Human Illnesses and Animal Deaths Associated with Freshwater Harmful Algal Blooms—Kansas

Trevino-Garrison, Ingrid; DeMent, Jamie; Ahmed, Farah; Haines-Lieber, Patricia; Langer, Thomas; Menager, Henri; Neff, Janet; Merwe, Deon van der; Carney, Edward

doi:10.3390/toxins7020353

Cited by 68 publications

(41 citation statements)

References 13 publications

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“…The persistence of detectable microcystins across multiple years and seasons indicates a low-level, chronic presence of microcystins in these waterbodies, similar to findings in Monterey Bay watersheds [ 42 ]. Chronic exposure of microcystins can have human and wildlife health implications [ 15 , 23 , 54 , 55 , 56 , 57 , 58 , 59 ] and can be transported into riparian food webs [ 60 ] and marine shellfish [ 42 , 43 , 45 , 46 , 47 , 61 , 62 ]. The sites sampled in this study were chosen due to the designed beneficial uses that include human and wildlife exposure (such as drinking water supply, agricultural water supply and both contact and non-contact recreation) [ 63 ].…”

Section: Discussionmentioning

confidence: 99%

“…Cyanotoxins pose a significant risk for humans, livestock, pets, and wildlife, causing illness and mortality [ 15 , 16 , 17 , 18 , 19 , 20 , 21 , 22 , 23 , 24 , 25 ]. Cyanotoxin poisoning in pets and livestock is significantly under-recognized and under-reported [ 16 , 23 , 25 ]. Due to the adverse health effects associated with cyanotoxins, and the growing recognition that cyanobacterial blooms can severely impact water quality [ 26 , 27 ], health advisory thresholds for some cyanotoxins have been developed by many states, including California.…”

Section: Introductionmentioning

confidence: 99%

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Microcystin Prevalence throughout Lentic Waterbodies in Coastal Southern California

Howard

Nagoda

Kudela

et al. 2017

Toxins

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Toxin producing cyanobacterial blooms have increased globally in recent decades in both frequency and intensity. Despite the recognition of this growing risk, the extent and magnitude of cyanobacterial blooms and cyanotoxin prevalence is poorly characterized in the heavily populated region of southern California. Recent assessments of lentic waterbodies (depressional wetlands, lakes, reservoirs and coastal lagoons) determined the prevalence of microcystins and, in some cases, additional cyanotoxins. Microcystins were present in all waterbody types surveyed although toxin concentrations were generally low across most habitats, as only a small number of sites exceeded California’s recreational health thresholds for acute toxicity. Results from passive samplers (Solid Phase Adsorption Toxin Tracking (SPATT)) indicated microcystins were prevalent throughout lentic waterbodies and that traditional discrete samples underestimated the presence of microcystins. Multiple cyanotoxins were detected simultaneously in some systems, indicating multiple stressors, the risk of which is uncertain since health thresholds are based on exposures to single toxins. Anatoxin-a was detected for the first time from lakes in southern California. The persistence of detectable microcystins across years and seasons indicates a low-level, chronic risk through both direct and indirect exposure. The influence of toxic cyanobacterial blooms is a more complex stressor than presently recognized and should be included in water quality monitoring programs.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Microcystin Prevalence throughout Lentic Waterbodies in Coastal Southern California

Howard

Nagoda

Kudela

et al. 2017

Toxins

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“…Among the cyanobacteria, Microcystis is perhaps the most notorious. Many Microcystis species have been reported to be able to produce microcystins [1–4], which threaten many aquatic ecosystems and cause serious and occasionally fatal human liver, digestive, neurological, and skin diseases [5–7]. …”

Section: Introductionmentioning

confidence: 99%

Complete genome sequence and genomic characterization of Microcystis panniformis FACHB 1757 by third-generation sequencing

Zhang¹,

Guan²,

Zhang³

et al. 2016

Stand in Genomic Sci

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The cyanobacterial genus Microcystis is well known as the main group that forms harmful blooms in water. A strain of Microcystis, M. panniformis FACHB1757, was isolated from Meiliang Bay of Lake Taihu in August 2011. The whole genome was sequenced using PacBio RS II sequencer with 48-fold coverage. The complete genome sequence with no gaps contained a 5,686,839 bp chromosome and a 38,683 bp plasmid, which coded for 6,519 and 49 proteins, respectively. Comparison with strains of M. aeruginosa and some other water bloom-forming cyanobacterial species revealed large-scale structure rearrangement and length variation at the genome level along with 36 genomic islands annotated genome-wide, which demonstrates high plasticity of the M. panniformis FACHB1757 genome and reveals that Microcystis has a flexible genome evolution.Electronic supplementary materialThe online version of this article (doi:10.1186/s40793-016-0130-5) contains supplementary material, which is available to authorized users.

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“…Several common genera of cyanobacteria have the ability to produce toxins, referred to as cyanotoxins, which affect people, livestock, pets, and wildlife [ 4 , 5 ]. The production of toxins is influenced by algal density, genetic potential, and environmental factors.…”

Section: Introductionmentioning

confidence: 99%

Harmful Algal Bloom Characterization at Ultra-High Spatial and Temporal Resolution Using Small Unmanned Aircraft Systems

Merwe

Price

2015

Toxins

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Harmful algal blooms (HABs) degrade water quality and produce toxins. The spatial distribution of HAbs may change rapidly due to variations wind, water currents, and population dynamics. Risk assessments, based on traditional sampling methods, are hampered by the sparseness of water sample data points, and delays between sampling and the availability of results. There is a need for local risk assessment and risk management at the spatial and temporal resolution relevant to local human and animal interactions at specific sites and times. Small, unmanned aircraft systems can gather color-infrared reflectance data at appropriate spatial and temporal resolutions, with full control over data collection timing, and short intervals between data gathering and result availability. Data can be interpreted qualitatively, or by generating a blue normalized difference vegetation index (BNDVI) that is correlated with cyanobacterial biomass densities at the water surface, as estimated using a buoyant packed cell volume (BPCV). Correlations between BNDVI and BPCV follow a logarithmic model, with r2-values under field conditions from 0.77 to 0.87. These methods provide valuable information that is complimentary to risk assessment data derived from traditional risk assessment methods, and could help to improve risk management at the local level.

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Human Illnesses and Animal Deaths Associated with Freshwater Harmful Algal Blooms—Kansas

Cited by 68 publications

References 13 publications

Microcystin Prevalence throughout Lentic Waterbodies in Coastal Southern California

Microcystin Prevalence throughout Lentic Waterbodies in Coastal Southern California

Complete genome sequence and genomic characterization of Microcystis panniformis FACHB 1757 by third-generation sequencing

Harmful Algal Bloom Characterization at Ultra-High Spatial and Temporal Resolution Using Small Unmanned Aircraft Systems

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