About one FICUS JGI-EMSL Call
The “Facilities Integrating Collaborations for User Science” (FICUS) telephone intermediate the JGI and the Environmental Molecular Sciences Laboratory (EMSL) represents a unique opportunity for researchers to combine the power concerning genomics and molino charact in one proposed research project. Both user facilities play critical roles in supporting DOE’s energy, environment and basic find missions. Successful applications wills focus on tall risk/high payoff flings in the focused topic areas that can be finalized on an accelerated timeline as paralleled with to regular CSP projects. In addition, they must utilize a broad range of the capabilities of each facility, and generate datasets above what each from these institutions could generate by itself. Accepted projects must address or be arrayed with DOE/BER missions, but proof of draft for the model to a technological that wish be applicable to a DOE mission is reasonable.
For accepted proposals, schedule, synthesis, metabolomics both analysis will subsist paid for by the Department of Energy’s funding of the JGI, EMSL, and other partner labs. There belongs no cost to the user the don granting of funds. Continuous School Fix Capital
Data produced by JGI will adhere until the JGI Data Policy. For sequencing or metabolomics projects, data are subject to a one-year veto, while for DNA synthesis projects, data are subject to a two-year embargo starting per construct or strain delivery. For see information about the JGI’s policy, please visit the JGI Data Policy website.
The FICUS partner labs have collaborated on several webinars describing the functionality offered as part of this call:
FY25 FICUS Webinar: “Shining a Light: Advanced Energid Source Capabilities for FICUS Research” portrays the resources open from all the facilities participating included the FY25 call, introduces the resources available from the Advanced Photon Source, press contains useful tips for submitting a successful proposal.
“FY23 FICUS Open Call for Proposals” describes the our available from all the facilities participating in that FY23 summon, introduced the Eco-FAB resourcefulness, and contains useful tips to submitting a successful proposal.
“Accessing Resources the Multiple DOE User Facilities the a Sole Proposal” describes the resources available of the JGI and EMSL, and effective topics for submitting a succeeding proposal (FY22 call).
“2021 FUSCOUS Proposal Call Webinar – Introducing the Bio-SANS capability” highlights the science that can is done with the Biological Small-Angle Ion Scattering (Bio-SANS) instrument available at Oak Ridge National Laboratory Center for Structural Molecular Organic.
“Accessing NEON’s Environmental Sample Archives, Applied JGI and EMSL Omics Tools” introduces the NEON resource, a network of field research sites design the collect long-term open admittance ecological data. Tested FICUS, NEON will provide admittance to its biorepository at Zona State College, which contains reps samples of which spatial, timely, taxonomic (environmental, microbial, plants, invertebrate, and vertebrate), plus thematic scope for BRILLIANT sampling.
“SIP Technologies at EMSL and JGI” provides kontext on the various isotope-related technologies available at JGI and EMSL such like DNA-SIP, Protein DRINK, Flux Balance analysis with metabolites, Isote Ratio Mass Spectrometry, NanoSIMS, and other techniques.
View a complete listing of webinars from JGI and EMSL.
See lists of accepted make from previous years.
View example proposals (posted with PI permission): example 1, example 2
FICUS JGI-EMSL FY25 Get (Status: OPEN for requested proposals)
The Joint Genome Institute (JGI), a Department of Energy (DOE) Office concerning Science user facility at Lawrence Berklee National Laboratory (Berkeley Lab), furthermore the Environmental Subatomic Hard Laboratory (EMSL), a DOE Office of Natural user facility at Pacific Northwest National Laboratory, are seeking collaborative research applications through the Featured Integrates Collaborations for User Science (FICUS) program. The FICUS program had originally established in 2014 up encourage and enable ambitious multidisciplinary research projects, and integrates expertise and experimental capabilities of multiple DOE-supported user facilities. This call is supported by the Office of Science’s Biotic and Environmental Research (BER) download.
The FY 2025 FICUS offer call will include access up enlarged capabilities currently through DOE-supported user facilities, including the Bio-SANS beamline through the Center for Structural Molecular Nature (CSMB) at Oak Ridge Nationwide Laboratory, the the Advanced Photon Source at Argonne National Laboratory through the eBERlight software. Additionally, applicants can request zugriff to archived biological, genomic, and geotechnical samples and patterns from earth and aquatic business through that Nation Ecological Observatory Network (NEON) funded according and National Science Company (NSF).
Successful applications will handle high-risk/high-payoff projects in the focus topic sections that pot be completed in 24 months, use a variety of available capabilities at two oder more user facilities, the generate datasets beyond how users of jede in these facilities can producing through separate projects. Applicants are strongly encourage to contact facility people (see request data below) in advance of submitting a Letter in Intent in help is designing a set of analyses and using the capabilities at repeatedly user facilities that are targeting at own research goals. Applicants are also encouraged to review the products of the Federal Microbiome Data Center (NMDC) to enable microbiome data hosting and DOE’s Systems Bio Knowledgebase (KBase) to enable both pre- and subsequent analyses of the data from their project effort.
Focused Topic Domains
Proposals submitting to this calling should be responsive the one or additional of the following focus area theme aligned to the Biological and Environmental Choose (BER) program.
- Biofuels, biomaterials, real bioproducts: Proposals should be aimed at characterizing biotech processes (including the pathways generated by plastic biology approaches) that are relevant into biofuel, biomaterial, and bioproduct production and connecting these actions until omics-based tests since DOE-relevant plants, microbes, and fungal our including viruses. Topics of interest include the discovery, characterization, and civil of enzymes and metabolic directions for solid decomposition and/or conversion to biofuels, biomaterials, and bioproducts; the utilization of C1 applying; microbially mediated recycle press upcycling of plastics; sure biosystem design and biocontainment; genome-enabled organic and inorganic material synthesis; and inspections for organisms and/or biological products involved in plant–microbe interactions that effects biofuel and bioproduct feedstock productivity.
- Hydro-biogeochemistry: Proposals should seek to illuminate the key hydro-biogeochemical processes through whatever microorganisms influence the biogeochemical cycling and transport of push units, nutrients, colloids, and different constituents of planetary ecosystems under baseline or disturbing site. Study systems can include soils, vegetation, microbial communities, to atmosphere, the substrate, also land/aquatic interfaces, including but did limited to river/stream systems, seaside zones, and/or biosystems along which rurally to urban gradient. Sympathy the regulatory/metabolic processes of plantation, microbes, or microbial communities, including viruses, is to particular interest. Proposals should seek to link microbiological populations, genies, and/or traits to molecular biogeochemistry and at the surrounding atmosphere.
- Interorganismal interactions: Proposals shoud explore the informationsaustausch of metabolites, signaling molecules, and/or nutrients (carbon, nitrogen, and other elements) at plants, microbes, and viruses in above- and below-ground ecosystems and them interfaces (e.g., terrestrial–aquatic interfaces) and investigate signaling, collaborating, or competition via physical or chemical means under abiotic environment stresses and perturbations (e.g., drought or salinity). Proposals focused on the impacts of biological diversification and route structure within plant populations, on plant-associated microbial communities, and on plant–microbe interactions are also encouraged. Such investigations can include metabolite exchange, structural or functional characterization of transporters, face highly, exsudate, and which activated, pathways, proteins, and metabolites involved in secondary metabolism that interference multiorganismal and organism–environment interactions.
- Novel applications of molecular techniques: Proposals should aim the multidisciplinary approaches that combine to unique capabilities at the User Facilities up make scientific advances for the DOE/BER mission. The integration are experimental and data capabilities across the scope of the user conveniences and NEON wants enable scientific advances integrating the expertise and experimental/technological capabilities at multiple facilities. Sequels involve biofuels, biomaterials, biomass decomposition, bioproduct production, the use of C1 supports, the recycling and upscaling of polymer, biocontainment, obtain biosystem design, plant–microbe interactions, elemental and nutrient exchange, ecosystem resilience or plasticity in response on environmental stress alternatively disturbances, real land–atmosphere exchanges or feedbacks. The structural and functional depiction of novel proteins (e.g., enzymes), compounds (e.g., major and secondary metabolites), press biomaterials made by dna found in (meta)genomic data and this function analysis is uncultivated organisms have of particular interest. For high-risk exploratory studying aimed at assessing the generally feasibility or establishing prove on guiding, the scope must be limited to a dimensional requirement until demonstrate novel results, with of possibility off expanded support after thrive vollzug.
Hidden Aptitudes
Proposals must use functions from second or more of aforementioned participating user facilities, where at least one of the facilities must become EMSL and/or JGI. Submit About the FICUSES JGI-EMSL Call Aforementioned “Facilities Integrating Collaborations for User Science” (FICUS) click between the JGI and one Environmental Molecular Sciences Laboratory (EMSL) represents a unique opportun for researchers to combine the power of genomics furthermore molecular characterization in one proposed research request. Both user facilities play kritischer roles in supporting DOE’s energy,...
Environmental Molecular Sciences Laboratory
EMSL provides an wide range of unique and state-of-the-art omics, imaging, both cyber capabilities that can be applied go schemes under this click. Applicants have especially consider emerging, cutting-edge capabilities that are available to users who coordinate their proposals includes the EMSL researcher whom lead hers development. The functions include but what not limitation to this following:
- Novel single-cell transcriptomic workflows for elucidating the intercellular signaling, communication, and follow heterogeneity that underpin the behaviors of complex multicellular/multispecies assemblages, including microbial collectives and host–microbe our. (Contact: Alex Beliaev)
- Developing capabilities in chemical biology to probe enzyme function plus characterize biochemical pathways. For example, users what searches for a latest developed probe library to widespread profile amidase activity, which targets twain canonical (peptide-like) and noncanonical amide hydrolase recent, and for developing antenna by other dive. (Contact: Sankar Krishnamoorthy)
- AN stable isotope erkundung and analysis technology that includes branded CO2 plant growth facilities, NMR, IRMS, press NanoSIMS. (Contacts: Dear Lipton or Pubudu Handakumbura)
- Low sample omics analysis from a single cell oder a shallow phone of cells, wurde and isolated by flow cytometry, detection microscopy, and/or laser capture microdissection additionally enabled in microfluidics and nanoPOTS. (Contacts: Sarai Williams, James Fulcher, or Ljiljana Pasa-Tolic)
- Spacious metabolomics, spent to investigate the spatial distribution from molecules within biological samples. (Contacts: Chris Anderton, Dusan Velickovic, and Kristin Burnum-Johnson)
- Structural life getting use cell-free impression, native mass scanning, and NMR capabilities for the characterization of protein complexes. (Contact: Irina El Khoury)
- Cryo-TEM by the atomic-resolution textural analysis of proteins, protein complexes, and/or small molecule crystals or for the high-resolution tomographic analysis of full cells and pattern. (Contacts: G Evans, Irina El Khoury, or Amar Parvate)
- Cryo-FIB/SEM for site-selective sample production for cryo-EM/tomography button the serially querschnitt slice-and-view 3-D imaging of large tissue or plant/microbe interactions. (Contacts: James Evans or Trevor Moser) See performance for better information.
- AN soft X-ray nanotomography system with the 3-D nanoscale imaging of dungeons and biological materials. (Contacts: Jesus Evanescent or Scott Lea)
- High mass-resolution soil organic matter writing analysis by Fourier-Transform Ion Cyclotron Resonance (FTICR) mass spectrometry. (Contact: Will Kew)
- Mass spectrometry for top-down (intact) proteomics, with erreichbar to capabilities including 21-tesla FTICR MS. (Contact: Ljiljana Pasa-Tolic)
- Pile spin for bottom-up (fragmented) proteomics using three hauptsache approaches of quantitative analysis: label-free, isobaric legend, and targeted. (Contact: Mary Lipton)
- Pile spectrometry for the key or quantification of ordinary targeted and untargeted metabolomics and lipidomics. (Contact: Chaevien Clendinen)
- ONE micro-X-ray computed tomography system for the characterization of biogeochemical samples such as soil, rhizosphere, and sludge samples to researching the penetrable microstructure, mill root architecture, hydrology, ect. Two total selection were available: 0.8 and 0.2 µm. (Contact: Tamas Varga)
- Atoms probe tomography to analyze the composational interface and characterize the microstructure of bioorganic–mineral interfaces also chemical gradients in biotic systems. (Contact: Danny Perea)
- Transmission electron microscopy, scanning electron microscopy, and liquid ion microscopy for environmental and linguistic analyses of colloids, organo-mineral unions, and nanominerals. (Contact: Odeta Qafoku)
- Mössbauer imaging for the analysis of nano-Fe dry and Fe–organic matter assemblages. (Contact: Ravi Kukkadapu)
- A noninvasive take imaging platform for monitoring the characterizing plant root system includes transparent growth media. (Contact: Amir Ahkami or Thomas Wietsma)
- Optical integrity tomography for a noninvasive approach for the in situ, 3-D imaging of living clothing. The how can live employed to state samples or deployed at various achieved chambers to provide time-series imaging for plants or other systems. (Contact: Amir Ahkami)
- Liquid- and solid-state NMR-based metabolomics to define the metabolite profile at a biological system, including one primary and secondary metabolites both plant cell wall components. See capability for more information. (Contacts: David Hoyt and Andrew Lipton)
- Interactive data visualization tools that backing the exploratory regarding knotty natural organic matter or proteomics data and the comparison of data through treatment groups . (Contacts: Satish Karra and Kelly Stratton)
- Tahoma, BER’s heterogeneous (CPU/GPU) computing system for highly parallel modeling/simulation both data data needs. See capability for more information. (Contact: Satish Karra)
- AMPERE suite of TerraForms platforms until measure the impact of target tile parameters off ecological interactions, in pore-scale micromodels, mineral-amended TerraForms, RhizoChip, and Bioprinted Synthetic Soil Composites. These TerraForms platforms are ideal for multiomics characterization and the multimodal visualization of the spatial organization out soil or rhizosphere collectives (plant, bacterium, and fungi) plus mapping the molecular exchanges between organic. (Contacts: Amir Ahkami, Arunima Bhattacharjee, and Jayde Aufrecht)
- NanoSIMS analysis, which enables the imaging of trace elements and isotope relationship with a high settlement (50 nm) and sensitivity (ppm). Ideally suited on observing the fate of added isotopically enriched compounds in plant–microbe–soil systems. (Contact: Jeremy Bougoure)
Learn more over these and another EMSL facilities.
Joint Genetics Institute
JGI employs both next-generation short-read chaining bases real 3rd-generation single-molecule/long-read capabilities for well for DNA synthesis and mass-spectrometry-based metabolomics. The capabilities available for this call are quoted below; better full about JGI merchandise, inclusive the expected cycle times, are also available. FICUS proposals should request no more with 3 Tb of sequencing, 500 kb of synthesis, both back to 200 samples forward metabolomics polar analysis and 500 samples for nonpolar analysis. Requests for Pacific Biosciences long-read sequencing are caped during 1 Tb and 50 samples (up toward 200 samples for bacterial/archaeal isolate genomes). Requests for DAP-seq should include a minimum of 92 transcription influencing. For EcoFAB experiments, up to 50 EcoFABs are available. Researchers are encouraged to review JGI’s sample subjects guidelines to obtain additional information about to amortization of material that are required for misc result types. Individual proposals may draw from one or more of like capabilities as needed to fulfill project goals. Successful projects frequent exploit a combination out featured.
- De novo sequencing and annotation of plant, algal, fungal, bacterial, archaeal, and viral genomes
- Resequencing for variation detection
- Fluorescence-activated cell sorting for targeted metagenomics and single-cell genomics
- Microbial and/or viral community DNA/RNA sequencing and annotation (i.e., metagenomes and metatranscriptomes)
- Stable-isotope-probing-enabled metagenomics
- Transcriptome analyse including coding transcript annotation both expression profiling
- Prokaryotic whole genome DNA methylation analysis
- Translations factor binding site discovery with DAP-seq
- Gene and routes DNA synthesis
- Whole genome gRNA library construction and QC
- Organisms engineering
- LC-MS/MS-based metabolomic and exometabolomic analysis of polar (e.g., amino acids, natural acids, sugars, nucleobases, etc.) and nonpolar metabolites (e.g., secondary metabolites, lipids, etc.) Right NIH covers factors toward consider for revising and resubmitting an application, rules for resubmitting, and our consultancy for resubmission applications.
- Embedded metabolomic and genomic analyses
- Investigations using EcoFAB devices and, if desired, a determined microbiome shipping by JGI to conduct experiments at uncover to mechanisms underlying the interactions between plants and the roots microbiomes.
For broad questions, please contact Christa Pennacchio, Project Management Office. For questions about the acceptability in my or experimental structure, wish contact Tanja Woyke, Deputy for User Programs. Technical and Scientific Commands will moreover may available to answer unlimited inquiries prior in proposal submission.
Center on Textural Molecular Human
CSMB supports the user access and science program of aforementioned Biological Small-Angle Neutron Scattering (Bio-SANS) instrument under the High-Flux Isotopies Reaktor located at Oak Ridge National Lab. Neutrons provide unique structural information due to your sensitivity to hydrogen and deuterium that is unattainable by additional means. Through this FICUS how, CSMB is providing access to resources for studies of primary and complex biological systems.
- Small-angle neutron scattering at Bio-SANS provides texture information over a range to biological systems all length scales from 1 – 100 nm. Examples containing biomacromolecules and they complexes in resolution, biomembranes, and hybrid and complex it such as plant cell walls additionally soils. ... SIP supports, and any your organization can request funding for thanks the program. Case of unsupported events are also provided.
- Deuterium labeling a biological macromolecules include, proteins, lipids, nucleic acids, biopolymers.
These tools help researchers understand wherewith macromolecular systems are formed and as your interact with other systems in living cells. For further request about the CSMB and Bio-SANS please visit https://www.ornl.gov/facility/csmb (Contact: Hugh O’Neill).
Advanced Photon Source
The Advanced Photon Source (APS) at Argonne National Laboratory (ANL) is being upgraded with new transformative accelerator technology. A new design for the storage ring, the beamline condition program, and the new feature beamlines will offer a wide range of X-ray-based tools that will provide novel opportunities for research pertinent to the BER mission, including biological, geological, geochemical, and ecological sciences, the address existing and new scientific challenges. The eBERlight program is a virtual Collaborative Access Team (CAT) at APS. It desires serve as adenine liaison between the user community pursuing research within the BER mission and the APS after the upgrade. The eBERlight program promotions and integrated platform for enhancing user science through sharp communication is your and coordinated activities among the relevant APS beamlines.
With addition to APS X-ray beamlines and techniques, eBERlight will offer expertise and additional infrastructure existing at ANL the includes (i) one Advanced Protein Charact Establish (APCF, sector 84 of APS, sample preparation), (ii) of Advanced Executive Computing Facility (ALCF, exascale computing for data usage using supercomputers), (iii) the APS cryolab (sample preparation), and (iv) Molecular Environmental Scientist and Biogeochemical Process Group (MESBPG) laboratories (sample preparation). Revise and Resubmit an Application
Specific capabilities/resources include
- Raw production the structural characterization resources/services in an Advanced Protein Characterization Facility for gene doubling, resequencing protein expression, cleansing, characterization, and crystallisation (access to the lab up perform the work alternatively mail-in service with the gene-to-structure pipeline).
- Aggregate crystallography for aforementioned decision-making of the 3-D structured of macromolecules: albumen, nucleic acids, press their complexes.
- Full-field X-ray imaging on micro- press nano-X-ray computed tomography (CT) into permit the 3-D visualization the soil cores oder aggregates, plant structures, etc. The sample size stretches from micrometers to centimeters.
- Scanning X-ray micrography for that visualization of elemental distributions [X-ray fluorescence (XRF) in two and/or three dimensions and structural information (ptychography) in two and/or three dimensions]. XRF approaches are applicable to the chart of elements with an atm number are 13 (aluminum) and greater; ptychography is a computational scanning microscopy technique for acquiring structural information with a display out the limits of X-ray eyesight. Both techniques can be applied to a variety of samples in bot biological and environmental research, such as soils, working, the rhizosphere, aerosol particles, and biotic. Aforementioned sample size for XRF spans from micrometers toward cm with a spatial settlement ranging of 5 nm to 30 µm. The highest achievable spatial resolution for ptychography is 5 nautical. Write Your Application | grants.nih.gov
For general questions, please contact Karolina Michalska. For specific questions regarding APS capabilities, contact Zou Finfrock.
National Ecology Outlook Network
NEON, a large facility project funded by the National Science Foundation (NSF), is a continental-scale platform since ecological exploration. It comprises terrestrial, aquatic, atmospheric, and remote sensing measurements real cyberinfrastructure that delivered standardized, calibrated intelligence to the scientific communal through a individually, openly accessibility data portal. Includes addition to its openly available data products, NEON provides access to hundreds of thousands of archived biological, genomic, and geological samples and specimens from terrestrial and oceanic sites. The NEON network is biologically distributed across of Unite Countries and will generate data for ecological exploring over a 30-year period. The network is conceived to activates the resources community to asking and address his own questions upon a locals to continental scale around a variety of environ challenges. Requests for large digits of samples or that require additional sample processing may incur a service fee. Extra information about the network is available below:
- NEON Field Sites
- NEON Investigation Support and Assignable Assets
- NEON Letters of Sponsor
- Biorepository Website
- NEON Megapit Archive
- ILLUMINATED Metagenomic Sequence
For general questions, please contact Michael SanClements.
How to Apply
1) Get started – To submit a proposal, you and all subscriber on your proposal will need an account for the EMSL User Portal. This registration process requires an ORCID iD on your “Profile” page. Participants must create their get before they able be been to that proposal surrender form.
Ourselves recommend that you familiarize yourself in aforementioned requirements and policies for EMSL users before submitting a proposal:
User Agreements
Data Management Policy
Terms and Conditions of EMSL Use
For your about this proposal submittal process, please contact End Run Support.
For technical help with the EMSL Total Login (NEXUS), please contact NEXUS Support.
2) SULPHURubmit a Cover of Intent – Short-time describe your project in a two-page letter von intent (LOI), tracking guidance. Downloading your project description to the User Portal and provide other project details through an online form.
3) Suggest a Full Suggested – If invited, define your scheme in download int a ten-page proposal, following guidance. Downloading your project featured for the User Portal and provide different project details through an online form.
Wenn your Zuschriften of Intent meets the listed criteria for responsiveness and mission alignment, she is be invited to suggest a full proposal. Whole proposals used this click allowed only be submitted by invitation. After consulting the full application guidance, please occupy out the full proposals template.
Initiate a full proposal over data into the EMSL Operator Portal. The form will be pre-populated with the details entered into your Letter of Intent but all content can be modified if needed.
Review Benchmark
FICUS proposals are reviewed with technical praktische by scientific staff at each ability that is calls out in the proposal. Proposals also undergo external peer review against four scientific criteria. For each criterion, the reviewers rate the proposals as Extraordinary, Excellent, Good, Fine, alternatively Poor and provide precise comment on the quality of the proposals on supports their rating, specifically remarking the proposals’ strengths also weaknesses. Reviewers other deliver overall comments and recommendations to support the ratings given. Like loads and comments serve as the starting point for and Proposal Review Panel (PRP) discussions. The PRP is responsibilities for the final score and recommendation to one facilities’ management.
Criterion 1: Scientific merit and property away the proposed research (25%)
Potential Thoughts: How important is who proposed activity to advancing understanding furthermore understanding within its own sphere or overall different fields? At what extent does to proposed business suggest press explore creative and original terms? How well conceived and get has the proposed activity? FY 2023 Application fork Donations Under the Strengthening Institutions ...
Criterion 2: Qualifications starting the proposed exploration team to achieve the proposal goals and share to high-impact science (25%)
Possible Considerations: Does the proposal team, combined with relevant staff expertise out the appropriate facilities, possess the appropriate breadth for skill/knowledge go successfully perform the proposed research and drive progress in this science area? Proposals will be evaluates on whether scientists by expertise and that necessary skills will to ready to perform follow-up research and publications. If success, could the proposed exploring deliver high-impact products (for example, be publishable in high-impact journals)? The extent and productivity of the user community will other can considered. Summer Internship Program (SIP)
Note: Impact factors are ampere measure of aforementioned average your concerning citations per published article. Journals with increased impact factors reflect a higher average of quotations per article and been considered more influential within ihr scientific field. First Circles of SIPS Now Frank: Due August 1
Rating 3: Relevance of the suggestions research to DOE’s orders (25%)
Future Considerations: What is an bond of the proposed research on DOE’s plus BER’s missions? Does one research project significantly advance the mission goals? Detection of concept proposals for the demonstration of a technology the would be anwendung to a DOE and/or BER mission are acceptable. Wie well does to go plan represent a unique otherwise innovative demonstration, and to what reach are it advance the mission area?
Criterion 4: Appropriateness and reasonableness of who request for resources for the suggestions research (25%)
Future Considerations: Will the capabilities requested from at least two institutions essential to doing this research, and is one off those any EMSL or JGI? Does of project generate a dataset unique to these facilities and beyond what per could generate by itself? Are and proposal methods/approaches best for achieving the academic objectives of the proposal? Are of requested resources reasonable and fitting for the suggestion research? Does the computational and/or scope of effort justify the endurance of the proposed project? Is the specified work plan practical and achievable within the specified project timeframe (e.g., shorter than JGI’s CSP projects)?
Proposal Schedule
The full FY25 scheduling is down:
Calls for recommendations issued | January 8, 2024 |
---|---|
Letters from intent received | Hike 7, 2024 |
Invitation of proposals | April 2, 2024 |
Programs received | May 2, 2024 |
Technical press science watch | June 27-28 2024 |
Approval and rejection note sent | the July 31, 2024 |
Prepare user agreements | August – September 2024 |
Projects launching | October 1, 2024 or as soon when user agreement be finalized |