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Main Authors: Cherif, Eya, Ouaknine, Arthur, Brown, Luke A., Dao, Phuong D., Kovach, Kyle R., Lu, Bing, Mederer, Daniel, Feilhauer, Hannes, Kattenborn, Teja, Rolnick, David
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.06806
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author Cherif, Eya
Ouaknine, Arthur
Brown, Luke A.
Dao, Phuong D.
Kovach, Kyle R.
Lu, Bing
Mederer, Daniel
Feilhauer, Hannes
Kattenborn, Teja
Rolnick, David
author_facet Cherif, Eya
Ouaknine, Arthur
Brown, Luke A.
Dao, Phuong D.
Kovach, Kyle R.
Lu, Bing
Mederer, Daniel
Feilhauer, Hannes
Kattenborn, Teja
Rolnick, David
contents Plant traits such as leaf carbon content and leaf mass are essential variables in the study of biodiversity and climate change. However, conventional field sampling cannot feasibly cover trait variation at ecologically meaningful spatial scales. Machine learning represents a valuable solution for plant trait prediction across ecosystems, leveraging hyperspectral data from remote sensing. Nevertheless, trait prediction from hyperspectral data is challenged by label scarcity and substantial domain shifts (\eg across sensors, ecological distributions), requiring robust cross-domain methods. Here, we present GreenHyperSpectra, a pretraining dataset encompassing real-world cross-sensor and cross-ecosystem samples designed to benchmark trait prediction with semi- and self-supervised methods. We adopt an evaluation framework encompassing in-distribution and out-of-distribution scenarios. We successfully leverage GreenHyperSpectra to pretrain label-efficient multi-output regression models that outperform the state-of-the-art supervised baseline. Our empirical analyses demonstrate substantial improvements in learning spectral representations for trait prediction, establishing a comprehensive methodological framework to catalyze research at the intersection of representation learning and plant functional traits assessment. All code and data are available at: https://github.com/echerif18/HyspectraSSL.
format Preprint
id arxiv_https___arxiv_org_abs_2507_06806
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle GreenHyperSpectra: A multi-source hyperspectral dataset for global vegetation trait prediction
Cherif, Eya
Ouaknine, Arthur
Brown, Luke A.
Dao, Phuong D.
Kovach, Kyle R.
Lu, Bing
Mederer, Daniel
Feilhauer, Hannes
Kattenborn, Teja
Rolnick, David
Computer Vision and Pattern Recognition
Image and Video Processing
Plant traits such as leaf carbon content and leaf mass are essential variables in the study of biodiversity and climate change. However, conventional field sampling cannot feasibly cover trait variation at ecologically meaningful spatial scales. Machine learning represents a valuable solution for plant trait prediction across ecosystems, leveraging hyperspectral data from remote sensing. Nevertheless, trait prediction from hyperspectral data is challenged by label scarcity and substantial domain shifts (\eg across sensors, ecological distributions), requiring robust cross-domain methods. Here, we present GreenHyperSpectra, a pretraining dataset encompassing real-world cross-sensor and cross-ecosystem samples designed to benchmark trait prediction with semi- and self-supervised methods. We adopt an evaluation framework encompassing in-distribution and out-of-distribution scenarios. We successfully leverage GreenHyperSpectra to pretrain label-efficient multi-output regression models that outperform the state-of-the-art supervised baseline. Our empirical analyses demonstrate substantial improvements in learning spectral representations for trait prediction, establishing a comprehensive methodological framework to catalyze research at the intersection of representation learning and plant functional traits assessment. All code and data are available at: https://github.com/echerif18/HyspectraSSL.
title GreenHyperSpectra: A multi-source hyperspectral dataset for global vegetation trait prediction
topic Computer Vision and Pattern Recognition
Image and Video Processing
url https://arxiv.org/abs/2507.06806