Possible Impacts of Ozone Depletion on Trophic Interactions and Biogenic Vertical Carbon Flux in the Southern Ocean

Among the most productive region of the Southern Ocean is the marginal ice edge zone that trails the retreating ice edge in spring and early summer. The timing of this near-surface phytoplankton bloom coincides with seasonal stratospheric ozone depletion when UV irradiance is reportedly as high as i...

Full description

Bibliographic Details
Main Authors: Marchant, Harvey J., Davidson, Andrew
Other Authors: ALASKA UNIV FAIRBANKS GEOPHYSICAL INST
Format: Text
Language:English
Published: 1992
Subjects:
Biology
Ecology
Atmospheric Physics
Physical and Dynamic Oceanography
*DEPLETION
*OZONE
*PHYTOPLANKTON
*CARBON DIOXIDE
CARBON
CRUSTACEA
CYCLES
DEEP WATER
EDGES
EUPHOTIC ZONES
ICE
LIFE CYCLES
OCEANS
PARTICULATES
PELLETS
RADIATION
REGIONS
SUMMER
SURFACES
VALUE
WATER
SYMPOSIA
NUTRIENTS
ALGAE
AUSTRALIA
ANTARCTIC REGIONS
Component Reports
*Trophic interactions
*Biogenic vertical
Carbon flux
Seasonal stratospheric
Ultraviolet irradiance
Blooms
Phaeocystis pouchetii
Diatoms
Southern Ocean
Antarctic
Fairbanks
Antarc*
Antarctic Krill
Euphausia superba
Alaska
Online Access:http://www.dtic.mil/docs/citations/ADP007315
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADP007315
Description
Summary:Among the most productive region of the Southern Ocean is the marginal ice edge zone that trails the retreating ice edge in spring and early summer. The timing of this near-surface phytoplankton bloom coincides with seasonal stratospheric ozone depletion when UV irradiance is reportedly as high as in mid-summer. Recent investigations indicate that antarctic marine phytoplankton are presently UV stressed. The extent to which increasing UV radiation diminishes the ability of phytoplankton to fix C02 and/or leads to changes in their species composition is equivocal. The colonial stage in the life cycle of the alga Phaeocystis pouchetii is one of the major components of the bloom. We have found that this alga produces extracellular products which are strongly UV-B absorbing. When exposed to increasing levels of UV-B radiation, survival of antarctic colonial Phaeocystis was significantly greater than colonies of this species from temperate waters and of the single-celled stage of its life cycle which produces no UV-B-absorbing compounds. Phaeocystis is apparently a minor dietary component of Antarctic krill, Euphausia superba, and its nutritional value to crustacea is reportedly low. Phytoplankton, principally diatoms, together with fecal pellets and molted exoskeletons of grazers contribute most of the particulate carbon flux from the euphotic zone to deep water. This article is from 'Proceedings of the International Conference on the Role of the Polar Regions in Global Change Held in Fairbanks, Alaska on 11-15 June 990. Volume 2', AD-A253 028, p397-400. See also Volume 1, AD-A253 027.

Similar Items