DEPARTMENT OF ENERGY For more information about the Office of Science, go to Office of Science |
To DOE National Laboratories LAB 03-13
Natural and Accelerated
The Office of Biological and Environmental Research (OBER) of the Office of Science (SC),
U.S. Department of Energy (DOE), hereby announces its interest in receiving proposals for
research in the Natural and Accelerated Bioremediation Research (NABIR) Program. The goal
of the NABIR program is to provide the fundamental science that will serve as the basis for
development of cost-effective bioremediation and long-term stewardship of radionuclides and
metals in the subsurface at DOE sites. The focus of the program is on strategies leading to long-
term immobilization of contaminants in place to reduce the risk to humans and the environment.
Research should address bioremediation of uranium, technetium, plutonium, chromium or
mercury. NABIR is focused on subsurface sediments below the zone of root influence and
includes both the vadose (unsaturated) zone and the saturated zone (groundwater and sediments).
Proposals should describe research projects in one or more of the following program elements:
Biogeochemistry, Biotransformation, Community Dynamics and Microbial Ecology,
Biomolecular Science and Engineering, Assessment, and Bioremediation and its Societal
Implications and Concerns. Studies that integrate research from more than one NABIR element
are strongly encouraged.
DATES: Researchers are strongly encouraged (but not required) to submit a preproposal for
programmatic review. Preproposals will be accepted on an ongoing basis, however, early
submission of preproposals is encouraged, to allow time for review for programmatic relevance.
A brief preproposal should consist of one or two pages of narrative describing the research
objectives and methods.
The deadline for receipt of formal proposals is 4:30 p.m., E.S.T., March 11, 2003, to be accepted
for merit review and to permit timely consideration for awards late in Fiscal Year 2003 or in
early Fiscal Year 2004.
ADDRESSES: Preproposals referencing Program Announcement LAB 03-13 should be sent by
E-mail to anna.palmisano@science.doe.gov.
Formal proposals in response to this solicitation are to be submitted as PDF files on CDs. Eight
CDs should be submitted for each proposal. Color images should be submitted as a separate file
in PDF format and identified as such. These images should be kept to a minimum due to the
limitations of reproducing them. They should be numbered and referred to in the body of the
technical scientific proposal as Color image 1, Color image 2, etc.
The CDs, referencing Program Announcement LAB 03-13, should be sent to: Environmental Remediation
Division, SC-75/Germantown Building, Office of Biological and Environmental Research,
Office of Science, U.S. Department of Energy, 1000 Independence Avenue, SW, Washington,
D.C. 20585-1290, ATTN: Program Announcement LAB 03-13.
When submitting by U.S. Postal Service Express Mail, any commercial mail delivery service, or
when hand carried by the researcher, the following address must be used: Environmental Remediation
Division, SC-75, Office of Biological and Environmental Research, Office of Science, U.S.
Department of Energy, 19901 Germantown Road, Germantown, MD 20874-1290, ATTN:
Program Announcement LAB 03-13.
FOR FURTHER INFORMATION CONTACT: Dr. Anna Palmisano, Environmental
Remediation Sciences Division, SC-75/Germantown Building, Office of Biological and
Environmental Research, Office of Science, U.S. Department of Energy, 1000 Independence
Ave., SW, Washington, D.C. 20585-1290, telephone: (301) 903-9963, E-mail:
anna.palmisano@science.doe.gov, fax: (301) 903-8519.
SUPPLEMENTARY INFORMATION:
Background
For more than 50 years, the U.S. created a vast network of more than 113 facilities for research,
development, testing and production of nuclear weapons. As a result of these activities,
subsurface contamination has been identified at over 7,000 discrete sites across the U.S.
Department of Energy complex. With the end of the Cold War threat, the DOE has shifted its
emphasis to remediation, decommissioning, and decontamination of contaminated groundwater,
sediments, and structures at its sites. DOE is currently responsible for remediating 1.7 trillion
gallons of contaminated groundwater and 40 million cubic meters of contaminated soil. It is
estimated that more than 60% of DOE facilities have groundwater contaminated with metals or
radionuclides. More than 50% of all DOE facilities have soils or sediments contaminated with
radionuclides and metals. While virtually all of the contaminants found at industrial sites
nationwide can also be found at DOE sites, many of the metals and most of the radionuclides are
unique to DOE sites. The NABIR program aims: 1) to provide the fundamental knowledge that
may lead to new remediation technologies or strategies for radionuclides and metals; and 2) to
advance the understanding of the key microbiological and geochemical processes that control the
effectiveness of in situ immobilization as a means of long term stewardship, and how these
processes impact contaminant transport.
While bioremediation of organic contaminants involves their biotransformation to benign
products such as carbon dioxide, bioremediation of radionuclides and metals involves their
removal from the aqueous phase to reduce risk to humans and the environment. Microorganisms
can directly affect the solubility of radionuclides and metals by changing their oxidation state to
a reduced form that leads to in situ immobilization. Or, microorganisms can indirectly
immobilize radionuclides and metals through the reduction of inorganic ions that can, in turn,
chemically reduce contaminants to less mobile forms. The long term stability of these reduced
contaminants is as yet unknown.
Currently, the fundamental knowledge that would allow cost-effective deployment of in situ
subsurface bioremediation of radionuclides and metals is lacking. The focus of the NABIR
program is on radionuclides and metals that: 1) pose the greatest potential risk to humans and the
environment at DOE sites; and 2) are amenable to for immobilization by means of
bioremediation. Thus, research is focused on the radionuclides uranium, technetium and
plutonium and the metals chromium and mercury. Radioactive contaminants such as tritium and
cobalt are not a focus because of their relatively short half lives, and strontium and cesium are
not addressed because they are not readily amenable to biotransformation. Research is focused
on subsurface sediments below the zone of root influence and includes both the vadose
(unsaturated) zone and the saturated zone (both groundwater and sediments). NABIR research is
oriented toward areas that have low levels of widespread contamination; it is too costly to clean
up those situations with existing technologies. Uranium, technetium, and chromium can be
especially mobile in the subsurface under certain conditions; they are risk-driving contaminants
at some DOE sites. The effects of co-contaminants such as nitrate, complexing agents (such as
EDTA) and chlorinated solvents (such as trichloroethylene and carbon tetrachloride) on the
behavior of radionuclides and metals in the subsurface is also of interest to the NABIR program.
NABIR Program
The goal of the NABIR program is to provide the fundamental science that will serve as the basis
for development of cost-effective bioremediation and long-term stewardship of radionuclides and
metals in the subsurface at DOE sites. The focus of the program is on strategies leading to long-
term immobilization in place of contaminants to reduce the risk to humans and the environment.
The NABIR program encompasses both intrinsic bioremediation by naturally occurring
microbial communities, as well as accelerated bioremediation through the use of biostimulation
(addition of inorganic or organic nutrients). The NABIR Program supports hypothesis-driven,
basic research that is more fundamental in nature than demonstration projects. Research on
phytoremediation will not be supported by this solicitation; a separate solicitation for a Joint
Interagency Program on Phytoremediation Research can be found at:
http://www.sc.doe.gov/production/grants/LAB03_04.html.
Naturally occurring subsurface microbes may be involved in intrinsic bioremediation of
radionuclides and metals by reduction and immobilization, either directly or indirectly. However,
these natural processes typically occur at fairly slow rates, and there may be a need to use
biostimulation to enhance the rates. The primary focus of the NABIR program is on
biostimulation strategies, due to the ubiquity of metal-reducers in nature. Immobilized
radionuclides and metals are not removed from the subsurface as may occur with excavation,
pump and treat, or biodegradation of organic contaminants. Immobilization is focused on
containment in vadose zone and groundwater plumes. As such, it may be a strategy applied to
prevent the discharge of deep or widely distributed contaminants from the vadose zone to
groundwater, or from groundwater to a receiving water body (e.g., the Columbia River at
Hanford). In situ immobilization of contaminants is one approach to long term stewardship,
which is the post-closure responsibility of DOE at its contaminated sites. Long term stewardship
involves long-term monitoring and other maintenance activities to ensure that residual in-ground
contaminants do not spread further. Therefore, an important aspect to the NABIR program is to
assess factors controlling the long-term stability of the immobilized contaminants and to devise
approaches (biological/chemical) to maintain their immobilization through the stewardship
phase.
The NABIR program consists of four interrelated Science Elements (Biogeochemistry,
Biotransformation, Community Dynamics and Microbial Ecology, and Biomolecular Science
and Engineering). Innovative method development for the Science Elements is supported under
the Assessment Element. The program also includes an element addressing ethical, legal and
societal issues called Bioremediation and its Societal Implications and Concerns (BASIC). The
NABIR program strongly encourages researchers to integrate laboratory and field research at
DOE or DOE-relevant sites. More information on the NABIR program may be found at:
http://www.lbl.gov/NABIR.
The NABIR Field Research Center (FRC) and Other Field Research Sites
The NABIR FRC provides a site for investigators to conduct field-scale research and to obtain
DOE-relevant subsurface samples for laboratory-based studies of bioremediation. The FRC is
located on the U.S. Department of Energy Oak Ridge Reservation in Oak Ridge, Tennessee, and
it is operated by the Environmental Sciences Division of the Oak Ridge National Laboratory.
The contaminated and background (uncontaminated control) areas are located in Bear Creek
Valley (BCV) within the Y-12 Plant area. See:
http://www.esd.ornl.gov/nabirfrc for more detailed information on the NABIR FRC.
The contaminated research site at the FRC is a 98-hectare plot containing uranium, nitrate,
technetium, strontium, and cadmium in groundwater, soils, and sediments. To a lesser extent,
metals such as mercury, copper, zinc, and lead, and organics such as acetone, methylene
chloride, tetrachloroethylene, and toluene are also present. The contaminated area includes the
commingled groundwater plumes that originated from a combination of the S-3 Waste Disposal
Ponds and the Bone Yard/Burn Yard. Both the background and contaminated areas are well-
characterized and well-instrumented, and should be available for a duration of five to ten years.
The water table resides between 0 and 3 m below the surface and is readily accessible through
multilevel groundwater monitoring wells.
The initial focus of NABIR field research is on in situ biostimulation experiments to promote
immobilization of uranium. Understanding natural and stimulated uranium biotransformation in
the presence of high nitrate and low pH in unconsolidated residuum and fractured rock is one of
the biggest challenges at the FRC at Oak Ridge, and at other DOE sites. NABIR researchers
conduct controlled, field-scale hypothesis testing at the FRC. In addition, the FRC is currently
providing subsurface samples for 20 laboratory-based NABIR projects. These projects span all
NABIR Science Elements as well as the cross-cutting Assessment and BASIC Elements. Site
characterization activities are ongoing and will result in a rich database for use by NABIR
researchers. The FRC is responsible for data management, systems integration, and fundamental
hydrological and geochemical modeling of the contaminated and background sites. The FRC
makes these data and models accessible to all NABIR researchers.
While the FRC provides a major focus for the NABIR program, it is recognized that other sites
that represent the different hydrogeological regimes found at DOE sites will also be valuable to
researchers. A large fraction of the national inventory of DOE wastes resides in unconsolidated,
porous media in relatively thick, vadose zones and in groundwaters low in soluble organic
carbon. For this reason, NABIR investigators are encouraged to take advantage of opportunities
to collect and analyze samples from arid western environments that typify the Hanford
Reservation and Uranium Mill Tailings Remedial Action (UMTRA) sites. For further
information on NABIR Field Research, please contact Mr. Paul Bayer (paul.bayer@
science.doe.gov), the NABIR Field Activities Manager.
NABIR investigators may want to take advantage of the capabilities of the Environmental
Molecular Sciences Laboratory (EMSL) at the Pacific Northwest National Laboratory
(http://www.emsl.pnl.gov). EMSL provides users with
unique and state-of-the-art resources including facilities for high field magnetic resonance,
high performance mass spectrometry, interfacial and nanoscale science, molecular science computing,
and optical imaging and spectroscopy.
Current Request for Proposals
Research projects that address the scientific aims of individual NABIR elements including
Biogeochemistry, Biotransformation, Community Dynamics, Biomolecular Science and
Engineering, as well as the cross cutting elements Assessment and BASIC are solicited in this
announcement. Integrative, interdisciplinary studies that involve research from more than one
element are especially encouraged. The focus is on field research, or laboratory studies that can
be scaled to the field, to provide supporting information for current or future field research. The
NABIR Field Research Center (FRC) provides an opportunity for researchers to work at a DOE
site in collaboration with scientists from different research elements. Studies at the NABIR FRC
show that microbial reduction of radionuclides and metals is affected by the presence of nitrate
and low pH. Thus, research into microbial mechanisms involved in the reduction of
radionuclides and metals in this type of subsurface environment is of special interest.
Biogeochemistry: The goal of this element is to understand the fundamental biogeochemical
reactions that would lead to long-term immobilization of metal and radionuclide contaminants in
the subsurface. The focus is on reactions that govern the concentration, chemical speciation, and
distribution of metals and radionuclides between the aqueous and solid phases. Biogeochemical
reactions in subsurface environments are influenced by a wide variety of factors, including the
availability of electron donors and acceptors, the nature of the microbial community, the
chemical species or form of contaminant, the hydrogeology of the site, and the nature of the
environmental matrix. Often several competing redox reactions make the prediction of the
substrates, products, and kinetics difficult. The biogeochemical reactions are further complicated
by the sorption of contaminants and reaction products to mineral surfaces, and the presence of
natural organic matter and co-contaminants. The research challenge is to identify and prioritize
the key biogeochemical reactions that are needed to predict the rate and extent of reactions that
result in the immobilization of radionuclides and metals. New and creative scientific approaches
are sought that address the following fundamental research questions:
DOE subsurface sites encompass a range of redox environments where contaminants such as
uranium are present. One challenge is to understand the impact of these environments on
microbial physiological processes involved in the biotransformation of radionuclides and metals
to an immobilized form. Knowledge of the metabolic pathways for biotransformation of these
contaminants by naturally occurring microbial communities in vadose zones, saturated zones and
the waste plume is needed. A second challenge is to accelerate the rates of these physiological
processes in situ, in complex subsurface environments. Biotransformation of metals and
radionuclides in the subsurface is poorly understood, and predictive models based on laboratory
studies have not always accurately simulated the observed fate of metals and radionuclides in the
field. It is important to understand the kinetics of desirable metal and radionuclide
biotransformations and the physicochemical factors affecting those kinetics in the field. Research
is needed to address questions such as:
Biomolecular Science and Engineering: Research in this element provides a knowledge base,
at the biomolecular level, of the processes leading to the in situ immobilization of radionuclides
and metals by indigenous subsurface microorganisms. The primary goal of this element is to
understand the genetic, biochemical, and regulatory processes that mediate biotransformation of
these specific radionuclides and metals, leading to their immobilization. Characterization of
genes, gene products, and genetic regulatory networks associated with these biotransformations
is key to this understanding. Detailed studies of the enzymatic mechanisms for reduction of
radionuclides and/or metals are needed to increase our understanding of in situ processes and to
identify gene targets for better molecular assessment of radionuclide and metal reduction.
Secondary goals include: 1) understanding molecular mechanisms of resistance of subsurface
microorganisms to radionuclide and metal toxicity; 2) understanding, at a molecular level, the
processes of lateral transfer between microbes of genes involved in biotransformation of these
radionuclides and metals; 3) developing novel technologies to provide insights into biomolecular
mechanisms of metal and radionuclide biotransformation; and 4) developing approaches to
manipulate pathways and enzyme systems that mediate these biotransformations .
DOE subsurface sites encompass a wide range of environments with a diversity of microbial
communities and contaminants. One of the challenges of the Biomolecular Science and
Engineering Element is to select microbes for studies that are active members of subsurface
microbial communities. A second challenge is to extrapolate laboratory findings on pure cultures
under laboratory conditions to complex in situ environmental conditions. This extrapolation is
especially critical in studying gene expression, which may be modified by changes in local
cellular environments in the subsurface. A third challenge is to take advantage of genomic and
other data derived from the DOE Microbial Genome Program
(http://www.ornl.gov/microbialgenomes)
on subsurface microorganisms to increase our understanding of how genes relevant to bioremediation
are expressed in the environment. Research is needed to address questions such as:
Proposals should primarily focus on indigenous subsurface microorganisms that can precipitate
and immobilize these radionuclides and metals. The ultimate goal of this element is to improve
our ability to predict and manipulate the activities of microbes in situ, particularly in an in situ
immobilization scenario.
Assessment: Assessment is a cross-cutting element with a goal to develop innovative methods to
assess processes and endpoints in support of the NABIR Science Elements. Thus, assessment
projects are being sought that support the Science Elements of Biogeochemistry,
Biotransformation, Community Dynamics/Microbial Ecology, and Biomolecular Science and
Engineering. Methods may range from molecular to field scale, but they should improve the
understanding of in situ bioremediation processes in subsurface environments contaminated with
radionuclides and metals. Priority will be given to research proposals that could lead to fieldable,
cost-effective, real time assessment techniques and/or instrumentation. NABIR will not fund
projects that examine endpoints relating to human health risks. Research should address the
development of innovative and effective methods for assessing or quantifying:
Techniques must enable NABIR science and address specific science needs of the program. The
researcher should explain the potential impact and contribution to the NABIR program, as well
as the relevance and potential usefulness of the innovation.
Bioremediation and its Societal Implications and Concerns (BASIC): The objective of this
element is to identify and explore societal issues associated with NABIR. BASIC is designed to
provide information on issues that might influence the implementation of NABIR science and to
involve NABIR scientists in discussions about the societal implication of their research. The
BASIC program may also provide an avenue to identify key issues and sensitivities involved in
bioremediation strategies, such as immobilization of metals and radionuclides in situ as a means
of long-term stewardship.
Major focus areas for BASIC research include 1) Identifying and prioritizing societal and
regulatory issues associated with bioremediation of metals and radionuclides in subsurface
environments, particularly strategies that entail immobilization in place; 2) fostering
collaboration between NABIR scientists and site stakeholders and 3) enhancing the
understanding and communication of NABIR research to stakeholder communities and others.
Quantitative approaches and integration with other NABIR program elements are strongly
encouraged. BASIC awards will not extend beyond two years beyond the award date. All
proposals should provide a plan for evaluation of progress or outcomes. Where a product
(guidelines, recommendations, documents, etc.) is the result, dissemination plans including
timelines must be discussed.
The NABIR program also encourages smaller award proposals (up to $35,000 total costs) for
innovative and exploratory activities within the BASIC area. Such exploratory awards could be
used to carry out pilot investigative research on an issue consistent with any of the above areas of
BASIC research, support a sabbatical leave to organize and hold a conference, or to initiate start-
up studies that could generate preliminary data for a subsequent proposal. Such small award
proposals must use the standard DOE procedures outlined below, but should have a narrative
section no more than five pages. These small awards, which will be peer reviewed, will not
extend beyond one year from the award date.
Integrative Studies
This solicitation especially encourages those studies that integrate research from more than one
NABIR research element through laboratory and/or field research. This interdisciplinary research
should focus on achieving the primary goals of the NABIR program through collaborative
studies in which the experimental design integrates two or more NABIR elements.
Interdisciplinary teams may include participation from two or more research areas that might
include: microbiology, geochemistry, hydrology, environmental engineering, numerical
modeling or other disciplines. Partnering with specific field experiments may provide
information for hypothesis testing. Such integrative studies might include, for example:
Additional Information for Proposals
It is anticipated that up to $3 million will be available for multiple awards to be made in late
Fiscal Year 2003 and early Fiscal Year 2004 in the categories described above, contingent on
availability of appropriated funds. Proposals for all elements except for BASIC may request
project support up to three years, with out-year support contingent on availability of funds,
progress of the research and programmatic needs. Proposals for BASIC may request support for
two years, or one year for exploratory activities. Annual budgets for projects are expected to
range from $100,000 to $300,000 total costs. Annual budgets for integrative studies involving
participants representing more than one research element may range up to $450,000. All
proposals should include letters of agreement to collaborate from potential collaborators; these
letters should specify the contributions the collaborators intend to make if the proposal is
accepted and funded. DOE may encourage collaboration among prospective investigators to
promote joint proposals or joint research projects by using information obtained through the
preliminary proposals or through other forms of communication.
Merit Review
For renewals, progress on previous NABIR funded research will be an important criterion for
evaluation. As part of the evaluation, program policy factors also become a selection priority.
Note, external peer reviewers are selected with regard to both their scientific expertise and the
absence of conflict-of-interest issues. Federal and non-federal reviewers will be used, and
submission of an proposal constitutes agreement that this is acceptable to the investigator(s) and
the submitting institution.
Submission Information
DOE is under no obligation to pay for any costs associated with the preparation or submission of
proposals if an award is not made. In addition, for this solicitation, the research description must
be 20 pages or less, exclusive of attachments, and must contain an abstract or summary of the
proposed research (to include the hypotheses being tested, the proposed experimental design, and
the names of all investigators and their affiliations). Researchers who have had prior NABIR
support must include a Progress Section with a brief description of results and a list of
publications derived from that funding. Attachments should include short (2 pages) curriculum
vitae, QA/QC plan, a listing of all current and pending federal support and letters of intent when
collaborations are part of the proposed research. Curriculum vitae should be submitted in a form
similar to that of NIH or NSF (two to three pages).
Any recipient of an award from the Office of Science, performing research involving
recombinant DNA molecules and/or organisms and viruses containing recombinant DNA
molecules shall comply with the National Institutes of Health "Guidelines for Research
Involving Recombinant DNA Molecules," which is available via the World Wide Web at:
http://www.niehs.nih.gov/odhsb/biosafe/nih/rdna-apr98.pdf, (59 FR 34496, July 5, 1994), or
such later revision of those guidelines as may be published in the Federal Register.
Researchers must also comply with other federal and state laws and regulations as appropriate;
for example, the Toxic Substances Control Act (TSCA) as it applies to genetically modified
organisms. Although compliance with NEPA is the responsibility of DOE, researchers proposing
to conduct field research are expected to provide information necessary for the DOE to complete
the NEPA review and documentation.
Additional information on the NABIR Program is available at the following web site:
http://www.lbl.gov/NABIR/. For researchers who do not have access to the world wide web,
please contact Karen Carlson; Environmental Sciences Division, SC-74/Germantown Building;
U.S. Department of Energy; 1000 Independence Avenue, S.W., Washington, D.C. 20585-1290;
phone: (301) 903-3338; fax: (301) 903-8519; E-mail: karen.carlson@science.doe.gov; for hard
copies of background material mentioned in this solicitation.
The instructions and format described below should be followed. Reference Program
Announcement LAB 03-13 on all submissions and inquiries about this program.
GUIDE FOR PREPARATION OF SCIENTIFIC/TECHNICAL PROPOSALS TO BE SUBMITTED BY NATIONAL LABORATORIES Proposals from National Laboratories submitted to the Office of Science (SC) as a result of this program announcement will follow the Department of Energy Field Work Proposal process with additional information requested to allow for scientific/technical merit review. The following guidelines for content and format are intended to facilitate an understanding of the requirements necessary for SC to conduct a merit review of a proposal. Please follow the guidelines carefully, as deviations could be cause for declination of a proposal without merit review. 1. Evaluation Criteria Proposals will be subjected to formal merit review (peer review) and will be evaluated against the following criteria which are listed in descending order of importance:
Appropriateness of the proposed method or approach Competency of the personnel and adequacy of the proposed resources Reasonableness and appropriateness of the proposed budget 2. Summary of Proposal Contents
Proposal Cover Page Table of Contents Abstract Narrative Literature Cited Budget and Budget Explanation Other support of investigators Biographical Sketches Description of facilities and resources Appendix An original and seven copies of the formal proposal/FWP must be submitted. (Unless otherwise instructed in this Program Announcement.) 3. Detailed Contents of the Proposal Proposals must be readily legible, when photocopied, and must conform to the following three requirements: the height of the letters must be no smaller than 10 point with at least 2 points of spacing between lines (leading); the type density must average no more than 17 characters per inch; the margins must be at least one-half inch on all sides. Figures, charts, tables, figure legends, etc., may include type smaller than these requirements so long as they are still fully legible.
3.1 Field Work Proposal Format (Reference DOE Order 5700.7C) The Field Work Proposal (FWP) is to be prepared and submitted consistent with policies of the investigator's laboratory and the local DOE Operations Office. Additional information is also requested to allow for scientific/technical merit review. Laboratories may submit proposals directly to the SC Program office listed above. A copy should also be provided to the appropriate DOE operations office. 3.2 Proposal Cover Page The following proposal cover page information may be placed on plain paper. No form is required.
SC Program announcement title Name of laboratory Name of principal investigator (PI) Position title of PI Mailing address of PI Telephone of PI Fax number of PI Electronic mail address of PI Name of official signing for laboratory* Title of official Fax number of official Telephone of official Electronic mail address of official Requested funding for each year; total request Use of human subjects in proposed project:
Signature of official, date of signature* *The signature certifies that personnel and facilities are available as stated in the proposal, if the project is funded. Provide the initial page number for each of the sections of the proposal. Number pages consecutively at the bottom of each page throughout the proposal. Start each major section at the top of a new page. Do not use unnumbered pages and do not use suffices, such as 5a, 5b. 3.4 Abstract Provide an abstract of no more than 250 words. Give the broad, long-term objectives and what the specific research proposed is intended to accomplish. State the hypotheses to be tested. Indicate how the proposed research addresses the SC scientific/technical area specifically described in this announcement. 3.5 Narrative The narrative comprises the research plan for the project and is limited to 20 pages. It should contain the following subsections: Background and Significance: Briefly sketch the background leading to the present proposal, critically evaluate existing knowledge, and specifically identify the gaps which the project is intended to fill. State concisely the importance of the research described in the proposal. Explain the relevance of the project to the research needs identified by the Office of Science. Include references to relevant published literature, both to work of the investigators and to work done by other researchers. Preliminary Studies: Use this section to provide an account of any preliminary studies that may be pertinent to the proposal. Include any other information that will help to establish the experience and competence of the investigators to pursue the proposed project. References to appropriate publications and manuscripts submitted or accepted for publication may be included. Research Design and Methods: Describe the research design and the procedures to be used to accomplish the specific aims of the project. Describe new techniques and methodologies and explain the advantages over existing techniques and methodologies. As part of this section, provide a tentative sequence or timetable for the project. Subcontract or Consortium Arrangements: If any portion of the project described under "Research Design and Methods" is to be done in collaboration with another institution, provide information on the institution and why it is to do the specific component of the project. Further information on any such arrangements is to be given in the sections "Budget and Budget Explanation", "Biographical Sketches", and "Description of Facilities and Resources". 3.6 Literature Cited List all references cited in the narrative. Limit citations to current literature relevant to the proposed research. Information about each reference should be sufficient for it to be located by a reviewer of the proposal. 3.7 Budget and Budget Explanation A detailed budget is required for the entire project period, which normally will be three years, and for each fiscal year. It is preferred that DOE's budget page, Form 4620.1 be used for providing budget information*. Modifications of categories are permissible to comply with institutional practices, for example with regard to overhead costs. A written justification of each budget item is to follow the budget pages. For personnel this should take the form of a one-sentence statement of the role of the person in the project. Provide a detailed justification of the need for each item of permanent equipment. Explain each of the other direct costs in sufficient detail for reviewers to be able to judge the appropriateness of the amount requested. Further instructions regarding the budget are given in section 4 of this guide. * Form 4620.1 is available at web site: http://www.sc.doe.gov/production/grants/Forms.html 3.8 Other Support of Investigators Other support is defined as all financial resources, whether Federal, non-Federal, commercial or institutional, available in direct support of an individual's research endeavors. Information on active and pending other support is required for all senior personnel, including investigators at collaborating institutions to be funded by a subcontract. For each item of other support, give the organization or agency, inclusive dates of the project or proposed project, annual funding, and level of effort devoted to the project. 3.9 Biographical Sketches This information is required for senior personnel at the laboratory submitting the proposal and at all subcontracting institutions. The biographical sketch is limited to a maximum of two pages for each investigator. 3.10 Description of Facilities and Resources Describe briefly the facilities to be used for the conduct of the proposed research. Indicate the performance sites and describe pertinent capabilities, including support facilities (such as machine shops) that will be used during the project. List the most important equipment items already available for the project and their pertinent capabilities. Include this information for each subcontracting institution, if any. 3.11 Appendix Include collated sets of all appendix materials with each copy of the proposal. Do not use the appendix to circumvent the page limitations of the proposal. Information should be included that may not be easily accessible to a reviewer. Reviewers are not required to consider information in the Appendix, only that in the body of the proposal. Reviewers may not have time to read extensive appendix materials with the same care as they will read the proposal proper. The appendix may contain the following items: up to five publications, manuscripts (accepted for publication), abstracts, patents, or other printed materials directly relevant to this project, but not generally available to the scientific community; and letters from investigators at other institutions stating their agreement to participate in the project (do not include letters of endorsement of the project).
4. Detailed Instructions for the Budget 4.1 Salaries and Wages List the names of the principal investigator and other key personnel and the estimated number of person-months for which DOE funding is requested. Proposers should list the number of postdoctoral associates and other professional positions included in the proposal and indicate the number of full-time-equivalent (FTE) person-months and rate of pay (hourly, monthly or annually). For graduate and undergraduate students and all other personnel categories such as secretarial, clerical, technical, etc., show the total number of people needed in each job title and total salaries needed. Salaries requested must be consistent with the institution's regular practices. The budget explanation should define concisely the role of each position in the overall project. 4.2 Equipment DOE defines equipment as "an item of tangible personal property that has a useful life of more than two years and an acquisition cost of $25,000 or more." Special purpose equipment means equipment which is used only for research, scientific or other technical activities. Items of needed equipment should be individually listed by description and estimated cost, including tax, and adequately justified. Allowable items ordinarily will be limited to scientific equipment that is not already available for the conduct of the work. General purpose office equipment normally will not be considered eligible for support. 4.3 Domestic Travel The type and extent of travel and its relation to the research should be specified. Funds may be requested for attendance at meetings and conferences, other travel associated with the work and subsistence. In order to qualify for support, attendance at meetings or conferences must enhance the investigator's capability to perform the research, plan extensions of it, or disseminate its results. Consultant's travel costs also may be requested. 4.4 Foreign Travel Foreign travel is any travel outside Canada and the United States and its territories and possessions. Foreign travel may be approved only if it is directly related to project objectives. 4.5 Other Direct Costs The budget should itemize other anticipated direct costs not included under the headings above, including materials and supplies, publication costs, computer services, and consultant services (which are discussed below). Other examples are: aircraft rental, space rental at research establishments away from the institution, minor building alterations, service charges, and fabrication of equipment or systems not available off-the-shelf. Reference books and periodicals may be charged to the project only if they are specifically related to the research. a. Materials and Supplies The budget should indicate in general terms the type of required expendable materials and supplies with their estimated costs. The breakdown should be more detailed when the cost is substantial. b. Publication Costs/Page Charges The budget may request funds for the costs of preparing and publishing the results of research, including costs of reports, reprints page charges, or other journal costs (except costs for prior or early publication), and necessary illustrations. c. Consultant Services Anticipated consultant services should be justified and information furnished on each individual's expertise, primary organizational affiliation, daily compensation rate and number of days expected service. Consultant's travel costs should be listed separately under travel in the budget. d. Computer Services The cost of computer services, including computer-based retrieval of scientific and technical information, may be requested. A justification based on the established computer service rates should be included. e. Subcontracts Subcontracts should be listed so that they can be properly evaluated. There should be an anticipated cost and an explanation of that cost for each subcontract. The total amount of each subcontract should also appear as a budget item. 4.6 Indirect Costs Explain the basis for each overhead and indirect cost. Include the current rates.
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