Biology: how life works
Gespeichert in:
| Hauptverfasser: | , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Austin ; Boston ; New York ; Plymouth
Macmillan Learning
[2023]
|
| Ausgabe: | Forth edition, international edition |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | li, 1083, G-36, I-26 Seiten |
| ISBN: | 9781319441319 1319441319 |
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Datensatz im Suchindex
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| adam_text | BRIEF CONTENTS GRAND THEMES: Chapter 1 introduces six themes that act as core concepts for introductory biology. They help students to understand biology not as a set of disparate facts, but instead as an integrated whole. They connect and unite the many dimensions of biol ogy, from molecules to the environment. CASES: Biology is best understood when presented using real and engaging examples as a framework for applying information. Eight carefully positioned cases help provide this framework. For example, a case on the origin of life challenges students to apply what they learn in Chapters 2-8. THE CELL: The cell is the basic unit of life. We introduce the basic form of a cell in Chapter 3 to lay the founda tion for its three key functions: homeostasis (Chapter 3), information storage and transmission (Chapters 4 and 5), and harnessing energy (Chapters 6-8). In this way, students understand the cell as a system. CELL CYCLE:The cell cycle consists of DNA replication and cell division. In this edition, we combine these two topics in one chapter, so DNA replication is dis cussed when it occurs in the life of a cell. PARTI Chapter 1 case MEIOSIS AND MENDEL: Meiotic cell division and Mendelian inheritance are combined in a single chap ter so that students understand the chromosomal basis for the patterns that Mendel observed. VIRUSES: This new chapter provides an overview of the structure, function, evolution, and ecology of viruses. In this way, students can explore viruses in depth, including SARS-CoV-2. EVOLUTION: Evolution provides an organizing the ory to understand
how life works. It is introduced in Chapter 1, allowing students to think broadly about biology. Chapters 20-23 provide a focused discussion of evolution, including an expanded discussion of the history of life. Life s Origin: Homeostasis, Information, and Energy 23 26 chapter 2 Molecules of Life Chapters Cells, Membranes, and Homeostasis 47 chapter 4 Nucleic Acids and Information Flow 71 Chapter 5 Protein Structure, Function, and Synthesis И VISUAL SYNTHESIS 1 Gene Expression Chapter 6 Making Life Work chapter? Cellular Respiration Chapters Photosynthesis case 2 114 131 153 174 Cancer: Cell Signaling, Form, and Division Cell Signaling chapter io Cèfi and Tissue Form Chapter 11 DNA Replication and Cell Division 196 215 В VISUAL SYNTHESIS 3 Cellular Communities 238 Your Personal Genome: Variation and Inheritance 240 chapter 12 Genomes and Biotechnology chapter із Mutation and Genetic Variation Chapter 14 Meiosis and Mendelian Inheritance chapter is Sex Chromosomes, Linked Genes, and Organelle Inheritance 318 Chapter 16 ComplexTraits chapter 17 Genetic and Epigenetic Regulation Chapter 18 Genes and Development 244 269 290 336 350 368 В VISUAL SYNTHESIS 4 Genetic Variation and Inheritance Chapter 19 Viruses 386 388 В VISUAL SYNTHESIS 5 Viruses 408 case 4 Malaria: Coevolution of Humans and a Parasite 410 Chapter 20 Evolution Chapter 21 Species and Speciation 414 В VISUAL SYNTHESIS 6 Speciation 434 452 Chapter 22 Phylogeny, Fossils, and the History of Life Chapter 23 Human Origins and Evolution 482 В VISUAL SYNTHESIS 7 History of Earth and Life xxiv 176 179 chapter 9 з 89 112 В
VISUAL SYNTHESIS 2 Harnessing Energy case GENOMES AND BIOTECHNOLOGY: We have a single chapter on genomes and molecular biology techniques. Genomes provide context for topics that follow, such as mutation, variation, inheritance, and viruses, and the techniques are used in the How Do We Know figures in subsequent chapters. 1 Chemical, Cellular, and Evolutionary Foundations of Life 2 504 454
PART 2 case 5 FROM ORGANISMSTOTHE ENVIRONMENT 505 The Human Microbiome: Diversity Within Eukaryotic Origins and Diversity б 535 557 Chapter 26 Being Multicellular case 506 510 chapter 24 Bacteria and Archaea Chapter 25 Agriculture: Feeding a Growing Population Chapter 27 Plant Form, Function, and Diversity Chapter 28 Plant Reproduction - — 577 601 648 В VISUAL SYNTHESIS 8 Angiosperms Chapter зо Plant Growth and Development Chapter 32 Fungi 574 624 chapter 29 Plant Physiology Chapter 31 Plant Defense PROKARYOTIC DIVERSITY: The diversity of Bacteria and Archaea is discussed in the context of Հ the carbon, nitrogen, and sulfur cycles, providing a metabolic basis for understanding the funda mental importance of these organisms for ecology and evolution. 650 675 ANIMAL DIVERSITY: Animal diversity is discussed early so that students are familiar with major groups of animals as they explore their organ systems in subsequent chapters. 695 cAsE 7 Bio-Inspired Design: Using Nature to Solve Problems 716 chapter 33 Animal Form, Function, and Evolutionary History 720 737 chapter 34 Animal Diversity LEARNING BY DOING: Every chapter includes a rich collection of media, activities, and assess ments for use in diverse settings. All assessments are aligned with the text and media, and have the flexibility to meet the needs of instructors with any experience level, classroom size, and teaching style. ............ ... В VISUAL SYNTHESIS 9 Diversity Through Time chapter 35 Animal Nervous Systems 764 766 794 Chapter 36 Animal Movement Chapter 37 Animal Endocrine Systems chapter 38 Animal
Respiratory and Cardiovascular Systems 835 chapter 39 Animal Metabolism, Nutrition, and Digestion chapter40 Animal Renal Systems 815 - — 860 882 В VISUAL SYNTHESIS 10 Homeostasis 901 - ---------------- 902 chapter 41 Animal Reproduction and Development chapter 42 Animal Immune Systems CASE 8 Climate Change: Coral Reefs at Risk as the World Warms 944 ^ chapter 43 Animal Behavior and Behavioral Ecology chapter 44 Population chapter 45 PLANTS: The plant section has been reorganized, starting with plant form, function, and diversity. Subsequent chapters address challenges faced “ by plants as they diversified on land, including uniting gametes and dispersing offspring (Reproduction), photosynthesizing in air without drying out (Physiology), using growth to obtain resources (Growth and Development), and evading pathogens and herbivores (Defense). Ecology 925 - ----------- В VISUAL SYNTHESIS 11 Succession Chapter 46 Ecosystem Ecology DIVERSE COMMUNITY: Every chapter includes a wide range of scientists with differing back grounds. For example, the Immune System chap ter highlights the contributions of Katalin Kariko in creating mRNA vaccines. 947 968 Species Interactions and Communities VISUAL SYNTHESES: Visual Syntheses bring together figures, animations, and other media, helping students see how individual concepts connect to tell a single story. In this edition, we have two new Visual Syntheses: History of Earth and Life, and Homeostasis. 986 1006 1008 NEW CASE: A new case on climate change is introduced and revisited throughout the ecology section. This case challenges
students to think about how humans are affecting the carbon cycle on a global scale and consider potential solutions. В VISUAL SYNTHESIS 12 Flow of Matterand Energy Through Ecosystems chapter 47 Climate and Biomes Chapter 48 Humans as 1030 1032 a Planetary Force Primers Scientific Inquiry Quantitative Reasoning Probability and Statistics Data and Data Visualization 1059 Phylogenetic Trees Models Carbon Chemistry Water Chemistry and Movement PRIMERS: Primers give students a chance to prac tice skills that scientists use. Each primer is divided into study sessions on specific topics, allowing for just-in-time instruction. The Carbon Chemistry and Water Chemistry and Movement primers are new to this edition. xxv
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| adam_txt |
BRIEF CONTENTS GRAND THEMES: Chapter 1 introduces six themes that act as core concepts for introductory biology. They help students to understand biology not as a set of disparate facts, but instead as an integrated whole. They connect and unite the many dimensions of biol ogy, from molecules to the environment. CASES: Biology is best understood when presented using real and engaging examples as a framework for applying information. Eight carefully positioned cases help provide this framework. For example, a case on the origin of life challenges students to apply what they learn in Chapters 2-8. THE CELL: The cell is the basic unit of life. We introduce the basic form of a cell in Chapter 3 to lay the founda tion for its three key functions: homeostasis (Chapter 3), information storage and transmission (Chapters 4 and 5), and harnessing energy (Chapters 6-8). In this way, students understand the cell as a system. CELL CYCLE:The cell cycle consists of DNA replication and cell division. In this edition, we combine these two topics in one chapter, so DNA replication is dis cussed when it occurs in the life of a cell. PARTI Chapter 1 case MEIOSIS AND MENDEL: Meiotic cell division and Mendelian inheritance are combined in a single chap ter so that students understand the chromosomal basis for the patterns that Mendel observed. VIRUSES: This new chapter provides an overview of the structure, function, evolution, and ecology of viruses. In this way, students can explore viruses in depth, including SARS-CoV-2. EVOLUTION: Evolution provides an organizing the ory to understand
how life works. It is introduced in Chapter 1, allowing students to think broadly about biology. Chapters 20-23 provide a focused discussion of evolution, including an expanded discussion of the history of life. Life's Origin: Homeostasis, Information, and Energy 23 26 chapter 2 Molecules of Life Chapters Cells, Membranes, and Homeostasis 47 chapter 4 Nucleic Acids and Information Flow 71 Chapter 5 Protein Structure, Function, and Synthesis И VISUAL SYNTHESIS 1 Gene Expression Chapter 6 Making Life Work chapter? Cellular Respiration Chapters Photosynthesis case 2 114 131 153 174 Cancer: Cell Signaling, Form, and Division Cell Signaling chapter io Cèfi and Tissue Form Chapter 11 DNA Replication and Cell Division 196 215 В VISUAL SYNTHESIS 3 Cellular Communities 238 Your Personal Genome: Variation and Inheritance 240 chapter 12 Genomes and Biotechnology chapter із Mutation and Genetic Variation Chapter 14 Meiosis and Mendelian Inheritance chapter is Sex Chromosomes, Linked Genes, and Organelle Inheritance 318 Chapter 16 ComplexTraits chapter 17 Genetic and Epigenetic Regulation Chapter 18 Genes and Development 244 269 290 336 350 368 В VISUAL SYNTHESIS 4 Genetic Variation and Inheritance Chapter 19 Viruses 386 388 В VISUAL SYNTHESIS 5 Viruses 408 case 4 Malaria: Coevolution of Humans and a Parasite 410 Chapter 20 Evolution Chapter 21 Species and Speciation 414 В VISUAL SYNTHESIS 6 Speciation 434 452 Chapter 22 Phylogeny, Fossils, and the History of Life Chapter 23 Human Origins and Evolution 482 В VISUAL SYNTHESIS 7 History of Earth and Life xxiv 176 179 chapter 9 з 89 112 В
VISUAL SYNTHESIS 2 Harnessing Energy case GENOMES AND BIOTECHNOLOGY: We have a single chapter on genomes and molecular biology techniques. Genomes provide context for topics that follow, such as mutation, variation, inheritance, and viruses, and the techniques are used in the How Do We Know figures in subsequent chapters. 1 Chemical, Cellular, and Evolutionary Foundations of Life 2 504 454
PART 2 case 5 FROM ORGANISMSTOTHE ENVIRONMENT 505 The Human Microbiome: Diversity Within Eukaryotic Origins and Diversity б 535 557 Chapter 26 Being Multicellular case 506 510 chapter 24 Bacteria and Archaea Chapter 25 Agriculture: Feeding a Growing Population Chapter 27 Plant Form, Function, and Diversity Chapter 28 Plant Reproduction - — 577 601 648 В VISUAL SYNTHESIS 8 Angiosperms Chapter зо Plant Growth and Development Chapter 32 Fungi 574 624 chapter 29 Plant Physiology Chapter 31 Plant Defense PROKARYOTIC DIVERSITY: The diversity of Bacteria and Archaea is discussed in the context of Հ the carbon, nitrogen, and sulfur cycles, providing a metabolic basis for understanding the funda mental importance of these organisms for ecology and evolution. 650 675 ANIMAL DIVERSITY: Animal diversity is discussed early so that students are familiar with major groups of animals as they explore their organ systems in subsequent chapters. 695 cAsE 7 Bio-Inspired Design: Using Nature to Solve Problems 716 chapter 33 Animal Form, Function, and Evolutionary History 720 737 chapter 34 Animal Diversity LEARNING BY DOING: Every chapter includes a rich collection of media, activities, and assess ments for use in diverse settings. All assessments are aligned with the text and media, and have the flexibility to meet the needs of instructors with any experience level, classroom size, and teaching style. . . В VISUAL SYNTHESIS 9 Diversity Through Time chapter 35 Animal Nervous Systems 764 766 794 Chapter 36 Animal Movement Chapter 37 Animal Endocrine Systems chapter 38 Animal
Respiratory and Cardiovascular Systems 835 chapter 39 Animal Metabolism, Nutrition, and Digestion chapter40 Animal Renal Systems 815 - — 860 882 В VISUAL SYNTHESIS 10 Homeostasis 901 - ---------------- 902 chapter 41 Animal Reproduction and Development chapter 42 Animal Immune Systems CASE 8 Climate Change: Coral Reefs at Risk as the World Warms 944 ^ chapter 43 Animal Behavior and Behavioral Ecology chapter 44 Population chapter 45 PLANTS: The plant section has been reorganized, starting with plant form, function, and diversity. Subsequent chapters address challenges faced “ by plants as they diversified on land, including uniting gametes and dispersing offspring (Reproduction), photosynthesizing in air without drying out (Physiology), using growth to obtain resources (Growth and Development), and evading pathogens and herbivores (Defense). Ecology 925 - ----------- В VISUAL SYNTHESIS 11 Succession Chapter 46 Ecosystem Ecology DIVERSE COMMUNITY: Every chapter includes a wide range of scientists with differing back grounds. For example, the Immune System chap ter highlights the contributions of Katalin Kariko in creating mRNA vaccines. 947 968 Species Interactions and Communities VISUAL SYNTHESES: Visual Syntheses bring together figures, animations, and other media, helping students see how individual concepts connect to tell a single story. In this edition, we have two new Visual Syntheses: History of Earth and Life, and Homeostasis. 986 1006 1008 NEW CASE: A new case on climate change is introduced and revisited throughout the ecology section. This case challenges
students to think about how humans are affecting the carbon cycle on a global scale and consider potential solutions. В VISUAL SYNTHESIS 12 Flow of Matterand Energy Through Ecosystems chapter 47 Climate and Biomes Chapter 48 Humans as 1030 1032 a Planetary Force Primers Scientific Inquiry Quantitative Reasoning Probability and Statistics Data and Data Visualization 1059 Phylogenetic Trees Models Carbon Chemistry Water Chemistry and Movement PRIMERS: Primers give students a chance to prac tice skills that scientists use. Each primer is divided into study sessions on specific topics, allowing for just-in-time instruction. The Carbon Chemistry and Water Chemistry and Movement primers are new to this edition. xxv |
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| spelling | Morris, James Verfasser (DE-588)1177704323 aut Biology how life works James Morris, Daniel Hartl, Andrew Knoll, Robert Lue, Melissa Michael, Andrew Berry, Andrew Biewener, Brian Farrell, N. Michele Holbrook, Jessica Liu, Jean Heitz, Mark Hens, Elena Lozovsky, John Merrill, Randall Phillis, Debra Pires Forth edition, international edition Austin ; Boston ; New York ; Plymouth Macmillan Learning [2023] li, 1083, G-36, I-26 Seiten txt rdacontent n rdamedia nc rdacarrier Biologie (DE-588)4006851-1 gnd rswk-swf Biology Life Sciences (DE-588)4123623-3 Lehrbuch gnd-content Biologie (DE-588)4006851-1 s DE-604 Hartl, Daniel L. 1943- Verfasser (DE-588)1200588975 aut Knoll, Andrew H. 1951- Verfasser (DE-588)103292411X aut Digitalisierung UB Regensburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034311865&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
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| title | Biology how life works |
| title_auth | Biology how life works |
| title_exact_search | Biology how life works |
| title_exact_search_txtP | Biology how life works |
| title_full | Biology how life works James Morris, Daniel Hartl, Andrew Knoll, Robert Lue, Melissa Michael, Andrew Berry, Andrew Biewener, Brian Farrell, N. Michele Holbrook, Jessica Liu, Jean Heitz, Mark Hens, Elena Lozovsky, John Merrill, Randall Phillis, Debra Pires |
| title_fullStr | Biology how life works James Morris, Daniel Hartl, Andrew Knoll, Robert Lue, Melissa Michael, Andrew Berry, Andrew Biewener, Brian Farrell, N. Michele Holbrook, Jessica Liu, Jean Heitz, Mark Hens, Elena Lozovsky, John Merrill, Randall Phillis, Debra Pires |
| title_full_unstemmed | Biology how life works James Morris, Daniel Hartl, Andrew Knoll, Robert Lue, Melissa Michael, Andrew Berry, Andrew Biewener, Brian Farrell, N. Michele Holbrook, Jessica Liu, Jean Heitz, Mark Hens, Elena Lozovsky, John Merrill, Randall Phillis, Debra Pires |
| title_short | Biology |
| title_sort | biology how life works |
| title_sub | how life works |
| topic | Biologie (DE-588)4006851-1 gnd |
| topic_facet | Biologie Lehrbuch |
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