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- Botany: An Introduction to Plant Biology: An Introduction to Plant Biology
Description
Botany: An Introduction to Plant Biology continues to set the standard for learning the fundamentals of plant science. In its seventh edition, Botany leads with the latest material on molecular biology, plant biotechnology, and the most recent coverage of taxonomy and phylogeny of plants to keep students at the forefront of cutting-edge botanical research. Author Jim Mauseth carefully weaves the themes of ecology, evolution, and the impact of humans on other species and the environment into every chapter with the intention of teaching students about life in general. While the main details concern plant life, intertwined are lessons about general principles of biology, using human biology as relatable examples (e.g. Calcium: Strong bones, strong teeth but not strong plants). New Thinking about Thinking boxes teach students how to think critically and logically, so that after the course is over, students can continue to learn on their own. Thinking About Thinking. A new box type covering topics including evidence-based decision making, designing experiments, reductionist, and holistic thinking Updated Lab Manual. A new edition of our full-color, spiral-bound lab manual with additional case studies and image labeling activities Writing Style. Dr. Mauseth's approachable writing style makes this text accessible to both majors and non-majors Plants & People. This text emphasizes how plants and people influence one another; how they are similar and how they are different Anatomy & Physiology. Dr. Mauseth's narrative expertly connect structure to function in plants and supported with Botany in Action animations Each new print copy includes Navigate 2 Advantage Access that unlocks a comprehensive and interactive eBook, student practice activities and assessments, a full suite of instructor resources, and learning analytics reporting tools General Botany Basic Botany Plant Biology Molecular Genetics: General Plant Biology Morphology of Higher Land Plants Advanced Botany (c) 2021 844 pages
About the Author
Mauseth, James D.: - James MausethThe University of Texas at Austin, Section of Integrative BiologyEducation: B.S., University of Washington at Seattle, 1970' 'Ph.D., University of Washington at Seattle, 1975Research: Research in his lab centers on evolution of morphogenic mechanisms and structure. They use cacti as model organisms because the family contains a great amount of structural/developmental diversity and because the cactus genus Pekeskia retains numerous relictual characters. Plants of Pereskia have hard woody stems and ordinary large leaves. From ancestors like this, morphogenic mechanisms have evolved into ones capable of controlling the differentiation of various types of highly modified wood, unusual types of cortex that have leaf-like features, and apical meristems that minimize the number of mitoses necessary to produce large plants. Because each evolutionary line in the family has undergone particular types of modification of the morphogenic mechanism, they can compare different types of differentiation of a particular tissue, each type controlled by homologous morphogenic mechanisms.
About the Author
Mauseth, James D.: - James MausethThe University of Texas at Austin, Section of Integrative BiologyEducation: B.S., University of Washington at Seattle, 1970' 'Ph.D., University of Washington at Seattle, 1975Research: Research in his lab centers on evolution of morphogenic mechanisms and structure. They use cacti as model organisms because the family contains a great amount of structural/developmental diversity and because the cactus genus Pekeskia retains numerous relictual characters. Plants of Pereskia have hard woody stems and ordinary large leaves. From ancestors like this, morphogenic mechanisms have evolved into ones capable of controlling the differentiation of various types of highly modified wood, unusual types of cortex that have leaf-like features, and apical meristems that minimize the number of mitoses necessary to produce large plants. Because each evolutionary line in the family has undergone particular types of modification of the morphogenic mechanism, they can compare different types of differentiation of a particular tissue, each type controlled by homologous morphogenic mechanisms.
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