Linking aerial hyperspectral data to canopy tree biodiversity: An examination of the spectral variation hypothesis

IF 7.1 1区 环境科学与生态学 Q1 ECOLOGY
Anna L. Crofts, Christine I. B. Wallis, Sabine St-Jean, Sabrina Demers-Thibeault, Deep Inamdar, J. Pablo Arroyo-Mora, Margaret Kalacska, Etienne Laliberté, Mark Vellend
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引用次数: 0

Abstract

Imaging spectroscopy is emerging as a leading remote sensing method for quantifying plant biodiversity. The spectral variation hypothesis predicts that variation in plant hyperspectral reflectance is related to variation in taxonomic and functional identity. While most studies report some correlation between spectral and field-based (i.e., taxonomic and functional) expressions of biodiversity, the observed strength of association is highly variable, and the utility in applying spectral community properties to examine environmental drivers of communities remains unknown. We linked hyperspectral data acquired by airborne imaging spectrometers with precisely geolocated field plots to examine the spectral variation hypothesis along a temperate-to-boreal forest gradient in southern Québec, Canada. First, we examine the degree of association between spectral and field-based dimensions of canopy tree composition and diversity. Second, we ask whether the relationships between field-based community properties and the environment are reproduced when using spectral community properties. We found support for the spectral variation hypothesis with the strength of association generally greater for the functional than taxonomic dimension, but the strength of relationships was highly variable and dependent on the choice of method or metric used to quantify spectral and field-based community properties. Using a multivariate approach (comparisons of separate ordinations), spectral composition was moderately well correlated with field-based composition; however, the degree of association increased when univariately relating the main axes of compositional variation. Spectral diversity was most tightly associated with functional diversity metrics that quantify functional richness and divergence. For predicting canopy tree composition and diversity using environmental variables, the same qualitative conclusions emerge when hyperspectral or field-based data are used. Spatial patterns of canopy tree community properties were strongly related to the turnover from temperate-to-boreal communities, with most variation explained by elevation. Spectral composition and diversity provide a straightforward way to quantify plant biodiversity across large spatial extents without the need for a priori field observations. While commonly framed as a potential tool for biodiversity monitoring, we show that spectral community properties can be applied more widely to assess the environmental drivers of biodiversity, thereby helping to advance our understanding of the drivers of biogeographical patterns of plant communities.

Abstract Image

将航空高光谱数据与树冠生物多样性联系起来:光谱变化假说研究
成像光谱学正在成为量化植物生物多样性的主要遥感方法。光谱变异假说预测,植物高光谱反射率的变异与分类学和功能特性的变异有关。虽然大多数研究都报告了生物多样性的光谱表达与基于实地的表达(即分类和功能)之间存在一定的相关性,但观察到的相关性强度差异很大,而且应用光谱群落特性来研究群落环境驱动因素的实用性仍不清楚。我们将机载成像光谱仪获取的高光谱数据与精确定位的野外地块联系起来,沿着加拿大魁北克省南部从温带到寒带的森林梯度研究光谱变化假说。首先,我们研究了树冠树种组成和多样性的光谱和实地维度之间的关联程度。其次,我们询问在使用光谱群落属性时,基于野外的群落属性与环境之间的关系是否再现。我们发现光谱变异假说得到了支持,功能维度的关联强度通常大于分类维度,但关联强度变化很大,并且取决于量化光谱和实地群落属性的方法或指标的选择。采用多元方法(比较不同的排序),光谱组成与实地组成的相关性适中;但是,如果将组成变异的主轴单变量联系起来,则相关程度会增加。光谱多样性与量化功能丰富度和分化的功能多样性指标的关联度最高。在利用环境变量预测冠层树的组成和多样性时,使用高光谱数据或实地数据也会得出相同的定性结论。冠层树群落特性的空间模式与从温带群落到寒带群落的转变密切相关,海拔高度可以解释大部分的变化。光谱组成和多样性为量化大空间范围内的植物生物多样性提供了一种直接的方法,而无需先验的实地观测。虽然光谱群落特性通常被视为生物多样性监测的潜在工具,但我们的研究表明,光谱群落特性可以更广泛地应用于评估生物多样性的环境驱动因素,从而帮助我们加深对植物群落生物地理模式驱动因素的理解。
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来源期刊
Ecological Monographs
Ecological Monographs 环境科学-生态学
CiteScore
12.20
自引率
0.00%
发文量
61
审稿时长
3 months
期刊介绍: The vision for Ecological Monographs is that it should be the place for publishing integrative, synthetic papers that elaborate new directions for the field of ecology. Original Research Papers published in Ecological Monographs will continue to document complex observational, experimental, or theoretical studies that by their very integrated nature defy dissolution into shorter publications focused on a single topic or message. Reviews will be comprehensive and synthetic papers that establish new benchmarks in the field, define directions for future research, contribute to fundamental understanding of ecological principles, and derive principles for ecological management in its broadest sense (including, but not limited to: conservation, mitigation, restoration, and pro-active protection of the environment). Reviews should reflect the full development of a topic and encompass relevant natural history, observational and experimental data, analyses, models, and theory. Reviews published in Ecological Monographs should further blur the boundaries between “basic” and “applied” ecology. Concepts and Synthesis papers will conceptually advance the field of ecology. These papers are expected to go well beyond works being reviewed and include discussion of new directions, new syntheses, and resolutions of old questions. In this world of rapid scientific advancement and never-ending environmental change, there needs to be room for the thoughtful integration of scientific ideas, data, and concepts that feeds the mind and guides the development of the maturing science of ecology. Ecological Monographs provides that room, with an expansive view to a sustainable future.
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