Award Abstract #0541625
RCN: Integrating Macroecological Pattern and Processes Across Scales (IMPPS)
NSF Org: |
DEB
Division of Environmental Biology
|
|
|
Initial Amendment Date: |
July 14, 2006 |
|
Latest Amendment Date: |
May 3, 2008 |
|
Award Number: |
0541625 |
|
Award Instrument: |
Continuing grant |
|
Program Manager: |
Saran Twombly
DEB Division of Environmental Biology
BIO Directorate for Biological Sciences
|
|
Start Date: |
July 15, 2006 |
|
Expires: |
June 30, 2009 (Estimated) |
|
Awarded Amount to Date: |
$290000 |
|
Investigator(s): |
Felisa Smith fasmith@unm.edu (Principal Investigator)
Morgan Ernest (Co-Principal Investigator) Sara Lyons (Co-Principal Investigator)
|
|
Sponsor: |
University of New Mexico
1700 Lomas Blvd. NE
ALBUQUERQUE, NM 87131 505/277-4186
|
|
NSF Program(s): |
ECOLOGY
|
|
Field Application(s): |
0510301 Structure & Function
|
|
Program Reference Code(s): |
EGCH, 9169, 9150, 1664, 1182
|
|
Program Element Code(s): |
1182
|
ABSTRACT
The body size of an organism reflects complex tradeoffs among numerous processes. Nevertheless, certain size-dependent relationships are repeatedly observed for mammals and other taxa. For example, the distribution of mammalian body sizes (i.e., minimum, maximum, and modal size) is remarkably similar across continents, despite little speices overlap. Moreover, distributions appear to have been similar for the past 50 million years. Do patterns arise because of common ancestry, because organisms exist in similar environments, or because they face similar design or life history constraints? The broad goal of this project is to assess the generality of body size patterns and investigate general underlying processes. The project assembles an international and distinguished team of scientists with expertise spanning the full spectrum of time, space, and various disciplines (e.g., paleontology, marine and terrestrial ecology, evolutionary biology, genetics). Anticipated results include the development of a comprehensive global database on life history, body size, geography, and phylogenetic relatedness for mammals as well as the development of novel analytical and statistical tools.
The intellectual merit of the project stems from investigation of the influence of various intrinsic and extrinsic factors in generating 'invariant' body size patterns across vastly different scales of space and time. Since the largest mammals are often critically endangered (e.g., African elephant, blue whale) and small mammals are comparatively understudied, results will provide important insights into conservation challenges posed by species at extremes of size. Broader impacts include: 1) development of much needed analytic tools and methodologies of use to scientists working in many emerging fields, 2) a macroecological database freely available to the public and other scientists, 3) development of an integrated network of scientists including international collaborators and both minority and female scientists, 4) training and mentoring of graduate and undergraduate students, and 5) outreach efforts targeted especially to underrepresented students including development of a course on macroecology.
Please report errors in award information by writing to: awardsearch@nsf.gov.
|