Description

Book Synopsis
Carnivorous plants have fascinated botanists, evolutionary biologists, ecologists, physiologists, developmental biologists, anatomists, horticulturalists, and the general public for centuries. Charles Darwin was the first scientist to demonstrate experimentally that some plants could actually attract, kill, digest, and absorb nutrients from insect prey; his book Insectivorous Plants (1875) remains a widely-cited classic. Since then, many movies and plays, short stories, novels, coffee-table picture books, and popular books on the cultivation of carnivorous plants have been produced. However, all of these widely read products depend on accurate scientific information, and most of them have repeated and recycled data from just three comprehensive, but now long out of date, scientific monographs. The field has evolved and changed dramatically in the nearly 30 years since the last of these books was published, and thousands of scientific papers on carnivorous plants have appeared in the ac

Trade Review
As a review of the most up to date research on carnivorous plants, this is ideal for senior undergraduate or graduate students, academics, and those with a keen interest in carnivorous plants...It rewards the careful and thorough reader who is passionate about botany. * Emma Bocking, The Canadian Field-Naturalist *
Carnivorous Plants is an essential review of numerous recent studies on the evolution and systematics, physiology, and ecology of insectivorous plants. The updated taxonomic index alone makes this work invaluable.... Essential. * CHOICE *
Carnivorous Plants is a comprehensive, well sourced, text [...] Any library that holds volumes on the biological sciences will surely want to own a copy. * The American Midland Naturalist *
Carnivorous Plants: Physiology, ecology, and evolution is a remarkable work of scholarship for a remarkable group of plants (by a remarkable band of enthusiasts). * Nigel Chaffey, Annals of Botany *

Table of Contents
Part I: Overview 1: Aaron M. Ellison and Lubomír Adamec: Introduction 2: J. Stephen Brewer and Jan Schlauer: Biogeography and habitats of carnivorous plants 3: Andreas Fleischmann, Jan Schlauer, Stephen A. Smith, and Thomas J. Givnish: Evolution of carnivory in angiosperms Part II: Systematics and evolution of carnivorous plants 4: Andreas Fleischmann, Adam T. Cross, Robert Gibson, Paulo M. Gonella, and Kingsley W. Dixon: Systematics and evolution of Droseraceae 5: Charles Clarke, Jan Schlauer, Jonathan Moran, and Alastair Robinson: Systematics and evolution of Nepenthes 6: Andreas Fleischmann and Aymeric Roccia: Systematics and evolution of Lentibulariaceae: I. Pinguicula 7: Andreas Fleischmann: Systematics and evolution of Lentibulariaceae: II. Genlisea 8: Richard W. Jobson, Paulo C. Baleeiro, and Cástor Guisande: Systematics and evolution of Lentibulariaceae: III. Utricularia 9: Robert F.C. Naczi: Systematics and evolution of Sarraceniaceae 10: Adam T. Cross, Maria Paniw, André Vito Scatigna, Nick Kalfas, Bruce Anderson, Thomas J. Givnish, and Andreas Fleischmann: Systematics and evolution of small genera of carnivorous plants 11: Tanya Renner, Tianying Lan, Kimberly M. Farr, Enrique Ibarra-Laclette, Luis Herrera- Esrella, Stephan C. Schuster, Mitsuyasu Hasebe, Kenji Fukushima, and Victor A. Albert: Carnivorous plant genomes Part III: Physiology, form, and function 12: John D. Horner, Bartosz J. Plachno, Ulrike Bauer, and Bruno Di Giusto: Attraction of prey 13: Bartosz J. Plachno and Lyudmila E. Muravnik: Functional anatomy of carnivorous traps 14: Simon Poppinga, Ulrike Bauer, Thomas Speck, and Alexander G. Volkov: Motile traps 15: Ulrike Bauer, Reinhard Jetter, and Simon Poppinga: Non-motile traps 16: Ildikó Matu%siková, Andrej Pavlovic, and Tanya Renner: Biochemistry of prey digestion and nutrient absorption 17: Lubomír Adamec and Andrej Pavlovic: Mineral nutrition of terrestrial carnivorous plants 18: Thomas J. Givnish, K. William Sparks, Steven J. Hunter, and Andrej Pavlovic: Why are plants carnivorous? Cost/benefit analysis, whole-plant growth, and the context- specific advantages of botanical carnivory 19: Lubomír Adamec: Ecophysiology of aquatic carnivorous plants 20: Laurent Legendre and Douglas W. Darnowski: Biotechnology with carnivorous plants Part IV: Ecology 21: Douglas W. Darnowski, Ulrike Bauer, Marcos Méndez, John D. Horner, and Bartosz J. Plachno: Prey selection and specialization by carnivorous plants 22: Adam T. Cross, Arthur R. Davis, Andreas Fleischmann, John D. Horner, Andreas Jürgens, David J. Merritt, Gillian L. Murza, and Shane R. Turner: Reproductive biology and prey-pollinator conflicts 23: Leonora S. Bittleston: Commensals of Nepenthes pitchers 24: Thomas E. Miller, William E. Bradshaw, and Christina M. Holzapfel: Pitcher-plant communities as model systems for addressing fundamental questions in ecology and evolution 25: Dagmara Sirová, Jirí Bárta, Jakub Borovec, and Jaroslav Vrba: The Utricularia-associated microbiome: composition, function, and ecology 26: Jonathan A. Moran, Bruce Anderson, Lijin Chin, Melinda Greenwood, and Charles Clarke: Nutritional mutualisms of Nepenthes and Roridula Part V: The future of carnivorous plants 27: Charles Clarke, Adam Ross, and Barry Rice: Conservation of carnivorous plants 28: Matthew C. Fitzpatrick and Aaron M. Ellison: Estimating the exposure of carnivorous plants to rapid climatic change 29: Aaron M. Ellison and Lubomír Adamec: The future of research with carnivorous plants

Carnivorous Plants Physiology ecology and evolution

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    A Hardback by Aaron Ellison, Lubomir Adamec

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      View other formats and editions of Carnivorous Plants Physiology ecology and evolution by Aaron Ellison

      Publisher: Oxford University Press
      Publication Date: 12/21/2017 12:00:00 AM
      ISBN13: 9780198779841, 978-0198779841
      ISBN10: 0198779844

      Description

      Book Synopsis
      Carnivorous plants have fascinated botanists, evolutionary biologists, ecologists, physiologists, developmental biologists, anatomists, horticulturalists, and the general public for centuries. Charles Darwin was the first scientist to demonstrate experimentally that some plants could actually attract, kill, digest, and absorb nutrients from insect prey; his book Insectivorous Plants (1875) remains a widely-cited classic. Since then, many movies and plays, short stories, novels, coffee-table picture books, and popular books on the cultivation of carnivorous plants have been produced. However, all of these widely read products depend on accurate scientific information, and most of them have repeated and recycled data from just three comprehensive, but now long out of date, scientific monographs. The field has evolved and changed dramatically in the nearly 30 years since the last of these books was published, and thousands of scientific papers on carnivorous plants have appeared in the ac

      Trade Review
      As a review of the most up to date research on carnivorous plants, this is ideal for senior undergraduate or graduate students, academics, and those with a keen interest in carnivorous plants...It rewards the careful and thorough reader who is passionate about botany. * Emma Bocking, The Canadian Field-Naturalist *
      Carnivorous Plants is an essential review of numerous recent studies on the evolution and systematics, physiology, and ecology of insectivorous plants. The updated taxonomic index alone makes this work invaluable.... Essential. * CHOICE *
      Carnivorous Plants is a comprehensive, well sourced, text [...] Any library that holds volumes on the biological sciences will surely want to own a copy. * The American Midland Naturalist *
      Carnivorous Plants: Physiology, ecology, and evolution is a remarkable work of scholarship for a remarkable group of plants (by a remarkable band of enthusiasts). * Nigel Chaffey, Annals of Botany *

      Table of Contents
      Part I: Overview 1: Aaron M. Ellison and Lubomír Adamec: Introduction 2: J. Stephen Brewer and Jan Schlauer: Biogeography and habitats of carnivorous plants 3: Andreas Fleischmann, Jan Schlauer, Stephen A. Smith, and Thomas J. Givnish: Evolution of carnivory in angiosperms Part II: Systematics and evolution of carnivorous plants 4: Andreas Fleischmann, Adam T. Cross, Robert Gibson, Paulo M. Gonella, and Kingsley W. Dixon: Systematics and evolution of Droseraceae 5: Charles Clarke, Jan Schlauer, Jonathan Moran, and Alastair Robinson: Systematics and evolution of Nepenthes 6: Andreas Fleischmann and Aymeric Roccia: Systematics and evolution of Lentibulariaceae: I. Pinguicula 7: Andreas Fleischmann: Systematics and evolution of Lentibulariaceae: II. Genlisea 8: Richard W. Jobson, Paulo C. Baleeiro, and Cástor Guisande: Systematics and evolution of Lentibulariaceae: III. Utricularia 9: Robert F.C. Naczi: Systematics and evolution of Sarraceniaceae 10: Adam T. Cross, Maria Paniw, André Vito Scatigna, Nick Kalfas, Bruce Anderson, Thomas J. Givnish, and Andreas Fleischmann: Systematics and evolution of small genera of carnivorous plants 11: Tanya Renner, Tianying Lan, Kimberly M. Farr, Enrique Ibarra-Laclette, Luis Herrera- Esrella, Stephan C. Schuster, Mitsuyasu Hasebe, Kenji Fukushima, and Victor A. Albert: Carnivorous plant genomes Part III: Physiology, form, and function 12: John D. Horner, Bartosz J. Plachno, Ulrike Bauer, and Bruno Di Giusto: Attraction of prey 13: Bartosz J. Plachno and Lyudmila E. Muravnik: Functional anatomy of carnivorous traps 14: Simon Poppinga, Ulrike Bauer, Thomas Speck, and Alexander G. Volkov: Motile traps 15: Ulrike Bauer, Reinhard Jetter, and Simon Poppinga: Non-motile traps 16: Ildikó Matu%siková, Andrej Pavlovic, and Tanya Renner: Biochemistry of prey digestion and nutrient absorption 17: Lubomír Adamec and Andrej Pavlovic: Mineral nutrition of terrestrial carnivorous plants 18: Thomas J. Givnish, K. William Sparks, Steven J. Hunter, and Andrej Pavlovic: Why are plants carnivorous? Cost/benefit analysis, whole-plant growth, and the context- specific advantages of botanical carnivory 19: Lubomír Adamec: Ecophysiology of aquatic carnivorous plants 20: Laurent Legendre and Douglas W. Darnowski: Biotechnology with carnivorous plants Part IV: Ecology 21: Douglas W. Darnowski, Ulrike Bauer, Marcos Méndez, John D. Horner, and Bartosz J. Plachno: Prey selection and specialization by carnivorous plants 22: Adam T. Cross, Arthur R. Davis, Andreas Fleischmann, John D. Horner, Andreas Jürgens, David J. Merritt, Gillian L. Murza, and Shane R. Turner: Reproductive biology and prey-pollinator conflicts 23: Leonora S. Bittleston: Commensals of Nepenthes pitchers 24: Thomas E. Miller, William E. Bradshaw, and Christina M. Holzapfel: Pitcher-plant communities as model systems for addressing fundamental questions in ecology and evolution 25: Dagmara Sirová, Jirí Bárta, Jakub Borovec, and Jaroslav Vrba: The Utricularia-associated microbiome: composition, function, and ecology 26: Jonathan A. Moran, Bruce Anderson, Lijin Chin, Melinda Greenwood, and Charles Clarke: Nutritional mutualisms of Nepenthes and Roridula Part V: The future of carnivorous plants 27: Charles Clarke, Adam Ross, and Barry Rice: Conservation of carnivorous plants 28: Matthew C. Fitzpatrick and Aaron M. Ellison: Estimating the exposure of carnivorous plants to rapid climatic change 29: Aaron M. Ellison and Lubomír Adamec: The future of research with carnivorous plants

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