Spatiotemporal Variability of Lake Water Quality in the Context of Remote Sensing Models

Hansen, Carly; Burian, Steven J.; Dennison, Philip E.; Williams, Gustavious P.

doi:10.3390/rs9050409

Cited by 41 publications

(20 citation statements)

References 20 publications

(24 reference statements)

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“…In addition to the high spatial resolution of 10-60 m, it presents a high re-visitation, with systematic global coverage in the Alqueva reservoir region of two to three days, considering the two twin satellites in operation. Landsat also has a high spatial resolution (30 m), but much shorter temporal resolution, with 16 days difference between each image, and this revisit time may be problematic for the detection of short events [38]. MODIS has high revisitation (every 1-2 days), but lower spatial resolution of 250-1000 m. Thus, Sentinel-2 represents the best choice for satellite monitoring of Alqueva reservoir compared with these two satellites.…”

Section: Introductionmentioning

confidence: 99%

Temporal and Spatial Variations of Secchi Depth and Diffuse Attenuation Coefficient from Sentinel-2 MSI over a Large Reservoir

et al. 2020

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The Alqueva reservoir (South of Portugal) in the Guadiana river basin constitutes the most important water resource in southern Portugal for domestic and agricultural consumption. We present a methodology developed to characterize spatial and temporal variations of Secchi depth and diffuse attenuation coefficient (both related to dissolved/suspended particles and to water transparency), using high spatial resolution satellite images from Sentinel-2 Multi-Spectral Instrument (MSI). Empirical relations between satellite retrievals of surface reflectances and in situ measurements of water parameters were defined and applied to the entire reservoir for spatial and temporal analysis in the period July 2017-June 2019, useful in the identification of microalgae blooms and rapid variations in water characteristics, which allowed us to differentiate five zones. Water estimates with lower transparency and higher attenuation of radiation were found in the northern area of Alqueva reservoir during the months characterized by higher water temperatures, with Secchi depth monthly averages near 1.0 m and diffuse attenuation coefficient near or above 1.5 m −1 . Satellite retrievals of water with greater transparency in the reservoir were obtained in the southern area in months with low water temperature and atmospheric stability, presenting some monthly Secchi depth averages above 3 m, and diffuse attenuation coefficient below 0.8 m −1 . January 2018 presented great transparency of water with a Secchi depth of 7.5 m for pixels representing the 95th percentile and diffuse attenuation coefficient of 0.36 m for pixels representing the 5th percentile in the Southern region.

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Section: Introductionmentioning

confidence: 99%

Temporal and Spatial Variations of Secchi Depth and Diffuse Attenuation Coefficient from Sentinel-2 MSI over a Large Reservoir

et al. 2020

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“…Studying of the nutrient contamination across the spatial spread of large water bodies is extremely difficult using traditional methods like field monitoring (Ritchie et al, 2003). Remote sensing (RS) approaches (Hansen et al, 2017) can become a valuable tool for detecting water contamination and also record Global Water distribution its temporal variations, depending on the spectral and spatial resolution of these sensors. This paper focuses on estimation of nutrient contamination in a large water body in India using remote sensing techniques.…”

Section: Introductionmentioning

confidence: 99%

Excessive Fertilizer Usage Drives Agriculture Growth but Depletes Water Quality

Kondraju

Rajan

2019

ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci.

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By 2050 most parts of India will be water stressed zones as most of the water resources are under heavy stress due to increasing nutrient contamination in their waters. In this scenario, studying the changes occurring in the freshwater nutrient contamination levels over a temporal scale is extremely important. This study focuses on monitoring the changes occurring in the nutrient contamination levels over a decade in a large reservoir known as Nagarjuna Sagar (NS) using remote sensing data. In this study, Landsat (5 & 8) data for the year 2005year , 2009year , 2015 data for the years 2016 and 2018 is used to study nutrient contamination in NS. The spatial spread of chlorophyll -a (chl-a) area is used as a proxy to estimate the extent of nutrient contamination in NS. In this study, only October images of NS are used as they exhibit the maximum spatial spread of Chl-a and hence help assess the contamination levels over the period 2005 -2018. The analysis shows that during this period, chl-a spatial spread area has increased from 21 Km 2 to 205 Km 2 , indicating a decrease in water quality in the reservoir. The study shows that this is accompanied by an increase in the agricultural land use area by 1000 Km 2 in addition to a steep increase in the use of agricultural inputs, primarily fertilisers like urea, P and K. Thus, while the combined effect of excessive usage of fertilizers with agricultural intensification has increased crop yields, it has also contributed to damaging the freshwater resources.

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“…The reservoir was completed in the early 1940s [27]. Owing to DCR's importance as a water supply reservoir, researchers and government agencies have performed several water quality studies [28][29][30][31][32].…”

Section: Introductionmentioning

confidence: 99%

Phosphorus Distribution in Delta Sediments: A Unique Data Set from Deer Creek Reservoir

2018

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Recently, Deer Creek Reservoir (DCR) underwent a large drawdown to support dam reconstruction. This event exposed sediments inundated by the reservoir, since dam completion in the early 1940s. This event allowed us to take sediment data samples and evaluate them for phosphorous (P) content. It is difficult for normal reservoir sediment studies to have sediment samples at high spatial resolution because of access. During the drawdown, we collected 91 samples on a grid 100 m in one direction and 200 m in the other. This grid defined an area of approximately 750,000 m2 (185 acre). We took both surface samples, and at some sites, vertical samples. We determined water soluble P for all the samples, and P in four other reservoirs or fractions for 19 samples. Results showed water soluble P in the range of 2.28 × 10−3 to 9.81 × 10−3, KCl-P from 2.53 × 10−3 to 1.10 × 10−2, NaOH-P from 5.30 × 10−2 to 4.60 × 10−1, HCl-P from 1.28 × 10−1 to 1.34, and residual (mostly organic) P from 8.23 × 10−1 to 3.23 mg/g. We provide this data set to the community to support and encourage research in this area. We hope this data set will be used and analyzed to support other research efforts.

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Spatiotemporal Variability of Lake Water Quality in the Context of Remote Sensing Models

Cited by 41 publications

References 20 publications

Temporal and Spatial Variations of Secchi Depth and Diffuse Attenuation Coefficient from Sentinel-2 MSI over a Large Reservoir

Temporal and Spatial Variations of Secchi Depth and Diffuse Attenuation Coefficient from Sentinel-2 MSI over a Large Reservoir

Excessive Fertilizer Usage Drives Agriculture Growth but Depletes Water Quality

Phosphorus Distribution in Delta Sediments: A Unique Data Set from Deer Creek Reservoir

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