Fine Resolution Remote Sensing of Species in Terrestrial and Coastal Ecosystems

Herausgeber: Collin, Antoine; A. Warner, Timothy; Kutser, Tiit; Chen, Qi

• Broschiertes Buch

Produktbeschreibung

Fine Resolution Remote Sensing of Species in Terrestrial and Coastal Ecosystems is a collection of eight cutting-edge studies of ?ne spatial resolution remote sensing, including species mapping of biogenic and coral reefs, seagrasses, salt and freshwater marshes, and grasslands.

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Produktdetails

• Verlag: Taylor & Francis Ltd
• Seitenzahl: 174
• Erscheinungstermin: 25. September 2023
• Englisch
• Abmessung: 173mm x 245mm x 11mm
• Gewicht: 380g
• ISBN-13: 9781032042671
• ISBN-10: 1032042672
• Artikelnr.: 68714339

Autorenporträt

Qi Chen is Professor of Geography and Environment at the University of Hawai¿i at M¿noa, Honolulu, USA. His research focuses on the use of LiDAR, high spatial resolution remote sensing, statistical modelling, and artificial intelligence for environmental mapping and monitoring. Tiit Kutser is Professor of Remote Sensing at the Estonian Marine Institute, University of Tartu, Tallinn, Estonia. His research covers many different topics from mapping water quality parameters (including harmful algal blooms) in coastal and inland waters to benthic habitat (including coral reefs) mapping and the role of lakes in the global carbon cycle. Antoine Collin is Associate Professor of Geography and Ecology at the Paris Sciences & Letters (PSL) University, Dinard, France. His research links the coastal natural and social sciences in the ocean-climate change. He maps and models costal environments using high spatio-temporal resolution spaceborne, airborne, handborne, waterborne data, and machine learning. Timothy A. Warner is Emeritus Professor of Geology and Geography at West Virginia University, Morgantown, USA. He served as editor in chief of the International Journal of Remote Sensing from 2014 to 2020. He is a Fellow of the American Society of Photogrammetry and Remote Sensing.

Inhaltsangabe

Introduction: Fine resolution remote sensing of species in terrestrial and coastal ecosystems Qi Chen
Tiit Kutser
Antoine Collin and Timothy A. Warner 1. Mapping freshwater marsh species in the wetlands of Lake Okeechobee using very high-resolution aerial photography and lidar data Caiyun Zhang
Sara Denka and Deepak R. Mishra 2. Satellite-based salt marsh elevation
vegetation height
and species composition mapping using the superspectral WorldView-3 imagery Antoine Collin
Natasha Lambert and Samuel Etienne 3. Mapping semi-natural grassland communities using multi-temporal RapidEye remote sensing data Christoph Raab
H. G. Stroh
B. Tonn
M. Meißner
N. Rohwer
N. Balkenhol and J. Isselstein 4. Very high-resolution mapping of emerging biogenic reefs using airborne optical imagery and neural network: the honeycomb worm (Sabellaria alveolata) case study Antoine Collin
Stanislas Dubois
Camille Ramambason and Samuel Etienne 5. Very high resolution mapping of coral reef state using airborne bathymetric LiDAR surface-intensity and drone imagery Antoine Collin
Camille Ramambason
Yves Pastol
Elisa Casella
Alessio Rovere
Lauric Thiault
Benoît Espiau
Gilles Siu
Franck Lerouvreur
Nao Nakamura
James L. Hench
Russell J. Schmitt
Sally J. Holbrook
Matthias Troyer and Neil Davies 6. A comparison of airborne hyperspectral-based classifications of emergent wetland vegetation at Lake Balaton
Hungary Dimitris Stratoulias
Heiko Balzter
András Zlinszky and Viktor R. Tóth 7. Predicting macroalgal pigments (chlorophyll a
chlorophyll b
chlorophyll a + b
carotenoids) in various environmental conditions using high-resolution hyperspectral spectroradiometers Ele Vahtmäe
Jonne Kotta
Helen Orav-Kotta
Ilmar Kotta
Merli Pärnoja and Tiit Kutser 8. Assessment of PlanetScope images for benthic habitat and seagrass species mapping in a complex optically shallow water environment Pramaditya Wicaksono and Wahyu Lazuardi