Quantifying Variation in Canopy Height from LiDAR Data as a Function of Altitude Along Alpine Treeline Ecotone in Indian Himalaya-Reference-Cited by-同舟云学术

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Quantifying Variation in Canopy Height from LiDAR Data as a Function of Altitude Along Alpine Treeline Ecotone in Indian Himalaya

Published:2023 Issue: Volume: Page:191-203
ISSN:
Container-title:Ecology of Himalayan Treeline Ecotone
language:
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Author:

Mathew Jincy Rachel,Singh C. P.,Mohapatra Jakesh,Agrawal Ritesh,Solanki Hitesh,Khuroo Anzar A.,Hamid Maroof,Malik A. H.,Ahmad Rameez,Kumar Amit,Verma Anirudh

Publisher

Springer Nature Singapore

Link

https://link.springer.com/content/pdf/10.1007/978-981-19-4476-5_8

Reference31 articles.

1. Ameztegui A, Rodrigues M, Gelabert PJ, Lavaquiol B, Coll L (2021) Maximum height of mountain forests abruptly decreases above an elevation breakpoint. GISci Remote Sens 58(3):442–454

2. Cary KL, Pittermann J (2018) Small trees, big problems: comparative leaf function under extreme edaphic stress. Am J Bot 105(1):50–59

3. Chander G, Markham B (2003) Revised Landsat-5 TM radiometric calibration procedures and postcalibration dynamic ranges. IEEE Trans Geosci Remote Sens 41(11):2674–2677

4. Dubayah R, Blair JB, Goetz S, Fatoyinbo L, Hansen M, Healey S, Hofton M, Hurtt G, Kellner J, Luthcke S et al (2020) The global ecosystem dynamics investigation: high-resolution laser ranging of the earth’s forests and topography. Sci Remote Sens 1:100002

5. ESRI (2016) ArcGIS Desktop Environmental Systems Research Institute. https://desktoparcgiscom/en/arcmap

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