|
|
|
 |
 National Science
Foundation Award #0443403 |
 |
|
|
Collaborative Research: Plankton Community Structure and Iron Distribution in the Southern Drake Passage and Scotia Sea |
| |
| Investigator(s): |
Christopher Measures (PI)
; Karen Selph (Co-PI)
|
| Sponsor: |
University of Hawaii, HI 96822 8089567800
|
| Start Date/Expiration Date |
2005-09-01 to 2007-08-31 (amended 2005-08-08) |
| Awarded Amount to Date: |
$316,922 |
| Abstract: The Shackleton Fracture Zone (SFZ) in Drake Passage of the Southern Ocean defines a boundary between low and high phytoplankton waters. Low chlorophyll water flowing through the southern Drake Passage emerges as high chlorophyll water to the east, and recent evidence indicates that the Southern Antarctic Circumpolar Current Front (SACCF) is steered south of the SFZ onto the Antarctic Peninsula shelf where mixing between the water types occurs. The mixed water is then advected off-shelf with elevated iron and phytoplankton biomass. The SFZ is therefore an ideal natural laboratory to improve the understanding of plankton community responses to natural iron fertilization, and how these processes influence export of organic carbon to the ocean interior. The bathymetry of the region is hypothesized to influence mesoscale circulation and transport of iron, leading to the observed patterns in phytoplankton biomass. The position of the Antarctic Circumpolar Current (ACC) is further hypothesized to influence the magnitude of the flow of ACC water onto the peninsula shelf, mediating the amount of iron transported into the Scotia Sea. To address these hypotheses, a research cruise will be conducted near the SFZ and to the east in the southern Scotia Sea. A mesoscale station grid for vertical profiles, water sampling, and bottle incubation enrichment experiments will complement rapid surface surveys of chemical, plankton, and hydrographic properties. Distributions of manganese, aluminum and radium isotopes will be determined to trace iron sources and estimate mixing rates. Phytoplankton and bacterial physiological states (including responses to iron enrichment) and the structure of the plankton communities will be studied. The primary goal is to better understand how plankton productivity, community structure and export production in the Southern Ocean are affected by the coupling between bathymetry, mesoscale circulation, and distributions of limiting nutrients. The proposed work represents an interdisciplinary approach to address the fundamental physical, chemical and biological processes that contribute to the abrupt transition in chl-a which occurs near the SFZ. Given recent indications that the Southern Ocean is warming, it is important to advance the understanding of conditions that regulate the present ecosystem structure in order to predict the effects of climate variability. This project will promote training and learning across a broad spectrum of groups. Funds are included to support postdocs, graduate students, and undergraduates. In addition, this project will contribute to the development of content for the Polar Science Station website, which has been a resource since 2001 for instructors and students in adult education, home schooling, tribal schools, corrections education, family literacy programs, and the general public. |
|
| NSF Org: |
ANT - Antarctic Sciences Section |
| Award Number: |
0443403 |
| Award Instrument: |
Standard Grant |
| Program Manager: |
Roberta L. Marinelli
ANT Antarctic Sciences Section
OPP Office of Polar Programs
|
| NSF Program(s): |
ANTARCTIC BIOLOGY & MEDICINE, ANTARCTIC OCEANS & CLIMATE SYS |
| Field Application(s): |
Polar Programs-Related |
| Program Reference Code(s): |
BIODIVERSITY AND ECOSYSTEM DYNAMICS, 9169
EXP PROG TO STIM COMP RES, 9150 |
| Program Element Code(s): |
5111
ANTARCTIC OCEANS & CLIMATE SYS, 5113 |
|
|
| |
 |
|
|
|
|
|
|
|
