Paleoclimate - NSF PD 98-1530
Supports research on the natural evolution of Earth's climate with the goal of providing a baseline for present variability and future trends through improved understanding of the physical, chemical, and biological processes that influence climate over the long-term. The Geosciences Directorate and the Office of Polar Programs have joined in creating the annual Paleo Perspectives on Climate Change (P2C2) (http://www.nsf.gov/funding/pgm_summ.jsp?pims_id=5750) competition in paleoclimate global change research. Researchers are encouraged to consider the P2C2 competition as a possible source of support for their global change research. Since proposals eligible for funding in the P2C2 competition are not eligible for funding in the Paleoclimate Program, researchers are strongly advised to contact the Director of the Paleoclimate Program for guidance as to the suitability of their proposed research for either program.
Proposals welcome at any time during the year but, investigators are encouraged to submit proposals early in the fiscal year. Proposals to the P2C2 competition must adhere to the current deadline.
NSF 17-543 Antarctic Ocean and Atmospheric Sciences
Antarctic Ocean and Atmospheric Sciences (AOAS) seeks to increase the understanding of the physics, chemistry, dynamics, and energetics of the oceans, atmosphere, and cryosphere at high southern latitudes. Emphasis areas include but are not limited to: Atmospheric dynamics, transport, and chemistry; Physical and chemical oceanography; Biogeochemical cycles and controls on marine productivity; Sea ice and ice shelf/ocean interactions; Energy budgets and climate dynamics. The AOAS Program supports observational fieldwork in Antarctica and the Southern Ocean utilizing a range of land-based, shipboard, airborne, and autonomous platforms. The Program supports instrumentation development, data synthesis, and modeling.
Jan. 29, 2018
Paleo Perspectives on Climate Change (P2C2)
The goal of research funded under the interdisciplinary P2C2 solicitation is to utilize key geological, chemical, atmospheric (gas in ice cores), and biological records of climate system variability to provide insights into the mechanisms and rate of change that characterized Earth's past climate variability, the sensitivity of Earth's climate system to changes in forcing, and the response of key components of the Earth system to these changes. Important scientific objectives of P2C2 are to: 1) provide comprehensive paleoclimate data sets that can serve as model test data sets analogous to instrumental observations; and 2) enable transformative syntheses of paleoclimate data and modeling outcomes to understand the response of the longer-term and higher magnitude variability of the climate system that is observed in the geological and cryospheric records.
Oct. 22, 2018
Prediction of and Resilience against Extreme Events (PREEVENTS)
PREEVENTS seeks projects that will (1) enhance understanding of the fundamental processes underlying natural hazards and extreme events on various spatial and temporal scales, as well as the variability inherent in such hazards and events, and (2) improve our capability to model and forecast such hazards and events. All projects requesting PREEVENTS support must be primarily focused on these two targets. In addition, PREEVENTS projects will improve our understanding of the effects of natural hazards and extreme events and will enable development, with support by other programs and organizations, of new tools to enhance societal preparedness and resilience against such impacts.
Jan. 4, 2019
Climate and Large-Scale Dynamics National Science Foundaiton PD-06-5740
The goals of the Program are to: (i) advance knowledge about the processes that force and regulate the atmosphere’s synoptic and planetary circulation, weather and climate, and (ii) sustain the pool of human resources required for excellence in synoptic and global atmospheric dynamics and climate research. Research topics include theoretical, observational and modeling studies of the general circulation of the stratosphere and troposphere; synoptic scale weather phenomena; processes that govern climate; the causes of climate variability and change; methods to predict climate variations; extended weather and climate predictability; development and testing of parameterization of physical processes; numerical methods for use in large-scale weather and climate models; the assembly and analysis of instrumental and/or modeled weather and climate data; data assimilation studies; development and use of climate models to diagnose and simulate climate and its variations and change. Some Climate and Large Scale Dynamics (CLD) proposals address multidisciplinary problems and are often co-reviewed with other NSF programs, some of which, unlike CLD, use panels in addition to mail reviewers, and thus have target dates or deadlines. Proposed research that spans in substantive ways topics appropriate to programs in other divisions at NSF, e.g., ocean sciences, ecological sciences, hydrological sciences, geography and regional sciences, applied math and statistics, etc., must be submitted at times consistent with target dates or deadlines established by those programs. If it's not clear whether your proposed research is appropriate for co-review, please contact CLD staff.
Proposals accepted anytime