the student in the pronunciation of scientific terms. Animations. Drawing on McGrawHill’s vast library of animations, the authors have selected animations that will enhance the student’s understanding of complex biological processes. Biology Matters Bioethical Focus Stem-Cell Research In the human body, stem cells are analogous to immortal “parents.” Their “offspring,” called daughter cells, can remain as stem cells and potentially divide indefinitely. However, most daughter cells differentiate further, forming mature cells called end cells. Research using stem cells has remained a source of controversy since 1998, when scientists discovered how to isolate and grow human stem cells in the laboratory. There are primarily two different types of stem cells: embryonic and adult. Advantages and disadvantages exist for each type. Embryonic stem cells are derived from fertilized embryos at various stages of development. Fertilized human ova stored in infertility clinics are often used as the source of embryonic stem cells. The use of these cells for research has sparked tremendous controversy, because many people believe these cells have the potential to become a human being. Adult stem cells are undifferentiated cells found in various tissues, whosee purpose is to repair orr repla replace vari rious ous body tiss tis ues, whos wh place tissues. Thee use of adult generally damaged dama amaged ged tissues a adul t stem cells is gene generall ly Figure 3B Stem cells as a potential cure for accepted. However, adult stem cells lack the flexibility of Parkinson disease. charged molecules embryonic stem cells, because adult stem cells form far fewer plasma -+ and ionsof end cells. particle memrane ater Parkinson disease results in the loss of neurons such as these. Stem types cells that differentiate into dopamine-producing neurons could be With all the time and money spent on stem-cell research, cell cell H2O transplanted into the brains of Parkinson patients. how close are we to using stem cells for the cure of disease? aquaporin Let’s use Parkinson disease as an example. Parkinson disnoncharged ease is molecules a progressive motor control disorder, triggered by the death of certain neurons in the brain (Fig. 3B). These time neurons are responsible for releasing the neurotransmitter macromolecule so, researchers hope to be able to bypass some of the con+ dopamine onto specific brain cells that control movement. troversies surrounding the use of embryonic stem cells and, (This is why Parkinson patients are often treated with in the process, develop a more rapid Video l-dopa, which is converted into dopamine.) It is now possiHeart Stem and effective method of obtaining stem ble to cause stem cells in the laboratory to differentiate into Cells cells to fight specific diseases. For this neurons that produce dopamine. To be used for transplant groundbreaking work, Science Magazine anitial conditions quilirium conditions Video purposes, however, the stem cells must produce enough Making Brain was awarded its 2008 Breakthrough of end cells phospholipid for transplant. Further, the 3.8 cells must survive Figure Diffusion across thethe plasma membrane. Cells Year Award.* molecule after the transplant and function correctly for thecan remaina. When a substance diffuse across the plasma membrane, it will der of the patient’s life. Finally, transplanted cellsacross mustthe notmembrane, but the net movement will move back and forth Decide Opinion harm the patient. The usual risks of surgery would still be toward the region of lower concentration. b. At Your equilibrium, equal pr protein exist for the transplant recipient:numbers damage to healthy 1. How much time and money should be spent on a therapy of particles andtissue, water have crossed in both directions, and there bleeding, infection. is no net movement. that may only work after “years of intensive research”? A possible solution was introduced in 2008 when Would this money be better spent on therapies that have researchers first developed theOsmosis use of induced pluripotent a higher likelihood of success? or iPS cells. These cells are normal cells of the Figure 3.7 Selective permeabilitystem of thecells, plasma plasm membrane. 2. Should the president remove the ban on certain types of is the net movement of water semipermeSmall, uncharged molecules are able to cross the membra membrane body that have whereas been chemically Osmosis “convinced” to return to an stemacross cells soa that this research can proceed faster? able membrane, from antoarea of 3. higher to anconsiderations should be used freely ac large or charged cannot. Water travels across state. In other words, with study toolsmolecules and practice undifferentiated it is now possible Whatconcentration criteria and ethical area of lower concentration. The membrane separates the for stem-cell therapy? membranes through aquaporins. induce adult cells of the body to form stem cells. By doing to select Parkinson patients Videos. Two different types of movies are integrated into this edition of the text. The ScienCentral videos are short news clips on recent advances in the sciences. The National Geographic videos provide the student with a glimpse of the complexity of life that normally would not be possible in the classroom. Virtual Labs. Simulated experiments allow students to explore the topics covered in the chapter. Media Study Tools Enhance your study of this chapter tests. Also ask your instructor about the resources available through two areas, and solute is unable to pass through the membrane. Water will tend to flow from the area that has less Plasma Membrane learning Functions ConnectPlus, including the media-rich eBook, interactive * “Breakthrough of the Year: Reprogramming 322, no. 5909water) (2008), soluteCells,” (and Science therefore more to the area with more solThe plasma membrane keeps a cell intact. It allow allows only (accessed November 8, certain 2009). ute (and therefore less water). Tonicity refers to the osmotic tools, and animations. molecules and ions to enter and exit the cytoplasm freely. There- Virtual Lab selectively permeable fore, the plasma membrane is said to be selective (Fig. 3.7). Small, lipid-soluble molecules, such aas oxygen and carbon dioxide, can pass through the membrane membran easily. The freely cross the small size of water molecules allows them to fr membrane by using protein channels called aq aquaporins. Ions and large molecules cannot cross the membrane without more direct assistance, which will be discussed later. r Diff ffusion usion The virtual lab “Enzyme-Controlled Reactions” provides Diffusion is the random movement an of molecules molec from an low concentraof higher concentration to an area of lower interactive investigation of howarea environmental conditions Diffusio f tion, until they are equally distributed. Diffusion is a passive way for molecules to enter or exit a cell. No ce cellular energy regulate enzyme activity. is needed to bring it about. Certain molecules can freely cross the plasm plasma membrane plasma membrane, by diffusion. f When molecules can cross a plasm which way will they go? The molecules will move in both directions. But the net movement will be from the region of higher concentration to the region of lower concentration, until equilibrium is achieved. At equilibrium, as many molecules of the substance will be entering as leaving the cell (Fig. 3.8). Oxygen diffuses across the plasma memAnimation Diffusion Through brane, and the net movement is toward Cell Membranes the inside of the cell. This is because a cell uses oxygen when it produces ATP MP3 molecules for energy purposes. Simple Diffusion vii characteristics of a solution across a particular membrane, such as a red blood cell membrane. Normally, body fluids are isotonic to cells (Fig. 3.9a). There is the same concentration of nondiffusible solutes and water on both sides of the plasma membrane. Therefore, cells maintain their normal size and shape. Intravenous solutions given in medical situations are usually isotonic. Solutions that cause cells to swell or even to burst due to an intake of water are said to be hypotonic. A hypotonic solution has a lower concentration of solute and a higher concentration of water than the cells. If red blood cells are placed in a hypotonic solution, water enters the cells. They swell to bursting (Fig. 3.9b). Lysis is used to refer to the process of bursting cells. Bursting of red blood cells is termed hemolysis. Solutions that cause cells to shrink or shrivel due to loss of water are said to be hypertonic. A hypertonic solution has a higher concentration of solute and a lower concentration of water than do the cells. If red blood cells are placed in a hypertonic solution, water leaves the cells; they shrink (Fig. 3.9c). The term crenation refers to red blood cells in this condition. These changes have occurred due to osmotic pressure. Osmotic pressure controls water movement in our bodies. For example, in the small and large Animation How Osmosis intestines, osmotic pressure allows us to Works absorb the water in food and drink. In the kidneys, osmotic pressure controls water MP3 absorption as well. Osmosis 12/21/10 3:07 PM Guided TourGuide to Using This A Student’s Textbook: The Learning System Pedagogical Features Facilitate Your Understanding of Biology Case Study Puts the content of the chapter in the context of a human event—often a medical condition— and leads you into the chapter in an interesting way. Each case study is accompanied by questions that assist you in integrating the topics into the chapter content. Thinking Critically About the Concepts questions at the end of the chapter also connect the case study to the chapter concepts. C A S E S T U D Y K N E E R E P L A C E M E N T J ackie was an outstanding athlete in high school, and even now, in her early 50s, she tried to stay in shape. But during her customary 3-mile jogs, she was having an increasingly hard time ignoring the pain in her left knee. She had torn some ligaments in her knee playing intramural and intermural volleyball in college, and it had never quite felt the same. In her 40s, she was able to control the pain by taking over-the-counter medications; but two years ago she had had arthroscopic surgery to remove some torn cartilage and calcium deposits. Now that the pain was getting worse than before, she knew her best option might be a total knee replacement. Although it sounds drastic, replacing old, arthritic joints with new artificial ones is becoming increasingly routine. About 500,000 artificial knees were installed in U.S. patients in 2006, which represents a 65% increase from 2000. During the procedure, a surgeon removes bone from the bottom of the femur and the top of the tibia and replaces each with caps made of metal or ceramic, held in place with bone cement. A plastic plate is installed to allow the femur and tibia to move smoothly against each other, and a smaller plate is attached to the kneecap (patella) so that it can function properly. C H A P T E R Bones are the organs of the skeletal system. The tissues of the system are compact and spongy bone, various types of cartilage, and fibrous connective tissue in the ligaments that hold bones together. 11.2 Bone Growth, Remodeling, and Repair Provide you with an overview of what you are to know. Your instructor can assign activities through Connect™ Biology to help you achieve these outcomes. 11.3 Bones of the Axial Skeleton The axial skeleton lies in the midline of the body and consists of the skull, the hyoid bone, the vertebral column, and the rib cage. 11.4 Bones of the Appendicular Skeleton The appendicular skeleton consists of the bones of the pectoral girdle, upper limbs, pelvic girdle, and lower limbs. 11.5 Articulations As you read through the chapter, think about the following questions. Joints are classified according to their degree of movement. Synovial joints are freely movable. 1. What is the role of cartilage in the knee joint? 2. What specific portions of these long bones are being removed during knee replacement? 3. Why does Jackie’s physical condition make her an ideal candidate for knee replacement? B E FO R E YO U B E G I N Before beginning this chapter, take a few moments to review the following discussions. Section 4.1 What is the role of connective tissue in the body? 11.2 Bone Growth, Remodeling, and Repair Learning Outcomes Upon completion of this section, you should be able to 1. Summarize the process of ossification and list the types of cells involved. 2. Describe the process of bone remodeling. 3. Explain the steps in the repair of bone. NEW Media Integration Enhance your study of biology with media. Go to to access the animations, videos, and MP3 files referenced throughout this book. Ask your instructor about related quizzes that are available through ConnectTM Biology. Provides a concise preview of the topics covered in each section. Bone is a living tissue that grows, remodels, and repairs itself. In all of these processes, some bone cells break down bone and some repair bone. Section 4.9 How does the skeletal system contribute to homeostasis? NEW Learning Outcomes Chapter Concepts CO N C E P T S 11.1 Overview of the Skeletal System broken ends are wedged into each other. A spiral fracture occurs when the break is ragged due to twisting of a bone. NEW Before You Begin Links the content of the chapter with material from earlier in the text. The questions designate important topics that you should understand before proceeding into the chapter. NEW Connecting the Concepts Directs you to areas of the textbook that provide additional information on a topic. Many of the Connecting the Concepts features have been designed to enhance your understanding of homeostasis. MP3 Remodeling and Repair Connecting the Concepts For more on bone development and the hormones that influence bone growth, refer to the following discussions. Section 8.6 provides additional information on inputs of vitamin D and calcium in the diet. Section 15.2 examines the role of growth hormones in the body. Section 15.3 describes the action of the hormones calcitonin and PTH. Check Your Progress 11.2 1 2 3 Classify cells of the skeletal system into ones involved in bone growth, remodeling, and repair. Describe how bone growth occurs during development. Summarize the stages in the repair of bone. Check Your Progress Questions at the end of each section help you assess and/ or apply your understanding of the material in the section. The questions progress in difficulty (red, yellow, green) to ensure you are going beyond memorization of content. viii viii 12/21/10 3:07 PM NEW Case Study Conclusion The conclusion summarizes the opening case study in the context of the topics just covered in the chapter. Media Study Tools Provides a link to the Human Biology website, which contains practice tests, animations, and videos organized and integrated by chapter to help you succeed in your study of biology. The ConnectPlus™ platform provides a media-rich eBook, interactive learning tools, and access to the LearnSmart™ system for enhanced student performance. NEW Virtual Labs Referenced in some chapters, these virtual labs allow you to investigate topics associated with the content of the chapter from a scientific perspective. Summarizing the Concepts Provides an excellent overview of the chapter concepts using concise, bulleted summaries, summary tables, and key illustrations. C A S E S T U D Y C O N C L U S I O N O ver the next few months, both Kevin and Mary dedicated hours to understanding the causes and treatments of Tay–Sachs disease. They learned that the disease is caused by a recessive mutation that limits the production of an enzyme called beta-hexosaminidase A. This enzyme is loaded into a newly formed lysosome by the Golgi apparatus. The enzyme’s function is to break down a specific type of fatty acid chain called gangliosides. Gangliosides play an important role in the early formation of the neurons in the brain. Tay–Sachs disease occurs when the gangliosides overaccumulate in the neurons. Though the prognosis for their child was intially poor— very few children with Tay–Sachs live beyond the age of four, the parents were encouraged to find out what advances in a form of medicine called gene therapy might be able to prolong the life of their child. In gene therapy, a correct version of the gene is introduced into specific cells in an attempt to regain lost function. Some initial studies using mice as a model had demonstrated an ability to reduce ganglioside concentrations by providing a working version of the gene that produced beta-hexosaminidase A to the neurons of the brain. Though research was still ongoing, it was a promising piece of information for both Kevin and Mary. 3.3 The Plasma Membrane and How Substances Cross It Media Study Tools Enhance your study of this chapter with study tools and practice tests. Also ask your instructor about the resources available through ConnectPlus, including the media-rich eBook, interactive learning tools, and animations. The plasma membrane is a phospholipid bilayer that • selectively regulates the passage of molecules and ions into and out of the cell. • contains embedded proteins, which allow certain substances to cross the plasma membrane. glycoprotein Virtual Lab hydrophilic heads phospholipid bilayer The virtual lab “Enzyme-Controlled Reactions” provides an interactive investigation of how environmental conditions regulate enzyme activity. Summarizing the Concepts hydrophobic tails 3.1 What Is a Cell? • Cells, the basic units of life, come from pre-existing cells. • Microscopes are used to view cells, which must remain small to have a favorable surface area-to-volume ratio. 3.2 How Cells Are Organized The human cell is surrounded by a plasma membrane and has a central nucleus. Between the plasma membrane and the nucleus is the cytoplasm, which contains various organelles. Organelles in the cytoplasm have specific functions. cholesterol filaments of cytoskeleton protein Passage of molecules into or out of cells can be passive or active. • Passive mechanisms (no energy required) are diffusion (osmosis) and facilitated transport. • Active mechanisms (energy required) are active transport and endocytosis and exocytosis. 3.4 The Nucleus and the Endomembrane System nucleus centrioles rough ER smooth ER lysosome vesicle • The nucleus houses DNA, which specifies the order of amino acids in proteins. • Chromatin is a combination of DNA molecules and proteins that make up chromosomes. • The nucleolus produces ribosomal RNA (rRNA). • Protein synthesis occurs in ribosomes, small organelles composed of proteins and rRNA. mitochondrion The Endomembrane System Golgi apparatus The endomembrane system consists of the nuclear envelope, endoplasmic reticulum (ER), Golgi apparatus, lysosomes, and vesicles. ix ix 12/21/10 9:50 AM • Rough ER has ribosomes, where protein synthesis occurs. • Smooth ER has no ribosomes and has various functions, including lipid synthesis. • The Golgi apparatus processes and packages proteins and lipids into vesicles for secretion or movement into other parts of the cell. • Lysosomes are specialized vesicles produced by the Golgi apparatus. They fuse with incoming vesicles to digest enclosed material, and they autodigest old cell parts. 3.5 The Cytoskeleton, Cell Movement, and Cell Junctions The cytoskeleton consists of microtubules, actin filaments, and intermediate filaments that give cells their shape; and it allows organelles to move about the cell. Cilia and flagella, which contain microtubules, allow a cell to move. Cell junctions connect cells to form tissues and to faciliate communication between cells. 3.6 Mitochondria and Cellular Metabolism • Mitochondria have an inner membrane that forms cristae, which project into the matrix. • Mitochondria are involved in cellular respiration, which uses oxygen and releases carbon dioxide. • During cellular respiration, mitochondria convert the energy of glucose into the energy of ATP molecules. Cellular Respiration and Metabolism • A metabolic pathway is a series of reactions, each of which has its own enzyme. • Enzymes bind their substrates in the active site. • Sometimes enzymes require coenzymes (such as NAD+), nonprotein molecules that participate in the reaction. Inside cell electrons transferred by NADH electrons transferred by NADH glucose Glycolysis glucose Citric acid cycle pyruvate Understanding Key Terms actin filament 55 active site 57 active transport 51 aerobic 59 anaerobic 58 cell theory 44 cellular respiration 57 centrosome 55 chromatin 53 chromosome 53 cilium 55 citric acid cycle 58 coenzyme 58 cytoplasm 46 cytoskeleton 55 diffusion 50 electron transport chain 59 endomembrane system 54 endoplasmic reticulum (ER) 53 eukaryotic cell 46 facilitated transport 51 fermentation 60 flagellum 55 fluid-mosaic model 49 glycolysis 58 Golgi apparatus 54 Lists the boldface terms in the chapter and their page references. A matching exercise allows you to test your knowledge of the terms. Match the key terms to these definitions. a. Protein molecules form a shifting pattern within the fluid phospholipid bilayer. b. Diffusion of water through a selectively permeable membrane. c. The cell will allow some substances to pass through while not permitting others. d. Anaerobic breakdown of glucose that results in a gain of two ATP and end products, such as alcohol and lactate. e. Metabolic pathways that use energy from carbohydrate, fatty acid, and protein break down to produce ATP molecules. Electron transport chain oxygen intermediate filament 55 lysosome 54 metabolism 57 microtubule 55 mitochondrion 57 NAD+ (nicotinamide adenine dinucleotide) 58 nuclear envelope 53 nuclear pore 53 nucleolus 53 nucleoplasm 53 nucleus 53 organelle 46 osmosis 50 osmotic pressure 50 phagocytosis 52 plasma membrane 46 polyribosome 54 product 57 prokaryotic cell 46 reactant 57 ribosome 53 selectively permeable 46 substrate 57 tonicity 50 vesicle 54 Understanding Key Terms mitochondrion 2 ATP 2 ATP 32 ATP Testing Your Knowledge of the Concepts Outside cell Complete the following questions. • Cellular respiration is the enzymatic breakdown of glucose to carbon dioxide and water. • Cellular respiration includes three pathways: glycolysis (occurs in the cytoplasm and is anaerobic), the citric acid cycle (releases carbon dioxide), and the electron transport chain (passes electrons to oxygen). Fermentation • If oxygen is not available in cells, the electron transport chain is inoperative, and fermentation (which does not require oxygen) occurs. • Fermentation produces very little ATP. Thinking Critically About the Concepts Questions encourage you to apply what you have learned to the opening case study. (See Appendix B for answers.) 1. Explain the three key concepts of the cell theory. (page 44) 2. Which type of microscope would you use to observe the swimming behavior of a flagellated protozoan? Explain. (page 45) Testing Your Knowledge of the Concepts Questions help you review material and prepare for tests. (See Appendix B for answers.) 3. Describe how the eukaryotic cell gained mitochondria and chloroplasts. (page 46) 4. Invagination of plasma membrane produced what structures in eukaryotic cells not present in prokaryotic cells? (page 46) 5. How does the organization of the plasma membrane relate to its function? (pages 50–52) Thinking Critically About the Concepts In the case study at the beginning of the chapter, the child had malfunctioning lysosomes, which caused an accumulation of fatty acid in the system. Each part of a cell plays an important role in the homeostasis of the entire body. 1. What might occur if the cells of the body contained a malfunctioning mitochondria? 2. What would happen to homeostasis if enzymes were no longer produced in the body? 3. Knowing what you know about the function of a lysosome, what might occur if the cells’ lysosomes were overproductive instead of malfunctioning? x x 12/21/10 9:50 AM Biology Matters Readings Biology Matters Bioethical Focus DNA Fingerprinting and the Criminal Justice System Traditional fingerprinting has been used for years to identify There have also been reported problems with sloppy laboracriminals and to exonerate those wrongly accused of crimes. tory procedures and the credibility of forensic experts. In one The opportunity now arises to use DNA fingerprinting in the particular case, Curtis McCarty had been placed on death same way. DNA fingerprinting requires only a small DNA row three times by the same team of prosecutor and police sample. This sample can come from blood left at the scene of lab analyst. After 21 years in prison, he was exonerated. The the crime, semen prosecutor misconduct, i e, seme im e n from a rape a case, orr even a sing single le hair rroot! oot! p rosecutor has been accu accused sed of misc miscondu onduct, ct, and the poli police ce identificafalsifying laboratory obtain Advocates vocates of DNA A fingerprinting ngerrprinting claim that identificalab analyst was as fi firrred ed d for f fals falsifyi iif ng g labo laborato aborato ratory ry data da to o obta obtai btain in tion iss “b “beyond a reasonable doubt.” But how can investigaconvictions. b tors be ccertain? Much of the forensic DNA fingerprinting In addition to identifying criminals, DNA fingerprinting done tod today uses short tandem repeats (STRs). These are can be used to establish paternity and maternity; determine d stretches nationality for immigration purposes; and identify victims of hess of noncoding DNA in our genome that contain repeated a national disaster, such as the terrorist attacks of September ted d DNA sequences. Most commonly, these repeats are Coloring Organisms Green; four base bases 11, 2001, the tsunamis in Indonesia in 2007, and the earthasee in length; for example, CATG. You may have 11 Green Fluorescent Cells in China and Haiti in 2009 and 2010. copiess off this repeat on a particular chromosome Proteins inherited andquakes from you your Considering the usefulness of DNA fingerprints, peru father and only three copies on the homologous Most cells lack any signifi cant pigmentation. Thus, chromosome from your mother. When analyzed by electrohapscell everyone should be required to contribute blood to cremoss biologists frequently relycorrespond on dyes to produce enough contrast actin filaments a. jellyfifish phoresis, numbers of repeats to increasate a national DNA ngerprint databank. Some say,b.however, esis, greater to resolve organelles and other cellular structures. The first ing lengths that this would constitute an unreasonable search, which is ngtt on the DNA. Different people have unique repeat ng of these dyes were developed in the nineteenth century from patterns, unconstitutional. rns,, so these STRs can be used to discriminate between Figure 3A GFP shows details of the interior of cells. chemicals used to stain clothes in the textile industry. Since a. The jellyfish Aequorea victoria and b. the GFP stain of a human individuals. A particular STR pattern on a single chromoidu u then, significant advances have occurred in the development cell. This illustration shows a human cell tagged with a GFP-labeled some ma may a be shared by a number of people. However, by of cellular stains. Decide Your Opinion y to the actin protein. p antibody studying ying g multiple STR sites, a statistically unique pattern In e, Roger n 2008, 2008, three three scientists—Martin scientis scie ntists—M ts—Marti artin n Chalfi Chalfie, Roger Y. Y. Tsien, Tsien,, Tsien 1. Would you be willing to provide your DNA for a national can bee de developed for everyone—unless you share your DNA e and Osamu Shimomura—earned the Nobel Prize in ChemisOsaa try orr Medicine for their work with a protein called green fluoM develop it as a molecular tag. These tags can be generated for rescent or GFP. GFP is a bioluminescent protein found nt protein, pr almost any protein within the cell, revealing not only its celin thee jellyfi sh Aequorea victoria, commonly called the crystal jee lular location but also how its distribution within the cell may jelly. Thee crystal jelly is a native of the West Coast of the United change as a result of a response to its environment. Figure 3A States. this jellyfish is transparent. However, when s. Normally, N shows how a GFP-labeled antibody can be used to identify Pursuing Youthful Skin disturbed, rbee special cells in the jellyfish release a fluorescent prothe cellular location of the actin proteins in a human cell. Actin tein called Aequorin fl uoresces with a green color. callee aequorin. call is one of More and more members of the “baby-boomer” generation the prime components of the cell’s microfilaments, The research teams of Chalfi e, Tsien, and for Shimomura resee which in turn are part of the cytoskeleton of the cell. This imare willing to spend lavishly a youthfulwere appearance. Over able to isolate fluorescent protein from the jellyfi sh and i age shows the distribution of actin in a human cell. 30the million Americans have turned to Botox, laser treatments, and/or tanning to help obtain that vigorous, “healthy” look. But how safe and effective are these treatments? Biology Matters Science Focus Biology Matters Health Focus The Biology Matters readings in the twelfth edition collectively put the chapter concepts in the context of modern-day issues: Health Focus readings review procedures and technology that can contribute to your well being. Science Focus readings describe how experimentation and observations have contributed to our knowledge about the living world. Bioethical Focus readings describe modern situations that call for value judgments and challenge you to develop a point of view. Historical Focus readings help you better understand how the study of biology has evolved over time. 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None of the Nazi doctor called the “Angel of Death.” Mengele tortured conmen were informed of their participation in a research study nor centration camp prisoners in multiple horrible ways. Some were about available treatment options. The men were told that invesslowly frozen to death, others poisoned, and still others bled to tigators were testing for and treating “bad blood.” The phrase death—all to fulfill Mengele’s obscene notion of scientific inquiry. described a number of common illnesses, including anemia, Regrettably, the history of research in the United States is that were widespread at the time. While they participated in the also stained by misconduct. One notorious example of unethical study, the men were offered medical exams, transportation to research involving human subjects began in the United States in and from clinics, treatments for other ailments, food, and money 1932 and continued until 1972. This research was carried out by for their burial expenses if necessary. the Public Health Service (PHS). Investigators wished to study When the study first began, there were few available treat- Biology Matters Historical Focus Connections and Misconceptions What causes meningitis? Connections and Misconceptions This unique feature presents the types of spontaneous inquiries that you may have as you study the workings of the human body. Questions and answers can be serious or funny, but each will capture your attention. Meningitis is caused by an infection of the meninges by either a virus or a bacterium. Viral meningitis is less severe than bacterial meningitis, which in some cases can result in brain damage and death. Bacterial meningitis is usually caused by one of three species of bacteria: Haemophilus influenzae type b (Hib), Streptococcus pneumoniae, and Neisseria meningitidis. Vaccines are available for Hib bacteria and some forms of S. pneumoniae and N. meningitidis. The Centers for Disease Control (CDC) recommend that individuals between the ages of 11 and 18 be vaccinated against bacterial meningitis. xi xi 12/21/10 3:07 PM Guided TourGuide to Using This A Student’s Textbook: The Art Program Vivid and Engaging Illustrations Bring the Study of Biology to Life Combination Art lobule 310 µm lymphocyte monocyte 641 µm cortex medulla 641 µm capsule Thymus gland Red bone marrow capsule cortex Drawings of structures are paired with micrographs to provide you with two perspectives: the explanatory clarity of line drawings and the realism of photos. medulla 381 µm white pulp red pulp Spleen Lymph node Small intestine Multilevel Perspective villus Section of intestinal wall lumen lacteal blood capillaries villus microvilli goblet cell Such illustrations guide you from the more intuitive macroscopic level of learning to the functional foundations revealed through microscopic images. lymph nodule venule lymphatic vessel Villi arteriole nuclear envelope Icons chromatin Icons orient you to the whole structure or process by providing small drawings that help you visualize how a particular structure is part of a larger one. nucleolus rough ER nuclear pores smooth ER xii xii 12/21/10 1:43 PM microvilli of oocyte plasma membrane 1. Sperm makes its way through the corona radiata. Control center 5 0 60 70 sperm sends data to thermostat corona radiata 4. Sperm nucleus enters cytoplasm of oocyte. directs furnace to turn off 60 7 0 80 Sensor 5 plasma membrane nucleus 50 68°F set point 5. Cortical granules release enzymes; zona pellucida becomes fertilization membrane. 50 head 0 60 7 0 80 middle piece 3. Sperm binds to and fuses with oocyte plasma membrane. 80 2. Acrosomal enzymes digest a portion of zona pellucida. tail 60 7 0 80 70°F too hot furnace off acrosome fertilization membrane cortical granule 6. Sperm and egg pronuclei are enclosed in a nuclear envelope. sperm pronucleus negative feedback and return to normal temperature stimulus oocyte plasma membrane too m uch egg pronucleus zona pellucida Homeostasis too lit tle negative feedback and return to normal temperature stimulus Process Figures Sensor 50 0 60 70 80 66°F too cold 5 furnace on These figures break down processes into a series of smaller steps and organize them in an easy-to-follow format. 60 7 0 80 50 0 60 70 80 5 Control center directs furnace to turn on 60 7 0 80 sends data to thermostat 68°F set point Cardiovascular System The nervous and endocrine systems work together to maintain homeostasis. The systems listed here in particular also work with these two systems. Nerves and epinephrine regulate contraction of the heart and constriction/dilation of blood vessels. Hormones regulate blood glucose and ion levels. Growth factors promote blood cell formation. Blood vessels transport hormones to target cells. Nervous and Endocrine Systems The nervous and endocrine systems coordinate the activities of the other systems. The brain receives sensory input and controls the activity of muscles and various glands. The endocrine system secretes hormones that influence the metabolism of cells, the growth and development of body parts, and homeostasis. Respiratory System The respiratory center in the brain regulates the breathing rate. The lungs carry on gas exchange for the benefit of all systems, including the nervous and endocrine systems. Urinary System Nerves stimulate muscles that permit urination. Hormones (ADH and aldosterone) help kidneys regulate the water–salt balance and the acid–base balance of the blood. Reproductive System Nerves stimulate contractions that move gametes in ducts, and uterine contraction that occurs during childbirth. Sex hormones influence the development of the secondary sex characteristics. Digestive System Human Systems Work Together Working-together illustrations use brief concise statements to tell you how various other systems help a featured system achieve homeostasis. The working-together illustrations have been integrated into homeostasis sections making a united whole. The homeostasis sections show how the systems achieve homeostasis despite real-life experiences that could alter the internal environment. For example, see page 85. Nerves stimulate smooth muscle and permit digestive tract movements. Hormones help regulate digestive juices that break down food to nutrients for neurons and glands. Integumentary System Nerves activate sweat glands and arrector pili muscles. Sensory receptors in skin send information to the brain about the external environment. Skin protects neurons and glands. Muscular System stem Nerves stimulate muscles, whose contractions allow us to move out of danger. ger. Androgens promote growth of skeletal muscles. Sensory receptors in muscles and joints ints send scles protect information to the brain. Muscles neurons and glands. Skeletal System Growth hormone and sex hormones regulate the size of the bones; parathyroid hormone + and calcitonin regulate their Ca2 content and therefore bone strength. Bones protect nerves and glands. Integumentary system Cardiovascular system Lymphatic and immune systems • protects body. • receives sensory input. • helps control temperature. • synthesizes vitamin D. • transports blood, nutrients, gases, and wastes. • defends against disease. • helps control temperature, fluid, and pH balance. • help control fluid balance. • absorb fats. • defend against infectious disease. Digestive system Respiratory system Urinary system Skeletal system Muscular system Nervous system Endocrine system Reproductive system • ingests food. • digests food. • absorbs nutrients. • eliminates waste. • maintains breathing. • exchanges gases at lungs and tissues. • helps control pH balance. • excretes metabolic wastes. • helps control fluid balance. • helps control pH balance. • supports the body. • protects body parts. • helps move the body. • stores minerals. • produces blood cells. • maintains posture. • moves body and internal organs. • produces heat. • receives sensory input. • integrates and stores input. • initiates motor output. • helps coordinate organ systems. • produces hormones. • helps coordinate organ systems. • responds to stress. • helps regulate fluid and pH balance. • helps regulate metabolism. • produces gametes. • transports gametes. • produces sex hormones. • nurtures and gives birth to offspring in females. xiii xiii 12/21/10 1:43 PM Teaching and Learning Tools McGraw-Hill Higher Education and Blackboard Have Teamed Up Blackboard, the Web-based coursemanagement system, has partnered with McGraw-Hill to better allow students and faculty to use online materials and activities to complement face-to-face teaching. Blackboard features exciting social learning and teaching tools that foster more logical, visually impactful, and active learning opportunities for students. You’ll transform your closed-door classrooms into communities where students remain connected to their educational experience 24 hours a day. This partnership allows you and your students access to McGraw-Hill’s Connect™ and Create™ right from within your Blackboard course—all with one single sign-on. Not only do you get single sign-on with Connect™ and Create™, you also get deep integration of McGraw-Hill content and content engines right in Blackboard. Whether you’re choosing a book for your course or building Connect™ assignments, all the tools you need are right where you want them—inside of Blackboard. Gradebooks are now seamless. When a student completes an integrated Connect™ assignment, the grade for that assignment automatically (and instantly) feeds your Blackboard grade center. McGraw-Hill and Blackboard can now offer you easy access to industry leading technology and content, whether your campus hosts it or we do. Be sure to ask your local McGraw-Hill representative for details. McGraw-Hill Connect™ Biology McGraw-Hill Connect™ Biology provides online presentation, assignment, and assessment solutions. It connects your students with the tools and resources they’ll need to achieve success. With Connect™ Biology, you can deliver assignments, quizzes, and tests online. A robust set of questions and activities are presented and aligned with the textbook’s learning outcomes. As an instructor, you can edit existing questions and author entirely new problems. Track individual student performance—by question, assignment, or in relation to the class overall—with detailed grade reports. Integrate grade reports easily with Learning Management Systems (LMS), such as WebCT and Blackboard—and much more. ConnectPlus™ Biology provides students with all the advantages of Connect™ Biology, plus 24/7 online access to an eBook. This media-rich version of the book is available through the McGraw-Hill Connect™ platform and allows seamless integration of text, media, and assessments. To learn more, visit LearnSmart™ LearnSmart™ is available as an integrated feature of McGrawHill Connect™ Biology and provides students with a GPS (Guided Path to Success) for your course. Using artificial intelligence, LearnSmart™ intelligently assesses a student’s knowledge of course content through a series of adaptive questions. It pinpoints concepts the student does not understand and maps out a personalized study plan for success. This innovative study tool also has features that allow instructors to see exactly what students have accomplished and a built in assessment tool for graded assignments. Visit the following site for a demonstration. My Lectures—Tegrity Tegrity Campus™ records and distributes your class lecture with just a click of a button. Students can view anytime/ anywhere via computer, iPod, or mobile device. It indexes as it records your PowerPoint presentations and anything shown on your computer so students can use keywords to find exactly what they want to study. Tegrity is available as an integrated feature of McGraw-Hill Connect™ Biology and as a standalone. xiv xiv 12/21/10 9:51 AM Animations for a New Generation Presentation Tools Dynamic, 3D animations of key biological processes bring an unprecedented level of control to the classroom. Innovative features keep the emphasis on teaching rather than entertaining. • An options menu lets you control the animation’s level of detail, speed, length, and appearance, so you can create the experience you want. • Draw on the animation using the whiteboard pen to highlight important areas. • The scroll bar lets you fast forward and rewind while seeing what happens in the animation, so you can start at the exact moment you want. • A scene menu lets you instantly jump to a specific point in the animation. • Pop-ups add detail at important points and help students relate the animation back to concepts from lecture and the textbook. • A complete visual summary at the end of the animation reminds students of the big picture. • Animation topics include: Cellular Respiration, Photosynthesis, Molecular Biology of the Gene, DNA Replication, Cell Cycle and Mitosis, Membrane Transport, and Plant Transport. Everything you need for outstanding presentations in one place. • FlexArt Image Powerpoints—including every piece of art that • • • • has been sized and cropped specifically for superior presentations, as well as labels that can be edited and flexible art that can be picked up and moved on key figures. Also included are tables, photographs, and unlabeled art pieces. Lecture PowerPoints with Animations—animations illustrating important processes are embedded in the lecture material. Animation PowerPoints—animations only are provided in PowerPoint. Labeled JPEG Images—Full-color digital files of all illustrations that can be readily incorporated into presentations, exams, or custom-made classroom materials. Base Art Image Files—unlabeled digital files of all illustrations. Presentation Center In addition to the images from your book, this online digital library contains photos, artwork, animations, and other media from an array of McGraw-Hill textbooks. Computerized Test Bank A comprehensive bank of test questions is provided within a computerized test bank powered by McGraw-Hill’s flexible electronic testing program, EZ Test Online. A new tagging scheme allows you to sort questions by Bloom’s difficulty level, learning outcome, topic, and section. With EZ Test Online, instructors can select questions from multiple McGrawHill test banks or author their own, and then either print the test for paper distribution or give it online. Instructor’s Manual The instructor’s manual contains chapter outlines, lecture enrichment ideas, and discussion questions. Laboratory Manual Create With McGraw-Hill Create™, you can easily rearrange chapters, combine material from other content sources, and quickly upload content you have written like your course syllabus or teaching notes. Find the content you need in Create by searching through thousands of leading McGraw-Hill textbooks. Arrange your book to fit your teaching style. Create even allows you to personalize your book’s appearance by selecting the cover and adding your name, school, and course information. Order a Create book and you’ll receive a complimentary print review copy in 3–5 business days or a complimentary electronic review copy (eComp) via e-mail in minutes. Go to today and register to experience how McGrawHill Create™ empowers you to teach your students your way. The Human Biology Laboratory Manual is written by Dr. Sylvia Mader. Every laboratory has been written to help students learn the fundamental concepts of biology and the specific content of the chapter to which the lab relates, as well as gain a better understanding of the scientific method. Companion Website The Mader Human Biology companion website allows students to access a variety of free digital learning tools that include • Chapter-level quizzing • Animations and videos • Vocabulary flashcards • Virtual labs xv xv 12/21/10 1:43 PM Content Changes Overview of Content Changes to Human Biology, Twelfth Edition Chapter 1: Exploring Life and Science This chapter previews the text by discussing the characteristics of life, principles of evolution, organization of the biosphere, and the scientific process. A new chapter opener on the characteristics of life has been added. Evolutionary trees are now included to indicate the three domains of life. Part I: Human Organization Chapter 2: Chemistry of Life includes a new illustration of relative pH values to improve student understanding of acid– base relationships and an illustration of the structure of fiber. The chapter also contains several new applications: a new case study on blood chemistry, a new application reading on the origin of elements, and two new Biology Matters: Health Focus readings on the importance of fiber and omega-3 fatty acids in the diet. Chapter 3: Cell Structure and Function contains a new case study on Tay–Sachs disease, a Biology Matters: Science Focus reading on the use of green fluorescent proteins in cell biology, and new application readings on cystic fibrosis and induced pluripotent stem cells. A virtual lab on enzymes is provided at the end of the chapter. Chapter 4: Organization and Regulation of Body Systems includes a new case study on artificial skin and new applications on the safety of tanning beds and the causes of meningitis. Part II: Maintenance of the Human Body Chapter 5: Cardiovascular System: Heart and Blood Vessels includes a case study on peripheral artery disease and a new application reading on the development of the heart in a fetus. A virtual lab on blood pressure is included at the end of the chapter. Chapter 6: Cardiovascular System: Blood was revised to include a new case study on leukemia and application readings on stem cells, blood doping, Christmas disease, and Bombay syndrome. Chapter 7: Lymphatic System and Immunity now opens with a case study on lupus. In addition, application readings on the effects of refrigeration on the growth of bacteria and the mode of action of aspirin are now included. The Infectious Diseases supplement has been moved to follow Chapter 7 for a more logical progression and includes updated information on the extent of the HIV/AIDS epidemic, as well as information on the trials to develop an HIV/AIDS vaccine. Chapter 8: Digestive System and Nutrition opens with a new case study on gastroesophageal reflux disease (GERD), and a virtual lab on nutrition has been placed in the end-of-chapter material. In Chapter 9: Respiratory System, the opening material has been enhanced to indicate more of the tests for sleep apnea, and a new application reading on cystic fibrosis has been included. Chapter 10: Urinary System has been reorganized so that the discussions of homeostasis coincide with the coverage of the regulatory functions of the kidneys. A new case study on polycystic kidney disease (PKD) starts the chapter, and a new application reading on the causes of a floating kidney is provided. Part III: Movement and Support in Humans Chapter 11: Skeletal System opens with a case study on knee replacement surgery. A new application reading investigates the evolutionary reasons why human toes are shorter than fingers. The Biology Matters: Health Focus on osteoporosis has been updated with new recommendations on calcium and vitamin D intake. Chapter 12: Muscular System examines the tests used to detect muscular dystrophy in the opening case study. The application readings examine the number of muscles in the body, the interaction of hemoglobin and muscle tissue, the use of Botox to remove wrinkles, and the causes of muscle soreness following exercise. A virtual lab on muscle stimulation is provided at the end of the chapter. Part IV: Integration and Coordination in Humans Chapter 13: Nervous System begins with a case study on multiple sclerosis (MS) and includes a discussion of how the disease is diagnosed. A new application on the mode of action of aspirin is included, as well as new material on the pharmacology of methamphetamines. Chapter 14: Senses begins with a case study on the use of cochlear implants, xvi xvi 12/21/10 3:08 PM and a new application reading focuses on the causes of pinkeye. Chapter 15: Endocrine System opens with a case study on the tests for diabetes mellitus. Part V: Reproduction in Humans Chapter 16: Reproductive System includes a case study that examines the causes and diagnosis of cervical cancer. New application readings for this chapter examine polyploidy in liver cells, hormone replacement therapy, and emergency contraceptive pills. Chapter 17: Development and Aging opens with a case study on pregnancy testing. The concept of females as the “default sex” is highlighted in a new application reading, and another new reading examines the genetic basis of longevity. and Human Interferences begins with a scenario of the future consequences of human threats to the environment. The chapter also includes information on greenhouse gases, and ecosystems on the floor of the ocean. A virtual lab on modeling ecosystems is provided at the end of the chapter. Chapter 24: Human Population, Planetary Resources, and Conservation includes an updated case study with additional information on overfishing, and application readings on methylmercury and the topic of birthrates and death rates in developed and developing countries. Part VI: Human Genetics Chapter 18: Patterns of Chromosome Inheritance includes an increased focus on control of the cell cycle (Figure 18.4), and the role of cell cycle checkpoints. The discussion of Barr bodies has been moved from Chapter 3 to Chapter 18. The chapter opens with a new case study on cell cycle control and breast cancer, and an additional application reading examines the relationship between the age of a woman and the risk of Down syndrome in her children. A virtual lab on the cell cycle and cancer is included at the end of the chapter. Chapter 19: Cancer includes new illustrations on the roles of tumor suppressor and proto-oncogenes in the cell. Data on cancer types (Figures 19.5 and 19.7) have been updated. Chapter 19 opens with a case study on nephroblastoma, and a new application reading explores the potential link between transposons and cancer. Chapter 20: Patterns of Genetic Inheritance begins with a case study on phenylketonuria. The new application readings in the chapter examine the history of the Punnett square, the relationship between skin color and race, and fragile X syndrome. Virtual labs on the use of Punnett squares and sex-linked traits are included at the end of the chapter. Chapter 21: DNA Biology and Technology includes a new figure (21.13) that diagrams the stages in the regulation of gene expression. A case study that examines the development of insulin using recombinant DNA technology opens the chapter, and the topics of microRNA, and the universal nature of the genetic code, are included in new application readings. Two virtual labs, classifying using biotechnology and knocking out genes, are included at the end of the chapter. Part VII: Human Evolution and Ecology Chapter 22: Human Evolution presents the new classification of humans within the Hominins in Section 22.4 and opens with a revised case study to include new information on the Neandertals. The chapter also includes new application readings on vestigial organs in humans, intelligent design, and artificial selection. Chapter 23: Global Ecology xvii xvii 12/21/10 9:51 AM Acknowledgments Dr. Sylvia Mader represents one of the icons of science education. Her dedication to her students, coupled to her clear, concise, writing style, has benefited the education of thousands of students over the past three decades. It is an honor to continue her legacy, and to bring her message to the next generation of students. Throughout each chapter, I have striven to ensure that the material was written and illustrated in the familiar Mader style. A project such as this could never be completed without the work of a coordinated group. As always, the McGraw-Hill professionals guided this revision, assisting in all aspects. From beginning brainstorming sessions to completed text, this team supplied creativity, advice, and support whenever it was needed. The Developmental Editor, Rose Koos, and Project Manager, April Southwood, provided invaluable assistance throughout the entire process. Their dedication to providing a quality educational product is evident throughout this text. I would also like to thank the Publisher, Michael Hackett, for the opportunity to contribute to the scientific literacy of our students. Fresh, appealing new photos are a feature of this book, which students and professors alike will enjoy. Jo Johnson and Lori Hancock did a superb job of finding just the right photographs and micrographs. The design of the book is the result of the creative talents of Laurie Janssen and many others who assisted in deciding the appearance of each element in the text. Marketing Manager Tamara Maury directed the marketing team whose work is second to none. Eric Weber, the Digital Product Manager, played an integral role in developing the ConnectPlus resources for this text. I am extremely grateful to my contributing author for this edition, Lynn Preston of Tarrant County College. Lynn assisted me with this project from beginning to end. Together with the editorial team, she supplied ideas and content for the many updates, new features, and new illustrations that enrich this twelfth edition of Human Biology. Finally, this edition of Human Biology would not be of the same excellent quality without the suggested changes from the many reviewers listed in the following sections. Who I am, as an educator and an author, is a direct reflection of what I have learned from my students. Education is a two-way street, and it is my honest opinion that both my professional life and my personal life have been enriched by interactions with my students. They have encouraged me to learn more, teach better, and never stop questioning the world around me. As is the case with educators, we strive to make the world a better place, and I thank McGraw-Hill Higher Education, Dr. Sylvia Mader, and especially my wife Sandra for the opportunity to make this dream a reality. Michael Windelspecht, Ph.D. Blowing Rock, North Carolina 360° Development McGraw-Hill’s 360° Development Process is an ongoing, never-ending, market-oriented approach to building accurate and innovative print and digital products. It is dedicated to continual large-scale and incremental improvement driven by multiple customer feedback loops and checkpoints. This is initiated during the early planning stages of our new products, and intensifies during the development and production stages, then begins again upon publication in anticipation of the next edition. This process is designed to provide a broad, comprehensive spectrum of feedback for refinement and innovation of our learning tools, for both student and instructor. The 360° Development Process includes market research, content reviews, course- and product-specific symposia, accuracy checks, and art reviews. We appreciate the expertise of the many individuals involved in this process. Ancillary Authors Test Bank and Instructor’s Manual: Kimberly Lyle-Ippolito, Anderson University Lecture Outlines/Image PowerPoints: Lynn Preston, Tarrant County College FlexArt Manuscript: Sharon Thoma, University of Wisconsin—Madison eBook Quizzes: Jennifer Burtwistle, Northeast Community College Connect Question Bank: Krissy Johnson, Appalachian State University Alex James, Appalachian State University Miriam Flaum, Touro College Ferdinand Gomez, Florida International University Cole Hawkins, Solano Community College Michael Kalafatis, Cleveland State University Pushkar Kaul, Clark Atlanta University Mary Jane Keith, Wichita State University Edwin Klibaner, Touro College Carol Mack, Erie Community College, North Campus Jennifer McCoy, Wichita State University Nicole Okazaki, Weber State University Robert Okazaki, Weber State University Chuma Okere, Clark Atlanta University Jill O’Malley, Erie Community College, City Campus Jacqueline Pal, California State University Daniel Peña, Dutchess Community College Linda Peters, Holyoke Community College E. Sarahi Ramirez, Harrisburg Area Community College Susan Rohde, Triton College Mary Ann Sadler, St. Charles Community College Tobili Sam-Yellowe, Cleveland State University Twelfth Edition Reviewers Michael Adams, Pasco-Hernando Community College Bill Bassman, Touro College Erwin Bautista, University of California, Davis Mario Ciani, Mercy College Frank Conrad, Metropolitan State College of Denver Christina Costa, Mercy College Angela Crocker, Erie Community College Maria Dell, Santa Monica College Elizabeth Desy, Southwest Minnesota State University xviii 12/21/10 1:43 PM Twelfth Edition Reviewers Roy Silcox, Brigham Young University Joshua Smith, Missouri State University Robert Smith, McHenry County College Mike Squires, Columbus State Community College Francis Sullivan, Metropolitan State College of Denver Kent Thomas, Wichita State University Michael Troyan, Pennsylvania State University Wendy Vermillion, Columbus State Community College David Waddell, California State University Miryam Wahrman, William Paterson University Robert Wiggers, Stephen F. Austin State University Jessica Wooten, Franklin University Amber Wyman, Finger Lakes Community College Dianne York, Lincoln University of Pennsylvania Marlena Yost, Mississippi State University Melodye Gold, Bellevue Community College Mary Louise Greeley, Salve Regina University Virginia Gutierrez-Osborne, Fresno City College Martin Hahn, William Paterson University Rebecca J. Heick, St. Ambrose University Jonathan P. Hubbard, Hartnell College Edwin Klibaner, Touro College Robert A. Krebs, Cleveland State University Nicole Okazaki, Weber State University Phillip A. Ortiz, Empire State College, State University of New York Polly K. Phillips, Florida International University Nancy K. Prentiss, University of Maine at Farmington Nicholas Roster, Northwestern Michigan College Megan E. Thomas, University of Nevada, Las Vegas Wendy Vermillion, Columbus State Community College Jagan Valluri, Marshall University Eleventh Edition Reviewers Tamatha R. Barbeau, Francis Marion University Bill Radley Bassman, Touro College, Stern College Frank J. Conrad, Metropolitan State College of Denver Valentina David, Bethune-Cookman University Maria M. Dell, Santa Monica College Charles J. Dick, Pasco-Hernando Community College Thomas J. Franco, Erie Community College, North Campus Judith E. Goedert, City College of San Francisco Previous Edition Reviewers and Contributors Rita Alisauskas, County College of Morris Deborah Allen, Jefferson College Elizabeth Balko, SUNY-Oswego Tamatha R. Barbeau, Francis Marion University Marilynn R. Bartels, Black Hawk College Erwin A. Bautista, University of California, Davis Robert D. Bergad, Metropolitan State University Hessel Bouma III, Calvin College Frank J. Conrad, Metropolitan State College of Denver William Cushwa, Clark College Debbie A. Zetts Dalrymple, Thomas Nelson Community College Diane Dembicki, Dutchess Community College Charles J. Dick, Pasco-Hernando Community College Kristiann M. Dougherty, Valencia Community College David A. Dunbar, Cabrini College William E. Dunscombe, Union County College David Foster, North Idaho College David E. Fulford, Edinboro University of Pennsylvania Sandra Grauer, Limestone College Mary Louise Greeley, Salve Regina University Esta Grossman, Washtenaw Community College Gretel M. Guest, Alamance Community College Martin E. Hahn, William Paterson University Rosalind C. Haselbeck, University of San Diego Timothy P. Hayes, Marshall University Mark F. Hoover, Penn State Altoona Anna K. Hull, Lincoln University Laurie A. Johnson, Bay College Mary King Kananen, Penn State Altoona Patricia Klopfenstein, Edison Community College J. Kevin Langford, Stephen F. Austin State University Lee H. Lee, Montclair State University Edwin Lephart, Brigham Young University Martin A. Levin, Eastern Connecticut State University Nardos Lijam, Columbus State Community College William J. Mackay, Edinboro University of Pennsylvania Terry R. Martin, Kishwaukee College Deborah J. McCool, Penn State Altoona V. Christine Minor, Clemson University Nick Nagle, Metropolitan State College of Denver Roger C. Nealeigh, Central Community College-Hastings Polly K. Phillips, Florida International University Shawn G. Phippen, Valdosta State University Mason Posner, Ashland University Donna R. Potacco, William Paterson University Mary Celeste Reese, Mississippi State University Jill D. Reid, Virginia Commonwealth University Kay Rezanka, Central Lakes College April L. Rottman, Rock Valley College Deborah B. Schulman, Cleveland State University Lois Sealy, Valencia Community College Jia Shi, Skyline College Mark Smith, Chaffey College Alicia Steinhardt, Hartnell Community College West Valley Community College Lei Lani Stelle, Rochester Institute of Technology Kenneth Thomas, Northern Essex Community College Chad Thompson, SUNY-Westchester Community College Jamey Thompson, Hudson Valley Community College Doris J. Ward, Bethune-Cookman College Susan Weinstein, Marshall University Dave Cox, Lincoln Land Community College Patrick Galliart, North Iowa Area Community College Sandra Grauer, Limestone College Sharron Jenkins, Purdue University North Central Jill Kolodsick, Washtenaw Community College Edwin Lephart, Brigham Young University Susannah Nelson Longenbaker, Columbus State Community College Debbie J. McCool, Penn State Altoona Jodi Rymer, Christine Wildsoet Laboratory University of California, Berkeley Linda D. Smith-Staton, Pellissippi State Technical Community College Linda Strause, University of California–San Diego Michael Thompson, Middle Tennessee State University xix xix 12/21/10 9:52 AM Contents Preface v Student’s Guide viii Teaching and Learning Tools xiv Content Changes xvi Acknowledgments xviii Readings xxiii CHAPTER 1 Exploring Life and Science 1 CHAPTER 4 Organization and Regulation of Body Systems 65 7.3 Innate Defenses 140 4.3 Muscular Tissue Moves the Body 69 7.5 Acquired Immunity 147 4.4 Nervous Tissue Communicates 70 7.6 Hypersensitivity Reactions 150 4.6 Integumentary System 75 1.3 Science as a Process 9 4.7 Organ Systems, Body Cavities, and Body Membranes 79 1.4 Making Sense of a Scientific Study 13 4.8 Homeostasis 84 2.1 From Atoms to Molecules 20 Maintenance of the Human Body 91 CHAPTER 5 Cardiovascular System: Heart and Blood Vessels 91 2.3 Molecules of Life 28 5.1 Overview of the Cardiovascular System 92 2.4 Carbohydrates 29 5.2 The Types of Blood Vessels 93 2.5 Lipids 31 5.3 The Heart Is a Double Pump 94 2.6 Proteins 34 5.4 Features of the Cardiovascular System 100 2.2 Water and Living Things 24 2.7 Nucleic Acids 37 5.5 Two Cardiovascular Pathways 103 CHAPTER 3 5.6 Exchange at the Capillaries 104 5.7 Cardiovascular Disorders 105 Cell Structure and Function 43 3.1 What Is a Cell? 44 3.2 How Cells Are Organized 46 3.3 The Plasma Membrane and How Substances Cross It 49 INFECTIOUS DISEASES SUPPLEMENT 155 S.1 AIDS and Other Pandemics 156 S.2 Emerging Diseases 166 CHAPTER PART II Chemistry of Life 19 7.4 Acquired Defenses 143 S.3 Antibiotic Resistance 167 1.5 Science and Social Responsibility 14 2 7.1 Microbes, Pathogens, and You 134 4.2 Connective Tissue Connects and Supports 66 4.5 Epithelial Tissue Protects 72 CHAPTER Lymphatic System and Immunity 133 7.2 The Lymphatic System 137 1.2 Humans Are Related to Other Animals 6 Human Organization 19 7 4.1 Types of Tissues 66 1.1 The Characteristics of Life 2 PART I CHAPTER CHAPTER 6 Cardiovascular System: Blood 115 Digestive System and Nutrition 169 8.1 Overview of Digestion 170 8.2 First Part of the Digestive Tract 172 8.3 The Stomach and Small Intestine 175 8.4 Three Accessory Organs and Regulation of Secretions 178 8.5 The Large Intestine and Defecation 180 8.6 Nutrition and Weight Control 183 CHAPTER 6.2 Red Blood Cells and Transport of Oxygen 118 3.5 The Cytoskeleton, Cell Movement, and Cell Junctions 55 6.3 White Blood Cells and Defense Against Disease 121 3.6 Mitochondria and Cellular Metabolism 57 6.4 Platelets and Blood Clotting 123 6.5 Blood Typing and Transfusions 125 6.6 Homeostasis 127 9 Respiratory System 196 9.1 The Respiratory System 197 9.2 The Upper Respiratory Tract 198 9.3 The Lower Respiratory Tract 200 9.4 Mechanism of Breathing 201 9.5 Control of Ventilation 205 9.6 Gas Exchanges in the Body 206 9.7 Respiration and Health 208 6.1 Blood: An Overview 116 3.4 The Nucleus and Endomembrane System 53 8 CHAPTER 10 Urinary System 217 10.1 The Urinary System 218 10.2 Kidney Structure 220 10.3 Urine Formation 225 10.4 Kidneys and Homeostasis 228 10.5 Kidney Function Disorders 233 xx xx 12/21/10 1:43 PM Contents CHAPTER PART III Movement and Support iin Humans 239 CHAPTER 11 Skeletal System 239 11.1 Overview of the Skeletal System 240 11.2 Bone Growth, Remodeling, and Repair 242 Senses 315 11.5 Articulations 255 CHAPTER 12 Muscular System 262 12.1 Overview of the Muscular System 263 12.2 Skeletal Muscle Fiber Contraction 267 Human Genetics 419 14.2 Proprioreceptors, Cutaneous Receptors, and Pain Receptors 318 14.3 Senses of Taste and Smell 320 14.4 Sense of Vision 322 14.5 Sense of Hearing 328 14.6 Sense of Equilibrium 332 12.5 Homeostasis 278 CHAPTER 18 Patterns of Chromosome Inheritance 419 18.1 Chromosomes 420 18.2 The Cell Cycle 422 18.3 Mitosis 424 CHAPTER 15 Endocrine System 339 15.1 Endocrine Glands 340 18.4 Meiosis 428 18.5 Comparison of Meiosis and Mitosis 433 18.6 Chromosome Inheritance 437 15.2 Hypothalamus and Pituitary Gland 345 15.3 Thyroid and Parathyroid Glands 349 CHAPTER 15.4 Adrenal Glands 351 Cancer 447 15.5 Pancreas 354 15.6 Other Endocrine Glands 358 15.7 Homeostasis 360 12.3 Whole Muscle Contraction 271 12.4 Muscular Disorders 276 PART VI 14.1 Overview of Sensory Receptors and Sensations 316 11.3 Bones of the Axial Skeleton 248 11.4 Bones of the Appendicular Skeleton 253 14 xxi 19 19.1 Cancer Cells 448 19.2 Causes and Prevention of Cancer 452 19.3 Diagnosis of Cancer 455 19.4 Treatment of Cancer 459 PART V Reproduction in Humans 365 CHAPTER 20 Patterns of Genetic Inheritance 467 16 PART IV CHAPTER Integration and Coordination i ti in i Humans 285 Reproductive System 365 CHAPTER 13 Nervous System 285 13.1 Overview of the Nervous System 286 16.1 Human Life Cycle 366 20.2 One- and Two-Trait Inheritance 469 20.3 Inheritance of Genetic Disorders 476 16.2 Male Reproductive System 367 20.4 Beyond Simple Inheritance Patterns 479 16.3 Female Reproductive System 371 20.5 Sex-Linked Inheritance 484 16.4 The Ovarian Cycle 374 16.5 Control of Reproduction 379 16.6 Sexually Transmitted Diseases 385 13.2 The Central Nervous System 293 17 13.3 The Limbic System and Higher Mental Functions 299 CHAPTER 13.4 The Peripheral Nervous System 302 Development and Aging 393 13.5 Drug Therapy and Drug Abuse 306 20.1 Genotype and Phenotype 468 CHAPTER 21 DNA Biology and Technology 491 21.1 DNA and RNA Structure and Function 492 21.2 Gene Expression 496 17.1 Fertilization 394 21.3 DNA Technology 503 17.2 Pre-Embryonic and Embryonic Development 395 21.4 Genomics 511 17.3 Fetal Development 401 17.4 Pregnancy and Birth 407 17.5 Development After Birth 410 xxi 12/22/10 4:48 PM xxii Contents 23 PART VII CHAPTER Human Evolution and Ecology 517 Global Ecology and Human Interferences 545 CHAPTER 22 Human Evolution 517 22.1 Origin of Life 518 22.2 Biological Evolution 520 Appendix A: 23.2 Energy Flow 550 Periodic Table of the Elements A-1 23.3 Global Biogeochemical Cycles 552 CHAPTER 24 22.4 Evolution of Hominins 530 22.5 Evolution of Humans 533 24.1 Human Population Growth 568 24.2 Human Use of Resources and Pollution 570 xxii 24.4 Working Toward a Sustainable Society 586 23.1 The Nature of Ecosystems 547 Human Population, Planetary Resources, and Conservation 567 22.3 Classification of Humans 526 24.3 Biodiversity 579 Appendix B: Answer Key A-2 Glossary G-1 Credits C-1 Index I-1 12/21/10 9:52 AM Readings Biology Matters Bioethical Focus Stem-Cell Research 61 Cardiovascular Disease Prevention: Who Pays for an Unhealthy Lifestyle? 110 Bans on Smoking 209 Anabolic Steroid Use 280 Medical Marijuana Use 309 Noise Pollution 331 Using Growth Hormones to Treat Pituitary Dwarfism 348 Male and Female Circumcision 373 Should Infertility Be Treated? 383 The Differences Between Reproductive and Therapeutic Cloning 404 Selecting Children 443 Preimplantation Genetic Diagnosis 475 DNA Fingerprinting and the Criminal Justice System 505 Effects of Biocultural Evolution on Population Growth 538 Guaranteeing Access to Safe Drinking Water 556 Biology Matters Health Focus Fiber in the Diet 31 The Omega-3 Fatty Acids 33 Good and Bad Cholesterol 34 Lactate and the Athlete 60 Pursuing Youthful Skin 83 What to Know When Giving Blood 124 Heartburn (GERD) 174 Swallowing a Camera 182 Searching for a Magic Weight-Loss Bullet 184 When Zero Is More Than Nothing 188 Questions About Smoking, Tobacco, and Health 212 Urinary Difficulties Due to an Enlarged Prostate 222 Urinalysis 226 You Can Avoid Osteoporosis 246 Exercise, Exercise, Exercise 275 Correcting Vision Problems 327 Preventing Transmission of STDs 388 Alzheimer Disease 412 Prevention of Cancer 454 Shower Check for Cancer 457 Are Genetically Engineered Foods Safe? 510 Biology Matters Science Focus Robert Koch 10 Coloring Organisms Green; Green Fluorescent Proteins and Cells 46 Nerve Regeneration and Stem Cells 72 Face Transplantation 78 The Challenges of Developing an AIDS Vaccine 163 Lab-Grown Bladders 235 Identifying Skeletal Remains 252 Rigor Mortis 276 Mosaics, Barr Bodies, and Breast Cancer 438 Homo floresiensis 534 Ozone Shield Depletion 562 Mystery of the Vanishing Bees 584 Biology Matters Historical Focus The Syphilis Research Scandal of Tuskegee University 16 Surgeon Without a Degree: Vivien Theodore Thomas (1910–1985) 107 Making Blood Transfusion Possible: Karl Landsteiner (1868–1943) 128 Mary Mallon: The Most Dangerous Woman in America 136 Osteoarthritis and Joint-Replacement Surgery 257 Iron Horse: Lou Gehrig (1903–1941) 277 Artist and Scientist: Santiago Ramon y Cajal (1852–1934) 292 Surviving Diabetes Mellitus 357 An End to “Laudable Pus” 409 The Immortal Henrietta Lacks 462 Hemophilia: The Royal Disease 482 Overlooked Genius: Rosalind Franklin 493 xxiii xxiii 12/21/10 9:52 AM This page intentionally left blank 1 Exploring Life and Science C H A P T E R CO N C E P T S 1.1 The Characteristics of Life C A S E S T U D Y T H E S E A R C H F O R L I F E W hat do Europa, Titan, and Earth all have in common? Besides being part of our solar system, they are all at the frontline of our species’ effort to understand the nature of life. Europa is one of the larger moons of Jupiter, and it has had held a special fascination for astronomers since Galileo first described it in 1610. Today, Europa is one of the prime candidates to harbor life outside of Earth. Geologists believe that under Europa’s icy exterior lies a vast ocean of water. Having analyzed past comet impact sites on the surface of Europa, geologists also believe that this ocean contains the basic ingredients for life, including carbon and possibly even free oxygen. Europa’s ocean is warmed by a constant tug of war between it and Jupiter, and the ocean is protected by an ice casing almost 19 kilometers thick. Titan is the second-largest satellite in the solar system, larger than even our moon. Although it is in orbit around Saturn, and thus located some distance from the influence of the sun, Titan has become a focal point for the study of extraterrestrial life since the NASA space probe Cassini–Huygens first arrived at Saturn in 2004. Cassini has detected the presence of the building blocks of life on Titan, including lakes of methane and ammonia, and vast deposits of hydrogen and carbon compounds called hydrocarbons. On Earth, scientists are exploring the extreme environments near volcanoes and deep-sea thermal vents to get a better picture of what life may have looked like under the inhospitable conditions that dominated at the time we now know life first began on our planet. Already, in the past few years, marine biologists have discovered new forms of life that cannot only live off of hydrogen sulfide, a deadly gas to most life, but also thrive under extreme pressure and temperatures. The process of evolution accounts for the diversity of living things and why living things share the same basic characteristics of life. 1.2 Humans Are Related to Other Animals Humans are eukaryotes and are further classified as mammals in the animal kingdom. We differ from other mammals, including apes, by our highly developed brain, upright stance, creative language, and the ability to use a wide variety of tools. 1.3 Science as a Process Biologists use the scientific process when they study the natural world. A hypothesis is formulated and tested to arrive at a conclusion. Theories explain how the natural world is organized. 1.4 Making Sense of a Scientific Study Data are more easily understood if results are presented in the form of a graph and are accompanied by a statistical analysis. 1.5 Science and Social Responsibility Scientific investigations and technology have always been influenced by human values. Everyone has a responsibility to ensure that science and technology are used for the good of all. As you read through the chapter, think about the following questions. 1. What are the basic characteristics that define life? 2. What evidence would you look for on Europa or Titan that would tell you that life may have existed on these moons in the past? 3. What does it tell us if we discover life on Europa or Titan and it has similar characteristics to life on Earth? What if it is very different? 1 1 11/3/10 3:37 PM 2 Chapter 1 Exploring Life and Science 1.1 The Characteristics of Life Learning Outcomes Upon completion of this section, you should be able to 1. Explain the basic characteristics that are common to all living things. 2. Describe the levels of organization of life. 3. Summarize how the terms homeostasis, metabolism, development, and adaptation all relate to living organisms. 4. Recognize the special relationship between life and evolution. The science of biology is the study of living organisms and their environments. All living things (Fig. 1.1) share seven basic characteristics. Living things (1) are organized, (2) acquire materials and energy, (3) reproduce, (4) grow and develop, (5) are homeostatic, (6) respond to stimuli, and (7) have an evolutionary history. Living Things Are Organized Figure 1.2 illustrates that atoms join together to form the molecules that make up a cell. A cell is the small- medicinal leech mushrooms est structural and functional unit of an organism. Some organisms are single cells. Humans are multicellular because they are composed of many different types of cells. A nerve cell is one of the types of cells in the human body. It has a structure suitable to conducting a nerve impulse. A tissue is a group of similar cells that perform a particular function. Nervous tissue is composed of millions of nerve cells that transmit signals to all parts of the body. Several types of tissues make up an organ, and each organ belongs to an organ system. The organs of an organ system work together to accomplish a common purpose. The brain works with the spinal cord to send commands to body parts by way of nerves. Organisms, such as trees and humans, are a collection of organ systems. The levels of biological organization extend beyond the individual. All the members of one species (group of interbreeding organisms) in a particular area belong to a population. A tropical grassland may have a population of zebras, acacia trees, and humans, for example. The interacting populations of the grasslands make up a community. The community of populations interacts with the physical environment to form an ecosystem. Finally, all the Earth’s ecosystems make up the biosphere. bacteria meerkats Giardia cotton Figure 1.1 All life shares common characteristics. From the simplest one-celled organisms to complex plants and animals, all life shares seven basic characteristics. 2 11/3/10 3:37 PM 3 Chapter 1 Exploring Life and Science Figure 1.2 Levels of biological organization. Living organisms are organized. The smallest unit of living organisms is the cell. The sum of all living things—and the locations that they inhabit—is called the biosphere. Biosphere Regions of the Earth’s crust, waters, and atmosphere inhabited by living things Ecosystem A community plus the physical environment Community Interacting populations in a particular area Population Organisms of the same species in a particular area Organism An individual; complex individuals contain organ systems nervous system shoot system Organ System Composed of several organs working together brain leaf Organ Composed of tissues functioning together for a specific task nervous tissue photosynthetic tissue Tissue A group of cells with a common structure and function Cell The structural and functional unit of all living things neuron plant cell Molecule Union of two or more atoms of the same or different elements Atom Smallest unit of an element composed of electrons, protons, and neutrons 3 11/3/10 3:37 PM 4 Chapter 1 Exploring Life and Science Living Things Acquire Materials and Energy Humans, like all living organisms, cannot maintain their organization or carry on life’s activities without an outside source of materials and energy. Humans and other animals acquire materials and energy when they eat food (Fig. 1.3). Food provides nutrient molecules, which are used as building blocks or for energy. It takes energy (work) to main- Connections and Misconceptions How many cells are in your body? The number of cells in a human body varies depending on the size of the person and whether cells have been damaged or lost. However, most estimates suggest that there are well over 100 trillion cells in a human body. tain the organization of the cell and of the organism. Some nutrient molecules are broken down completely to provide the necessary energy to convert other nutrient molecules into the parts and products of cells. The term metabolism describes all of the chemical reactions that occur within a cell. The ultimate source of energy for the majority of life on Earth is the sun. Plants, algae, and some bacteria are able to harvest the energy of the sun and convert it to chemical energy by a process called photosynthesis. Photosynthesis produces organic molecules, such as sugars, that serve as the basis of the food chain for many other organisms, including humans and all other animals. a. Life Is Homeostatic b. For the metabolic pathways within a cell to function correctly, the environmental conditions of the cell must be kept within strict operating limits. The ability of a cell or an organism to maintain an internal environment that operates under specific conditions is called homeostasis. In humans, many of our organ systems work to maintain homeostasis. For example, human body temperature normally fluctuates slightly between 36.5 and 37.5°C (97.7 and 99.5°F) during the day. In general, the lowest temperature usually occurs between 2 a.m. and 4 a.m., and the highest usually occurs between 6 p.m. and 10 p.m. However, activity can cause the body temperature to rise, and inactivity can cause it to decline. The cardiovascular system and the nervous system work together to maintain a constant temperature. However, the body’s ability to maintain a normal temperature is somewhat dependent on the external temperature. Even though we can shiver when we are cold and perspire when we are hot, we will die if the external temperature becomes overly cold or hot. This text emphasizes how all the systems of the human body help maintain homeostasis. The digestive system takes in nutrients, and the respiratory system exchanges gases with the environment. The cardiovascular system distributes nutrients and oxygen to the cells and picks up their wastes. The metabolic waste products of cells are excreted by the urinary system. The work of the nervous and endocrine systems is critical because these systems coordinate the functions of the other systems. Throughout the text, the Connecting the Concepts sections will provide you with links to more information on homeostasis. c. Figure 1.3 Humans and other animals must acquire energy. a. Humans eat plants and animals they raise for food. b. A red-tailed hawk captures prey to feed its young. c. Some animals feed only on plants, such as these grazing sheep. 4 Living Things Respond to Stimuli Homeostasis would be impossible without the ability of the body to respond to stimuli. Response to external stimuli is more apparent to us because it does involve movement, as 11/3/10 3:37 PM Chapter 1 Exploring Life and Science when we quickly remove a hand from a hot stove. Certain sensory receptors also detect a change in the internal environment, and then the central nervous system brings about an appropriate response. When you are startled by a loud noise, your heartbeat increases, which causes your blood pressure to increase. If blood pressure rises too high, the brain directs blood vessels to dilate, helping to restore normal blood pressure. Living things respond to external stimuli, often by moving toward or away from a stimulus, such as the sight of food. Living things use a variety of mechanisms to move, but movement in humans and other animals is dependent upon their nervous and musculoskeletal systems. The leaves of plants track the passage of the sun during the day; when a houseplant is placed near a window, its stems bend to face the sun. The movement of an animal, whether self-directed or in response to a stimulus, constitutes a large part of its behavior. Some behaviors help us acquire food and reproduce. Living Things Reproduce and Develop Reproduction is a fundamental characteristic of life. Cells come into being only from pre-existing cells, and all living things have parents. When living things reproduce, they create a copy of themselves and ensure the continuance of their own kind. Following the fertilization of the egg by a sperm cell, the resulting zygote undergoes a rapid period of growth and development. This is common in almost all living organisms. Figure 1.4a illustrates that an acorn progresses to a seedling before it becomes an adult oak tree. In humans, growth occurs as the 5 fertilized egg develops into a fetus (Fig. 1.4b). Growth, recognized by an increase in size and often the number of cells, is a part of development. In humans, development includes all the changes that occur from the time the egg is fertilized until death; therefore, it includes all the changes that occur during childhood, adolescence, and adulthood. Development also includes the repair that takes place following an injury. The purpose of reproduction is to pass on a copy of the genetic information to the offspring. DNA contains the hereditary information that directs not only the structure of each cell but also its function. The information in the DNA is contained within genes, short sequences of hereditary material that specify the instructions for a specific trait. Before reproduction occurs, DNA is replicated so that an exact copy of each gene may be passed on to the offspring. When humans reproduce, a sperm carries genes contributed by a male into the egg, which contains genes contributed by a female. The genes direct both growth and development so that the organism will eventually resemble the parents. Sometimes, minor variations in these genes, called mutations, may result in an organism making it better suited for its environment. These mutations are the basis of evolutionary change. Living Things Adapt and Evolve Evolution is the process by which a species changes through time. When a new variation arises that allows certain members of the species to capture more resources, these members tend to survive and have more offspring than the other, unchanged members. Therefore, each successive generation will include b. Figure 1.4 a. 5 Growth and development define life. a. A small acorn becomes a tree, and (b) following fertilization, an embryo becomes a fetus by the process of growth and development. 11/3/10 3:38 PM 6 Chapter 1 Exploring Life and Science more members with the new variation, which represents an adaptation to the environment. Consider, for example, a redtailed hawk, which catches and eats rabbits. A hawk can fly, in part, because it has hollow bones to reduce its weight and flight muscles to depress and elevate its wings. When a hawk dives, its strong feet take the first shock of the landing and its long, sharp claws reach out and hold onto the prey. All these characteristics are a hawk’s adaptations to its way of life. Evolution, which has been going on since the origin of life and which will continue as long as life exists, explains both the unity and the diversity of life. All organisms share the same characteristics of life because their ancestry can be traced to the first cell or cells. Organisms are diverse because they are adapted to different ways of life. Check Your Progress 1.1 Describe the basic characteristics of life. Summarize how each characteristic of life contributes to homeostasis. Explain why living things are organized. 1.2 Humans Are Related to Other Animals Learning Outcomes Upon completion of this section, you should be able to Connecting the Concepts 1. Summarize the place of humans in the overall classification of living organisms. 2. Describe the relationship between humans and the biosphere, and the role of culture in shaping that relationship. Both homeostasis and evolution are central themes in the study of biology. For more examples of homeostasis and evolution, refer to the following discussions. Section 4.8 explains how body temperature is regulated. Section 9.5 investigates how the nervous system controls the rate of respiration. Section 10.4 explores the role of the kidneys in fluid and salt homeostasis. Biologists classify living things as belonging to one of three domains. The evolutionary relationships of these domains are presented in Figure 1.5. Two of these domains, domain Bacteria and domain Archaea, contain prokaryotes, Figure 1.5 The evolutionary relationships of the three domains of life. Living organisms are classified into three domains: Bacteria, Archaea, and Eukarya. A geologic time scale is provided on the bottom for reference. BACTERIA common ancestor (first cells) ARCHAEA Protists Plants EUKARYA Fungi Animals common ancestor 4.0 6 3.5 3.0 2.5 2.0 1.5 Billions of Years Ago (BYA) 1.0 0.5 0 11/3/10 3:38 PM Chapter 1 Exploring Life and Science Domain Eukarya; Kingdom Animals Domain Eukarya; Kingdom Protists 1 mm • Algae, protozoans, slime molds, and water molds • Complex single cell (sometimes filaments, colonies, or even multicellular) • Absorb, photosynthesize, or ingest food • Sponges, worms, insects, fishes, frogs, turtles, birds, and mammals • Multicellular with specialized tissues containing complex cells • Ingest food Vulpes, a red fox Paramecium, a unicellular protozoan Domain Archaea Domain Eukarya; Kingdom Fungi • Molds, mushrooms, yeasts, and ringworms • Mostly multicellular filaments with specialized, complex cells • Absorb food 1.6 mm Coprinus, a shaggy mane mushroom • Prokaryotic cells of various shapes • Adaptations to extreme environments • Absorb or chemosynthesize food • Unique chemical characteristics Methanosarcina mazei, an archaeon Domain Bacteria Domain Eukarya; Kingdom Plants • Certain algae, mosses, ferns, conifers, and flowering plants • Multicellular, usually with specialized tissues, containing complex cells • Photosynthesize food 1.5 mm Passiflora, passion flower, a flowering plant Figure 1.6 7 • Prokaryotic cells of various shapes • Adaptations to all environments • Absorb, photosynthesize, or chemosynthesize food • Unique chemical characteristics E, a bacterium The classification of life. This figure provides some of the characteristics of the organisms of each of the major domains and kingdoms of life. Humans belong to the domain Eukarya and kingdom Animalia. one-celled organisms that lack a nucleus. Organisms in the third domain, Eukarya, are classified as being members of one of four kingdoms (Fig. 1.6)—plants, fungi, animals, and protists. Most organisms in kingdom Animalia are invertebrates, such as the earthworm, insects, and mollusks. Vertebrates are animals that have a nerve cord protected by a vertebral column, which gives them their name. Fish, reptiles, amphibians, and birds are all vertebrates. Vertebrates with hair or fur and mammary glands are classified as mammals. Humans, raccoons, seals, and meerkats are examples of mammals. Human beings are most closely related to apes. We are distinguished from apes by our (1) highly developed brains, (2) completely upright stance, (3) creative language, and (4) ability to use a wide variety of tools. Humans did not evolve from apes; apes and humans share a common, apelike ancestor. 7 Today’s apes are our evolutionary cousins. Our relationship to apes is analogous to you and your first cousin being descended from your grandparents. We could not have evolved from our cousins because we are contemporaries— living on Earth at the same time. Humans Have a Cultural Heritage Human beings have a cultural heritage in addition to a biological heritage. Culture encompasses human activities and products passed on from one generation to the next outside of direct biological inheritance. Among animals, only humans have a language that allows us to communicate information and experiences symbolically. We are born without knowledge of an accepted way to behave, but we gradually acquire this knowledge by adult instruction and imitation of role models. Members of the previous generation 11/3/10 3:38 PM 8 Chapter 1 Exploring Life and Science pass on their beliefs, values, and skills to the next generation. Many of the skills involve tool use, which can vary from how to hunt in the wild to how to use a computer. Human skills have also produced a rich heritage in the arts and sciences. However, a society highly dependent on science and technology has its drawbacks as well. Unfortunately, this cultural development may mislead us into believing that humans are somehow not part of the natural world surrounding us. Humans Are Members of the Biosphere All living things on Earth are part of the biosphere, a living network that spans the surface of the Earth into the atmosphere and down into the soil and seas. Although humans can raise animals and crops for food, we depend on the environment for many services. Without microorganisms that decompose, the waste we create would soon cover the Earth’s surface. Some species of bacteria can clean up pollutants like heavy metals and pesticides. Freshwater ecosystems, such as rivers and lakes, provide fish to eat, drinking water, and water to irrigate crops. The water-holding capacity of forests prevents flooding, and the ability of forests and other ecosystems to retain soil prevents soil erosion. Many of our crops and prescription drugs were originally derived from plants that grew naturally in an ecosystem. Some human populations around the globe still depend on wild animals as a food source. And we must not forget that almost everyone prefers to vacation in the natural beauty of an ecosystem. Humans Threaten the Biosphere The human population tends to modify existing ecosystems for its own purposes (Fig. 1.7). Humans clear forests and grasslands to grow crops. Later, houses are built on what was once farmland. Clusters of houses become small towns that often grow into cities. The overuse of water supplies by large human populations can result in desertification, or the expansion of desert regions (Fig. 1.7b). Human activities have altered almost all ecosystems and reduced biodiversity (the number of different species present). The present biodiversity of our planet has been estimated to be as high as 15 million species. So far, under 2 million have been identified and named. It is estimated that we are now losing as many as 400 species per day due to human activities. Many biologists are alarmed about the present rate of extinction (death of a species). They believe it may eventually rival the rates of the five mass extinctions that occurred earlier in our planet’s history. The dinosaurs became extinct during the last mass extinction 65 million years ago. One of the major bioethical issues of our time is preservation of the biosphere and biodiversity. If we adopt a conservation ethic that preserves the biosphere and biodiversity, we will ensure the continued existence of our species. Connections and Misconceptions How many humans are there? As of the end of 2008, it was estimated that there were over 6.7 billion humans on the planet. Each of those humans needs food, shelter, clean water and air, and materials to maintain a healthy lifestyle. We add an additional 75 million people per year—that is like adding ten New York Cities per year! This makes human population growth one of the greatest threats to the biosphere. Connecting the Concepts To learn more about the preceding material, refer to the following discussions. Chapter 22 examines recent developments in the study of human evoution. Chapter 23 provides a more detailed look at ecosystems. Chapter 24 details some of the emerging threats that humans pose to the biosphere. Check Your Progress 1.2 a. Figure 1.7 b. Humans negatively influence many ecosystems. a. When humans build cities, diversity is lost. Notice the absence of a variety of plants/trees. b. An overuse of water resources can lead to desertification. 8 Define the term biosphere. Explain why it is important to know the evolutionary relationships between organisms. Summarize how the increase in the human population affects our biosphere. 11/3/10 3:38 PM 9 Chapter 1 Exploring Life and Science 1.3 Science as a Process Learning Outcomes Upon completion of this section, you should be able to 1. Describe the general process of the scientific method. 2. Distinguish between a control group and an experimental group in a scientific test. 3. Recognize the importance of scientific journals in the reporting of scientific information. Science is a way of knowing about the natural world. When scientists study the natural world, they aim to be objective, rather than subjective. Objective observations are supported by factual information, whereas subjective observations involve personal judgment. For example, the fat content of a particular food would be an objective observation of a nutritional study. Reporting about the good or bad taste of the food would be a subjective observation. It is difficult to make objective observations and conclusions because we are often influenced by our prejudices. Scientists must keep in mind that scientific conclusions can change because of new findings. New findings are often made because of recent advances in techniques or equipment. principle of evolution. This term is the preferred terminology for theories generally accepted as valid by an overwhelming number of scientists. The Scientific Method Has Steps Unlike other types of information available to us, scientific information is acquired by a process known as the scientific method. The approach of individual scientists to their work is as varied as the scientists. For the sake of discussion, it is possible to speak of the scientific method as consisting of certain steps (Fig. 1.8). After making initial observations, a scientist will, most likely, study any previous data, results and conclusions reported by previous research. Imagination and creative thinking also help a scientist formulate a hypothesis. The hypothesis becomes the basis for more observation and/or experimentation. The new data help a scientist come Observation New observations are made, and previous data are studied. Importance of Scientific Theories in Biology Science is not just a pile of facts. The ultimate goal of science is to understand the natural world in terms of scientific theories. Scientific theories are concepts that tell us about the order and the patterns within the natural world—in other words, how the natural world is organized. For example, following are some of the basic theories of biology. Theory Concept Cell All organisms are composed of cells, and new cells only come from pre-existing cells. Homeostasis The internal environment of an organism stays relatively constant. Genes Organisms contain coded information that dictates their form, function, and behavior. Ecosystem Populations of organisms interact with each other and the physical environment. Evolution All organisms have a common ancestor, but each is adapted to a particular way of life. Evolution is the unifying concept of biology because it makes sense of what we know about living things. For example, the theory of evolution enables scientists to understand the variety of living things and their relationships. It explains common structural features, physiology, patterns of development, and behaviors. The theory of evolution has been supported by so many observations and experiments for over a hundred years that some biologists refer to it as the 9 Hypothesis Input from various sources is used to formulate a testable statement. Experiment/Observations Conclusion The hypothesis is tested by experiment or further observations. The results are analyzed, and the hypothesis is supported or rejected. Scientific Theory Many experiments and observations support a theory. Figure 1.8 The scientific method. On the basis of new and/or previous observations, a scientist formulates a hypothesis. The hypothesis is tested by further observations and/or experiments, and new data either support or do not support the hypothesis. The return arrow indicates that a scientist often chooses to retest the same hypothesis or to test a related hypothesis. Conclusions from many different but related experiments may lead to the development of a scientific theory. For example, studies pertaining to development, anatomy, and fossil remains all support the theory of evolution. 11/3/10 3:38 PM 10 Chapter 1 Exploring Life and Science to a conclusion that either supports or does not support the hypothesis. Hypotheses are always subject to modification, so they can never be proven true; however, they can be proven untrue. When the hypothesis is not supported by the data, it must be rejected; therefore, some think of the body of science as what is left after alternative hypotheses have been rejected. Science is different from other ways of knowing by its use of the scientific method to examine a phenomenon. Any suggestions about the natural world not based on data gathered by employing the scientific method cannot be accepted as within the realm of science. Scientific theories are concepts based on a wide range of observations and experiments. How the Cause of Ulcers Was Discovered Let’s take a look at how the cause of ulcers was discovered so we can get a better idea of how the scientific method works. In 1974, Barry James Marshall was a young resident physician at Queen Elizabeth II Medical Center in Perth, Australia. There he saw many patients who had bleeding stomach ulcers. A pathologist at the hospital, Dr. J. Robin Warren, told him about finding a particular bacterium, now called Helicobacter pylori, near the site of peptic ulcers (open sores in the stomach). Using the computer networks available at that time, Marshall compiled much data showing a possible correlation between the presence of Helicobacter pylori and the occurrence of both gastritis (inflammation of the stomach) and stomach ulcers. On the basis of these data, Marshall formulated a hypothesis: Helicobacter pylori is the cause of gastritis and ulcers. Marshall decided to make use of Koch’s postulates, the standard criteria that must be fulfilled to show that a pathogen (bacterium or virus) causes a disease. Koch’s Postulates • The suspected pathogen (virus or bacterium) must be present in every case of the disease; • the pathogen must be isolated from the host and grown in a lab dish; • the disease must be reproduced when a pure culture of the pathogen is inoculated into a healthy susceptible host; and • the same pathogen must be recovered again from the experimentally infected host. The First Two Criteria By 1983, Marshall had fulfilled the first and second of Koch’s criteria. He was able to isolate Helicobacter pylori from ulcer patients and grow it in the laboratory. (Success was achieved only after a petri dish was inadvertently left in the incubator for six, instead of two, days.) Further, he had determined that bismuth, the active ingredient in Pepto-Bismol, could destroy the bacteria in a petri dish. Despite presentation of these findings to the scientific community, most physicians continued to believe that stomach acidity and stress were the causes of stomach ulcers. In those days, patients were usually advised to make drastic changes in their lifestyle or seek psychiatric counseling to “cure” their 10 Biology Matters Science Focus Robert Koch Robert Koch (1843–1910) was a German microbiologist who helped verify the germ theory of disease and established the standard as to whether an organism causes a particular disease. Koch was a scientist who studied anthrax, a type of soil-living bacterium that causes disease in animals and humans. Anthrax was used as a biological weapon in the United States by unknown persons following the terrorist attacks in 2001. Koch expanded on Louis Pasteur’s work by establishing a series of steps, now known as Koch’s postulates, to identify whether a specific bacterium is responsible for a disease. His procedures are still widely used by scientists and medical professionals. Koch is credited not only with his work on the germ theory but also with the development of several important scientific instruments. He was one of the first to use an incubator, an instrument that maintains a steady temperature for growing bacteria outside of an organism. He also was the first to use gelatin as a medium for growing bacteria in dishes. ulcers. Many scientists believed that no bacterium would be able to survive the normal acidity of the stomach. The Last Two Criteria Marshall had a problem in fulfilling the third and fourth of Koch’s criteria. He had been unable to infect guinea pigs and rats with the bacteria because the bacteria just did not flourish in the intestinal tract of those animals. Marshall was not able to use human subjects because our society does not condone the use of humans as experimental subjects in dangerous or lifethreatening research. Marshall was so determined to support his hypothesis that, in 1985, he decided to perform the experiment on himself! To the disbelief of those in the lab that day, he and another volunteer swallowed a foul-smelling and -tasting solution of Helicobacter pylori. Within the week, they felt lousy and were vomiting up their stomach contents. Examination by endoscopy showed that their stomachs were now inflamed, and biopsies of the stomach lining contained the suspected bacterium (Fig. 1.9). Their symptoms abated without need of medication, and they never developed an ulcer. At Marshall’s next talk, he challenged his audience to refute his hypothesis. Many tried, but ultimately the investigators supported his findings. The Conclusion In science, many experiments that involve a considerable number of subjects are required before a conclusion can be reached. By the early 1990s, at least three independent studies involving hundreds of patients had been published showing that antibiotic therapy could eliminate Helicobacter 11/3/10 3:38 PM Chapter 1 Exploring Life and Science Helicobacter pylori Figure 1.9 Dr. Barry Marshall and the cause of stomach ulcers. Dr. Barry Marshall, pictured here, fulfilled Koch’s postulates to show that Helicobacter pylori is the cause of peptic ulcers. The inset shows the presence of the bacterium in the stomach. pylori from the intestinal tract and cure patients of ulcers wherever they occurred in the tract. Dr. Marshall received all sorts of prizes and awards, but he and Dr. Warren were especially gratified to receive a Nobel Prize in Medicine in 2005. The Nobel committee reportedly thanked Marshall and Warren for their “pioneering discovery,” stating that peptic ulcer disease now could be cured with antibiotics and acid-secretion inhibitors rather than becoming a “chronic, frequently disabling condition.” How to Do a Controlled Study The work that Marshall and Warren did was largely observational. Often, scientists perform an experiment, a series of procedures to test a hypothesis. As an example, let’s say investigators want to determine which of two antibiotics best treats an ulcer. When scientists do an experiment, they try to vary just the experimental variables, in this case, the medications being tested. A control group is not given the medications, but one or more test groups are given the medications. If by chance, the control group shows the same results as a test group, the investigators immediately know the results of their study are invalid because it would mean the medications may have nothing to do with the results. The study depicted in Figure 1.10 shows how investigators may study this hypothesis. Hypothesis: Newly discovered antibiotic B is a better treatment for ulcers than antibiotic A, which is in current use. Investigators who perform clinical research must obtain informed consent from their subjects before proceeding with the research. The informed consent ensures that subjects know details 11 11 about the research and that their participation is voluntary. The risks and benefits involved in participating in the research are all outlined. It is important to reduce the number of possible variables (differences) such as sex, weight, other illnesses, and so forth between the groups. Therefore, the investigators randomly divide a very large group of volunteers (Fig. 1.10a) equally into the three groups. The hope is that any differences will be distributed evenly among the three groups. This is more likely to occur if the investigators have a large number of volunteers. The three groups will be treated (Fig. 1.10b) as follows: Control group: Subjects with ulcers are not treated with either antibiotic. Test group 1: Subjects with ulcers are treated with antibiotic A. Test group 2: Subjects with ulcers are treated with antibiotic B. After the investigators have determined that all volunteers do suffer from ulcers, they will want the subjects to think they are all receiving the same treatment. This is an additional way to protect the results from any influence other than the medication. To achieve this end, the subjects in the control group can receive a placebo, a treatment that appears to be the same as that administered to the other two groups but contains no medication. In this study, the use of a placebo would help ensure the same dedication by all subjects to the study. The Results After two weeks of administering the same amount of medication (or placebo) in the same way, the intestinal tract of each subject is examined to determine if ulcers are still present. Endoscopy, depicted in the photograph in Figure 1.10c, is one possible way to examine a patient for the presence of ulcers. This procedure is performed under sedation and involves inserting an endoscope—a small, flexible tube with a tiny camera on the end—down the throat and into the stomach. It allows the doctor to see the lining of the stomach and check for possible ulcers. Tests performed during an endoscopy can also determine if Helicobacter pylori is present. Endoscopy is somewhat subjective so it is probably best if the examiner is not aware of which group the subject is in. Otherwise, the prejudice of the examiner may influence the examination. When neither the patient nor the examiner is aware of the specific treatment, it is called a double-blind study. In this study, the investigators may decide to determine effectiveness of the medication by the percentage of people who no longer have ulcers. So, if 20 people out of 100 still have ulcers, the medication is 80% effective. The difference in effectiveness is easily read in the graph portion of Figure 1.10d. Conclusion: On the basis of their data, the investigators conclude that their hypothesis has been supported. Publication of Scientific Studies Scientific studies are customarily published in a scientific journal, so that all aspects of a study are available to the scientific community. Before information is published in scientific journals, it is typically reviewed by experts. These people ensure that the research is credible, accurate, unbiased, and well executed. 11/3/10 3:38 PM 12 Chapter 1 Exploring Life and Science a. State Hypothesis: Antibiotic B is a better treatment for ulcers than antibiotic A. Large number of subjects were selected. Another scientist should be able to read about an experiment in a scientific journal, repeat the experiment in a different location, and get the same (or very similar) results. Each article begins with a short synopsis of the study so scientists can quickly find the articles of greatest interest to them. The materials and methods of performing each study are clearly outlined so that researchers can more easily repeat the work. Some articles are rejected for publication by reviewers when they believe there is something questionable about the design or manner in which an experiment was conducted. Further Study As mentioned previously, the conclusion of one experiment often leads to another experiment. Scientists reading the study described in Figure 1.10 may decide that it would be important to test the difference in the ability of antibiotic A and B to kill Helicobacter pylori in a petri dish. Or, they may want to test which medication is more effective in women than men, and so forth. The need for scientists to expand on findings explains why science changes and the findings of yesterday may be improved upon tomorrow. Subjects were divided into three groups. b. Perform Experiment: Groups were treated the same except as noted. Control group: received placebo c. Conclusion: Hypothesis is supported: Antibiotic B is a better treatment for ulcers than antibiotic A. 12 Test group 2: received antibiotic B Collect Data: Each subject was examined for the presence of ulcers. Effectiveness of Treatment (%) d. Test group 1: received antibiotic A Scientific Journals Versus Other Sources of Information 100 80 80 60 60 Figure 1.10 40 20 The information in many scientific journals is highly regarded by scientists because of the review process and because it is “straight from the horse’s mouth,” so to speak. The investigator who did the research is generally the primary author of a published study. Reading the actual results of the experiment tends to prevent the possibility of misinformation and/or bias. Do you remember playing “pass the message” when you were young? When someone started a message and it was passed around a circle of people, the last person to hear the message rarely received the original message. As each person passed along the message, information was added to or deleted from the original. That same thing may happen to scientific information when it is published in magazines or books or reported by someone other than the original investigator. Unfortunately, the studies in scientific journals may be technical and difficult for a layperson to read and understand. The general public typically relies on secondary sources of information for its science news. Sometimes, the information may be out of context or misunderstood by the reporter, and the result is transmission of misinformation. Ideally, a reference to the original source (scientific journal article) will be provided so that information can be verified. Remember also that it often 10 0 Control Group Test Group 1 Test Group 2 Design of a scientific study. In this controlled laboratory experiment to test the effectiveness of a medication in humans, subjects were divided into three groups. The control group received a placebo and no medication. Test group 1 received antibiotic A and test group 2 received antibiotic B. The results are depicted in a graph, and it shows that antibiotic B was found to be a more effective treatment than antibiotic A for the treatment of ulcers. 11/3/10 3:38 PM Chapter 1 Exploring Life and Science takes years to do enough experiments for the scientific community to accept findings as well founded. Be wary of claims that have only limited data to support them and any information that may not be supported by repeated experimentation. People should be especially careful about scientific information available on the Internet, which is not well regulated. Reliable, credible scientific information can often be found at websites with URLs (uniform resource locators or Web addresses) containing (for educational institution), (for government sites such as the National Institutes for Health or Centers for Disease Control), and (for nonprofit organizations such as the American Lung Association or the National Multiple Sclerosis Society). Unfortunately, quite a bit of scientific information on the Internet is intended to entice people into purchasing some sort of product for weight loss, prevention of hair loss, or similar maladies. These websites usually have URLs ending with or It pays to question and verify the information from these websites with another source (primary, if possible). Connecting the Concepts For more information on the topics presented in this section, refer to the following discussions. Section S.3 discusses how resistance to antibiotics occurs. Section 8.3 provides more information on ulcers. Check Your Progress 1.3 Describe each step of the scientific method. Explain why a controlled study is an important part of the experimental design. List a few pros and cons of using a scientific journal versus other sources of information. 1.4 Making Sense of Obviously, this doesn’t mean the diet will work for everyone. Testimonial data are suspect because the effect of whatever is under discussion may not have been studied with a large number of subjects or a control group. We must also keep in mind that just because two events occur at the same time, one factor may not be the cause of the other. Dr. Marshall had this problem when his data largely depended on finding Helicobacter pylori at the site of ulcers. More data were needed before the scientific community could conclude that Helicobacter pylori was the cause of an ulcer. Similarly, that a human papillomavirus (HPV) infection usually precedes cervical cancer could be viewed only as limited evidence that HPV causes cervical cancer. In this instance, HPV has turned out to be a cause of cervical cancer, but not all correlations (relationships) turn out to be causations. For example, scientific studies do not support the well-entrenched belief that exposure to cold temperatures results in colds. Instead, we now know that viruses cause colds. What to Look For Although most everyone who examines a scientific paper is tempted to first read the abstract (synopsis) at the beginning and then skip to the conclusion at the end of the study, it is a good idea to also examine the investigators’ methodology and results. The methodology tells us how the scientists conducted their study, and the results tell us what facts (data) were discovered. Always keep in mind that the conclusion is not the same as the data. The conclusion is an interpretation of the data by the individuals who authored the paper. Although scientific papers are reviewed by other scientists, ultimataly it is up to us to decide if the conclusion is justified by the data. Graphs Data are often depicted in the form of a bar graph (see Fig. 1.10d) or a line graph (Fig. 1.11). A graph shows the relationship between two quantities, such as the taking of an antibiotic and a Scientific Study Upon completion of this section you should be able to When evaluating scientific information, it is important to consider the type of data given to support it. Anecdotal data, which consist of testimonials by individuals rather than results from a controlled, clinical study, are never considered reliable data. An example of anecdotal data would be claims from people that a particular diet helped them lose weight. 13 Y-axis Diameter of Trees (cm) 130 Learning Outcomes 1. Explain the difference between anecdotal and testimonial data. 2. Interpret information that is presented in a scientific graph. 3. Recognize the importance of statistical analysis to the study of science. 13 standard error 120 Data 110 100 Site 1 Site 2 Site 3 Site 4 X-axis Figure 1.11 The presentation of scientific data. This line graph shows that the diameter of tree trunks varied at four different places. The bars above each data point represent the variation, or standard error, in the results. 11/3/10 3:38 PM 14 Chapter 1 Exploring Life and Science the disappearance of an ulcer. As in Figure 1.10, the experimental variable (study groups) is plotted on the x-axis (horizontal), and the result (effectiveness) is plotted along the y-axis (vertical). Graphs are useful tools to summarize data in a clear and simplified manner. For example, Figure 1.10d immediately shows that antibiotic B produced the best results. The title and labels can assist you in reading a graph; therefore, when looking at a graph, first check the two axes to determine what the graph pertains to. For example, in Figure 1.11, we can see that the investigators were studying tree trunk diameters at four sites. By looking at this graph, we know that trees with the greatest diameter are found at site 2, and we can also see to what degree the tree trunk diameters differed between the sites. Statistical Data Most authors who publish research articles use statistics to help them evaluate their experimental data. In statistics, the standard error tells us how uncertain a particular value is. Suppose you predict how many hurricanes Florida will have next year by calculating the average number during the past ten years. If the number of hurricanes per year varies widely, your standard error will be larger than if the number per year is usually about the same. In other words, the standard error tells you how far off the average could be. If the average number of hurricanes is four and the standard error is ± 2, then your prediction of four hurricanes is between two and six hurricanes. In Figure 1.11, the standard error is represented by the bars above and below each data point. This provides a visual indication of the statistical analysis of the data. Statistical Significance When scientists conduct an experiment, there is always the possibility that the results are due to chance or due to some factor other than the experimental variable. Investigators take into account several factors when they calculate the probability value (p) that their results were due to chance alone. If the probability value is low, researchers describe the results as statistically significant. A probability value of less than 5% (usually written as p. Don Bosco Prep High School • CS 162. 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PDF Biology 10th Edition Raven Test Bank.

Test bank for biology raven 10th edition – PDF Free Download. The Raven & Johnson's Biology author team is committed to continually. improving the text, keeping the student and learning foremost.The. integrated pedagogical features expand the students' learning process and. Biology Raven And Johnson 10th Edition | calendar.pridesource Biology. Biology 11th 2017 @+6285.624.028.328 eBook Raven-Johnson-Mason, McGraw-Hill Education. Biology (11 Edition 2017) by Peter H. Raven, George B. J Raven Johanson Biology 12th edition pdf free download Biology Raven 10th Edition – Test Banks for Biology Raven Biology BIO 111: Chapter 15 Transcription and Translation (Video1). Raven biology 10th edition test bank – PDF Free Download Raven Biology 10th Edition Chapter 12: Patterns of Inheritance. the process by which alternative forms of traits are expressed in offspring rather than blending each trait of the parents in the offspring. Raven Biology 10th Edition Chapter 12: Patterns of.

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