How to find the best karl niklas for 2018?

by · June 2, 2018

When you want to find karl niklas, you may need to consider between many choices. Finding the best karl niklas is not an easy task. In this post, we create a very short list about top 8 the best karl niklas for you. You can check detail product features, product specifications and also our voting for each product. Let’s start with following top 8 karl niklas:

Product Features Editor's score Go to site
Plant Evolution: An Introduction to the History of Life Plant Evolution: An Introduction to the History of Life
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Plant Biomechanics: An Engineering Approach to Plant Form and Function Plant Biomechanics: An Engineering Approach to Plant Form and Function
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Plant Physics Plant Physics
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Plant Allometry: The Scaling of Form and Process Plant Allometry: The Scaling of Form and Process
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Plants: Diversity and Evolution Plants: Diversity and Evolution
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The Evolutionary Biology of Plants The Evolutionary Biology of Plants
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Plant Physics by Karl J Niklas (4-Mar-2014) Paperback Plant Physics by Karl J Niklas (4-Mar-2014) Paperback
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Multicellularity: Origins and Evolution (Vienna Series in Theoretical Biology) Multicellularity: Origins and Evolution (Vienna Series in Theoretical Biology)
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1. Plant Evolution: An Introduction to the History of Life

Description

Although plants comprise more than 90% of all visible life, and land plants and algae collectively make up the most morphologically, physiologically, and ecologically diverse group of organisms on earth, books on evolution instead tend to focus on animals. This organismal bias has led to an incomplete and often erroneous understanding of evolutionary theory. Because plants grow and reproduce differently than animals, they have evolved differently, and generally accepted evolutionary viewsas, for example, the standard models of speciationoften fail to hold when applied to them.

Tapping such wide-ranging topics as genetics, gene regulatory networks, phenotype mapping, and multicellularity, as well as paleobotany, Karl J. Niklass Plant Evolution offers fresh insight into these differences. Following up on his landmark book The Evolutionary Biology of Plantsin which he drew on cutting-edge computer simulations that used plants as models to illuminate key evolutionary theoriesNiklas incorporates data from more than a decade of new research in the flourishing field of molecular biology, conveying not only why the study of evolution is so important, but also why the study of plants is essential to our understanding of evolutionary processes. Niklas shows us that investigating the intricacies of plant development, the diversification of early vascular land plants, and larger patterns in plant evolution is not just a botanical pursuit: it is vital to our comprehension of the history of all life on this green planet.

2. Plant Biomechanics: An Engineering Approach to Plant Form and Function

Description

In this first comprehensive treatment of plant biomechanics, Karl J. Niklas analyzes plant form and provides a far deeper understanding of how form is a response to basic physical laws. He examines the ways in which these laws constrain the organic expression of form, size, and growth in a variety of plant structures, and in plants as whole organisms, and he draws on the fossil record as well as on studies of extant species to present a genuinely evolutionary view of the response of plants to abiotic as well as biotic constraints. Well aware that some readers will need an introduction to basic biomechanics or to basic botany, Niklas provides both, as well as an extensive glossary, and he has included a number of original drawings and photographs to illustrate major structures and concepts.

This volume emphasizes not only methods of biomechanical analysis but also the ways in which it allows one to ask, and answer, a host of interesting questions. As Niklas points out in the first chapter, "From the archaic algae to the most derived multicellular terrestrial plants, from the spectral properties of light-harvesting pigments in chloroplasts to the stacking of leaves in the canopies of trees, the behavior of plants is in large part responsive to and intimately connected with the physical environment. In addition, plants tend to be exquisitely preserved in the fossil record, thereby giving us access to the past." Its biomechanical analyses of various types of plant cells, organs, and whole organisms, and its use of the earliest fossil records of plant life as well as sophisticated current studies of extant species, make this volume a unique and highly integrative contribution to studies of plant form, evolution, ecology, and systematics.

3. Plant Physics

Description

From Galileo, who used the hollow stalks of grass to demonstrate the idea that peripherally located construction materials provide most of the resistance to bending forces, to Leonardo da Vinci, whose illustrations of the parachute are alleged to be based on his study of the dandelion's pappus and the maple tree's samara, many of our greatest physicists, mathematicians, and engineers have learned much from studying plants.

A symbiotic relationship between botany and the fields of physics, mathematics, engineering, and chemistry continues today, as is revealed in Plant Physics. The result of a long-term collaboration between plant evolutionary biologist Karl J. Niklas and physicist Hanns-Christof Spatz, Plant Physics presents a detailed account of the principles of classical physics, evolutionary theory, and plant biology in order to explain the complex interrelationships among plant form, function, environment, and evolutionary history. Covering a wide range of topics-from the development and evolution of the basic plant body and the ecology of aquatic unicellular plants to mathematical treatments of light attenuation through tree canopies and the movement of water through plants' roots, stems, and leaves-Plant Physics is destined to inspire students and professionals alike to traverse disciplinary membranes.

4. Plant Allometry: The Scaling of Form and Process

Description

Allometry, the study of the growth rate of an organism's parts in relation to the whole, has produced exciting results in research on animals. Now distinguished plant biologist Karl J. Niklas has written the first book to apply allometry to studies of the evolution, morphology, physiology, and reproduction of plants.

Niklas covers a broad spectrum of plant life, from unicellular algae to towering trees, including fossil as well as extant taxa. He examines the relation between organic size and variations in plant form, metabolism, reproduction, and evolution, and draws on the zoological literature to develop allometric techniques for the peculiar problems of plant height, the relation between body mass and body length, and size-correlated variations in rates of growth. For readers unfamiliar with the basics of allometry, an appendix explains basic statistical methods.

For botanists interested in an original, quantitative approach to plant evolution and function, and for zoologists who want to learn more about the value of allometric techniques for studying evolution, Plant Allometry makes a major contribution to the study of plant life.

5. Plants: Diversity and Evolution

Feature

Used Book in Good Condition

Description

Introducing students to the fundamental concepts of botany, plant science, plant ecology and plant evolutionary biology, this book uses well-defined technical terms and extensive examples. It describes the evolution of land plants and algae in relation to environmental change and examines their biochemical, physiological and morphological adaptations to differing environments. Chapters on plant cell characteristics, new classifications and the topical issue of plant exploitation are included.

6. The Evolutionary Biology of Plants

Description

Although they are among the most abundant of all living things and provide essential oxygen, food, and shelter to the animal kingdom, few books pay any attention to how and why plants evolved the wondrous diversity we see today. In this richly illustrated and clearly written book, Karl J. Niklas provides the first comprehensive synthesis of modern evolutionary biology as it relates to plants.

After presenting key evolutionary principles, Niklas recounts the saga of plant life from its origins to the radiation of the flowering plants. To investigate how living plants might have evolved, Niklas conducts a series of computer-generated "walks" on fitness "landscapes," arriving at hypothetical forms of plant life strikingly similar to those of today and the distant past. He concludes with an extended consideration of molecular biology and paleontology. An excellent overview for undergraduates, this book will also challenge graduate students and researchers.

7. Plant Physics by Karl J Niklas (4-Mar-2014) Paperback

8. Multicellularity: Origins and Evolution (Vienna Series in Theoretical Biology)

Description

Scholars consider the origins and consequences of the evolution of multicellularity, addressing a range of organisms, experimental protocols, theoretical concepts, and philosophical issues.

The evolution of multicellularity raises questions regarding genomic and developmental commonalities and discordances, selective advantages and disadvantages, physical determinants of development, and the origins of morphological novelties. It also represents a change in the definition of individuality, because a new organism emerges from interactions among single cells. This volume considers these and other questions, with contributions that explore the origins and consequences of the evolution of multicellularity, addressing a range of topics, organisms, and experimental protocols.

Each section focuses on selected topics or particular lineages that present a significant insight or challenge. The contributors consider the fossil record of the paleontological circumstances in which animal multicellularity evolved; cooptation, recurrent patterns, modularity, and plausible pathways for multicellular evolution in plants; theoretical approaches to the amoebozoa and fungi (cellular slime molds having long provided a robust model system for exploring the evolution of multicellularity), plants, and animals; genomic toolkits of metazoan multicellularity; and philosophical aspects of the meaning of individuality in light of multicellular evolution.

Contributors
Maja Adamska, Argyris Arnellos, Juan A. Arias, Eugenio Azpeitia, Mariana Bentez, Adriano Bonforti, John Tyler Bonner, Peter L. Conlin, A. Keith Dunker, Salva Duran-Nebreda, Ana E. Escalante, Valeria Hernndez-Hernndez, Kunihiko Kaneko, Andrew H. Knoll, Stephan G. Knig, Daniel J. G. Lahr, Ottoline Leyser, Alan C. Love, Raul Montaez, Emilio Mora van Cauwelaert, Alvaro Moreno, Vidyanand Nanjundiah, Aurora M. Nedelcu, Stuart A. Newman, Karl J. Niklas, William C. Ratcliff, Iaki Ruiz-Trillo, Ricard Sol

Conclusion

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