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International Journal of Remote Sensing Volume 29, 2008 - Issue 12
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Original Articles

Near‐infrared discrimination of leafless saltcedar in wintertime Landsat TM

D. P. Groeneveld HydroBio Inc., 1220 Cerro Gordo Road, Santa Fe, NM 87501Correspondence[email protected]
&
R. P. Watson HydroBio Inc., 1220 Cerro Gordo Road, Santa Fe, NM 87501
Pages 3577-3588 | Received 07 Dec 2006, Accepted 23 Jun 2007, Published online: 17 May 2008

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Sifiso Xulu, Michael T Gebreslasie & Kabir Y Peerbhay. (2019) Remote sensing of forest health and vitality: a South African perspective. Southern Forests: a Journal of Forest Science 81:2, pages 91-102.
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Le Wang & Sai Zhang. (2014) Incorporation of texture information in a SVM method for classifying salt cedar in western China. Remote Sensing Letters 5:6, pages 501-510.
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Q.S. Liu, G.H. Liu, C. Huang & C.J. Xie. (2014) Using SPOT 5 fusion-ready imagery to detect Chinese tamarisk (saltcedar) with mathematical morphological method. International Journal of Digital Earth 7:3, pages 217-228.
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SarahE. Johnston, MaryC. Henry & DavidL. Gorchov. (2012) Using Advanced Land Imager (ALI) and Landsat Thematic Mapper (TM) for the Detection of the Invasive Shrub Lonicera maackii in Southwestern Ohio Forests. GIScience & Remote Sensing 49:3, pages 450-462.
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PamelaL. Nagler, EdwardP. Glenn, CatherineS. Jarnevich & PatrickB. Shafroth. (2011) Distribution and Abundance of Saltcedar and Russian Olive in the Western United States. Critical Reviews in Plant Sciences 30:6, pages 508-523.
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ReginaldS. Fletcher, JamesH. Everitt & Chenghai Yang. (2011) Identifying saltcedar with hyperspectral data and support vectormachines. Geocarto International 26:3, pages 195-209.
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Xin Miao, Rohit Patil, JillS. Heaton & RichardC. Tracy. (2011) Detection and classification of invasive saltcedar through high spatial resolution airborne hyperspectral imagery. International Journal of Remote Sensing 32:8, pages 2131-2150.
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GilesM. Foody. (2009) Sample size determination for image classification accuracy assessment and comparison. International Journal of Remote Sensing 30:20, pages 5273-5291.
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Štefan Koco, Anna Dubravská, Jozef Vilček & Daniela Gruľová. (2021) Geospatial Approaches to Monitoring the Spread of Invasive Species of Solidago spp.. Remote Sensing 13:23, pages 4787.
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Qingsheng Liu, Chong Huang & He Li. (2021) Mapping plant communities within quasi‐circular vegetation patches using tasseled cap brightness, greenness, and topsoil grain size index derived from GF-1 imagery. Earth Science Informatics 14:2, pages 975-984.
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Nathaniel Bransky, Temuulen Sankey, Joel B. Sankey, Matthew Johnson & Levi Jamison. (2021) Monitoring Tamarix Changes Using WorldView-2 Satellite Imagery in Grand Canyon National Park, Arizona. Remote Sensing 13:5, pages 958.
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Qingsheng Liu. (2020) Using GF-2 Images to Detect Tamarix Chinensis Community within a Vegetation Patch. Journal of Physics: Conference Series 1575:1, pages 012213.
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Lei Shi, Qingsheng Liu, Chong Huang, He Li & Gaohuan Liu. (2020) Comparing Pixel-Based Random Forest and the Object-Based Support Vector Machine Approaches to Map the Quasi-Circular Vegetation Patches Using Individual Seasonal Fused GF-1 Imagery. IEEE Access 8, pages 228955-228966.
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Qingsheng Liu. (2018) Comparing the Different Seasonal CBERS 04 Images to Map the Quasi-Circular Vegetation Patches in the Yellow River Delta, China. Comparing the Different Seasonal CBERS 04 Images to Map the Quasi-Circular Vegetation Patches in the Yellow River Delta, China.
Yujin Zhao, Yuan Zeng, Zhaoju Zheng, Wenxue Dong, Dan Zhao, Bingfang Wu & Qianjun Zhao. (2018) Forest species diversity mapping using airborne LiDAR and hyperspectral data in a subtropical forest in China. Remote Sensing of Environment 213, pages 104-114.
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Flor Alvarez-Taboada, Claudio Paredes & Julia Julián-Pelaz. (2017) Mapping of the Invasive Species Hakea sericea Using Unmanned Aerial Vehicle (UAV) and WorldView-2 Imagery and an Object-Oriented Approach. Remote Sensing 9:9, pages 913.
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Kabir Yunus Peerbhay, Onisimo Mutanga & Riyad Ismail. (2015) Random Forests Unsupervised Classification: The Detection and Mapping of Solanum mauritianum Infestations in Plantation Forestry Using Hyperspectral Data . IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 8:6, pages 3107-3122.
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Chunyuan Diao & Le Wang. (2014) Development of an invasive species distribution model with fine-resolution remote sensing. International Journal of Applied Earth Observation and Geoinformation 30, pages 65-75.
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Hunt E. RaymondJr.Jr.. 2014. Encyclopedia of Remote Sensing. Encyclopedia of Remote Sensing 653 658 .
A.E. Frazier & L. Wang. (2011) Characterizing spatial patterns of invasive species using sub-pixel classifications. Remote Sensing of Environment 115:8, pages 1997-2007.
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Kate S. He, Duccio Rocchini, Markus Neteler & Harini Nagendra. (2011) Benefits of hyperspectral remote sensing for tracking plant invasions. Diversity and Distributions 17:3, pages 381-392.
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Gregory Carter, Kelly Lucas, Gabriel Blossom, Cheryl Lassitter, Dan Holiday, David Mooneyhan, Danielle Fastring, Tracy Holcombe & Jerry Griffith. (2009) Remote Sensing and Mapping of Tamarisk along the Colorado River, USA: A Comparative Use of Summer-Acquired Hyperion, Thematic Mapper and QuickBird Data. Remote Sensing 1:3, pages 318-329.
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Cho-ying Huang & Gregory Asner. (2009) Applications of Remote Sensing to Alien Invasive Plant Studies. Sensors 9:6, pages 4869-4889.
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