利用高光谱成像时间序列评估常绿针叶树的物候状态

IF 3.8 Q2 ENVIRONMENTAL SCIENCES Remote Sensing Applications-Society and Environment Pub Date : 2024-09-06 DOI:10.1016/j.rsase.2024.101342
Pavel A. Dmitriev, Boris L. Kozlovsky, Anastasiya A. Dmitrieva
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引用次数: 0

摘要

物候学是反映植被状况和环境生态变化的可靠指标。植物光谱物候学(PSP)为开发自动、快速和大面积植被监测系统提供了可能性。植物(植被)的光谱特征被用作植物光谱物候学的度量指标,可通过近距离和远程方式进行感测。一个关键目标是对基于目测观察的物候学结果与植物(植被)光谱特性结果进行比较分析。这个问题的解决对于协调不同层次(地面、地表和遥感)的物候研究至关重要,从而确保在物候参数出现之前进行的物候研究的连续性。这一问题在常绿针叶树中尤为突出。本研究主要针对四种常绿针叶树:西洋杉(Thuja occidentalis)、东方杉(Platycladus orientalis)、欧洲赤松(Pinus sylvestris)和黑松亚种(P. nigra subsp.在实验室条件下,使用 Cubert UHD-185 高光谱相机进行了高光谱成像。与此同时,还进行了物候观察。光谱时间序列产生了 79 个叶绿素敏感型和类胡萝卜素敏感型植被指数(VIs),然后将其用于构建双 logistic 函数。相当一部分植被指数与上述函数的正确性很高,R2 值超过了 0.7。利用双对数函数计算了常绿针叶树季节发展的主要阶段值,即季节开始(SOS)、季节结束(EOS)、峰值位置(POP)和季节长度(LOS)。这些阶段与实验植物的物候发育阶段相匹配。SOS 值、EOS 值、POP 值和 LOS 值的差异很大,这取决于用作指标的 VIs 以及常绿针叶树。SOS 的指标变化最小,而 EOS 和 POP 的指标变化最大。所获得的结果可能对选择基于目测观察的物候参数与物候学比较标准以及最合适的物候指数具有重要意义。
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Assessing the phenological state of evergreen conifers using hyperspectral imaging time series

Phenology is a reliable indicator of vegetation condition and ecological changes in the environment. Plant Spectral Phenology (PSP) offers the potential for the development of automated, rapid, and wide-area vegetation monitoring systems. The spectral characteristics of plants (vegetation) are employed as metrics of PSP, which can be sensed both proximally and remotely. A key objective is to undertake a comparative analysis of the results of PSP versus those of phenology based on visual observations. The resolution of this issue is of paramount importance for the coordination of phenological studies at diverse levels (ground, surface, and remote), thus ensuring the continuity of phenological studies conducted prior to the advent of PSP. This issue is particularly pronounced in the case of evergreen conifers. The present study focuses on four evergreen conifers: Thuja occidentalis, Platycladus orientalis, Pinus sylvestris and P. nigra subsp. pallasiana. Hyperspectral imaging was performed under laboratory conditions using a Cubert UHD-185 hyperspectral camera. Concomitantly, phenological observations were conducted. The spectral time series yielded 79 chlorophyll-sensitive and carotenoid-sensitive Vegetation Indices (VIs), which were then used to construct double logistic functions. A significant proportion of the VIs exhibited a high degree of correctness with regard to the aforementioned functions, as indicated by the value of R2 exceeding 0.7. The values of the principal stages of seasonal development of evergreen conifers, namely the Start of Season (SOS), End of Season (EOS), Position of Peak value (POP) and Length of Season (LOS), were calculated using double logistic functions. These stages were matched to the phenological phases of development of the experimental plants. The values of SOS, EOS, POP and LOS varied significantly depending on the VIs used as a metric as well as the evergreen conifers. The lowest variability by metrics is observed in SOS, while the maximum is observed in EOS and POP. The results obtained may be of importance for the choice of criterion for the comparison of PSP with phenology based on visual observations and the most suitable VIs for these purposes.

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来源期刊
CiteScore
8.00
自引率
8.50%
发文量
204
审稿时长
65 days
期刊介绍: The journal ''Remote Sensing Applications: Society and Environment'' (RSASE) focuses on remote sensing studies that address specific topics with an emphasis on environmental and societal issues - regional / local studies with global significance. Subjects are encouraged to have an interdisciplinary approach and include, but are not limited by: " -Global and climate change studies addressing the impact of increasing concentrations of greenhouse gases, CO2 emission, carbon balance and carbon mitigation, energy system on social and environmental systems -Ecological and environmental issues including biodiversity, ecosystem dynamics, land degradation, atmospheric and water pollution, urban footprint, ecosystem management and natural hazards (e.g. earthquakes, typhoons, floods, landslides) -Natural resource studies including land-use in general, biomass estimation, forests, agricultural land, plantation, soils, coral reefs, wetland and water resources -Agriculture, food production systems and food security outcomes -Socio-economic issues including urban systems, urban growth, public health, epidemics, land-use transition and land use conflicts -Oceanography and coastal zone studies, including sea level rise projections, coastlines changes and the ocean-land interface -Regional challenges for remote sensing application techniques, monitoring and analysis, such as cloud screening and atmospheric correction for tropical regions -Interdisciplinary studies combining remote sensing, household survey data, field measurements and models to address environmental, societal and sustainability issues -Quantitative and qualitative analysis that documents the impact of using remote sensing studies in social, political, environmental or economic systems
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