Nevada Risk Assessment/Management Program (NRAMP) – Phase 2: Quarterly Progress Report January 1, 2007 through March 31, 2007

Work conducted in this second quarter consisted of continuing the detailed data and information acquisition; review of the received document contents, and interpretation of significance in light of previous DOE documents. This included telephone and in-person discussions with DOE NVO personnel at the March Waste Management Symposia in Tucson. As a result of these discussions and review of the supporting data and methodologies, a more specific listing of activities was developed, and DOE provided a confirmatory note to HRC in March. Much of the review of the received information does indicate significant changes in data, methodologies, and baseline assumptions over the past four years since NRAMP 1. As identified below (Section 1.3.2), these reflect the changing conditions at the NTS RWMS and are significant for the conduct of the work plan

Nevada Risk Assessment/Management Program – Phase 2 (NRAMP2): Quarterly Progress Report July 1, 2007 through September 30, 2007

Work conducted in this 4th quarter consisted of 3 major activities: • Continue the receipt and reconciliation of Area 5 Radioactive Waste Management Site (RWMS) inventory data. • Receive, review, install, calibrate, and run the Goldsim Area 5 Performance Assessment (PA) Model, and review the supporting parameters and assumptions in the 93-document reference set as a tool for regulatory compliance and closure assessment. • Identify, review, and compare the interpretation of pertinent regulatory guidelines and orders by DOE sites in compliance for PA, Compliance Assessment (CA), and closure activities - as they may relate to the Nevada Test Site (NTS) Area 5 PA and closure activities (focus on exposure assumptions and parameters)

Nevada Risk Assessment/Management Program (NRAMP) – Phase 2: Quarterly Progress Report, Oct. 1, 2006- Dec. 31, 2006

Work conducted in this initial period consisted of work start-up (technical, administrative, contractual), and interviewing/site visits with DOE NVO staff (and support contractors) and HRC staff to quickly ascertain current technical activities and priorities as related to the scope of this task. Since much of the technical work scope builds on previous technical work, it was considered critical to determine the changes (programmatic, technical, and regulatory) that have occurred over the past several years that directly relate to the scope. It was also equally important to determine the technical and programmatic priorities that have been established in the interim

Nevada Risk Assessment/Management Program (NRAMP) – Phase 2: Quarterly Progress Report April 1, 2007 through June 30, 2007

Work conducted this quarter consisted of continuing the detailed data and information acquisition; review of the received document contents, and interpretation of significance in light of previous DOE documents. Much of the effort was devoted to reconciling inconsistencies and contradictions in both the primary data bases and in and among the DOE published documents. These review and reconciliation efforts included regular telephone and e-mail correspondence, as well as in-person discussions with DOE NVO personnel at the April DOE Generator Conference in Las Vegas. Reconciliation efforts continued with frequent (daily) exchanges on the inventory data sets, and the engineering descriptions of the Area 5 RWMS cells. These activities directly support the more specific listing of activities that was developed previously, and for which DOE provided a confirmatory note to HRC in March. These efforts also reconfirm the earlier observation that there have been significant changes in data, methodologies, and baseline assumptions over the past four years since NRAMP 1. These reflect the changing conditions at the NTS RWMS and the need for an accurate disposal inventory for post closure safety assessment, and scenario development

Impact of Alteration Phase Formation and Microbial Activity on the Fate and Transport of the Actinides and Fission Products: Alteration Phase Analysis

The study of the behavior and movement of radionuclides in the environment is significant to many projects of interest to Southern Nevada, especially for the proposed Yucca Mountain Repository, as well as to the nation-wide issues of radiological releases from a variety of scenarios. Understanding and predicting the release, transport, and fate of radionuclides, particularly the actinide elements, in the Mojave/Great Basin geology is an extremely challenging, multi-faceted problem. In support of the national program to deepen our understanding of the behavior of radionuclides in the environment and to better predict the performance of a geological repository at Yucca Mountain, researchers at UNLV, under a cooperative agreement between and UNLV Research Foundation and the U.S. Department of Energy (#DE-FC28-04RW12237), will examine two key fate and transport issues: the potential impact of microorganisms and the impact of the formation of alteration phases due to the corrosion of the waste package and waste forms on the chemistry, fate, and transport of radionuclides released from the site. Task ORD-RF-01 (SIP-UNLV-046) is focused on the influence of microorganisms. Task ORD-RF-02 (SIP-UNLV-045) involves surface complexation and solid dissolution studies. This task, titled Impact of Alteration Phase Formation and Microbial Activity on the Fate and Transport of the Actinides and Fission Products: Alteration Phase Analysis, entails method development and elemental characterization of select alteration phases generated in Task ORD-RF-02. All of this work is subject to QARD and University and Community College System of Nevada (UCCSN) Quality Assurance (QA) Program requirement

Direct analysis of solid corrosion products by laser ablation ICP-MS: Method development and the interaction of aqueous uranium, gadolinium and neodymium with Iron Shot and Iron (III) Oxide

The purpose of this report is to summarize the work and present conclusions of Project Activity Task ORD-RF-03 conducted under cooperative agreement number DE-FC28-04RW12237 between the U.S. Department of Energy and the Nevada System of Higher Education (NSHE). The work was conducted in the Harry Reid Center for Environmental Studies of the University of Nevada Las Vegas from October 1, 2004 to September 30, 2006. The purpose of the study was to develop a method using laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) for the direct analysis of iron corrosion products, to evaluate its capabilities, advantages, and limitations, and to apply the method to examine the interaction of actinides, and other elements relevant to the long-term geologic storage of nuclear waste, with iron corrosion products. The desired quantification is for specific (targeted) sections of the surface; elemental ratios can be determined from the data if of interest

Ground water level measurements in selected boreholes near the site of the proposed repository

The purpose of this report is to summarize the work and present conclusions of Project Activity Task FY-04-005 conducted under DE-FC28-04RW12232 between the U.S. Department of Energy and the Nevada System of Higher Education (NSHE). The work was conducted in the Harry Reid Center for Environmental Studies of the University of Nevada – Las Vegas from Oct 1, 2003 to Sept 30, 2007

Characterization of Microbial Activity

The overall goal of this study is to investigate the phenomena that affect the fate and transport of radionuclides in the environment. The objective of this task, “Characterization of Microbial Activity”, is to develop a molecular biological method for the characterization of the microbial population indigenous to the Yucca Mountain Project site, with emphasis in detection and measurement of species or groups of microorganisms that could be involved in actinide and/or metal reduction, and subsurface transport. Subtasks consist of QA planning and preparation, and literature review. This task is part of a cooperative agreement between the UNLV Research Foundation and the U.S. Department of Energy (#DE-FC28-04RW12237) titled “Yucca Mountain Groundwater Characterization”

Precipitation monitoring at Yucca Mountain

Objectives: Status of the Task to Date Network Overview/ Equipment Data Trends Uses and Collaborative Projects Spatial Interpolation of YM Rainfall Storm Event Analysis Shallow Groundwater Response to Rainfall UE29a1 Water Level Response to Barometric Pressure Fluctuatio

Characterization of microbial populations in the subsurface

This task is part of a cooperative agreement between the UNLV Research Foundation and the U.S. Department of Energy (#DE-FC28-04RW12237) titled “Yucca Mountain Groundwater Characterization”. The work was conducted in the Harry Reid Center for Environmental Studies, Microbiology Division of the University of Nevada, Las Vegas from October 1, 2004 to September 30, 2006. The overall goal of this research was to investigate the phenomena that affect the fate and transport of radionuclides in the environment. The purpose of this task (ORD-RF-01), “Characterization of Microbial Activity”, was to develop a molecular biological method for the characterization of the microbial population indigenous to the Yucca Mountain Project site, with emphasis in detection and measurement of species or groups of microorganisms that could be involved in actinide and/or metal reduction, and subsurface transport. To quantify and characterize the microbial populations, including microorganisms that may be viable but are not currently physiologically active, a molecular biological approach was utilized to amplify and detect microbial DNA present in the subsurface. This approach, termed polymerase chain reaction (PCR), results in the amplification of DNA sequences that are unique to the groups of microorganisms of interest. Quantitative PCR (QPCR) assays were developed and used for the measurement of subsurface microbial populations. The protocols were evaluated in laboratory tests involving representative microbial species and genera, and tested by assaying available subsurface samples previously collected from the Yucca Mountain Project site. Other subtasks included Quality Assurance (QA) planning and preparation, and a literature review. This work was subject to the Nevada System of Higher Education (NSHE) QA Program requirements