Hyperspectral Remote Sensing of Vegetation, Second Edition, Four Volume Set

Dr. Prasad S. Thenkabail, Research Geographer-15, U.S. Geological Survey (USGS), is a world-recognized expert in remote sensing science with multiple major contributions in the field sustained over more than 30 years. He obtained his PhD from the Ohio State University in 1992 and has over 140+ peer-reviewed scientific publications. Dr. Thenkabail has conducted pioneering cutting-edge research in the area of hyperspectral remote sensing of vegetation (https://www.usgs.gov/wgsc/GHISA/) and in that of global croplands and their water use for food security (www.croplands.org). Dr. Thenkabail’s contributions to series of leading edited books on remote sensing science along with his research and other contributions in the subject places his as a noted global expert in remote sensing science. He edited three-volume book entitled Remote Sensing Handbook published by Taylor and Francis, with 82 chapters and more than 2000 pages, widely considered a "magnus opus" encyclopedic standard reference for students, scholars, practitioners, and major experts in remote sensing science. He has recently completed editing four-volume Hyperspectral Remote Sensing of Vegetation. He has also edited a book on Remote Sensing of Global Croplands for Food Security. He is currently an editor-in-chief of the Remote Sensing open access journal published by MDPI; an associate editor of the journal Photogrammetric Engineering and Remote Sensing (PERS) of the American Society of Photogrammetry and Remote Sensing (ASPRS); and an editorial advisory board member of the International Society of Photogrammetry and Remote Sensing (ISPRS) Journal of Photogrammetry and Remote Sensing. NASA and USGS selected him on the Landsat Science team (2007-2011). Earlier, he served on the editorial board of Remote Sensing of Environment for many years (2007–2017). He has won three best paper awards from ASPRS for his publications in PE&RS. Detailed bio of Dr. Thenkabail can be found here: https://www.usgs.gov/staff-profiles/prasad-thenkabail John G. Lyon has conducted scientific and engineering research and administrative functions throughout his career. He is formerly the senior physical scientist in the U.S. Environmental Protection Agency’s Office of Research and Development (ORD) and Office of the Science Advisor in Washington, DC, where he co-led work on the Group on Earth Observations and the USGEO subcommittee of the Committee on Environment and Natural Resources, and research on geospatial issues. Lyon was director of ORD’s Environmental Sciences Division for approximately eight years. He was educated at Reed College in Portland, Oregon, and the University of Michigan in Ann Arbor. Professor Alfredo Huete leads the Ecosystem Dynamics Health and Resilience research program within the Climate Change Cluster (C3) at the University of Technology Sydney, Australia. His main research interest is in using remote sensing to study and analyze broad scale vegetation health and functioning. Recently, he used remote sensing and field measurements to understand the phenology patterns of tropical rainforests and savannas in the Amazon and Southeast Asia and his Amazon work was featured in a National Geographic television special entitled "The Big Picture". Currently his research involves coupling eddy covariance tower flux measurements with ground spectral sensors and satellite observations to study carbon and water cycling across Australian landscapes. He is actively involved with several international space programs, including the NASA-EOS MODIS Science Team, the Japanese JAXA GCOM-SGLI Science Team, the European PROBA-V User Expert Group, and NPOESS-VIIRS advisory group.

Contents of Volume I:

Section I: Introduction to Hyperspectral Remote Sensing of Agricultural Crops and Vegetation

1. Advances in Hyperspectral Remote Sensing of Vegetation and Agricultural Crops

[Prasad S. Thenkabail, John G. Lyon, and Alfredo Huete]

Section II: Hyperspectral Sensor Systems

2. Hyperspectral Sensor Characteristics: Airborne, Spaceborne, Hand-Held, and Truck-Mounted; Integration of Hyperspectral Data with LiDAR

[Fred Ortenberg]

3. Hyperspectral Remote Sensing in Global Change Studies

[Jiaguo Qi, Yoshio Inoue, and Narumon Wiangwang]

Section III: Hyperspectral Libraries of Agricultural Crops and Vegetation

4. Monitoring Vegetation Diversity and Health through Spectral Traits and Trait Variations Based on Hyperspectral Remote Sensing

[Angela Lausch and Pedro J. Leitão]

5. The Use of Hyperspectral Proximal Sensing for Phenotyping of Plant Breeding Trials

[Andries B. Potgieter, James Watson, Barbara George-Jaeggli, Gregory McLean, Mark Eldridge, Scott C. Chapman, Kenneth Laws, Jack Christopher, Karine Chenu, Andrew Borrell, Graeme L. Hammer, and David R. Jordan]

6. Linking Online Spectral Libraries with Hyperspectral Test Data through Library Building Tools and Code

[Muhammad Al-Amin Hoque and Stuart Phinn]

7. The Use of Spectral Databases for Remote Sensing of Agricultural Crops

[Andreas Hueni, Lola Suarez, Laurie A. Chisholm, and Alex Held]

8. Characterization of Soil Properties Using Reflectance Spectroscopy

[E. Ben-Dor, S. Chabrillat, and José A. M. Demattê]

Section IV: Hyperspectral Data Mining, Data Fusion, and Algorithms

9. Spaceborne Hyperspectral EO-1 Hyperion Data Pre-Processing: Methods, Approaches, and Algorithms

[Itiya P. Aneece, Prasad S. Thenkabail, John G. Lyon, Alfredo Huete, and Terrance Slonecker]

10. Hyperspectral Image Data Mining

[Sreekala G. Bajwa, Yu Zhang, and Alimohammad Shirzadifar]

11. Hyperspectral Data Processing Algorithms

[Antonio Plaza, Javier Plaza, Gabriel Martín, and Sergio Sánchez]

12. Methods for Linking Drone and Field Hyperspectral Data to Satellite Data

[Muhammad Al-Amin Hoque and Stuart Phinn]

13. Integrating Hyperspectral and LiDAR Data in the Study of Vegetation

[Jessica J. Mitchell, Nancy F. Glenn, Kyla M. Dahlin, Nayani Ilangakoon, Hamid Dashti, and Megan C. Maloney]

14. Fifty-Years of Advances in Hyperspectral Remote Sensing of Agriculture and Vegetation—Summary, Insights, and Highlights of Volume I: Fundamentals, Sensor Systems, Spectral Libraries, and Data Mining for Vegetation[Prasad S. Thenkabail, John G. Lyon, and Alfredo Huete]

..........................................................................................................................................................................

Contents of Volume II:

Section I: Hyperspectral Vegetation Indices






Hyperspectral vegetation indices
[Dar A. Roberts, Keely L. Roth, Erin B. Wetherley, Susan K. Meerdink, and Ryan L. Perroy]




Derivative hyperspectral vegetation indices in characterizing forest biophysical and biochemical quantities
[Quan Wang, Jia Jin, Rei Sonobe, and Jing Ming Chen]

Section II: Hyperspectral Image Classification Methods and Approaches




Hyperpsectral image classification methods in vegetation and agricultural
cropland studies

[Edoardo Pasolli, Saurabh Prasad, Melba M. Crawford, and James C. Tilton]




Big Data Processing on Cloud Computing Architectures for Hyperspectral Remote Sensing
[Zebin Wu, Jin Sun, and Yi Zhang]

Section III: Hyperspectral Vegetation Indices Applications to Agriculture and Vegetation




Non-invasive Quantification of Foliar Pigments: Principles and Implementation
[Anatoly Gitelson and Alexei Solovchenko]




Hyperspectral Remote Sensing of Leaf Nitrogen Concentration in Cereal Crops
[Tao Cheng, Yan Zhu, Dong Li, Xia Yao, and Kai Zhou]




Optical remote sensing of vegetation water content
[Colombo Roberto, Busetto Lorenzo, Meroni Michele, Rossini Micol, and Panigada Cinzia]




Estimation of nitrogen content in herbaceous plants using hyperspectral vegetation indices
[D. Stroppiana, F. Fava, M. Boschetti, and P.A. Brivio]




Hyperspectral remote sensing of leaf chlorophyll content: from leaf, canopy, to landscape scales
[Yongqin Zhang]

Section IV: Conclusions




Fifty-years of Advances in Hyperspectral Remote Sensing of Agriculture and Vegetation: Summary, Insights, and Highlights of Volume II: Hyperspectral Vegetation Indices and Image Classifications for Agriculture and Vegetation

[Prasad S. Thenkabil, John G. Lyon, and Alfredo Huete]

..........................................................................................................................................................................

Contents of Volume III:

Section I: Vegetation Biophysical and Biochemical Properties

1. Recent Developments in Remote Estimation of Crop Biophysical and Biochemical Properties at Various Scales

[Anatoly A. Gitelson]

2. Hyperspectral Assessment of Ecophysiological Functioning for Diagnostics of Crops and Vegetation

[Yoshio Inoue, Roshanak Darvishzadeh, and Andrew Skidmore]

3. Spectral and Spatial Methods for Hyperspectral and Thermal Image-Analysis to Estimate Biophysical and Biochemical Properties of Agricultural Crops

[Yafit Cohen and Victor Alchanatis]

4. Spectral and 3D Nonspectral Approaches to Crop Trait Estimation Using Ground and UAV Sensing

[Helge Aasen and Georg Bareth]

5. Photosynthetic Efficiency and Vegetation Stress

[Elizabeth M. Middleton, K. Fred Huemmrich, Qingyuan Zhang, Petya K.E. Campbell, and David R. Landis]

Section II: Plant Species Identification and Discrimination

6. Crop Type Discrimination Using Hyperspectral Data: Advances and Perspectives

[Lênio Soares Galvão, José Carlos Neves Epiphanio, Fábio Marcelo Breunig, and Antônio Roberto Formaggio]

7. Identification of Canopy Species in Tropical Forests Using Hyperspectral Data

[Matthew L. Clark]

8. Characteristics of Tropical Tree Species in Hyperspectral and Multispectral Data

[Matheus Pinheiro Ferreira, Cibele Hummel do Amaral, Gaia Vaglio Laurin, Raymond Kokaly, Carlos Roberto de Souza Filho, and Yosio Edemir Shimabukuro]

9. Detecting and Mapping Invasive Plant Species Using Hyperspectral Data

[Ruiliang Pu]

10. Visible, Near Infrared, and Thermal Spectral Radiance On-Board UAVs for High-Throughput Phenotyping of Plant Breeding Trials

[Scott C. Chapman, Bangyou Zheng, Andries B. Potgieter, Wei Guo, Frederic Baret, Shouyang Liu, Simon Madec, Benoit Solan, Barbara George-Jaeggli, Graeme L. Hammer, and David R. Jordan]

Section III: Conclusions

11. Fifty Years of Advances in Hyperspectral Remote Sensing of Agriculture and Vegetation—Summary, Insights, and Highlights of Volume III: Biophysical and Biochemical Characterization and Plant Species Studies

[Prasad S. Thenkabail, John G. Lyon, and Alfredo Huete]

...........................................................................................................................................................................

Contents of Volume IV:

Section I: Detecting Crop Management Practices, Plant Stress, and Disease

1. Using Hyperspectral Data in Precision Farming Applications

[Haibo Yao, Yanbo Huang, Lie Tang, Lei Tian, Deepak Bhatnagar, and Thomas E. Cleveland]

2. Hyperspectral Narrowbands and Their Indices in Study of Nitrogen Content of Cotton Crops

[Jianlong Li, Jingjing Zhang, Chunliu Tao, Dehua Zhao, and Chengcheng Gang]

3. Analysis of the Effects of Heavy Metals on Vegetation Hyperspectral Reflectance Properties

[E. Terrence Slonecker]

Section II: Vegetation Processes and Function (ET, Water Use, GPP, LUE, Phenology)

4. Mapping the Distribution and Abundance of Flowering Plants Using Hyperspectral Sensing

[Tobias Landmann, Hannes Feilhauer, Miaogen Shen, Jin Chen, and Suresh Raina]

5. Crop Water Productivity Estimation with Hyperspectral Remote Sensing

[Michael Marshall, Itiya Aneece, Daniel Foley, Cai Xueliang, and Trent Biggs]

6. Hyperspectral Remote Sensing Tools for Quantifying Plant Litter and Invasive Species in Arid Ecosystems

[Pamela Lynn Nagler, B. B. Maruthi Sridhar, Aaryn Dyami Olsson, Willem J. D. van Leeuwen, and Edward P. Glenn]

7. Hyperspectral Applications to Landscape Phenology

[Alfredo Huete, Werapong Koedsin, and Jin Wu]

Section III: Land Cover, Forests, and Wetland and Urban Applications Using Hyperspectral Data

8. The Use of Hyperspectral Earth Observation Data for Land Use/Cover Classification: Present Status, Challenges, and Future Outlook

[Prem Chandra Pandey, Kiril Manevski, Prashant K. Srivastava, and George P. Petropoulos]

9. Hyperspectral Remote Sensing for Forest Management

[Valerie Thomas]

10. Characterization of Pastures Using Field and Imaging Spectrometers

[Izaya Numata]

11. Hyperspectral Remote Sensing of Wetland Vegetation

[Elijah Ramsey III and Amina Rangoonwala]

Section IV: Thermal, SWIR, and Visible Remote Sensing
12. Hyperspectral Remote Sensing of Fire: A Review

[Sander Veraverbeke, Philip Dennison, Ioannis Gitas, Glynn Hulley, Olga Kalashnikova, Thomas Katagis, Le Kuai, Ran Meng, Dar Roberts, and Natasha Stavros]

Section V: Hyperspectral Data in Global Change Studies13. Hyperspectral Data in Long-Term, Cross-Sensor Continuity Studies

[Tomoaki Miura and Hiroki Yoshioka]

Section VI: Hyperspectral Remote Sensing of Other Planets14. Hyperspectral Analysis of Rocky Surfaces on Earth and Other Planetary Bodies

[R. Greg Vaughan, Timothy N. Titus, Jeffrey R. Johnson, Justin J. Hagerty, Laurence A. Soderblom, Paul E. Geissler, David P. Mayer, and Will M. Grundy]

Section VII: Conclusions
15. Fifty Years of Advances in Hyperspectral Remote Sensing of Agriculture and Vegetation—Summary, Insights, and Highlights of Volume IV: Advanced Applications in Remote Sensing of Agricultural Crops and Natural Vegetation

[Prasad S. Thenkabail, John G. Lyon, and Alfredo Huete]