Grants for State governments - Science and Technology

This funding opportunity provides financial support for state, local, and tribal governments, as well as nonprofits and educational institutions, to evaluate and improve crisis intervention programs aimed at enhancing public safety and addressing individuals in crisis.

Scientific observations, experiments, and simulations are producing data at rates beyond our capacity to store, analyze, stream, and archive the data in raw form. Of necessity, many research groups have already begun reducing the size of their data sets via techniques such as compression, reduced order models, experiment-specific triggers, filtering, and feature extraction. Once reduced in size, transporting, storing, and analyzing the data is still a considerable challenge a reality that motivates SCs Integrated Research Infrastructure (IRI) program [1] and necessitates further innovation in data-reduction methods. These further efforts should continue to increase the level of mathematical rigor in scientific data reduction to ensure that scientifically-relevant constraints on quantities of interest are satisfied, that methods can be integrated into scientific workflows, and that methods are implemented in a manner that inspires trust that the desired information is preserved. Moreover, as the scientific community continues to drive innovation in artificial intelligence (AI), important opportunities to apply AI methods to the challenges of scientific data reduction and apply data-reduction techniques to enable scientific AI, continue to present themselves [2-4].The drivers for data reduction techniques constitute a broad and diverse set of scientific disciplines that cover every aspect of the DOE scientific mission. An incomplete list includes light sources, accelerators, radio astronomy, cosmology, fusion, climate, materials, combustion, the power grid, and genomics, all of which have either observatories, experimental facilities, or simulation needs that produce unwieldy amounts of raw data. ASCR is interested in algorithms, techniques, and workflows that can reduce the volume of such data, and that have the potential to be broadly applied to more than one application. Applicants who submit a pre-application that focuses on a single science application may be discouraged from submitting a full proposal.Accordingly, a virtual DOE workshop entitled Data Reduction for Science was held in January of 2021, resulting in a brochure [5] detailing four priority research directions (PRDs) identified during the workshop. These PRDs are (1) effective algorithms and tools that can be trusted by scientists for accuracy and efficiency, (2) progressive reduction algorithms that enable data to be prioritized for efficient streaming, (3) algorithms which can preserve information in features and quantities of interest with quantified uncertainty, and (4) mapping techniques to new architectures and use cases. For additional background, see [6-9].The principal focus of this FOA is to support applied mathematics and computer science approaches that address one or more of the identified PRDs. Research proposed may involve methods primarily applicable to high-performance computing, to scientific edge computing, or anywhere scientific data must be collected or processed. Significant innovations will be required in the development of effective paradigms and approaches for realizing the full potential of data reduction for science. Proposed research should not focus only on particular data sets from specific applications, but rather on creating the body of knowledge and understanding that will inform future scientific advances. Consequently, the funding from this FOA is not intended to incrementally extend current research in the area of the proposed project. Rather, the proposed projects must reflect viable strategies toward the potential solution of challenging problems in data reduction for science. It is expected that the proposed projects will significantly benefit from the exploration of innovative ideas or from the development of unconventional approaches. Proposed approaches may include innovative research with one or more key characteristics, such as compression, reduced order models, experiment-specific triggers, filtering, and feature extraction, and may focus on cross-cutting concepts such as artificial intelligence or trust. Preference may be given to pre-applications that include reduction estimates for at least two science applications.

This program provides funding to commercial property owners and managers in Boulder to create affordable spaces for small businesses, particularly those owned by women and minorities, helping them thrive in the community.

The Black Hills Area Community Foundation (BHACF) is offering its Summer Capacity Building Grant, a program designed to strengthen the effectiveness, sustainability, and efficiency of eligible organizations within specific counties of South Dakota. While the description doesn't explicitly detail the BHACF's overarching mission, the focus on "capacity building needs" suggests an alignment with fostering a robust and resilient non-profit sector in the Black Hills area. This grant directly supports the foundation's implied strategic priority of empowering local organizations to better serve their communities through enhanced operational capabilities. The target beneficiaries for this grant include IRS 501(c)(3) public charities, schools, government entities, and religious organizations operating within Oglala Lakota, Fall River, Custer, Pennington, Meade, Lawrence, and Butte counties in South Dakota. The core impact goal is to strengthen these organizations, enabling them to achieve greater effectiveness, sustainability, or efficiency. This focus on internal organizational health indicates a theory of change where by investing in the operational capacity of these entities, the foundation expects a ripple effect of improved service delivery and community impact. The grant prioritizes several key areas for capacity building. Eligible projects include measurements and evaluation, partnership development, strategic planning, board engagement/development, marketing and donor engagement, technology needs and technical support, and staff development/retention. These focus areas are indicative of the foundation's understanding that a holistic approach to organizational development is necessary for long-term success. The expected outcomes are directly tied to improvements in these areas, leading to more effective and sustainable organizations. While specific measurable results are not explicitly detailed beyond the types of eligible projects, the emphasis on "measurements and evaluation" as a funding area suggests that grantees will be expected to demonstrate how their capacity-building efforts lead to tangible improvements in their operations and service delivery. The grant duration of one year and a maximum grant amount of $5,000 further indicate a focused approach on achievable, short-to-medium term improvements in the selected capacity-building areas. Ineligible projects, such as religious or political activity, fundraising, debt retirement, or multi-year funding, further define the boundaries and strategic intent of this capacity-building initiative.

To obtain a copy of the Funding Opportunity Announcement (FOA) please go to the ARPA-E website at https://arpa-e-foa.energy.gov. To apply to this FOA, Applicants must register with and submit application materials through ARPA-E eXCHANGE (https://arpa-e-foa.energy.gov/Registration.aspx). For detailed guidance on using ARPA-E eXCHANGE, please refer to the ARPA-E eXCHANGE User Guide (https://arpa-e-foa.energy.gov/Manuals.aspx). ARPA-E will not review or consider concept papers submitted through other means. For problems with ARPA-E eXCHANGE, email ExchangeHelp@hq.doe.gov (with FOA name and number in the subject line). Questions about this FOA? Check the Frequently Asked Questions available at http://arpa-e.energy.gov/faq. For questions that have not already been answered, email ARPA-E-CO@hq.doe.gov. Agency Overview: The Advanced Research Projects Agency Energy (ARPA-E), an organization within the Department of Energy (DOE), is chartered by Congress in the America COMPETES Act of 2007 (P.L. 110-69), as amended by the America COMPETES Reauthorization Act of 2010 (P.L. 111-358), as further amended by the Energy Act of 2020 (P.L. 116-260): (A) to enhance the economic and energy security of the United States through the development of energy technologies that (i) reduce imports of energy from foreign sources; (ii) reduce energy-related emissions, including greenhouse gases; (iii) improve the energy efficiency of all economic sectors; (iv) provide transformative solutions to improve the management, clean-up, and disposal of radioactive waste and spent nuclear fuel; and (v) improve the resilience, reliability, and security of infrastructure to produce, deliver, and store energy; and (B) to ensure that the United States maintains a technological lead in developing and deploying advanced energy technologies. ARPA-E issues this Funding Opportunity Announcement (FOA) under its authorizing statute codified at 42 U.S.C. 16538. The FOA and any cooperative agreements or grants made under this FOA are subject to 2 C.F.R. Part 200 as supplemented by 2 C.F.R. Part 910. ARPA-E funds research on, and the development of, transformative science and technology solutions to address the energy and environmental missions of the Department. The agency focuses on technologies that can be meaningfully advanced with a modest investment over a defined period of time in order to catalyze the translation from scientific discovery to early-stage technology. For the latest news and information about ARPA-E, its programs and the research projects currently supported, see: http://arpa-e.energy.gov/. ARPA-E funds transformational research. Existing energy technologies generally progress on established learning curves where refinements to a technology and the economies of scale that accrue as manufacturing and distribution develop drive improvements to the cost/performance metric in a gradual fashion. This continual improvement of a technology is important to its increased commercial deployment and is appropriately the focus of the private sector or the applied technology offices within DOE. In contrast, ARPA-E supports transformative research that has the potential to create fundamentally new learning curves. ARPA-E technology projects typically start with cost/performance estimates well above the level of an incumbent technology. Given the high risk inherent in these projects, many will fail to progress, but some may succeed in generating a new learning curve with a projected cost/performance metric that is significantly better than that of the incumbent technology. ARPA-E funds technology with the potential to be disruptive in the marketplace. The mere creation of a new learning curve does not ensure market penetration. Rather, the ultimate value of a technology is determined by the marketplace, and impactful technologies ultimately become disruptive that is, they are widely adopted and displace existing technologies from the marketplace or create entirely new markets. ARPA-E understands that definitive proof of market disruption takes time, particularly for energy technologies. Therefore, ARPA-E funds the development of technologies that, if technically successful, have clear disruptive potential, e.g., by demonstrating capability for manufacturing at competitive cost and deployment at scale. ARPA-E funds applied research and development. The Office of Management and Budget defines applied research as an original investigation undertaken in order to acquire new knowledgedirected primarily towards a specific practical aim or objective and defines experimental development as creative and systematic work, drawing on knowledge gained from research and practical experience, which is directed at producing new products or processes or improving existing products or processes. Applicants interested in receiving financial assistance for basic research (defined by the Office of Management and Budget as experimental or theoretical work undertaken primarily to acquire new knowledge of the underlying foundations of phenomena and observable facts) should contact the DOEs Office of Science (http://science.energy.gov/). Office of Science national scientific user facilities (http://science.energy.gov/user-facilities/) are open to all researchers, including ARPA-E Applicants and awardees. These facilities provide advanced tools of modern science including accelerators, colliders, supercomputers, light sources and neutron sources, as well as facilities for studying the nanoworld, the environment, and the atmosphere. Projects focused on early-stage R for the improvement of technology along defined roadmaps may be more appropriate for support through the DOE applied energy offices including: the Office of Energy Efficiency and Renewable Energy (http://www.eere.energy.gov/), the Office of Fossil Energy and Carbon Management (https://www.energy.gov/fecm/office-fossil-energy-and-carbon-management), the Office of Nuclear Energy (http://www.energy.gov/ne/office-nuclear-energy), and the Office of Electricity (https://www.energy.gov/oe/office-electricity). Program Overview: The energy transition towards net-zero by 2050 demands an unprecedented level of innovation that must be completed in the span of a generation. Global primary energy usage has increased continuously for the past century. This increase is expected to continue with improved standards of living and the rapid expansion of new technologies with high levels of energy-intensive computation, such as artificial intelligence. Present grid capacity is constrained and cannot accommodate these increasing primary energy needs to reliably deliver power on demand. Meanwhile, all paths through the energy transition require concurrent efforts to decouple the production of essential carbon-based materials from harmful greenhouse gas (GHG) emissions. Since the Agencys inception, the ARPA-E OPEN program has served as an opportunity to advance transformative energy breakthroughs in critical areas that fall outside the scope of its technology-focused programs. Vision OPEN challenges the research community to develop groundbreaking technologies to enable a future energy landscape that is dramatically different. The Vision includes three goals that are critical to achieve a sustainable energy and carbon transition with: 1) GHG-free abundant primary energy; 2) An intermodal energy superhighway that transports diversified forms of primary energy; and 3) A carbon transition that sustainably meets demand for polymers and other materials. To view the FOA in its entirety, please visit https://arpa-e-foa.energy.gov.

This grant provides funding for innovative research projects focused on understanding and treating rare cancers, targeting researchers and institutions dedicated to advancing medical knowledge in this area.

Regional Scale Collaboration to Facilitate a Domestic Critical Minerals Future: Carbon Ore, Rare Earth, and Critical Minerals (CORE-CM) Initiative The planned Research and Development will provide a regional scale understanding of critical minerals prospectivity and provides insight into the potential materials that may be sourced from domestic secondary and unconventional feedstocks across the United States. The work will contribute to the development of a framework that addresses economic and supply chain barriers, leads to pilot scale demos, and broaden scope to include advanced carbon or critical mineral bearing material products.

This grant provides funding to Bergen County schools in New Jersey to promote and enhance long-term recycling programs and educational initiatives.

This grant provides funding for agricultural professionals to conduct on-farm research that promotes sustainable farming practices in the Southern U.S., requiring collaboration with farmers who have a minimum annual income of $1,000.

This program provides funding to enhance workforce development by offering hands-on learning opportunities in emerging technology fields for individuals from diverse and historically underrepresented backgrounds.

This funding opportunity supports research projects that improve forensic science practices in publicly funded laboratories, targeting advancements in areas like DNA testing and toxicology, and is open to a range of eligible applicants including government entities and educational institutions.

This funding opportunity is designed for researchers and organizations focused on advancing ocean science and technology to enhance national security, economic development, and environmental protection.

This funding opportunity provides financial support for projects that develop innovative strategies and tools to improve employment outcomes for individuals with disabilities, focusing on inclusive practices and diverse populations.

Please note that this program requests optional Notices of Intent, which are due via NSPIRES by April 26, 2024. See the full posting on NSPIRES for details. Proposers must retrieve the instructions document (zip file) associated with the application package for this opportunity as there is at least one required form that must be attached to the submitted proposal package. The National Aeronautics and Space Administration (NASA) Science Mission Directorate (SMD) released its annual omnibus Research Announcement (NRA), Research Opportunities in Space and Earth Sciences (ROSES) 2024 (OMB Approval Number 2700-0092, CFDA Number 43.001) on February 14, 2024. In this case "omnibus" means that this NRA has many individual program elements, each with its own due dates and topics. All together these cover the wide range of basic and applied supporting research and technology in space and Earth sciences supported by SMD. Awards will be made as grants, cooperative agreements, contracts, and inter- or intra-agency transfers, depending on the nature of the work proposed, the proposing organization, and/or program requirements. However, most extramural research awards deriving from ROSES will be grants, and many program elements of ROSES specifically exclude contracts, because contracts would not be appropriate for the nature of the work solicited. The typical period of performance for an award is three years, but some programs may allow up to five years and others specify shorter periods. In most cases, organizations of every type, Government and private, for profit and not-for-profit, domestic and foreign (with some caveats), may submit proposals without restriction on teaming arrangements. Tables listing the program elements and due dates (Tables 2 and 3), a table that provides a very top level summary of proposal contents (Table 1), and the full text of the ROSES-2024 "Summary of Solicitation", may all be found NSPIRES at http://solicitation.nasaprs.com/ROSES2024. This synopsis is associated with one of the individual program elements within ROSES, but this is a generic summary that is posted for all ROSES elements. For specific information on this particular program element download and read the PDF of the text of this program element by going to Tables 2 or 3 of this NRA at http://solicitation.nasaprs.com/ROSES2024table2 and http://solicitation.nasaprs.com/ROSES2024table3, respectively, click the title of the program element of interest, a hypertext link will take you to a page for that particular program element. On that page, on the right side under "Announcement Documents" the link on the bottom will be to the PDF of the text of the call for proposals. For example, if one were interested in The Lunar Data Analysis Program (NNH24ZDA001N-LDAP) one would follow the link to the NSPIRES page for that program element and then to read the text of the call one would click on C.8 Lunar Data Analysis Program (.pdf) to download the text of the call. If one wanted to set it into the context of the goals, objectives and know the default rules for all elements within Appendix C, the planetary science division, one might download and read C.1 Planetary Science Research Program Overview (.pdf) from that same page. While the letters and numbers are different for each element within ROSES (A.12, B.7, etc.) the basic configuration is always the same, e.g., the letter indicates the Science Division (A is Earth Science, B is Heliophysics etc.) and whatever the letter, #1 is always the division overview. Frequently asked questions for ROSES are posted at http://science.nasa.gov/researchers/sara/faqs. Questions concerning general ROSES-2024 policies and procedures may be directed to Max Bernstein, Lead for Research, Science Mission Directorate, at sara@nasa.gov, but technical questions concerning specific program elements should be directed to the point(s) of contact for that particular element, who may be found either at the end of the individual program element in the summary table of key information or on the web list of topics and points of contact at: http://science.nasa.gov/researchers/sara/program-officers-list. Not all program elements are known at the time of the release of ROSES. To be informed of new program elements or amendments to this NRA, proposers may subscribe to: (1) The SMD mailing lists (by logging in at http://nspires.nasaprs.com and checking the appropriate boxes under "Account Management" and "Email Subscriptions"), (2) The ROSES-2024 blog feed for amendments, clarifications, and corrections to at https://science.nasa.gov/researchers/solicitations/roses-2024/, and (3) The ROSES-2024 due date Google calendars (one for each science division). Instructions are at https://science.nasa.gov/researchers/sara/library-and-useful-links (link from the words due date calendar).

This funding opportunity provides $750,000 to Minnesota communities for projects that enhance resilience against climate impacts on stormwater, wastewater, and public health services.

The "Earth and Environmental Systems Science in the Southeast U.S." grant aims to fund collaborative research that enhances understanding and modeling of ecosystems, atmospheric processes, and regional phenomena in the Southeast U.S., with a focus on vegetation, land-atmosphere interactions, spatial heterogeneity, convection, clouds, precipitation, biogenic aerosols, and extreme events.

To obtain a copy of the Funding Opportunity Announcement (FOA) please go to the ARPA-E website at https://arpa-e-foa.energy.gov. To apply to this FOA, Applicants must register with and submit application materials through ARPA-E eXCHANGE (https://arpa-e-foa.energy.gov/Registration.aspx). For detailed guidance on using ARPA-E eXCHANGE, please refer to the ARPA-E eXCHANGE User Guide (https://arpa-e-foa.energy.gov/Manuals.aspx). ARPA-E will not review or consider concept papers submitted through other means. For problems with ARPA-E eXCHANGE, email ExchangeHelp@hq.doe.gov (with FOA name and number in the subject line). Questions about this FOA? Check the Frequently Asked Questions available at http://arpa-e.energy.gov/faq. For questions that have not already been answered, email ARPA-E-CO@hq.doe.gov. Agency Overview: The Advanced Research Projects Agency Energy (ARPA-E), an organization within the Department of Energy (DOE), is chartered by Congress in the America COMPETES Act of 2007 (P.L. 110-69), as amended by the America COMPETES Reauthorization Act of 2010 (P.L. 111-358), as further amended by the Energy Act of 2020 (P.L. 116-260): (A) to enhance the economic and energy security of the United States through the development of energy technologies that (i) reduce imports of energy from foreign sources; (ii) reduce energy-related emissions, including greenhouse gases; (iii) improve the energy efficiency of all economic sectors; (iv) provide transformative solutions to improve the management, clean-up, and disposal of radioactive waste and spent nuclear fuel; and (v) improve the resilience, reliability, and security of infrastructure to produce, deliver, and store energy; and (B) to ensure that the United States maintains a technological lead in developing and deploying advanced energy technologies. ARPA-E issues this Funding Opportunity Announcement (FOA) under its authorizing statute codified at 42 U.S.C. 16538. The FOA and any cooperative agreements or grants made under this FOA are subject to 2 C.F.R. Part 200 as supplemented by 2 C.F.R. Part 910. ARPA-E funds research on, and the development of, transformative science and technology solutions to address the energy and environmental missions of the Department. The agency focuses on technologies that can be meaningfully advanced with a modest investment over a defined period of time in order to catalyze the translation from scientific discovery to early-stage technology. For the latest news and information about ARPA-E, its programs and the research projects currently supported, see: http://arpa-e.energy.gov/. ARPA-E funds transformational research. Existing energy technologies generally progress on established learning curves where refinements to a technology and the economies of scale that accrue as manufacturing and distribution develop drive improvements to the cost/performance metric in a gradual fashion. This continual improvement of a technology is important to its increased commercial deployment and is appropriately the focus of the private sector or the applied technology offices within DOE. In contrast, ARPA-E supports transformative research that has the potential to create fundamentally new learning curves. ARPA-E technology projects typically start with cost/performance estimates well above the level of an incumbent technology. Given the high risk inherent in these projects, many will fail to progress, but some may succeed in generating a new learning curve with a projected cost/performance metric that is significantly better than that of the incumbent technology. ARPA-E funds technology with the potential to be disruptive in the marketplace. The mere creation of a new learning curve does not ensure market penetration. Rather, the ultimate value of a technology is determined by the marketplace, and impactful technologies ultimately become disruptive that is, they are widely adopted and displace existing technologies from the marketplace or create entirely new markets. ARPA-E understands that definitive proof of market disruption takes time, particularly for energy technologies. Therefore, ARPA-E funds the development of technologies that, if technically successful, have clear disruptive potential, e.g., by demonstrating capability for manufacturing at competitive cost and deployment at scale. ARPA-E funds applied research and development. The Office of Management and Budget defines applied research as an original investigation undertaken in order to acquire new knowledgedirected primarily towards a specific practical aim or objective and defines experimental development as creative and systematic work, drawing on knowledge gained from research and practical experience, which is directed at producing new products or processes or improving existing products or processes. Applicants interested in receiving financial assistance for basic research (defined by the Office of Management and Budget as experimental or theoretical work undertaken primarily to acquire new knowledge of the underlying foundations of phenomena and observable facts)1 should contact the DOEs Office of Science (http://science.energy.gov/). Office of Science national scientific user facilities (http://science.energy.gov/user-facilities/) are open to all researchers, including ARPA-E Applicants and awardees. These facilities provide advanced tools of modern science including accelerators, colliders, supercomputers, light sources and neutron sources, as well as facilities for studying the nanoworld, the environment, and the atmosphere. Projects focused on early-stage R for the improvement of technology along defined roadmaps may be more appropriate for support through the DOE applied energy offices including: the Office of Energy Efficiency and Renewable Energy (http://www.eere.energy.gov/), the Office of Fossil Energy and Carbon Management (https://www.energy.gov/fecm/office-fossil-energy-and-carbon-management), the Office of Nuclear Energy (http://www.energy.gov/ne/office-nuclear-energy), and the Office of Electricity (https://www.energy.gov/oe/office-electricity). Program Overview: The Nuclear Energy Waste Transmutation Optimized Now (NEWTON) program will support the research and development of technologies that enable the transmutation of used nuclear fuel (UNF) to alleviate the impact of storage in permanent disposal facilities. This program seeks to fund the development of novel technologies that increase the overall capacity factor, power output, and efficiency of particle generation systems (including but not limited to proton, neutron, and/or photon), by reducing beam trip magnitude and duration (referred to as loss of beam). Additional technologies will focus on increasing the throughput of transmutation by developing target materials that maximize transmutation rates and are easily processible to remove the transmuted material. The United States does not currently have an active facility for the permanent disposal of used nuclear fuel derived from the civilian nuclear sector. Used nuclear fuel comprises several classes of isotopes that could be processed in different ways due to their economic value. Firstly, uranium (U), which comprises greater than 95% of the mass of UNF, can be reprocessed and converted back into fuel for light-water reactors through the addition of small amounts of uranium-235 (U-235). Secondly, plutonium (Pu) and minor actinides (MAs), such as neptunium (Np), americium (Am), and curium (Cm), which together comprise roughly 1.5% of UNF by mass, are produced from nuclear fission. Many of these isotopes are fissionable and could be incorporated into fuels designed for advanced reactor concepts. Intermediate-lived fission products (ILFPs) including strontium-90 (Sr-90) and caesium-137 (Cs-137) have relatively short half-lives of roughly 30 years and have applications in radioisotope thermoelectric generators for space applications. However, ILFPs are largely destined for permanent disposal in a deep geological repository. The major long-lived fission products (LLFPs) have half-lives exceeding 200,000 years and have few commercial applications. LLFPS include selenium-79 (Se-79), technetium-99 (Tc-99), tin-126 (Sn-126), iodine-129 (I-129), and caesium-135 (Cs-135). The last class of isotopes are the stable isotopes produced from nuclear fission and resulting decay. These isotopes could be extracted from UNF, but no commercial processing of these have been undertaken. A deep geological disposal facility for the disposition of UNF in the U.S. has been estimated to cost $96.18 billion over the 150-year lifetime, after which the facility would cease to accept new waste. This facility would be able to store 70,000 metric tons (MT) of unprocessed UNF, which is insufficient for the existing volume of civilian waste. Densification of the waste can be accomplished through removal of the plutonium, minor actinides, and ILFP components of the UNF. Removal of 99.9% of these components would allow a densification factor of 225, based on current disposal requirements, thus allowing a single repository to store upwards of approximately 16 million MT of UNF. The LLFPs are responsible for many of the engineered barriers that are required to be built in the repository due to their long half-lives and environmental mobility. Removal of these LLFPs could decrease the capital expenditure of a permanent geological repository while also improving safety. To view the FOA in its entirety, please visit https://arpa-e-foa.energy.gov.

This scholarship provides financial assistance to LGBTQ+ students from Alaska, Idaho, Montana, Oregon, or Washington who demonstrate leadership and face systemic barriers to education, prioritizing those in marginalized communities.

This funding opportunity provides financial support to research institutions in underrepresented jurisdictions to collaborate with NASA on aerospace research projects that address specific needs identified by the agency.

The LRP IPA encourages applications that support the full spectrum of research projects or ideas that specifically focus on scientific and clinical lupus issues, which, if successfully addressed, have the potential to make a major impact in lupus research and/or lupus disease. Applications should include a well-formulated, testable hypothesis based on strong scientific rationale that is established through inferential reasoning and/or critical review and analysis of the literature. Inclusion of preliminary data is encouraged.CDMRP encourages research on health areas and conditions that affect women uniquely, disproportionately, or differently from men, including studies analyzing sex as a biological variable. Such research should relate anticipated project findings to improvements in women's health outcomes and/or advancing knowledge for women's health.