"You": A Girl amidst Images and Sounds of Adult Violence in Joyce Carol Oates’s Rape: A Love Story

Teena Maguire and her child, Bethie, are brutally attacked and beaten by a mob of violent young men in a park at night. While the mother is gang raped and nearly killed, the daughter is both the witness and the victim of physical and psychological violence. Through its innovative second-person narration, Joyce Carol Oates’s novella Rape: A Love Story (2004) contributes to her sustained interest in family relationships, violence, crime and justice. However, rather than focusing on the victim of the rape, Oates writes a coming-of-age story that explores the daughter’s trauma, posttraumatic stress disorder and fight for survival, a struggle that coincides with the girl’s critical passage from childhood to adulthood. During the months after the assault, Bethie’s innocence is also repeatedly violated by the aggressors’ intrusion into her life and the hostility of the community in the town of Niagara Falls and its social institutions, such as police, school, media, healthcare and the judicial system. Unable to cling to girlhood or to find maternal protection, her forced witnessing of her mother’s gang rape compels Bethie to mature too early while experiencing her first love for a man.

Phytomanagement of soil and groundwater at the Niagara Falls Storage Site (NFSS) using hybridized trees

The Manhattan Engineer District previously used the 191-acre Niagara Falls Storage Site (NFSS) in Niagara County, New York, to store radioactive residues and wastes from uranium (U) ore processing. At present, management practices will determine whether enhanced evapotranspiration rates produced by hybridized shrub willow cuttings planted in 2016 will affect groundwater hydrology. Two shrub willow varieties were planted in an approximately one-half acre area to examine growth performance along a U impacted sanitary sewer line. Additionally, control plots will compare the effectiveness of shrub willows to unplanted areas. Observations of the planted area after 18 months showed success of shrub willow growth with increasing biomass. Chemical analysis from tree tissue samples of the field study showed no significant uptake of U or thorium (Th) to date. A greenhouse study conducted in parallel to the field study tested the willows under controlled greenhouse conditions and evaluated their ability to grow and accumulate contaminants under controlled conditions. Results from the greenhouse study demonstrated that U accumulation was minimal. Thus, this study demonstrates that the shrub willows are not accumulators of U or Th, an advantageous characteristic that implies stabilized contaminants in the soil and no translocation of U into the aboveground biomass.

“This Prodigious Frightful Fall”: An Exploration of Tourist Images of Niagara Falls in Stereography and on Instagram

This thesis explores the development of tourist photography through stereography and Instagram utilizing Niagara Falls stereographs from three collections ranging in date from 1850-1905 and Instagram images geotagged to Prospect Point, Niagara Falls, New York, all posted in the same twenty-four hours from August 6-7, 2016. First, a literature survey explores the history of photography at Niagara Falls, the circulation of tourist imagery, and social media and the networked image. It then moves on to an early history of photography at Niagara Falls with an emphasis on stereographs. It continues into a brief history of social media and an explanation of the inner workings of Instagram. Finally, it concludes with comparisons of aesthetic choices, access, and circulation in stereographs and Instagram, all using the case study images. This thesis argues that Instagram follows the same photographic tradition as stereographs and serves many of the same purposes in tourist photography

A study on vortex separator technology to control combined sewer overflow

A combined-sewer overflow (CSO) is a significant contributor of contamination to surface waters. During a rain event, the flow in a combined sewer system (CSS) may exceed the capacity of the intercepting sewer leading to a wastewater treatment plant, thus releasing a mixture of storm water and raw sanitary wastewater into the receiving water. As CSOs contain untreated domestic, commercial, and industrial wastes, as well as surface runoff, many different types of contaminants can be present. Because of these contaminants and the volume of the flows, CSOs can cause a variety of adverse impacts on the physical characteristics of surface water, impair the viability of aquatic habitats, and pose a potential threat to drinking water supplies. The resulting short-term problems are poor aesthetics (floatables, turbidity, oil and grease), and beach closure due to increased harmful bacteria levels. The long term impacts include reduced dissolved oxygen in receiving waters, eutrophication and sediment contamination. Since CSO is considered to be a major source of water quality impairment for the receiving waters, much attention has been directed to reducing the quantity and quality of CSO discharged to meet the Ministry of Environment guidelines. There are several approaches to control the quantity and quality of CSO. The selection of a particular treatment technology depends on various factors such as site conditions, CSO characteristics, receiving water requirements. One of the emerging options is the vortex separator technology for High Rate Treatment (HRT) facilities at overflow location. There are many devices for CSO control in different trade names where vortex separator technology has been used (e.g. EPA Swirl Concentration, FluidSep(TM), Storm King(TM), CDS®). This study articulates the different CSO control technologies with emphasized [sic] on vortex separator technology. The City of Niagara Falls HRT pilot project for CSO control to the Niagara River is presented as a case study in this report. The performance of two HRT devices - Storm King(TM) and CDS® are evaluated in the pilot project. Analytical Probabilistic Model has been used a a tool in this study to evaluate the potential pollution reduction at the Niagara Falls CSO system.

A study on vortex separator technology to control combined sewer overflow

A combined-sewer overflow (CSO) is a significant contributor of contamination to surface waters. During a rain event, the flow in a combined sewer system (CSS) may exceed the capacity of the intercepting sewer leading to a wastewater treatment plant, thus releasing a mixture of storm water and raw sanitary wastewater into the receiving water. As CSOs contain untreated domestic, commercial, and industrial wastes, as well as surface runoff, many different types of contaminants can be present. Because of these contaminants and the volume of the flows, CSOs can cause a variety of adverse impacts on the physical characteristics of surface water, impair the viability of aquatic habitats, and pose a potential threat to drinking water supplies. The resulting short-term problems are poor aesthetics (floatables, turbidity, oil and grease), and beach closure due to increased harmful bacteria levels. The long term impacts include reduced dissolved oxygen in receiving waters, eutrophication and sediment contamination. Since CSO is considered to be a major source of water quality impairment for the receiving waters, much attention has been directed to reducing the quantity and quality of CSO discharged to meet the Ministry of Environment guidelines. There are several approaches to control the quantity and quality of CSO. The selection of a particular treatment technology depends on various factors such as site conditions, CSO characteristics, receiving water requirements. One of the emerging options is the vortex separator technology for High Rate Treatment (HRT) facilities at overflow location. There are many devices for CSO control in different trade names where vortex separator technology has been used (e.g. EPA Swirl Concentration, FluidSep(TM), Storm King(TM), CDS®). This study articulates the different CSO control technologies with emphasized [sic] on vortex separator technology. The City of Niagara Falls HRT pilot project for CSO control to the Niagara River is presented as a case study in this report. The performance of two HRT devices - Storm King(TM) and CDS® are evaluated in the pilot project. Analytical Probabilistic Model has been used a a tool in this study to evaluate the potential pollution reduction at the Niagara Falls CSO system.

“This Prodigious Frightful Fall”: An Exploration of Tourist Images of Niagara Falls in Stereography and on Instagram

This thesis explores the development of tourist photography through stereography and Instagram utilizing Niagara Falls stereographs from three collections ranging in date from 1850-1905 and Instagram images geotagged to Prospect Point, Niagara Falls, New York, all posted in the same twenty-four hours from August 6-7, 2016. First, a literature survey explores the history of photography at Niagara Falls, the circulation of tourist imagery, and social media and the networked image. It then moves on to an early history of photography at Niagara Falls with an emphasis on stereographs. It continues into a brief history of social media and an explanation of the inner workings of Instagram. Finally, it concludes with comparisons of aesthetic choices, access, and circulation in stereographs and Instagram, all using the case study images. This thesis argues that Instagram follows the same photographic tradition as stereographs and serves many of the same purposes in tourist photography