Tracking subtle seasonal shifts in pigment composition with hyperspectral reflectance in a temperate evergreen forest

常绿 温带气候 反射率 高光谱成像 常绿森林 温带森林 作文(语言) 温带雨林 颜料 环境科学 生物 生态学 地理 遥感 生态系统 化学 语言学 光学 物理 哲学 有机化学
作者
Troy S. Magney,Logan Brissette,Zoe Pierrat,Barry A. Logan,Jaret S. Reblin,Sara Nelson,J. Stutz,Christian Frankenberg,D. R. Bowling,Christopher Y. S. Wong
出处
期刊:Tree Physiology [Oxford University Press]
标识
DOI:10.1093/treephys/tpaf108
摘要

Abstract Pigment dynamics in temperate evergreen forests remain poorly characterized, despite their year-round photosynthetic activity and importance for carbon cycling. Developing rapid, nondestructive methods to estimate pigment composition enables high-throughput assessment of plant acclimation states. In this study, we investigate the seasonality of eight chlorophyll and carotenoid pigments and hyperspectral reflectance data collected at both the needle (400–2400 nm) and canopy (420–850 nm) scales in Pinus palustris (longleaf pine) at the Ordway Swisher Biological Station in north-central Florida, USA. Needle spectra were obtained at three distinct times throughout the year, while tower-based spectra were collected continuously over a nine-month period. Seasonal trends in photoprotective pigments (e.g., lutein and xanthophylls) and photosynthetic pigments (e.g., chlorophylls) aligned closely with seasonal changes in photosynthetically active radiation and gross primary productivity. To track inter-tree and seasonal variability in pigment pools with hyperspectral reflectance data, we used correlation analyses and ridge regression models. Ridge regression models using the full hyperspectral range outperformed predictions using standard linear regression with specific wavelengths in a normalized difference index fashion. Ridge regression successfully predicted all pigment pools (R2 > 0.5) with comparable accuracy at both the needle and canopy scales. The models performed best for lutein, neoxanthin, antheraxanthin, and chlorophyll a and b - which had greater inter-tree and seasonal variation - and achieved moderate accuracy for violaxanthin, alpha-carotene, and beta-carotene. These results provide a foundation for scaling biochemical traits from ground-based sensors to airborne and satellite platforms, particularly in ecosystems with subtle changes in pigment dynamics.
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