Kaplan's Principles of Plant Morphology defines the field of plant morphology, providing resources, examples, and theoretical constructs that illuminate the foundations of plant morphology and clearly outline the importance of integrating a fundamental understanding of plant morphology into modern research in plant genetics, development and physiology. As research on developmental genetics and plant evolution emerges, an understanding of plant morphology is essential to interpret developmental and morphological data. The principles of plant morphology are being brought into studies of crop development, biodiversity and evolution during climate change, and increasingly such researchers are turning to old texts to uncover information about historic research on plant morphology; there is great need for a modern reference and textbook that highlights past studies and provides the synthesis of data necessary to drive our future research in plant morphological and developmental evolution.
- Numerous illustrations demonstrating the principles of plant morphology
- Historical context for interpretations of more recent genetic data
- Firmly rooted in the principles of studying plant form and function
- Provides evolutionary framework without relying on evolutionary interpretations for plant form
- Only synthetic treatment of plant morphology on the market
Les, D. H. Aquatic Dicotyledons of North America: Ecology, Life History, and Systematics (ISBN 978-1-4822-2502-0)
Les, D. H. Aquatic Monotyledons of North America: Ecology, Life History, and Systematics (ISBN 978-1-1380-5493-6)
Bowes, B. G. Colour Atlas of Trees and Woody Plants (ISBN 978-0-3674-7398-3)
Bahadur, B. et al., eds. Asymmetry in Plants: Biology of Handedness (ISBN 978-1-1385-8794-6)
Table of Contents
Introduction to the science of plant morphology: goals and concepts. The cast of characters: a review of the plant kingdom and its major representatives. The relationship between morphology and anatomy in plants. Plant embryogenesis: the origin of morphological organization during development. Early plant development: from seed to seedling to established plant. Divergent patterns of seedling development and their significance for the interpretation of plant ontogeny and evolution. The shoot: phyllotaxis. The concept of differential growth. The effect of internodal elongation on shoot form. The effect of stem thickening growth on shoot form/shoot lateral symmetry. Shoot branching. Developmental expressions and specializations of shoot branches. Leaf morphology and development. Transectional symmetry of leaves. Longitudinal symmetry and zonation of leaves I. Longitudinal symmetry and zonation of leaves II. Blade dissection. Specializations in leaf structure and function. Morphology of reproductive shoots: I. Pteridophytes. Morphology of reproductive shoots and reproduction: II. Gymnosperms. Morphology of reproductive shoots and reproduction. III. The angiosperms: A. The floral shoot. Morphology of "reproductive shoots and reproduction. III. The angiosperms B. The floral organs in their pre- and postfertilization states. Morphology of reproductive shoots and reproduction III. The angiosperms. C. Inflorescence morphology. Principles of root morphology.
Donald Robert Kaplan was born in Chicago on January 17, 1938. He attended Northwestern University and graduated Phi Beta Kappa with a bachelor’s degree in biology in 1960. He studied with Adriance Foster at UC Berkeley where he earned his Ph.D. in 1965. After completing a National Science Foundation-sponsored postdoctoral fellowship at the Royal Botanic Gardens, Kew, England, Kaplan became a founding member of the newly established University of California, Irvine campus as an assistant professor of organismic biology in 1965. He returned to UC Berkeley in 1968 as an associate professor in the Department of Botany. Kaplan was promoted to professor in 1978, and moved to the Department of Plant and Microbial Biology during reorganization of the biological sciences. He retired in 2004.
As a plant morphologist, Kaplan had a unique, European perspective on plant form. Using key concepts and first principles, he approached his research in a strictly analytical way. He was most interested in fundamental structural and developmental commonalities that underpin plant form across different major taxa. Kaplan’s publications spanned the algae, bryophytes, ferns, gymnosperms, and angiosperms. Kaplan’s research and theories on the relationship of cell and organism in vascular plants have had a major impact on studies linking plant morphology with molecular biology/genetics, setting the stage for modern investigations on plant form and function. Kaplan was also interested in the history of plant morphology, especially in those who established the basic principles and concepts of the field as he practiced it, e.g. Goethe, Hofmeister, Goebel, and Troll.
Don Kaplan’s research accomplishments were well recognized by his peers and resulted in many awards. Among these were the Alexander von Humboldt Distinguished Senior U.S. Scientist Award (1988-89), a Guggenheim Fellowship (1987-88), fellow of the California Academy of Sciences (1982), the Botanical Society Merit Award (1984), the Botanical Society of America's Jeanette Siron Pelton Award (1989) and Centennial Award (2006), and a Miller Research Professorship (1975-76). He was also recognized for his excellence in teaching with a Sigma Xi National Lecturer award (1995-97), the UC Berkeley Distinguished Teaching Award (1976) and the Botanical Society of America’s Charles Edwin Bessey Award for excellence in botanical teaching (2005).
In addition to botany, Kaplan had many other interests, which he pursued with as much intensity and innovation as he did plant morphology. Among them were photography, railroads, classical music, and movies. He shared these passions with his wife, Dorothy, and sons Andrew and Timothy.
Chelsea Dvorak Specht was born in Wilmington, Delaware on September 13, 1971. She attended the University of Delaware receiving a B.A. in Biology magna cum laude and Phi Beta Kappa in 1993. Initially planning on pursuing medicine, her undergraduate mentor Kenneth A. Campbell provided her first taste in academic research, changing her life forever. Specht received her MS in 1997 and PhD in 2004 from New York University, during which time she was a Fulbright Fellow and worked for 2 years as a Program Officer and Ecoregional Coordinator for the World Wildlife Fund in Bolivia. Specht was part of an NSF-Funded joint program between NYU and the New York Botanical Garden and studied extensively with plant morphologist and renowned botanist and cladist Dennis Wm. Stevenson as her major advisor.
It was during her graduate training that Specht developed an appreciation for the principles of plant morphology combined with a developmental genetic and phylogenetic perspective to investigate the mechanisms underlying the evolution and diversification of plant form and function. Following a postdoctoral fellowship at the Smithsonian Institution’s National Museum of Natural History, Specht became an Assistant Professor and Plant Organismal Biologist in the Department of Plant and Microbial Biology at UC Berkeley and curator of Monocots for the University and Jepson Herbaria in 2005. At UC Berkeley she taught Kaplan’s Plant Morphology course and used this book for many years in the form of 5 massive readers for the class. In 2017, she moved to Cornell University as the Barbara McClintock Professor in Plant Biology and is currently also Associate Dean for Diversity and Inclusion for the College of Agriculture and Life Sciences. Specht is married to entomologist Patrick O’Grady and shares her love of plants with their daughter, Paceyn Julia.