Award Abstract # 0927863
Collaborative Research: Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux?

NSF Org: OCE
Division Of Ocean Sciences
Recipient: TEXAS A & M RESEARCH FOUNDATION
Initial Amendment Date: September 15, 2009
Latest Amendment Date: September 15, 2009
Award Number: 0927863
Award Instrument: Standard Grant
Program Manager: David Garrison
OCE  Division Of Ocean Sciences
GEO  Directorate for Geosciences
Start Date: October 1, 2009
End Date: September 30, 2014 (Estimated)
Total Intended Award Amount: $312,657.00
Total Awarded Amount to Date: $312,657.00
Funds Obligated to Date: FY 2009 = $312,657.00
History of Investigator:
  • George Jackson (Principal Investigator)
     gjackson@tamu.edu
Recipient Sponsored Research Office: Texas A&M Research Foundation
 400 HARVEY MITCHELL PKWY S STE 300
 COLLEGE STATION
 TX  US  77845-4375
(979)862-6777
Sponsor Congressional District: 10
Primary Place of Performance: Texas A&M University
 400 HARVEY MITCHELL PKY S STE 300
 COLLEGE STATION
 TX  US  77845-4375
Primary Place of Performance
Congressional District:		 10
Unique Entity Identifier (UEI): EQH8NQ4AXFT7
Parent UEI:
NSF Program(s): BIOLOGICAL OCEANOGRAPHY
Primary Program Source: 01000910DB NSF RESEARCH & RELATED ACTIVIT
Program Reference Code(s): 1389, 4444, 0000, EGCH, OTHR
Program Element Code(s): 165000
Award Agency Code: 4900
Fund Agency Code: 4900
Assistance Listing Number(s): 47.050

ABSTRACT

A range of observations suggest that zooplankton act as gatekeepers for material leaving the euphotic zone. This study will investigate the interactions of zooplankton with other particles using a suite of autonomous and tethered instruments in conjunction with finescale water sampling. The SOLOPC (Sounding Oceanographic Observer with Laser Optical Plankton Counter) will be the autonomous instrument and provide hourly profiles of zooplankton and other particles. Previous sampling with the SOLPC indicated a diel cycle of production and abundance of particles in the euphotic zone and their sinking and consumption, presumably by zooplankton observed at the base of the particle abundance maximum. The SOLOPC senses particles, including zooplankton and aggregates, and measures their equivalent spherical diameters which can be used to compute particle size spectra. However, it is difficult to use the SOLOPC to distinguish among particle types, such as copepods, larvaceans, and aggregates, particularly if they are small. The research will include an intensive field study that will take place in Monterey Bay and use adaptive sampling to observe near SOLOPCs with a new, AUV-borne imaging system, ship-based CTD and MOCNESS sampling, and MBARI's ROV Ventana. The investigators will alter a SOLOPC to be stationary relative to an isopycnal and use the particle counts that it accumulates to calculate a flux spectrum. They will combine the flux and concentration spectra to estimate particle sinking velocities as a function of particle diameter. Zooplankton feeding in the water column will be estimated by analyzing the gut fluorescence of animals caught in zooplankton nets and by counting the distribution of fecal pellets in water samples. Results will enhance the understanding of the role of the zooplankton as gatekeepers in the vertical flux of particles and, hence, the biological pump. The study will also provide new insight into factors that affect zooplankton behavior and ecology.

Broader impacts will include mentoring of a graduate student and a postdoctoral researcher, strong collaborations among diverse institutions, instrument development and technology transfer, broad dissemination of results, and contribution to society by better understanding of processes key to the carbon cycle. A PhD student at SIO and postdoctoral investigator at TAMU will be mentored by Checkley and Jackson, respectively. Collaborating institutions include SIO, TAMU, LUMCON, MBARI, BIO, and Université de Paris VI. The SOLOPC, modified to measure flux as a well as profile, and REFLICS are intended for acquisition and use by other researchers worldwide. Results will be presented at national and international meetings and published in the peer-reviewed literature. The understanding we gain of role of the zooplankton as gatekeepers of the vertical flux will contribute valuably to understanding of the biological pump and the carbon cycle.

PUBLICATIONS PRODUCED AS A RESULT OF THIS RESEARCH

Note:  When clicking on a Digital Object Identifier (DOI) number, you will be taken to an external site maintained by the publisher. Some full text articles may not yet be available without a charge during the embargo (administrative interval).

Some links on this page may take you to non-federal websites. Their policies may differ from this site.

(Showing: 1 - 10 of 13)
Jackson, G. A., and A. B. Burd "Simulating particle dynamics in ocean biogeochemical models." Progress in Oceanography , 2014 10.1016/j.pocean.2014.08.014
Boyd, P. W., E. Ibisanmi, S. G. Sander, K. A. Hunter, and G. A. Jackson "Remineralization of upper ocean particles: implications for iron biogeochemistry." Limnol. Oceanogr. , v.55 , 2010 , p.1271
Burd, A. B., D. A. Hansell, D. K. Steinberg, T. R. Anderson, J. Aristegui, F. Baltar, S. R. Beaupre, K. O. Buesseler, F. DeHairs, G. A. Jackson, D. C. Kadko, R. Koppelmann, R. S. Lampitt, T. Nagata, T. Reinthaler, C. Robinson, B. H. Robison "Assessing the apparent imbalance between geochemical and biochemical indicators of meso- and bathypelagic biological activity: what the \@\$\#! is wrong with present calculations of carbon budgets?" Deep Sea Res. II , v.57 , 2010 , p.1557
Dagg, M., G. A. Jackson, and D. M. Checkley, Jr. "The distribution and vertical flux of fecal pellets from large zooplankton in Monterey Bay and coastal California." Deep-Sea Research I , v.94 , 2014 , p.72 10.1016/j.dsr.2014.09.001
Feng, Y., K. Fennel, G. A. Jackson, S.F. DiMarco, and R.D. Hetland. "A model study of the response of hypoxia to upwelling-favorable wind on the northern Gulf of Mexico shelf." J. Mar Systems , v.131 , 2014 , p.63
Guidi, L.;Calil, P. H. R. ;Duhamel, S.;Bjorkman, K. M.; Jackson, G. A. ; Li, B.; Church, M. J.; Doney, S. C.; Tozzi, S.; Kolber, Z. S.; Richards, K. J.; Fong, A. A.; Letelier, R. M.; Gorsky, G.; Stemmann, L.; Karl, D. M. "Does eddy-eddy interaction promote phytoplankton production and carbon export?" J. Geophys. Res. Biogeosci. , v.112 , 2012 , p.G02024 10.1029/2012JG001984
Iversen, M. H., N. Nowald, H. Ploug, G. A. Jackson, and G. Fischer "High resolution profiles of vertical particulate organic matter export off Cape Blanc, Mauritania: degradation processes and ballasting effects." Deep-Sea Res. I , v.57 , 2010 , p.771
Jackson, G. A. "Seascapes: the world of aquatic organisms as determined by their particulate natures." Journal of Experimental Biology , v.215 , 2011 , p.1
Jackson, G. A., and D. M. Checkley "Particle size distributions in the upper 100 m water column and their implications for animal feeding in the plankton" Deep-Sea Res I , v.58 , 2011 , p.2
Jouandet, M.-P., G. A. Jackson, F. Carlotti, L. Stemmann and M. Picheral "Rapid formation of large aggregates during the spring bloom off Kerguelen Island: observations and model comparisons" Biogeosciences , 2014
Marcolin, C. R., S. Schultes, G. A. Jackson, R. M. Lopes "Plankton and seston size spectra by the LOPC and ZooScan in the Abrolhos Bank ecosystem (SE Atlantic)." Continental Shelf Research , 2013
(Showing: 1 - 10 of 13)

Please report errors in award information by writing to: awardsearch@nsf.gov.

Print this page

Back to Top of page

Top