Gary M. Santolo scite author profile

Gary M. Santolo

5Publications

71Citation Statements Received

67Citation Statements Given

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122

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Jacobs (United States), Hill Engineering (United States)

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Kesterson Reservoir: 30 Years of Selenium Risk Assessment and Management

Ohlendorf

Santolo

Byron

et al. 2019

Integr Envir Assess & Manag

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Severe effects of selenium (Se) occurred among birds feeding and nesting at Kesterson Reservoir (San Joaquin Valley, California, USA) in 1983 to 1985. This paper describes the integration of site monitoring, risk assessment, and management actions conducted after the effects of Se were discovered. Selenium contamination of the site occurred over just a few years, but actions to resolve the contamination issues required >20 y. The reservoir, a series of 12 ponds totaling about 1280 acres (518 hectares), served for storage and evaporation of subsurface agricultural drainage. Selenium concentrations in reservoir inflow in 1983 were about 300 µg/L, primarily as selenate; within the ponds it was biogeochemically reduced to other inorganic and organic forms and bioaccumulated by biota or deposited to sediments. An estimated 9000 kg of Se were delivered to Kesterson in 1981–1986. A 1985 order required cleanup and abatement of the reservoir, so the United States Bureau of Reclamation and the US Department of the Interior undertook actions and studies to reduce hazards to birds. In 1988, about 1 million cubic yards (764 500 m3) of soil were used to fill portions of the reservoir, transforming it into terrestrial habitat. Intensive monitoring began in 1989 to assess the impact of the reservoir on wildlife, provide a basis for adjusting site management, verify the effectiveness of cleanup actions, and provide a basis for modifying future monitoring. Monitoring continued until 2014, with modifications and management actions based on results of 2 risk assessments (1993 and 2000). Monitoring results in 2013–2014 showed that Se concentrations were relatively stable over time and risks to wildlife were low. From the initial problem discovery to the conclusion of actions taken to remediate the site, combining responsive, reactive, and adaptive monitoring; modeling; risk assessment; and mitigation actions proved effective in solving the problem so that risks to wildlife were reduced to minimal levels. Integr Environ Assess Manag 2020;16:257–268. © 2019 SETAC

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Body Condition Effects in American Kestrels Fed Selenomethionine

Yamamoto

Santolo

2000

Journal of Wildlife Diseases

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Body composition was measured in male American kestrels (Falco sparverius) beginning after a 77-day exposure to 0, 6, or 12 ppm (dry wt.) selenium as seleno-L-methionine in their diet. Total body mass, lean body mass, and body fat were compared among groups to identify potential wasting effects of selenium, as had been reported for wild waterfowl from a seleniumcontaminated site. On the last day of selenium treatment, selenium concentrations in the blood of kestrels was significantly negatively correlated with lean mass. Kestrels that had been exposed to 12 ppm selenium in the diet exhibited relatively higher lean mass (relative to total body mass) and lower normalized body fat than kestrels fed 0 or 6 ppm dietary selenium. These differences persisted throughout the 6 mo study period. The effect observed on body condition of kestrels at environmentally relevant exposure levels has implications for wild birds with respect to both overwinter survival and reproductive success.

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Nest Box and Site Use by, and Selenium Concentrations in, American Kestrels at Kesterson Reservoir, Central California

Santolo

Yamamoto

2009

Journal of Raptor Research

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Small Mammals Collected from a Site with Elevated Selenium Concentrations and Three Reference Sites

Santolo

2009

Arch Environ Contam Toxicol

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Small mammals were trapped in July, August, and September 1999 at Kesterson Reservoir (Merced County, CA), a site with elevated concentrations of selenium (Se), and at three nearby reference sites. Deer mice (Peromyscus maniculatus) were the most frequently trapped species at all of the sites, and western harvest mice (Reithrodontomys megalotis) and house mice (Mus musculus) were also trapped frequently. About half the animals collected from the reference sites were in reproductive condition, compared to less than a quarter of the animals from Kesterson. A lower proportion of the deer mice trapped at Kesterson was male, compared to about half at the reference sites. Deer mice from Kesterson also tended to have a lower condition index (body weight/body length) than those from the reference sites. Mice from Kesterson had enlarged livers, based on a higher liver-to-body-weight ratio (% liver). Male mice from Kesterson tended to have a smaller anogenital distance than male mice from reference sites, suggesting some feminization of Kesterson mice. Mice from Kesterson had higher liver Se concentrations than mice from reference sites, and some mice from reference sites had surprisingly low liver Se concentrations. It is possible that the effects observed were caused by physical stressors at Kesterson such as lower water and food availability but it also suggests that long-term exposure to elevated levels of Se may be, in part, the cause of some of the differences observed in small mammals from Kesterson.

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Selenium in Blood of Predatory Birds from Kesterson Reservoir and Other Areas in California

Santolo¹,

Yamamoto²

1999

The Journal of Wildlife Management

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Gary M. Santolo

Kesterson Reservoir: 30 Years of Selenium Risk Assessment and Management

Body Condition Effects in American Kestrels Fed Selenomethionine

Nest Box and Site Use by, and Selenium Concentrations in, American Kestrels at Kesterson Reservoir, Central California

Small Mammals Collected from a Site with Elevated Selenium Concentrations and Three Reference Sites

Selenium in Blood of Predatory Birds from Kesterson Reservoir and Other Areas in California

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