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- Title
Partitioning particulate scattering and absorption into contributions of phytoplankton and non-algal particles in winter in Lake Taihu (China).
- Authors
Deyong Sun; Yunmei Li; Qiao Wang; Heng Lv; Chengfeng Le; Changchun Huang; Shaoqi Gong
- Abstract
Light scattering, backscattering, and absorption coefficients of particles were observed at 62 locations in Lake Taihu (China) in November 2008. A method using a priori knowledge and the measured data was proposed to partition particulate scattering and absorption into contributions of phytoplankton and non-algal particles. The results showed that phytoplankton weakly contributed to the particulate scattering and backscattering with the mean bph/ bp values usually below 10% and bbph/ bbt values of 0.3–3.9% in the whole visible light spectrum, and an approximate relationship of bbt ≈ bbp ≈ bbnap was regarded as reasonable in Lake Taihu. In contrast with scattering and backscattering, phytoplankton made more contributions to the particulate absorption with the mean aph/ ap values varying in a wide range of about 20–70%. Both the scattering and absorption spectra of non-algal particles can be modeled well by corresponding methods. A power function model was used to simulate the scattering spectra, which presented high predictive accuracies with MAPE values usually below 5% and RMSE values below 1.5 m−1, while the spectral absorption model also performed well with mean Snap being 0.0052 nm−1 (standard deviation, SD = 0.0010 nm−1). As to the phytoplankton absorption, a quadratic function model used was considered to have a good performance with corresponding parameters being supported at each wavelength in the spectral range of 400–700 nm. Additionally, two basic bio-optical parameters were determined, that is, b(550) = 0.604 m2 g−1 and a(675) = 0.0288 m2 mg−1. Overall, these results obtained in the present study supply us with new knowledge about optical properties of suspended particulates in an inland and highly turbid lake (Lake Taihu), which are beneficial to the development of analytical models of water color remote sensing.
- Subjects
CHINA; LAKES; BACKSCATTERING; LIGHT scattering; ABSORPTION; SPECTRUM analysis; PARTICULATE matter
- Publication
Hydrobiologia, 2010, Vol 644, Issue 1, p337
- ISSN
0018-8158
- Publication type
Article
- DOI
10.1007/s10750-010-0198-7