对亚热带常绿阔叶林中不同树种和树冠层的八种叶片功能特征进行可靠的高光谱估测

IF 7 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Fangyuan Yu , Yongru Wu , Junjie Wang , Juyu Lian , Zhuo Wu , Wanhui Ye , Zhifeng Wu
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引用次数: 0

摘要

由于树冠结构和光谱噪声的复杂性,在亚热带常绿阔叶林中准确估计不同物种和树冠层的叶片功能特征仍然是一项重大挑战。尽管高光谱遥感技术大有可为,但现有的方法难以提供能够在不同物种和环境条件下通用的稳健模型。本研究旨在开发一种稳健的高光谱估算方法,结合连续投影算法(SPA)和随机森林(RF)建模,对六个物种和三个树冠层的八个叶片特征进行估算。利用在中国广东省鼎湖山国家级自然保护区通过塔式起重机获取的 267 个叶片样本和高光谱反射率数据,我们证明了将 SPA-RF 模型应用于一阶导数反射率(FDR)数据时,可显著提高叶片性状估计的准确性和可转移性。将用于波长选择的 SPA 和用于建模的 RF 整合在一起是一种稳健的方法,可有效缓解物种多样性和冠层异质性带来的复杂性。从树冠上层样本得出的叶片性状估计结果通常比从中下层样本得出的结果更精确。此外,适应高光照环境(耐晒)的物种比适应低光照条件(耐荫)的物种能提供更精确的估计。在研究的八种叶片性状中,类黄酮含量、氮平衡指数和 SPAD(相对叶绿素含量)值与碳、氮、磷、等效水厚度和比叶面积相比,估算结果更为可靠。这些发现阐明了树冠层和物种特异性对利用高光谱遥感技术估算叶片性状精度的影响。该研究的见解强调了在生态监测和保护工作中采用针对物种和冠层的方法的必要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Robust hyperspectral estimation of eight leaf functional traits across different species and canopy layers in a subtropical evergreen broad-leaf forest
Accurately estimating leaf functional traits across different species and canopy layers in subtropical evergreen broad-leaf forests remains a significant challenge due to the complexity of canopy structures and spectral noise. Although hyperspectral remote sensing holds substantial promise, existing methods struggle to deliver robust models capable of generalizing across diverse species and environmental conditions. This study aimed to develop a robust hyperspectral estimation approach for eight leaf traits across six species and three canopy layers, integrating successive projections algorithm (SPA) and random forest (RF) modeling. Utilizing 267 leaf samples and hyperspectral reflectance data acquired via a tower crane in Dinghushan National Nature Reserve, Guangdong Province, China, we demonstrated that the SPA-RF model, when applied to first derivative reflectance (FDR) data, significantly enhanced the accuracy and transferability of leaf trait estimations. The integration of SPA for wavelength selection and RF for modeling represented a robust approach, effectively mitigating the complexities introduced by species diversity and canopy heterogeneity. Leaf trait estimations derived from upper canopy layer samples generally yielded greater precision than those from lower and middle layers. Furthermore, species adapted to high-light environments (sun-tolerant) offered more accurate estimations than those adapted to low-light conditions (shade-tolerant). Among the eight leaf traits studied, flavonoid content, nitrogen balance index, and SPAD (relative leaf chlorophyll content) values emerged as more reliably estimated compared to carbon, nitrogen, phosphorus, equivalent water thickness, and specific leaf area. These findings illuminate the influence of canopy layer and species-specific traits on the precision of leaf trait estimations using hyperspectral remote sensing. The study’s insights emphasize the need for species- and canopy layer-specific approaches in ecological monitoring and conservation efforts.
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来源期刊
Ecological Indicators
Ecological Indicators 环境科学-环境科学
CiteScore
11.80
自引率
8.70%
发文量
1163
审稿时长
78 days
期刊介绍: The ultimate aim of Ecological Indicators is to integrate the monitoring and assessment of ecological and environmental indicators with management practices. The journal provides a forum for the discussion of the applied scientific development and review of traditional indicator approaches as well as for theoretical, modelling and quantitative applications such as index development. Research into the following areas will be published. • All aspects of ecological and environmental indicators and indices. • New indicators, and new approaches and methods for indicator development, testing and use. • Development and modelling of indices, e.g. application of indicator suites across multiple scales and resources. • Analysis and research of resource, system- and scale-specific indicators. • Methods for integration of social and other valuation metrics for the production of scientifically rigorous and politically-relevant assessments using indicator-based monitoring and assessment programs. • How research indicators can be transformed into direct application for management purposes. • Broader assessment objectives and methods, e.g. biodiversity, biological integrity, and sustainability, through the use of indicators. • Resource-specific indicators such as landscape, agroecosystems, forests, wetlands, etc.
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