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" Plants and microclimate : "
Hamlyn G. Jones, Professor Emeritus, Division of Plant Science, University of Dundee at the James Hutton Institute, Invergowrie, Dundee, DD2 5DA, UK and Adjunct Professor of Plant Biology, University of Western Australia.
Document Type
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BL
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Record Number
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658635
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Doc. No
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dltt
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Main Entry
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Jones, Hamlyn G.
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Title & Author
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Plants and microclimate : : a quantitative approach to environmental plant physiology /\ Hamlyn G. Jones, Professor Emeritus, Division of Plant Science, University of Dundee at the James Hutton Institute, Invergowrie, Dundee, DD2 5DA, UK and Adjunct Professor of Plant Biology, University of Western Australia.
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Edition Statement
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Third edition.
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Page. NO
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xvii, 407 pages ;; 25 cm
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ISBN
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9780521279598 (pbk.)
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: 0521279593 (pbk.)
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Bibliographies/Indexes
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Includes bibliographical references and index.
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Contents
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1. A quantitative approach to plant-environment interactions -- 2. Radiation -- 3. Heat, mass and momentum transfer -- 4. Plant water relations -- 5. Energy balance and evaporation -- 6. Stomata -- 7. Photosynthesis and respiration -- 8. Light and plant development -- 9. Temperature -- 10. Drought and other abiotic stresses -- 11. Other environmental factors: wind, altitude, climate change and pollutants -- 12. Physiology and crop yield improvement.
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Abstract
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"This rigorous yet accessible text introduces the key physical and biochemical processes involved in plant interactions with the aerial environment. It is designed to make the more numerical aspects of the subject accessible to plant and environmental science students, and will also provide a valuable reference source to practitioners and researchers in the field. The third edition of this widely recognised text has been completely revised and updated to take account of key developments in the field. Approximately half of the references are new to this edition and relevant online resources are also incorporated for the first time. The recent proliferation of molecular and genetic research on plants is related to whole plant responses, showing how these new approaches can advance our understanding of the biophysical interactions between plants and the atmosphere. Remote sensing technologies and their applications in the study of plant function are also covered in greater detail"--
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Subject
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Vegetation and climate-- Mathematical models.
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Subject
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Plant-atmosphere relationships-- Mathematical models.
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Subject
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Plant ecophysiology-- Mathematical models.
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Dewey Classification
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581.7/22
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LC Classification
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QK754.5.J66 2014
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