![]() ![]() In situ hyperspectral data were used to develop models by relating spectral signal with handheld fluorescence probe (YSI 6600 XLM-SV) measured phycocyanin (PC in cell/ml), a proxy pigment unique for indicating the presence of cyanobacteria. Samples (nā=ā250) were collected from five drinking water sources in central Indiana (CIN), USA, and South Australia (SA), which experience nuisance cyanobacterial blooms. Hyperspectral remote sensing can be an effective approach for rapid assessment of cyanobacterial blooms. Quick and effective methods for detecting cyanobacterial abundance in drinking water supplies are urgently needed to compliment conventional laboratory methods, which are costly and time consuming. Nuisance cyanobacterial blooms degrade water resources through accelerated eutrophication, odor generation, and production of toxins that cause adverse effects on human health. ![]() Song, Kaishan Li, Lin Tedesco, Lenore Clercin, Nicole Hall, Bob Li, Shuai Shi, Kun Liu, Dawei Sun, Ying ![]() Remote estimation of phycocyanin (PC) for inland waters coupled with YSI PC fluorescence probe Remote estimation of phycocyanin (PC) for inland waters coupled with YSI PC fluorescence probe ![]()
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