Proximal remote sensing: an essential tool for bridging the gap between high-resolution ecosystem monitoring and global ecology

IF 8.3 1区生物学 Q1 PLANT SCIENCES

New Phytologist Pub Date : 2025-01-23 DOI:10.1111/nph.20405

Zoe Amie Pierrat, Troy S. Magney, Will P. Richardson, Benjamin R. K. Runkle, Jen L. Diehl, Xi Yang, William Woodgate, William K. Smith, Miriam R. Johnston, Yohanes R. S. Ginting, Gerbrand Koren, Loren P. Albert, Christopher L. Kibler, Bryn E. Morgan, Mallory Barnes, Adriana Uscanga, Charles Devine, Mostafa Javadian, Karem Meza, Tommaso Julitta, Giulia Tagliabue, Matthew P. Dannenberg, Michal Antala, Christopher Y. S. Wong, Andre L. D. Santos, Koen Hufkens, Julia K. Marrs, Atticus E. L. Stovall, Yujie Liu, Joshua B. Fisher, John A. Gamon, Kerry Cawse-Nicholson

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引用次数: 0

Abstract

A new proliferation of optical instruments that can be attached to towers over or within ecosystems, or ‘proximal’ remote sensing, enables a comprehensive characterization of terrestrial ecosystem structure, function, and fluxes of energy, water, and carbon. Proximal remote sensing can bridge the gap between individual plants, site-level eddy-covariance fluxes, and airborne and spaceborne remote sensing by providing continuous data at a high-spatiotemporal resolution. Here, we review recent advances in proximal remote sensing for improving our mechanistic understanding of plant and ecosystem processes, model development, and validation of current and upcoming satellite missions. We provide current best practices for data availability and metadata for proximal remote sensing: spectral reflectance, solar-induced fluorescence, thermal infrared radiation, microwave backscatter, and LiDAR. Our paper outlines the steps necessary for making these data streams more widespread, accessible, interoperable, and information-rich, enabling us to address key ecological questions unanswerable from space-based observations alone and, ultimately, to demonstrate the feasibility of these technologies to address critical questions in local and global ecology.

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近端遥感：弥合高分辨率生态系统监测与全球生态之间差距的重要工具

可以连接到生态系统上方或内部的光学仪器，或“近端”遥感的新扩散，使陆地生态系统结构、功能以及能量、水和碳通量的全面表征成为可能。近端遥感可以通过提供高时空分辨率的连续数据，弥合单个植物、站点级涡旋协方差通量以及机载和星载遥感之间的差距。在这里，我们回顾了近端遥感的最新进展，以提高我们对植物和生态系统过程的机制理解，模型开发，以及当前和即将到来的卫星任务的验证。我们为近地遥感的数据可用性和元数据提供当前的最佳实践：光谱反射、太阳诱导荧光、热红外辐射、微波背散射和激光雷达。我们的论文概述了使这些数据流更广泛、可访问、可互操作和信息丰富的必要步骤，使我们能够解决仅靠天基观测无法回答的关键生态问题，并最终证明这些技术解决当地和全球生态关键问题的可行性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

New Phytologist 生物-植物科学

自引率

5.30%

发文量

728

期刊介绍： New Phytologist is an international electronic journal published 24 times a year. It is owned by the New Phytologist Foundation, a non-profit-making charitable organization dedicated to promoting plant science. The journal publishes excellent, novel, rigorous, and timely research and scholarship in plant science and its applications. The articles cover topics in five sections: Physiology & Development, Environment, Interaction, Evolution, and Transformative Plant Biotechnology. These sections encompass intracellular processes, global environmental change, and encourage cross-disciplinary approaches. The journal recognizes the use of techniques from molecular and cell biology, functional genomics, modeling, and system-based approaches in plant science. Abstracting and Indexing Information for New Phytologist includes Academic Search, AgBiotech News & Information, Agroforestry Abstracts, Biochemistry & Biophysics Citation Index, Botanical Pesticides, CAB Abstracts®, Environment Index, Global Health, and Plant Breeding Abstracts, and others.