Use of light response curve parameters to estimate gross primary production capacity from chlorophyll indices of global observation satellite and flux data

IF 5.7 Q1 ENVIRONMENTAL SCIENCES Science of Remote Sensing Pub Date : 2024-09-13 DOI:10.1016/j.srs.2024.100164

Kanako Muramatsu , Emi Yoneda , Noriko Soyama , Ana López-Ballesteros , Juthasinee Thanyapraneedkul

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Abstract

The photosynthetic rate has a nonlinear relationship with PAR during the day. We previously developed an algorithm for estimating GPP capacity, which is defined GPP under low-stress condition, using light response curves (LRCs). In this study, we studied the characteristics of LRC parameters of the initial slope and the maximum gross photosynthesis rate (P_max), and formulas to calculate P_max from the relationship between the chlorophyll index of the green and near-infrared (NIR) bands (CI_green) and the GPP capacity at PAR = 2000 μmol m⁻² s⁻¹ (GP2000) for nine vegetation types spanning tropical to subarctic climates on the Eurasian and North American continents using eddy covariance flux measurements and Moderate Resolution Imaging Spectrometer (MODIS) data. The slope of the relationship between CI_green and GP2000 was highest for sites dominated by herbaceous plants such as open shrubland, savanna, and cropland (rice paddy); it was lower at sites dominated by woody plants. The yearly GPP/GPP capacity ratio was close to one in flux data. When the method was applied to satellite data, the daily GPP capacity exhibited a similar seasonal pattern to that of the Flux GPP and MODIS GPP products. Under high dryness conditions, Flux GPP showed the drop from the GPP capacity estimated from CI_green and diurnal PAR data around noon, and they were nearly identical during the early morning and late afternoon. The instantaneous GPP capacity could be considered the baseline of the instantaneous GPP with stress-free conditions and important for quantifying midday depression at the sub-day scale.

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利用光响应曲线参数从全球观测卫星和通量数据的叶绿素指数估算总初级生产能力

光合速率与白天的 PAR 呈非线性关系。我们之前开发了一种利用光响应曲线（LRC）估算 GPP 能力的算法，即低压力条件下的 GPP。在本研究中，我们研究了 LRC 的初始斜率和最大总光合速率（Pmax）参数的特征、通过使用涡协方差通量测量和中分辨率成像光谱仪（MODIS）数据，研究了欧亚大陆和北美大陆从热带到亚北极气候的九种植被类型的绿色和近红外（NIR）波段叶绿素指数（CIgreen）与 PAR = 2000 μmol m-2 s-1 （GP2000）条件下 GPP 能力之间的关系，以及计算 Pmax 的公式。CIgreen 与 GP2000 之间关系的斜率在以草本植物为主的地点（如开阔灌木林、热带草原和耕地（水稻田））最高；在以木本植物为主的地点则较低。在通量数据中，年 GPP/GPP 容量比接近于 1。将该方法应用于卫星数据时，日 GPP 容量表现出与通量 GPP 和 MODIS GPP 产品相似的季节性模式。在高干燥度条件下，通量 GPP 在中午前后显示出与 CIgreen 和昼夜 PAR 数据估算的 GPP 容量相比的下降，而在清晨和傍晚则几乎相同。瞬时 GPP 容量可视为无胁迫条件下瞬时 GPP 的基线，对于量化子日尺度的正午郁闭度非常重要。

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Science of Remote Sensing

CiteScore

12.20

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0.00%

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