<p>Contributing Authors</p><p>Preface</p><p>Foreword</p><p> </p><p>1. Introduction </p><p>Mark D. Schwartz</p><p> </p><p>Part I: PHENOLOGICAL DATA, NETWORKS, AND RESEARCH</p><p>2. East Asia </p><p>Xiaoqiu Chen</p><p>3. Australia and New Zealand </p><p>Marie R. Keatley, Lynda E. Chambers, and Rebecca Phillips</p><p>4. Europe</p><p>Annette Menzel</p><p>5. North America</p><p>Mark D. Schwartz, Elisabeth G. Beaubien, Theresa M. Crimmins, and Jake F. Weltzin</p><p>6. A Review of Plant Phenology in South and Central America</p><p>L. Patrícia C. Morellato, Maria Gabiela G. Camargo, and Eliana Gressler</p><p>7. Antarctica</p><p>Lynda E. Chambers, Marie R. Keatley, Eric J. Woehler, and Dana M. Bergstrom</p><p>8. International Phenological Observation Networks: Concept of IPG and GPM</p><p>Frank-M. Chmielewski, Stefan Heider, Susanne Moryson, and Ekko Bruns</p><p> </p><p>Part II: PHENOLOGIES OF SELECTED BIOCLIMATIC ZONES</p><p>9. Tropical Dry Climates</p><p>Arturo Sanchez-Azofeifa, Margaret E. Kalacska, Mauricio Quesada, Kathyn E. Stoner, Jorge A. Lobo, and Pablo Arroyo-Mora </p><p>10. Mediterranean Phenology</p><p>Donatella Spano, Richard L. Snyder, and Carla Cesaraccio</p><p>11. Phenologies of North American Grasslands and Grasses</p><p>Geoffrey M. Henebry</p><p>12. Mesic Temperate Deciduous Forest Phenology</p><p>Jonathan M. Hanes, Andrew D. Richardson, and Stephen Klosterman </p><p>13. Phenology at High Latitudes</p><p>Frans E. Wielgolaski and David W. Inouye</p><p>14. Phenology at High Altitudes</p><p>David W. Inouye and Frans E. Wielgolaski</p><p> </p><p>Part III: PHENOLOGICAL MODELS AND TECHNIQUES</p><p>15. Plant Development Models</p><p>Isabelle Chuine, Iñaki Garcia De Cortazar Atauri, Koen Kramer, and Heikki Hänninen</p><p>16. Animal Life Cycle Models (Poikilotherms)</p><p>Jacques Régnière and James A. Powell</p><p>17. Daily Temperature-based Temporal and Spatial Modeling of Tree Phenology</p><p>Xiaoqiu Chen</p><p>18. Plant Phenological “Fingerprints”</p><p>Annette Menzel</p><p>19. High-Resolution Phenological Data</p><p>Mark D. Schwartz and Liang Liang</p><p>20. Weather Station Siting: Effects on Phenological Models</p><p>Richard L. Snyder, Donatella Spano, and Pierpaolo Duce </p><p> </p><p>Part IV: SENSOR-DERIVED PHENOLOGY</p><p>21. Remote Sensing of Land Surface Phenology: A Prospectus </p><p>Geoffrey M. Henebry and Kirsten M. De Beurs</p><p>22. Near-Surface Sensor-Derived Phenology</p><p>Andrew D. Richardson, Stephen Klosterman, and Michael Toomey </p><p> </p><p>Part V: PHENOLOGIES OF SELECTED LIFEFORMS</p><p>23. Aquatic Plants and Animals</p><p>Wulf Greve</p><p>24. Birds</p><p>Tim H. Sparks, Humphrey Q. P. Crick, Peter O. Dunn, and Leonid V. Sokolov</p><p>25. Reproductive Phenology of Large Mammals</p><p>Jeffrey Kerby and Eric Post</p><p> </p><p>Part VI: APPLICATIONS OF PHENOLOGY</p><p>26. Vegetation Phenology in Global Change Studies</p><p>Kirsten M. De Beurs and Geoffrey M. Henebry</p><p>27. Temperature Sensitivity of Canopy Photosynthesis Phenology in Northern Ecosystems</p><p>Shuli Niu, Yuling Fu, Lianhong Gu, and Yiqi Luo</p><p>28. Phenology and Evapotranspiration</p><p>Richard L. Snyder and Donatella Spano</p><p>29. Phenology in Agriculture and Horticulture</p><p>Frank-M. Chmielewski</p><p>30. Winegrape Phenology</p><p>Gregory V. Jones </p><p>31. Phenology in Higher Education: Ground-Based and Spatial Analysis Tools </p><p>Kirsten M. De Beurs, Robert B. Cook, Susan Mazer, Brian Haggerty, Alisa Hove, Geoffrey M. Henebry, LoriAnne Barnett, Carolyn L. Thomas, and Bob R. Pohlad</p><p><p>Acknowledgements</p><p>Index.</p>
