Evaluating historical trends and influences of meteorological and seasonal climate conditions on lake chlorophyll a using remote sensing
Autor: | Philip E. Dennison, Steven J. Burian, Carly Hyatt Hansen, Gustavious P. Williams |
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Rok vydání: | 2019 |
Předmět: |
0106 biological sciences
Chlorophyll a 010604 marine biology & hydrobiology 010501 environmental sciences Aquatic Science 01 natural sciences Algal bloom chemistry.chemical_compound Oceanography chemistry Remote sensing (archaeology) Environmental science Eutrophication 0105 earth and related environmental sciences Water Science and Technology |
Zdroj: | Lake and Reservoir Management. 36:45-63 |
ISSN: | 2151-5530 1040-2381 |
Popis: | Hansen CH, Burian SJ, Dennison PE, Williams GP. 2019. Evaluating historical trends and influences of meteoorological and seasonal climate conditions on lake chlorophyll a using remote sensing. Lake Reserv Manage. XX:XX–XX. Evaluations of long-term water quality trends and patterns in lakes and reservoirs are often inhibited by irregular historical records. This study uses historical Landsat satellite imagery to construct a more complete historical record of algal biomass (measured via chlorophyll a [Chl-a]) and presents a framework for developing seasonal algal estimation models using open source tools for processing and model development. This approach is both physically based (using observed patterns of variability and algal succession in the lake) and data driven (relying on statistical methods for model development). We use a generalized linear regression modeling technique to develop lake-specific, seasonal models for each lake in the multilake Great Salt Lake system in Utah. The 32-yr constructed history of estimated Chl-a enables analysis of long-term trends within the lake system as well as evaluations of local climate influences on Chl-a concentrations. The estimated historical record exhibits a shift in seasonality (i.e., maximum Chl-a occurs earlier in the growing season), as well as increasing trends of extreme Chl-a concentrations. We also evaluated relationships between meteorological conditions and Chl-a using the enhanced historical record and found localized sensitivity to short-term weather events such as high wind, high temperatures, or precipitation events. Seasonal climate conditions including high winter precipitation, summer temperatures, and early spring snow water equivalent are consistent with higher Chl-a extremes in the historical record. Improved understanding of the trends and climate influences provides useful context and guidance for future monitoring efforts and management strategies. |
Databáze: | OpenAIRE |
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