利用低成本发光二极管平台跟踪冠层叶绿素荧光。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2023-10-18 eCollection Date: 2023-10-01 DOI:10.1093/aobpla/plad069
Logan E G Brissette, Christopher Y S Wong, Devin P McHugh, Jessie Au, Erica L Orcutt, Marie C Klein, Troy S Magney
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引用次数: 0

摘要

通过脉冲振幅调制(PAM)在叶片尺度上测量的叶绿素荧光为光合作用提供了有价值的见解。在冠层和卫星尺度上,太阳诱导荧光(SIF)提供了一种在时空尺度上估计植物光合活性的方法。然而,远程检索SIF信号需要具有高光谱分辨率的仪器,这使得在自然阳光下测量冠层水平的稳态叶绿素荧光变得困难且往往昂贵。考虑到这一点,我们构建了一个新的低成本光电二极管系统,该系统可以在夜间在树冠上方获取由蓝色发光二极管(LED)光源诱导的远红色叶绿素荧光发射2小时。我们的目标是确定基于主动遥感的夜间光电二极管方法是否可以跟踪阔叶常绿灌木远志在干旱期间冠层尺度LED诱导的叶绿素荧光(LEDIF)的变化。使用低成本光电二极管(LEDIF光电二极管)检索远红色LEDIF(720-740nm),并根据高光谱光谱辐射计(LEDIF高光谱)的测量结果进行验证。为了将LEDIF信号与生理干旱反应联系起来,我们使用孔隙率计、两个叶级植被指数光化学反射率指数和归一化差异植被指数来跟踪气孔导度(gsw),分别表示叶黄素和叶绿素色素的动态,并使用PAM荧光计来测量光化学和非光化学动态。我们的结果证明了LEDIF的光电二极管和高光谱检索之间的相似性能(R2 = 0.77)。此外,LEDIF光电二极管密切跟踪与光化学猝灭减少相关的干旱反应(R2 = 0.69),Fv/Fm(R2 = 0.59)和叶片水平光化学反射率指数(R2 = 0.59)。因此,低成本的LEDIF光电二极管方法有可能在大于单个叶片的空间尺度上和随着时间的推移成为光合活性的有意义的指标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Tracking canopy chlorophyll fluorescence with a low-cost light emitting diode platform.

Tracking canopy chlorophyll fluorescence with a low-cost light emitting diode platform.

Tracking canopy chlorophyll fluorescence with a low-cost light emitting diode platform.

Tracking canopy chlorophyll fluorescence with a low-cost light emitting diode platform.

Chlorophyll fluorescence measured at the leaf scale through pulse amplitude modulation (PAM) has provided valuable insight into photosynthesis. At the canopy- and satellite-scale, solar-induced fluorescence (SIF) provides a method to estimate the photosynthetic activity of plants across spatiotemporal scales. However, retrieving SIF signal remotely requires instruments with high spectral resolution, making it difficult and often expensive to measure canopy-level steady-state chlorophyll fluorescence under natural sunlight. Considering this, we built a novel low-cost photodiode system that retrieves far-red chlorophyll fluorescence emission induced by a blue light emitting diode (LED) light source, for 2 h at night, above the canopy. Our objective was to determine if an active remote sensing-based night-time photodiode method could track changes in canopy-scale LED-induced chlorophyll fluorescence (LEDIF) during an imposed drought on a broadleaf evergreen shrub, Polygala myrtifolia. Far-red LEDIF (720-740 nm) was retrieved using low-cost photodiodes (LEDIFphotodiode) and validated against measurements from a hyperspectral spectroradiometer (LEDIFhyperspectral). To link the LEDIF signal with physiological drought response, we tracked stomatal conductance (gsw) using a porometer, two leaf-level vegetation indices-photochemical reflectance index and normalized difference vegetation index-to represent xanthophyll and chlorophyll pigment dynamics, respectively, and a PAM fluorimeter to measure photochemical and non-photochemical dynamics. Our results demonstrate a similar performance between the photodiode and hyperspectral retrievals of LEDIF (R2 = 0.77). Furthermore, LEDIFphotodiode closely tracked drought responses associated with a decrease in photochemical quenching (R2 = 0.69), Fv/Fm (R2 = 0.59) and leaf-level photochemical reflectance index (R2 = 0.59). Therefore, the low-cost LEDIFphotodiode approach has the potential to be a meaningful indicator of photosynthetic activity at spatial scales greater than an individual leaf and over time.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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