Title:  NSF 02-167, Biocomplexity in the Environment (BE):
        Integrated Research and Education in Environmental Systems
Date:   August 20, 2002

Biocomplexity in the Environment (BE): Integrated Research and Education in
Environmental Systems

   * Dynamics of Coupled Natural and Human Systems (CNH)
   * Coupled Biogeochemical Cycles (CBC)
   * Genome-Enabled Environmental Science & Engineering (GEN-EN)
   * Instrumentation Development for Environmental Activities (IDEA)
   * Materials Use: Science, Engineering, & Society (MUSES)

------------------------------------------------------------------------

Program Solicitation

NSF 02-167

DIRECTORATE FOR GEOSCIENCES
DIRECTORATE FOR BIOLOGICAL SCIENCES
DIRECTORATE FOR COMPUTER AND INFORMATION SCIENCE AND ENGINEERING
DIRECTORATE FOR EDUCATION AND HUMAN RESOURCES
DIRECTORATE FOR ENGINEERING
DIRECTORATE FOR MATHEMATICAL AND PHYSICAL SCIENCES
DIRECTORATE FOR SOCIAL, BEHAVIORAL, AND ECONOMIC SCIENCES
OFFICE OF INTERNATIONAL SCIENCE AND ENGINEERING
OFFICE OF POLAR PROGRAMS

FULL PROPOSAL DEADLINE(S):
November 19, 2002 Deadline for CNH and IDEA
December 17, 2002 Deadline for GEN-EN
January 28, 2003  Deadline for CBC
March 4, 2003     Deadline for MUSES



[NSF Logo]  NATIONAL SCIENCE FOUNDATION

   The National Science Foundation promotes and advances scientific
progress in the United States by competitively awarding grants and
cooperative agreements for research and education in the sciences,
mathematics, and engineering.

   To get the latest information about program deadlines, to download
copies of NSF publications, and to access abstracts of awards, visit the
NSF Web Site at:

                             http://www.nsf.gov

------------------------------------------------------------------------
------------------------------------------------------------------------

                      SUMMARY OF PROGRAM REQUIREMENTS

GENERAL INFORMATION

Program Title: Biocomplexity in the Environment (BE): Integrated Research
and Education in Environmental Systems

Synopsis of Program:

This special competition promotes comprehensive, integrated investigations
of environmental systems using advanced scientific and engineering methods.
The concept of biocomplexity stresses the richness of biological systems
and their capacity for adaptation and self-organizing behavior. By placing
biocomplexity studies in an environmental context, this competition
emphasizes research with the following characteristics: (a) a high degree
of interdisciplinarity; (b) a focus on complex environmental systems that
include interactions of non-human biota or humans; and (c) a focus on
systems with high potential for exhibiting non-linear behavior. In
this fourth year of a multi-year effort, five topical areas will be
emphasized: 1. Dynamics of Coupled Natural and Human Systems (CNH);
2. Coupled Biogeochemical Cycles (CBC); 3. Genome-Enabled Environmental
Science and Engineering (GEN-EN); 4. Instrumentation Development for
Environmental Activities (IDEA); 5. Materials Use: Science, Engineering, &
Society (MUSES).

In all areas, quantitative modeling, simulation, analysis, and
visualization methods are emphasized, as well as integration of research
and education and a global perspective. Consistent with the guidance
provided in each of the five topical areas, individuals or small groups may
submit proposals to conduct research projects or exploratory and planning
activities. This comprehensive approach to research on biocomplexity in the
environment is expected to improve science-based predictive capabilities
for decision-making.

Cognizant Program Officer(s):

   * For contacts in Dynamics of Coupled Natural and Human Systems, see
     www.geo.nsf.gov/be-03.htm#cnh.
   * For contacts in Coupled Biogeochemical Cycles, see
     www.geo.nsf.gov/be-03.htm#cbc.
   * For contacts in Genome-Enabled Environmental Science & Engineering,
     see www.geo.nsf.gov/be-03.htm#genen.
   * For contacts in Instrumentation Development for Environmental
     Activities, see www.geo.nsf.gov/be-03.htm#idea.
   * For contacts in Materials Use: Science, Engineering, & Society, see
     www.geo.nsf.gov/be-03.htm#muses.
   * For contacts about the integrative element on Education, see
     www.geo.nsf.gov/be-03.htm#edu.
   * For contacts about the integrative element on Global Perspective, see
     www.geo.nsf.gov/be-03.htm#gp.
   * For contacts about the integrative element on Quantitative Approaches,
     see www.geo.nsf.gov/be-03.htm#qa.

Applicable Catalog of Federal Domestic Assistance (CFDA) Number(s):

   * 47.074 --- Biological Sciences
   * 47.070 --- Computer and Information Science and Engineering
   * 47.076 --- Education and Human Resources
   * 47.041 --- Engineering
   * 47.050 --- Geosciences
   * 47.049 --- Mathematical and Physical Sciences
   * 47.078 --- Office of Polar Programs
   * 47.075 --- Social, Behavioral and Economic Sciences

ELIGIBILITY INFORMATION

   * Organization Limit: None
   * PI Eligibility Limit: None
   * Limit on Number of Proposals: None

AWARD INFORMATION

   * Anticipated Type of Award: Standard or Continuing Grant
   * Estimated Number of Awards: 30-50 of which approximately 20-30 will be
     for research projects and 10-20 will be for exploratory, conference,
     or planning activities (total of five topical areas)
   * Anticipated Funding Amount: Approximately $36 million (total of five
     topical areas), pending availability of funds.

PROPOSAL PREPARATION AND SUBMISSION INSTRUCTIONS

A. Proposal Preparation Instructions

   * Full Proposals: Deviations From Standard Preparation Guidelines
        o The program announcement/solicitation contains deviations from
          the standard Grant Proposal Guide (GPG) proposal preparation
          guidelines. Please see the full program announcement/solicitation
          for further information.

B. Budgetary Information

   * Cost Sharing Requirements: Cost Sharing is not required.
   * Indirect Cost (F&A) Limitations: Not Applicable.
   * Other Budgetary Limitations: Other budgetary limitations apply. Please
     see the full program announcement/solicitation for further
     information.

C. Deadline/Target Dates

   * Letters of Intent (optional): None
   * Preliminary Proposals (optional): None
   * Full Proposal Deadline Date(s):
     November 19, 2002 Deadline for CNH and IDEA
     December 17, 2002 Deadline for GEN-EN
     January 28, 2003  Deadline for CBC
     March 4, 2003     Deadline for MUSES

D. FastLane Requirements

   * FastLane Submission: Required

   * FastLane Contact(s):
        o Brian Dawson, Computer Specialist, Directorate for Geosciences,
          Division of Earth Sciences, telephone: 703.292.4727, e-mail:
          bdawson@nsf.gov.
        o Florence Rabanal, Fastlane Project Coordinator, Directorate for
          Mathematical and Physical Sciences, telephone: 703.292.8808,
          e-mail: mpsoadfl@nsf.gov.
        o Philip Johnson, Computer Specialist, Directorate for Social,
          Behavioral, and Economic Science, Division of Behavioral and
          Cognitive Sciences, telephone: 703.292.8740, e-mail:
          pxjohnso@nsf.gov.

PROPOSAL REVIEW INFORMATION

   * Merit Review Criteria: National Science Board approved criteria.
     Additional merit review considerations apply. Please see the full
     program announcement/solicitation for further information.

AWARD ADMINISTRATION INFORMATION

   * Award Conditions: Additional award conditions apply. Please see the
     program announcement/solicitation for further information.
   * Reporting Requirements: Standard NSF reporting requirements apply.

                             TABLE OF CONTENTS

  ------------------------------------------------------------------------
  ------------------------------------------------------------------------

     SUMMARY OF PROGRAM REQUIREMENTS

  I. INTRODUCTION
 II. PROGRAM DESCRIPTION
III. ELIGIBILITY INFORMATION
 IV. AWARD INFORMATION
  V. PROPOSAL PREPARATION AND SUBMISSION INSTRUCTIONS
       A. Proposal Preparation Instructions
       B. Budgetary Information
       C. Deadline/Target Dates
       D. FastLane Requirements
 VI. PROPOSAL REVIEW INFORMATION
       A. NSF Proposal Review Process
       B. Review Protocol and Associated Customer Service Standard
VII. AWARD ADMINISTRATION INFORMATION
       A. Notification of the Award
       B. Award Conditions
       C. Reporting Requirements
VIII.CONTACTS FOR ADDITIONAL INFORMATION
 IX. OTHER PROGRAMS OF INTEREST

I. INTRODUCTION

Biocomplexity refers to the dynamic web of often surprising
interrelationships that arise when components of the global
ecosystem--biological, physical, chemical, and the human
dimension--interact. Investigations of Biocomplexity in the Environment are
intended to provide a more complete understanding of natural processes and
cycles, of human behaviors and decisions in the natural world, and of ways
to use new technology effectively to observe the environment and sustain
the diversity of life on Earth. By placing biocomplexity studies in an
environmental context, this competition emphasizes research with the
following characteristics: (a) a high degree of interdisciplinarity; (b) a
focus on complex environmental systems that includes interactions of
non-human biota or humans; and (c) a focus on systems with high potential
for exhibiting non-linear or highly coupled behavior with other systems.

Emphasis is also placed on developing the people and tools needed to
advance biocomplexity studies. To establish and strengthen
interdisciplinary areas of investigation, new communities of investigators
need to be formed. This can be accomplished by bringing members of
disparate disciplines into teams, by developing new methodologies and
expertise, and by reaching beyond the borders of the United States for
partners in inquiry. In the process, the next generation of researchers
learns to work in diverse teams, cross disciplinary boundaries, and use
advanced sensing and monitoring, communication and information technologies
to work across many scales of time and space. Plans for the development of
new instrumentation and novel modes of access to information are also
included.

Five interdisciplinary areas will be emphasized and supported in this
competition, pending availability of funds. These areas are:

   * Dynamics of Coupled Natural and Human Systems (CNH), promoting
     quantitative, interdisciplinary analyses of relevant human and natural
     system processes and the complex interactions among human and natural
     systems at diverse scales, with special emphasis given to studies of
     natural capital; landscapes and land use; and uncertainty, resilience,
     and vulnerability.

   * Coupled Biogeochemical Cycles (CBC), focusing on the interrelation of
     biological, geochemical, geological, and physical processes at all
     temporal and spatial scales, with particular emphasis on understanding
     linkages between chemical and physical cycles and the influence of
     human and other biotic factors on those cycles.

   * Genome-Enabled Environmental Science and Engineering
     (GEN-EN), encouraging the integrated use of genomic and computational
     approaches to gain novel insights into environmental questions and
     problems.

   * Instrumentation Development for Environmental Activities
     (IDEA), supporting the development of instrumentation and software
     that takes advantage of microelectronics, photonics, telemetry,
     robotics, chemical and physical sensing systems, modeling, data
     mining, and analysis techniques to bring recent laboratory
     instrumentation advances to bear on the full spectrum of environmental
     biocomplexity questions.

   * Materials Use: Science, Engineering, and Society (MUSES), supporting
     projects that study reducing adverse human impact on the total,
     interactive system of resource use, the design and synthesis of new
     materials with environmentally benign impacts on biocomplex systems,
     as well as maximizing the efficient use of individual materials
     throughout their life cycles.

II. PROGRAM DESCRIPTION

Program Description Contents

  A. Integrative Elements

       1. Quantitative Approaches
       2. Education
       3. Global Perspective

  B. Topical Areas

       1. Dynamics of Coupled Natural and Human Systems (CNH)
       2. Coupled Biogeochemical Cycles (CBC)
       3. Genome-Enabled Environmental Science and Engineering (GEN-EN)
       4. Instrumentation Development for Environmental Activities (IDEA)
       5. Materials Use: Science, Engineering, and Society (MUSES)

A. INTEGRATIVE ELEMENTS

Quantitative approaches and education activities should be
included in all projects, and international partnerships are
strongly encouraged.

   * An integrated, quantitative, systems-level method of inquiry is
     essential in biocomplexity studies.
   * Education must be addressed and integrated effectively with all
     research plans. Educational activities provide learning opportunities
     for students at appropriate levels (ranging from grades K-12 through
     graduate school), and the general public.
   * A global perspective is expected in all proposals. Wherever
     appropriate and practical, specific international collaborations and
     networks for research and education are strongly encouraged.

1. Quantitative Approaches. Due to the complex nature of systems under
investigation, treatment of non-linearities, feedback processes, and
integration across temporal or spatial scales is often
necessary.  Projects must use appropriate quantitative methods, and teams
should include individual(s) with demonstrated expertise in the
quantitative methods to be used. Quantitative methods may include:
conceptual, mathematical or computational models; computer simulation;
artificial intelligence techniques; hypothesis testing; statistics;
visualization; or database development. Mathematical models must include
estimates of uncertainty, and experiments should assess power and
precision.

2. Education. Competitive projects must integrate research and education.
Those benefiting from educational experiences can include participants
(such as undergraduates, graduate students, teachers, and postdoctoral
associates) and individuals beyond those directly involved in the project.
Investigators are encouraged to include students as active participants on
interdisciplinary teams. Informal education channels, such as science
centers, aquariums, and similar facilities, that are easily accessible and
attractive to the public may be used to help enhance the public's ability
to deal with complex environmental information and make informed decisions
about the environment. Educational efforts at the K-12 level should promote
the acquisition of scientific inquiry skills and take advantage of
technology and use it appropriately.

Examples of specific education plans, as well as other activities likely to
demonstrate broader impacts, are available electronically
at www.nsf.gov/pubs/2002/nsf022/bicexamples.pdf. Some specific examples of
products that will benefit society include exhibits, databases,
computer-based simulations, or kits that could be used by students or the
public to collect and analyze data.

Reviewers will be asked to consider and evaluate the educational
activities. Please refer to the section, “Integration of Research and
Education” in Section VI.A of this solicitation.

Consistent with NSF’s emphasis on the integration of research and education
in projects solicited and funded by the Foundation, grantees are encouraged
to include a section that describes the educational implications of their
research work in the papers they submit for publication.

3. Global Perspective. Because environmental processes transcend national
boundaries, collaborations between U.S. investigators and foreign
counterparts are encouraged wherever appropriate. Many research projects
offer excellent opportunities for students at US and foreign institutions
to gain experience in the conduct of research in other countries. NSF
awards are normally limited to support of the U.S. portion of the
collaboration. In the case of some developing countries, limited funds may
be available to support the involvement of the foreign collaborator.
Investigators may wish to consult with the cognizant program officers for
Global Perspectives listed in the section on contact information. For
information about NSF support for international collaborative programs,
see NSF 00-138.

Return to Program Description Contents

B. TOPICAL AREAS

Proposals must be focused on biocomplexity questions in one of the
following five topical areas:

1. Dynamics of Coupled Natural and Human Systems (CNH)

This topical area focuses on the complex interactions among human and
natural systems at diverse spatial, temporal, and organizational scales. To
be competitive for support, teams of investigators drawn from natural,
social, and mathematical sciences, engineering, and education must examine
the dynamics of appropriate natural and human systems as well as the
interactions that link those human and natural systems.

Competitive projects in the CNH topical area will be those examining
problems that draw on and show promise of enhancing theoretical insights
about human and natural system processes and their interactions.

The interdisciplinary teams undertaking these projects must have
appropriate expertise from scientific and engineering disciplines that
study those human and natural system processes. They must also have
appropriate expertise to undertake proposed quantitative analyses,
educational projects, and fundable international collaborations (where
appropriate).

Proposals may be submitted on any topic associated with the Dynamics of
Coupled Natural and Human Systems, but projects focusing on natural
capital; landscapes and land use; and uncertainty, resilience, and
vulnerability are of particular interest. Among topics that could be
appropriate for consideration in the competition are ecosystem services;
social valuation of the natural environment; maintenance of biodiversity;
propagation and control of invasive species; land-use and land-cover
change; interplay of the built environment, natural resource use, and
conservation; the dynamics of uncertainty, resilience, and vulnerability of
social institutions to environmental change, the resilience and
vulnerability of biophysical systems to human-generated stresses; and the
role of scientific information in environmental justice.

Examples of research projects that have been funded through this
competition include:

·        Development of an integrated model that links economic models of
urban development with models of land-cover change and ecosystem processes
in order to assess relationships between urban development and species
diversity.

·        Cross-national research that explores spatial complexity, the
value of natural capital in grazed ecosystems, the costs of complexity loss
due to fragmentation, and the trade-offs between economic inputs and
ecological complexity.

·        Integration of circulation, population, habitat, and socioeconomic
models to assess how biological reserves function in a coral reef
ecosystem, how different stakeholder groups influence the operation of the
reserves, and the efficacy of different reserve designs in promoting both
local economic development and ecosystem preservation.

Projects may be totally independent activities, or they may be conducted in
association with existing projects or activities, including Long-Term
Ecological Research sites, NSF-supported Human Dimensions of Global Change
centers and teams, NSF Science and Technology Centers or NSF Engineering
Research Centers, or similar venues. If the proposed activity is associated
with other activities currently supported by NSF or other funders, the
project description should make clear how the proposed work is different
from lines of inquiry and activities for which support has already been
acquired. A letter from the director of the ongoing activity or center
agreeing to the proposed project should be included as Supplementary
Documentation (Section I).

The approximately $7.5 million expected to be available in this topical
area will be used to support multi-investigator research and education
projects and programs of three to five years duration. Support for any
award will not exceed a cumulative total of $2 million for the duration of
the award. The program is seeking to award a diverse portfolio of projects
that span a range of size and effort. A very limited number of small awards
(not to exceed $100,000) may be funded for developmental activities such as
workshops or symposia; proof-of-concept studies; and high-risk exploratory
research.  In CNH, NSF anticipates making five to eight major awards
and two to four developmental awards.

2. Coupled Biogeochemical Cycles (CBC)

One of the central challenges of environmental research is understanding
how the physical, chemical, geological, and biological processes of Earth's
natural systems are functionally interrelated. The study of coupled
biogeochemical cycles across wide spatial and temporal scales enables the
development of quantitative knowledge and integrative models for the
cycling of water, carbon and other bioactive elements.  These research
efforts illuminate the complex web of material and energetic pathways
connecting environmental processes to the dynamics of life on Earth. Such
research will also provide the basis for understanding the co-evolution of
Earth and its biosphere and the limits of environmental predictability.

The CBC topical area stresses the systems approach to understanding
interrelationships among earth system cycles at both the molecular and
macroscopic levels. Proposals should address linkages between two or more
biogeochemical cycles together with the underlying biology and ecology, the
fundamental chemical reactions and physical processes that drive
them. While all proposals should focus on complex interactions between
organisms and elemental cycling, investigators are also encouraged to make
provision for the study of associated abiotic phenomena when appropriate.

Some examples of areas of interest include, but are not limited to:

·         Interrelationships of biolimiting elements in terrestrial,
atmospheric, polar, freshwater and marine environments, and the feedback
relationships between biolimiting element cycling and ecological dynamics,
population genetics, ecosystem structure and productivity, and the
evolution of species; studies of biological, geochemical and physical
mechanisms regulating biogeochemistry may focus on the present or the
geologic past.

·         Intersections of the hydrological and ecological sciences, for
example, climate alteration by terrestrial vegetation, ecosystem and
hydrological functions of riparian zones, hydrological controls on aquatic
ecosystems, and ecosystem vulnerability and resilience to extreme
hydrological events.

·         The effect of soil physical and chemical properties on
rhizosphere functioning, alteration of the rhizosphere by changes in land
use, and the responses of soil processes to global change.

·        Innovative investigations into the coupling of chemical and
physical processes or the kinetics and mechanisms of complex chemical
reaction pathways that are critically important to achieving a
quantitative, mechanistic understanding of a biogeochemical system.

Proposals may be submitted by single investigators or by teams, but must be
highly interdisciplinary. Proposals may be submitted for projects up to
5-year duration. No project will be supported for more than $2 million. A
limited number of small awards (not to exceed $100,000) may be funded in
response to proposals for workshops or symposia, meetings to build
international or interdisciplinary teams and proof of concept studies,
small scale pilot studies, or high-risk exploratory research. Approximately
$11 million is expected to be available in this topical area to
support 8-10 large awards and 4-6 small awards.

Return to Program Description Contents

3. Genome-Enabled Environmental Sciences and Engineering (GEN-EN)

The GEN-EN topical area invites the submission of proposals which use
scientific and/or engineering approaches to develop and apply genomic
information and tools to further our understanding of how organisms
interact with (adjust to and modify) their environment.  Hypothesis-based
research projects are especially welcome.  Proposals may address any of a
wide range of questions in the fields of ecology, evolutionary biology,
physiological ecology, microbial ecology, and engineering, as long as
genomic approaches are applied in a logical and necessary manner.

Individual organisms possess powerful but limited capabilities to respond
to changing environmental conditions.  While we have some understanding of
phenotypic responses, and in some cases control mechanisms for relevant
genes, few studies have addressed these problems at a genome-wide
scale.  Fewer still have attempted to use genomic approaches to understand
an organism’s impact on its environment.  Additionally, while populations
and species possess an even greater collective diversity of responses than
do individuals, applying genomic approaches to understand processes
occurring at population through ecosystem scales remains a major challenge.
Genomic approaches that connect these scales of analysis offer the
opportunity to gain novel insights into environmental issues and problem
solving.

Competitive GEN-EN proposals should integrate biological research with
research that develops and enhances appropriate computational, modeling,
statistical, simulation and/or visualization techniques. Teams should
include appropriate expertise to pursue these methodological advances.

Examples of projects that would be appropriate for the GEN-EN competition:

   * Application of genomic approaches to quantify and model gene
     expression and control mechanisms as a function of abiotic and biotic
     factors (i.e. temperature, pressure, dessication, light, nutrients,
     hosts and symbionts, quorum sensing, cell differentiation,
     starvation/survival, apoptosis, or viral infection) or predicted
     scenarios of environmental change.
   * Use of genomic information and/or tools to improve the understanding
     and application of biodegradation and biological treatment processes,
     as well as the ability to design and control them.
   * Examination of variance in gene expression within and among
     populations and/or species that experience different ranges or
     extremes in environmental conditions, as a means to test hypotheses
     about the evolution of the capacity to acclimate to environmental
     change.
   * Use of cultivation-independent genomic approaches to reveal the
     identities and activities of microorganisms, and their relationships
     to changing environmental conditions.
   * Use of genomic tools to address basic questions about how the
     environment interacts with genomes to produce a range of phenotypes.

Proposals that primarily seek support for sequencing, studying systematic
relationships, using standard genetic techniques for taxonomic
identification (e.g., 16s RNA), or that involve only a limited number of
genes should be directed to other programs.  Requests for support for work
on environmental problems that fall within the mission of other federal
agencies (e.g., development of biomarkers for environmental stress) are
also unlikely to be competitive in this program.  Prospective investigators
are encouraged to discuss potential projects with one of the team leaders.

Approximately $7 million is expected to be available to support 4-5
proposals from interdisciplinary teams for projects of up to 5 years
duration, and total budgets up to $2.0 million.

Return to Program Description Contents

4. Instrumentation Development for Environmental Activities (IDEA)

This topical area will support the development of robust instrumentation
and associated software for observing, modeling and analyzing a wide range
of complex environmental materials or compounds, life forms, and processes.
The instrumentation should take advantage of recent advances in
microelectronics, photonics, telemetry, robotics, wireless communication,
and physical and chemical sensing systems to bring recent advances out of
the controlled environment of the laboratory into the full spectrum of the
Earth's environments. A unifying theme will be the development of in
situ instrumentation or remote sensing technologies that minimize
environmental impact and presence, while increasing real-time
data-gathering opportunities and reducing or eliminating human attention.
An important goal of research in this area is the development of useful
instrumentation that can be widely disseminated and aid production of
environmental data of high quality and comparability. Competitive proposals
for advanced instrumentation will combine intelligent, adaptive systems
with associated software for data collection, complex modeling, simulation,
pattern recognition, management, and analysis. This activity supports the
development of new instrumentation, or significant improvements or
enhancements to existing instrumentation (e.g., sensor fusion, systems
integration, or improved resolution, speed, or robustness).  This program
is not intended to support long-term monitoring or deployment of
off-the-shelf or fully developed instrumentation.

Activities in this area might include, but are not limited to:

   * Development, use, and dissemination of robust diagnostic systems that
     can be used for observing and remote sensing of complex environmental
     systems and processes, including living components or geochemical
     cycles.
   * Development, use, and dissemination of micro-mechanical and/or
     microelectronic systems (laboratories on a chip) that can be used in
     situ and can withstand the rigors of harsh natural
     environments.
   * Adaptation of laboratory chemical or physical sensing techniques for
     use in remote in situ measurement.
   * Development of sensors for microbial activity using recent advances in
     micro-fabrication that enable high-density arrays of biologically
     based detection elements, e.g., nucleic acid, enzymatic, or
     immunochemical.
   * Coupling together of space-based observations of environmental
     phenomena with ground based in situ measurements of living systems and
     environments.
   * Development of technology to enhance the acquisition, display and
     analysis of real-time in situ environmental measurements.

In order to encourage the interplay of skills from disciplines such as
engineering, chemistry, physics, and computational science with areas such
as biology, soil science, air and water resources, polar studies, and
oceanography, proposals that support interdisciplinary teams or formation
of such teams are solicited. Small interdisciplinary teams of typically 3-5
faculty researchers may request up to about $400,000 per year for up to
five years. Approximately $5.0 million is expected to be available in this
topical area to support 2-4 awards.  The U.S. Department of Agriculture is
a partner with NSF in the IDEA topical area and will participate in the
review of proposals where appropriate.

Return to Program Description Contents

5. Materials Use: Science, Engineering, & Society (MUSES)

Physical and biological environmental systems are ultimate sources of the
materials required for the great variety of manufactured goods produced by
modern societies. Understanding the supply, treatment, use, and reuse of
the resources provided by natural systems as well as the environmental
effects of introducing alternative materials or new processes are complex
problems that challenge many disciplines. Both technological issues, such
as process and product redesign and manufacturing, as well as behavioral
factors, such as economic and other social forces that affect consumption
and adoption of new technologies and materials, must be addressed. Studies
in the Materials Use: Science, Engineering, and Society (MUSES) topical
area are aimed at reducing adverse human impact on the total, interactive
system of resource use, as well as maximizing the efficient use of
individual materials throughout their life cycles. MUSES includes
fundamental research on: (a) global budgets and cycles of key materials;
(b) means and methods for carefully assessing a material’s impact at every
stage of its entire life cycle; (c) design of alternative materials and
intermediates, processes, systems, and social structures that optimize the
use of materials throughout their life cycles; and (d) modeling the effect
of changes in a material’s use on related materials and processes.

Research in this topical area must stress the fundamental understanding of
comprehensive materials flows that extend from natural resource (physical
and biota) materials extraction; through processing and manufacturing,
assembly, and distribution and consumer use; and on through recycling,
disposal, and reuse. In some cases, the synthesis and characterization of
new classes of materials with desired properties may be involved. Models
should include relationships among constructed, natural, and social systems
and consider continuous materials use in addition to life cycle practice.
Energy consumption during life cycle is relevant. Materials use at widely
ranging scales is within the scope of MUSES, from niche specialty markets
to major construction projects - highways, bridges, large buildings, etc.
Also within the scope of MUSES is consideration of materials “escape”
during transportation, processing or storage (leaks, accidents or
intentional destructive actions). Illustrative examples of advanced
materials that may be considered as part of this activity include, but are
not limited to: the synthesis of new materials with value-added functional
performance for applications such as biodegradable food containers,
electronic materials for sensing in hazardous or extreme environments,
disposable hospital products; materials modifications through processing
that extend the life or ease the remanufacturability such as hybrid
coatings that can be readily removed or upgraded through bioprocessing; and
materials substitutions that lead to low emission and fuel efficient
engines, or alloys and composites for lightweight aircraft and automobiles.

Specific areas of interest include, but are not limited to:

   * Spatially and temporally explicit budgets for key materials, including
     ways in which human activities define, perturb, dominate or limit
     materials flow and supply.
   * Acquisition, comprehension, and integration of data sets from
     environmental, economic, and social spheres, and the development of
     robust ways to utilize potential data intersections to predict
     materials flows.
   * Patterns and driving forces of human consumption of resources, for
     example, the role of incentives in encouraging less wasteful materials
     use or the redesign of markets to provide more accurate signals of the
     societal costs associated with the use of materials.
   * Metrics and assessment models for forecasting the results of
     substituting materials made from renewable resources for those made
     from non-renewable resources, including trade-offs such as land use
     and water consumption.
   * Design and synthesis of desirable materials with predictable
     properties while evaluating environmental friendly impacts on
     biocomplex systems at each stage of their development as useful
     materials; viz. processing and fabrication, assembly and manufacture,
     and eventual recycling of spent materials.
   * Development of "intrinsically secure" chemistries and processes such
     that the vulnerability to the threat of terrorism is reduced by
     reductions in the quantities or toxicities of intermediates and end
     products.

Most of the approximately $5.2 million expected to be available in this
topical area will be used to support 2-3 research and education projects
conducted by multidisciplinary teams of researchers who may request up to
$400,000 per year for three to five years duration.  Up to 5 small awards
(not to exceed $100,000) may be funded in response to proposals for
developmental activities such as proof of concept studies that can include
meetings to build international and/or interdisciplinary teams or high-risk
exploratory research.

Both group and developmental activities submitted in response to the MUSES
theme must involve multidisciplinary research and education, that (a)
include an economist and/or a social scientist on a team with scientists
and engineers from physical, chemical, biological, and/or geological
disciplines; (b) integrate economic and other social factors with
extraction, materials design, and/or manufacturing considerations; and (c)
use or develop computational models or simulations appropriate for the
complexity, multi-disciplinary data sets, and global scale of these
systems. The teams undertaking these MUSES projects must have appropriate
expertise ranging from earth and materials sciences to engineering to
economics to social sciences. They must also have appropriate expertise to
undertake sophisticated quantitative modeling and integrated educational
projects. International partnerships could be particularly valuable to
research and education in this topical area.

Return to Program Description Contents

III. ELIGIBILITY INFORMATION

The categories of proposers identified in the Grant Proposal Guide are
eligible to submit proposals under this program announcement/solicitation.

IV. AWARD INFORMATION

Estimated program budget, number of awards and average award size/duration
are subject to the availability of funds. The estimated number of awards
and anticipated funding amount for each topical area are provided in
Section II, Program Description.

V. PROPOSAL PREPARATION AND SUBMISSION INSTRUCTIONS

A. Proposal Preparation Instructions

Full Proposal:

Proposals submitted in response to this program announcement/solicitation
should be prepared and submitted in accordance with the general guidelines
contained in the NSF Grant Proposal Guide (GPG). The complete text of the
GPG is available electronically on the NSF Web Site at:
http://www.nsf.gov/cgi-bin/getpub?gpg. Paper copies of the GPG may be
obtained from the NSF Publications Clearinghouse, telephone (301) 947-2722
or by e-mail from pubs@nsf.gov.

Proposal Format:

All sections of a proposal submitted for any BE special competition must be
in conformance with GPG. Proposals not in conformance with this requirement
will be returned without review.

Please note the proposal formatting requirements described in GPG II.B.2.

Margins: Proposals must have 2.5 cm margins at the top, bottom and on each
side.

Font Size and Type: The type size must be clear and readily legible,
and conform to all of the following three requirements:

  1. height of the letters must not be smaller than 10 point;
  2. type density must be no more than 15 characters per 2.5 cm (for
     proportional spacing, the average for any representative section of
     text must not exceed 15 characters per 2.5 cm); and
  3. vertical density must be no more than 6 lines per 2.5 cm.

     Sample fonts that meet all three NSF requirements are Times New
     Roman 11.5 point font, Times Roman 11.5 point, Arial 12 point.
     Please note that smaller font sizes of these typesets will not
     conform to these GPG requirements.

Line Spacing: Line spacing (single-spaced, double-spaced, etc.) is at the
discretion of the proposer. Established page limits, however, must be
followed.

Readability: PIs are advised that readability is of paramount importance
and should take precedence in selection of an appropriate font for use in
the proposal.

Questions about fonts and margins may be directed to be-format@nsf.gov.  A
one page project description sample may be sent to this email address at
least two weeks in advance of the various BE submission deadlines for
advice about compliance.

Proposals not in compliance with these requirements will be returned
without review.

As noted in the
GPG (http://www.nsf.gov/pubs/2002/nsf022/nsf0202_2.html#IIB1), proposers
are advised that FastLane does not automatically paginate a proposal. Each
section of the proposal that is uploaded as a file must be individually
paginated before upload to FastLane.

Project Summary

Effective October 1, 2002, NSF will return without review proposals that do
not separately address both merit review criteria within the Project
Summary.   The two criteria, intellectual merit and broader impacts, must
be explicitly referenced in the project summary of all BE proposals.

Project Description

All project descriptions are limited to 15 pages in length. Teams should
present a coherent view of their plans within these limits.

Proposals submitted for this competition should clearly specify all
relevant facets of the proposed project.  The proposal should outline the
theoretical foundations of the project as based in relevant literature. It
should specify the methods that will be used, the expertise that different
researchers will bring to different facets of the project, and how and
where results will be disseminated.

 There are requests in this program announcement for materials on the
 personnel involved in the project. Please use the following definitions
 to provide the corresponding information.

 Principal Investigators--individuals who would assume responsibility for
 an award resulting from this competition, would manage the award, and
 are listed on the cover sheet of the proposal.

 Senior Personnel--any named personnel who will receive salary support as
 well as non-salaried senior investigators who play lead roles in the
 work of the project.

 Project Participants--every person involved with the research project,
 including students.

In addition to any sections that proposers might use to describe their
project, all project descriptions must include the following sections:

   * Results from prior NSF support: Required only for principal
     investigators, as defined above. Refer to GPG, Section II.C.3.
   * Management Plan: The following information should be provided: (1) a
     description of the management structure that will enable the team to
     work effectively; and (2) specification of the qualifications and
     contribution of each of the senior personnel to the activity. This
     increases in importance as the number of senior personnel or
     institutions involved in the project increases.
   * Education Plan: The research plan should include integrated
     educational activites as a part of the narrative. Highlight these
     integrated activities in this section by specifying goals, methods
     that will be used to attain those goals, how the activities will be
     evaluated, and the role of project personnel in educational efforts.
     If educational products are expected to result, indicate how those
     products will be disseminated.
   * Broader Impacts:  The GPG requires that broader impacts resulting from
     the proposed project must be addressed in the Project Description and
     described as an integral part of the narrative.  Examples illustrating
     activities likely to demonstrate broader impacts are available
     electronically at www.nsf.gov/pubs/2002/nsf022/bicexamples.pdf.
     Education and international activities are among the examples.

Biographical Sketches

Required for principal investigators and all senior personnel, as defined
above.

Current and Pending Support

Required for all principal investigators and senior personnel, as defined
above.

Supplementary Documentation

Appropriate items for inclusion are specified in GPG, Section II.C.9. For
example, letters of commitment from collaborating institutions, including
foreign institutions, should be placed in this section, as well as
documents associated with the use of human subjects.

Proposals that include materials in this section that belong in the project
description, may be returned without review.

Appendices

Not permitted.

Conflicts of Interest

In addition to the formal submission of the proposal, the principal
investigator must send by e-mail a compilation of conflicts of interest
information in a spreadsheet format directly to first program officer
listed for the BE topical area to which the proposal was submitted. The
list should be provided in alphabetized order by last name and
include proposal numbers.  The spreadsheet is due within a week of the
proposal submission deadline.

Include in a single alphabetized spreadsheet, names of principal
investigators and senior personnel, with the full names of all people with
whom there are conflicts of interest. Conflicts to be identified are:
(1) PhD thesis advisors or advisees, (2) postdoctoral advisors or advisees,
(3) collaborators or co-authors for the past 48 months, and (4) any other
individual with whom the investigator has a personal, working or financial
relationship that may preclude their selection as a reviewer. For further
clarification of conflicts of interests, please refer to Appendix D of the
new NSF Grant Proposal Guide (NSF 03-2). Three columns are suggested for the
spreadsheet: senior personnel, person or institution with whom there is a
conflict, and the relationship that causes the conflict of interest.

Proposals Involving Multiple Institutions:

In the case of proposals involving multiple institutions, a single
institution should be identified as the lead institution and a single
proposal describing the entire project should be submitted by that
institution. Funds may be distributed among partner institutions via
subawards from the lead institution. A budget on the standard NSF budget
form should be submitted for each subawardee. Letters confirming
collaborations can be scanned and submitted via FastLane as Supplementary
Documentation (in Section I). If single projects are submitted in the form
of multiple proposals (often called "collaboratives"), all proposals in the
set shall be returned without review.

Proposals Involving Collaborators at Foreign Institutions:

Proposers are reminded they must provide biographical sketches of all
senior personnel, including those at foreign institutions. In addition, as
supplementary documentation, proposals involving foreign collaborators must
provide letters of endorsement from the foreign counterpart institutions.

Directing the Proposal to a BE Topical Area:

Once you have identified the Program Solicitation Number on the proposal
Cover Sheet, the five relevant topical areas (i.e., CNH, CBC, GEN-EN, IDEA,
MUSES) will be listed in the Program Box. Highlight the topical area that
your proposal addresses and click on the "Select Program" button. Your
proposal will automatically be assigned to the correct directorate and
division on the Cover Sheet.

If you think that your proposal may be relevant to more than one topical
area, make the selection you think is topically most appropriate and follow
the guidance (monetary and otherwise) for that topical area. Do not submit
duplicate or substantively similar proposals to more than one topical area.
However, you may suggest possible joint review through an e-mail message
sent to the program officers of relevant competitions. Be sure to include
the proposal number in your e-mail message. After the proposal is received,
NSF program officers from relevant topical areas will consult and determine
the most appropriate course of action, which may involve joint review or
transfer of the proposal from one topical area to another. In the case of a
transfer from the topical area you selected, you will be informed. You may
submit more than one proposal to the same or different topical areas only
if they are substantively different from one another.

Pre-Submission Checklist

BE Proposals must be in compliance with GPG and special requirements in the
announcement in order to be considered for review. Proposals not in
compliance with these requirements will be returned without review. Please
refer to the following checklist to address some of the items for which
proposals often are non-compliant:

   * Font and margin requirements
   * Paginated pages
   * Project summary that includes a description of broader
     impacts
   * Project description that is 15 pages or less
   * Project description that includes separate sections for prior
     results,  education, management, and broader impacts
   * Biosketches for all senior personnel
   * Conflict of Interest list submitted to appropriate program leader by
     email.  The list should be provided in alphabetized order by last
     name.

Proposers are reminded to identify the program solicitation number (NSF
02-167) in the program announcement/solicitation block on the proposal
Cover Sheet. Compliance with this requirement is critical to determining
the relevant proposal processing guidelines. Failure to submit this
information may delay processing.

B. Budgetary Information

Cost sharing is not required in proposals submitted under this Program
Solicitation.

Other Budgetary Limitations:

Specific topical areas have award size limitations. Details are in Section
II, Program Description.

Budgets should include travel funds for Principal Investigators to attend a
workshop or meeting of those supported in this program every 2 or 3 years.

Research Platform Support:  Specific amounts for research cruises, arctic
and antarctica logistics, or use of aircraft or other field
facilities should not be included in the budget request.  The PI should
also submit the University-National Oceanographic Laboratory System (UNOLS)
request, Office of Polar Programs (OPP) logistics form, or Division of
Atmospheric Sciences (ATM) facilities form with the proposal.

C. Deadline/Target Dates

Proposals must be submitted by the following date(s):

Full Proposals by 5:00 PM local time:
November 19, 2002 Deadline for CNH and IDEA
December 17, 2002 Deadline for GEN-EN
January 28, 2003  Deadline for CBC
March 4, 2003     Deadline for MUSES

If you would like to have your proposal jointly reviewed by two or more BE
special competitions, be sure to contact all relevant program team leaders
in advance. Submit your proposal by the earliest deadline.

D. FastLane Requirements

Proposers are required to prepare and submit all proposals for this Program
Solicitation through the FastLane system. Detailed instructions for
proposal preparation and submission via FastLane are available at:
http://www.fastlane.nsf.gov/a1/newstan.htm. For FastLane user support, call
the FastLane Help Desk at 1-800-673-6188 or e-mail fastlane@nsf.gov. The
FastLane Help Desk answers general technical questions related to the use
of the FastLane system. Specific questions related to this Program
Solicitation should be referred to the NSF program staff contact(s) listed
in Section VIII of this announcement/solicitation.

Submission of Electronically Signed Cover Sheets. The Authorized
Organizational Representative (AOR) must electronically sign the proposal
Cover Sheet to submit the required proposal certifications (see Chapter II,
Section C of the Grant Proposal Guide for a listing of the certifications).
The AOR must provide the required electronic certifications within five
working days following the electronic submission of the proposal. Proposers
are no longer required to provide a paper copy of the signed Proposal Cover
Sheet to NSF. Further instructions regarding this process are available on
the FastLane website at: http://www.fastlane.nsf.gov.

VI. PROPOSAL REVIEW INFORMATION

A. NSF Proposal Review Process

Reviews of proposals submitted to NSF are solicited from peers with
expertise in the substantive area of the proposed research or education
project. These reviewers are selected by Program Officers charged with the
oversight of the review process. NSF invites the proposer to suggest, at
the time of submission, the names of appropriate or inappropriate
reviewers. Care is taken to ensure that reviewers have no conflicts with
the proposer. Special efforts are made to recruit reviewers from
non-academic institutions, minority-serving institutions, or adjacent
disciplines to that principally addressed in the proposal.

The two National Science Board approved merit review criteria are listed
below (see the Grant Proposal Guide Chapter III.A for further information).
The criteria include considerations that help define them. These
considerations are suggestions and not all will apply to any given
proposal. While proposers must address both merit review criteria,
reviewers will be asked to address only those considerations that are
relevant to the proposal being considered and for which he/she is qualified
to make judgements.

     What is the intellectual merit of the proposed activity?
     How important is the proposed activity to advancing knowledge and
     understanding within its own field or across different fields? How
     well qualified is the proposer (individual or team) to conduct the
     project? (If appropriate, the reviewer will comment on the quality of
     the prior work.) To what extent does the proposed activity suggest and
     explore creative and original concepts? How well conceived and
     organized is the proposed activity? Is there sufficient access to
     resources?

     What are the broader impacts of the proposed activity?
     How well does the activity advance discovery and understanding while
     promoting teaching, training, and learning? How well does the proposed
     activity broaden the participation of underrepresented groups (e.g.,
     gender, ethnicity, disability, geographic, etc.)? To what extent will
     it enhance the infrastructure for research and education, such as
     facilities, instrumentation, networks, and partnerships? Will the
     results be disseminated broadly to enhance scientific and
     technological understanding? What may be the benefits of the proposed
     activity to society?

NSF staff will give careful consideration to the following in making
funding decisions:

     Integration of Research and Education
     One of the principal strategies in support of NSF's goals is to foster
     integration of research and education through the programs, projects,
     and activities it supports at academic and research institutions.
     These institutions provide abundant opportunities where individuals
     may concurrently assume responsibilities as researchers, educators,
     and students and where all can engage in joint efforts that infuse
     education with the excitement of discovery and enrich research through
     the diversity of learning perspectives.

     Integrating Diversity into NSF Programs, Projects, and Activities
     Broadening opportunities and enabling the participation of all
     citizens -- women and men, underrepresented minorities, and persons
     with disabilities -- is essential to the health and vitality of
     science and engineering. NSF is committed to this principle of
     diversity and deems it central to the programs, projects, and
     activities it considers and supports.

     Additional Review Criteria

     Successful proposals in all topical areas of the competition must be
     highly interdisciplinary, address the inherent complexity and highly
     coupled nature of environmental systems, and involve systems that
     include interactions of biota or humans. The three integrative
     elements--quantitative approaches, education, and global
     perspectives--are also important. Research projects must address
     appropriate quantitative approaches and specific plans for education.
     Proposals that promote the development of long-term international
     partnerships will be given special consideration.

     In addition to NSF's standard review criteria, planning or exploratory
     activities will be evaluated on their interdisciplinarity and their
     potential to advance the study of biocomplexity in the environment.

     In the evaluation of proposals submitted by teams of investigators,
     considerations in addition to standard NSF review criteria are:

        o Strength of the collaborations planned and degree of
          interdisciplinarity
        o Effectiveness of the group organization and management plan
        o Value to education in these topical areas
        o Strength of the dissemination plans
        o Extent, effectiveness, and long-term potential of collaborations
          with industries, national laboratories, and comparable research
          centers abroad, when appropriate.

     Descriptions of educational activities should specify goals, methods
     to attain those goals, and the expertise of individuals to accomplish
     them. Thus, they will be evaluated based on:

        o Potential interest to and appropriateness for the audience
          targeted
        o Quality of planning and appropriateness of personnel
        o Feasibility and potential for resulting in a disseminable product
        o Integration and complementarity to the research efforts.

B. Review Protocol and Associated Customer Service Standard

All proposals are carefully reviewed by at least three other persons
outside NSF who are experts in the particular field represented by the
proposal. This will be the case for proposals for all research projects
requesting over $100,000 submitted in response to this announcement. More
specifically, proposals in this category will be reviewed externally by
mail review and/or panel review. Development or planning activities,
exploratory, conference, or incubation proposals for $100,000 or less may
be reviewed by a scientist, engineer, or educator serving as a NSF Program
Officer and/or outside experts.

Reviewers will be asked to formulate a recommendation to either support or
decline each proposal. The Program Officer assigned to manage the
proposal's review will consider the advice of reviewers and will formulate
a recommendation.

A summary rating and accompanying narrative will be completed and submitted
by each reviewer. In all cases, reviews are treated as confidential
documents. Verbatim copies of reviews, excluding the identities of
reviewers, are sent to the Principal Investigator/Project Director by the
Program Director. In addition, the proposer will receive an explanation of
the decision to award or decline funding.

NSF is striving to be able to tell applicants whether their proposals have
been declined or recommended for funding within six months. The time
interval begins on the closing date of an announcement/solicitation or the
date of proposal receipt (whichever is later). The interval ends when the
Division Director accepts the Program Officer's recommendation.

In all cases, after programmatic approval has been obtained, the proposals
recommended for funding will be forwarded to the Division of Grants and
Agreements for review of business, financial, and policy implications and
the processing and issuance of a grant or other agreement. Proposers are
cautioned that only a Grants and Agreements Officer may make commitments,
obligations or awards on behalf of NSF or authorize the expenditure of
funds. No commitment on the part of NSF should be inferred from technical
or budgetary discussions with a NSF Program Officer. A Principal
Investigator or organization that makes financial or personnel commitments
in the absence of a grant or cooperative agreement signed by the NSF Grants
and Agreements Officer does so at one's own risk.

VII. AWARD ADMINISTRATION INFORMATION

A. Notification of the Award

Notification of the award is made to the submitting organization by a
Grants Officer in the Division of Grants and Agreements. Organizations
whose proposals are declined will be advised as promptly as possible by the
cognizant NSF Program Division administering the program. Verbatim copies
of reviews, not including the identity of the reviewer, will be provided
automatically to the Principal Investigator. (See section VI.A. for
additional information on the review process.)

B. Award Conditions

An NSF award consists of: (1) the award letter, which includes any special
provisions applicable to the award and any numbered amendments thereto; (2)
the budget, which indicates the amounts, by categories of expense, on which
NSF has based its support (or otherwise communicates any specific approvals
or disapprovals of proposed expenditures); (3) the proposal referenced in
the award letter; (4) the applicable award conditions, such as Grant
General Conditions (NSF-GC-1)* or Federal Demonstration Partnership (FDP)
Terms and Conditions;* and (5) any announcement or other NSF issuance that
may be incorporated by reference in the award letter. Cooperative agreement
awards also are administered in accordance with NSF Cooperative Agreement
Terms and Conditions (CA-1). Electronic mail notification is the preferred
way to transmit NSF awards to organizations that have electronic mail
capabilities and have requested such notification from the Division of
Grants and Agreements.

*These documents may be accessed electronically on NSF's Web site at
http://www.nsf.gov/home/grants/grants_gac.htm. Paper copies may be obtained
from the NSF Publications Clearinghouse, telephone (301) 947-2722 or by
e-mail from pubs@nsf.gov.

More comprehensive information on NSF Award Conditions is contained in the
NSF Grant Policy Manual (GPM) Chapter II, available electronically on the
NSF Web site at http://www.nsf.gov/cgi-bin/getpub?gpm. The GPM is also for
sale through the Superintendent of Documents, Government Printing Office
(GPO), Washington, DC 20402. The telephone number at GPO for subscription
information is (202) 512-1800. The GPM may be ordered through the GPO Web
site at http://www.gpo.gov.

Special Award Conditions
Additional award conditions may be included addressing the pilot testing
and evaluation of materials on pre-college students and the distribution or
commercial publication of materials developed, a license for government
use, and program income.

Meetings or workshops for Principal Investigators may be called by NSF
approximately every two years. Investigators will be expected to make every
reasonable effort to attend and to use grant funds to support their travel
expenses.

C. Reporting Requirements

For all multi-year grants (including both standard and continuing grants),
the PI must submit an annual project report to the cognizant Program
Officer at least 90 days before the end of the current budget period.

Within 90 days after the expiration of an award, the PI also is required to
submit a final project report. Approximately 30 days before expiration, NSF
will send a notice to remind the PI of the requirement to file the final
project report. Failure to provide final technical reports delays NSF
review and processing of pending proposals for that PI. PIs should examine
the formats of the required reports in advance to assure availability of
required data.

NSF has implemented an electronic project reporting system, available
through FastLane. This system permits electronic submission and updating of
project reports, including information on project participants (individual
and organizational), activities and findings, publications, and other
specific products and contributions. PIs will not be required to re-enter
information previously provided, either with a proposal or in earlier
updates using the electronic system.

VIII. CONTACTS FOR ADDITIONAL INFORMATION

General inquiries regarding  Biocomplexity in the Environment (BE):
Integrated Research and Education in Environmental Systems  should be made
to:

   * For contacts in Dynamics of Coupled Natural and Human Systems, see
     www.geo.nsf.gov/be-03.htm#cnh.
   * For contacts in Coupled Biogeochemical Cycles, see
     www.geo.nsf.gov/be-03.htm#cbc.
   * For contacts in Genome-Enabled Environmental Science & Engineering,
     see www.geo.nsf.gov/be-03.htm#genen.
   * For contacts in Instrumentation Development for Environmental
     Activities, see www.geo.nsf.gov/be-03.htm#idea.
   * For contacts in Materials Use: Science, Engineering, & Society, see
     www.geo.nsf.gov/be-03.htm#muses.
   * For contacts about the integrative element on Education, see
     www.geo.nsf.gov/be-03.htm#edu.
   * For contacts about the integrative element on Global Perspective, see
     www.geo.nsf.gov/be-03.htm#gp.
   * For contacts about the integrative element on Quantitative Approaches,
     see www.geo.nsf.gov/be-03.htm#qa.

For questions related to the use of FastLane, contact:

   * Brian Dawson, Computer Specialist, Directorate for Geosciences,
     Division of Earth Sciences, telephone: 703.292.4727, e-mail:
     bdawson@nsf.gov.
   * Florence Rabanal, Fastlane Project Coordinator, Directorate for
     Mathematical and Physical Sciences, telephone: 703.292.8808, e-mail:
     mpsoadfl@nsf.gov.
   * Philip Johnson, Computer Specialist, Directorate for Social,
     Behavioral, and Economic Science, Division of Behavioral and Cognitive
     Sciences, telephone: 703.292.8740, e-mail: pxjohnso@nsf.gov.

IX. OTHER PROGRAMS OF INTEREST

The NSF Guide to Programs is a compilation of funding for research and
education in science, mathematics, and engineering. The NSF Guide to
Programs is available electronically at
http://www.nsf.gov/cgi-bin/getpub?gp. General descriptions of NSF programs,
research areas, and eligibility information for proposal submission are
provided in each chapter.

Many NSF programs offer announcements or solicitations concerning specific
proposal requirements. To obtain additional information about these
requirements, contact the appropriate NSF program offices. Any changes in
NSF's fiscal year programs occurring after press time for the Guide to
Programs will be announced in the NSF E-Bulletin, which is updated daily on
the NSF web site at http://www.nsf.gov/home/ebulletin, and in individual
program announcements/solicitations. Subscribers can also sign up for NSF's
Custom News Service (http://www.nsf.gov/home/cns/start.htm) to be notified
of new funding opportunities that become available.

                   ABOUT THE NATIONAL SCIENCE FOUNDATION

The National Science Foundation (NSF) funds research and education in most
fields of science and engineering. Awardees are wholly responsible for
conducting their project activities and preparing the results for
publication. Thus, the Foundation does not assume responsibility for such
findings or their interpretation.

NSF welcomes proposals from all qualified scientists, engineers and
educators. The Foundation strongly encourages women, minorities and persons
with disabilities to compete fully in its programs. In accordance with
Federal statutes, regulations and NSF policies, no person on grounds of
race, color, age, sex, national origin or disability shall be excluded from
participation in, be denied the benefits of, or be subjected to
discrimination under any program or activity receiving financial assistance
from NSF (unless otherwise specified in the eligibility requirements for a
particular program).

Facilitation Awards for Scientists and Engineers with Disabilities (FASED)
provide funding for special assistance or equipment to enable persons with
disabilities (investigators and other staff, including student research
assistants) to work on NSF-supported projects. See the program
announcement/solicitation for further information.

The National Science Foundation has Telephonic Device for the Deaf (TDD)
and Federal Information Relay Service (FIRS) capabilities that enable
individuals with hearing impairments to communicate with the Foundation
about NSF programs, employment or general information. TDD may be accessed
at (703) 292-5090, FIRS at 1-800-877-8339.

The National Science Foundation is committed to making all of the
information we publish easy to understand. If you have a suggestion about
how to improve the clarity of this document or other NSF-published
materials, please contact us at plainlanguage@nsf.gov.

                  PRIVACY ACT AND PUBLIC BURDEN STATEMENTS

The information requested on proposal forms and project reports is
solicited under the authority of the National Science Foundation Act of
1950, as amended. The information on proposal forms will be used in
connection with the selection of qualified proposals; project reports
submitted by awardees will be used for program evaluation and reporting
within the Executive Branch and to Congress. The information requested may
be disclosed to qualified reviewers and staff assistants as part of the
proposal review process; to applicant institutions/grantees to provide or
obtain data regarding the proposal review process, award decisions, or the
administration of awards; to government contractors, experts, volunteers
and researchers and educators as necessary to complete assigned work; to
other government agencies needing information as part of the review process
or in order to coordinate programs; and to another Federal agency, court or
party in a court or Federal administrative proceeding if the government is
a party. Information about Principal Investigators may be added to the
Reviewer file and used to select potential candidates to serve as peer
reviewers or advisory committee members. See Systems of Records, NSF-50,
"Principal Investigator/Proposal File and Associated Records," 63 Federal
Register 267 (January 5, 1998), and NSF-51, "Reviewer/Proposal File and
Associated Records," 63 Federal Register 268 (January 5, 1998). Submission
of the information is voluntary. Failure to provide full and complete
information, however, may reduce the possibility of receiving an award.

Pursuant to 5 CFR 1320.5(b), an agency may not conduct or sponsor, and a
person is not required to respond to an information collection unless it
displays a valid OMB control number. The OMB control number for this
collection is 3145-0058. Public reporting burden for this collection of
information is estimated to average 120 hours per response, including the
time for reviewing instructions. Send comments regarding this burden
estimate and any other aspect of this collection of information, including
suggestions for reducing this burden, to: Suzanne Plimpton, Reports
Clearance Officer, Information Dissemination Branch, Division of
Administrative Services, National Science Foundation, Arlington, VA 22230,
or to Office of Information and Regulatory Affairs of OMB, Attention: Desk
Officer for National Science Foundation (3145-0058), 725 17th Street, N.W.
Room 10235, Washington, D.C. 20503.

NSF 02-167
OMB control number: 3145-0058.