Projects per year
Abstract / Description of output
In the western Antarctic Peninsula region, micronutrient injection facilitates strong plankton blooms that support productive food webs, unlike large areas of the low-productivity Southern Ocean.We use naturally occurring radioisotopes of radium to constrain rates of chemical fluxes into Ryder Bay (a small coastal
embayment in northern Marguerite Bay), and hence to evaluate possible sources of sediment-derived micronutrients and estimate sediment-ocean mixing rates. We present the first coupled, short-lived radium isotope (223Ra and 224Ra) measurements from Antarctic waters, both present at very low activities (mean 0.155 and 3.21 dpmm-3, respectively), indicating much lower radium inputs than in other coastal environments. Longer-lived 228Ra activity was also lower than existing nearshore values, but higher than open ocean waters, indicating some degree of coastal radium input on timescales exceeding the week-to-month range reflected by 223Ra and 224Ra. Using a simple diffusion model along a shore to mid-bay transect, effective horizontal eddy diffusivity estimates ranged from 0.22–0.83m2 s-1 from 223Ra and 224Ra, respectively, much lower than already-low mixing estimates for the Southern Ocean. Significant radium enrichment and much faster mixing (18m2 s-1) was found near a marine-terminating glacier and consequently any sediment-derived micronutrient
inputs in this location are more probably dominated by glacial processes than groundwater, land runoff, or marine sediment sources.
embayment in northern Marguerite Bay), and hence to evaluate possible sources of sediment-derived micronutrients and estimate sediment-ocean mixing rates. We present the first coupled, short-lived radium isotope (223Ra and 224Ra) measurements from Antarctic waters, both present at very low activities (mean 0.155 and 3.21 dpmm-3, respectively), indicating much lower radium inputs than in other coastal environments. Longer-lived 228Ra activity was also lower than existing nearshore values, but higher than open ocean waters, indicating some degree of coastal radium input on timescales exceeding the week-to-month range reflected by 223Ra and 224Ra. Using a simple diffusion model along a shore to mid-bay transect, effective horizontal eddy diffusivity estimates ranged from 0.22–0.83m2 s-1 from 223Ra and 224Ra, respectively, much lower than already-low mixing estimates for the Southern Ocean. Significant radium enrichment and much faster mixing (18m2 s-1) was found near a marine-terminating glacier and consequently any sediment-derived micronutrient
inputs in this location are more probably dominated by glacial processes than groundwater, land runoff, or marine sediment sources.
Original language | English |
---|---|
Pages (from-to) | 445-456 |
Number of pages | 12 |
Journal | Antarctic Science |
Volume | 25 |
Issue number | 3 |
Early online date | 29 Oct 2012 |
DOIs | |
Publication status | Published - 2013 |
Fingerprint
Dive into the research topics of 'Use of radium isotopes to estimate mixing rates and trace sediment inputs to surface waters in northern Marguerite Bay, Antarctic Peninsula'. Together they form a unique fingerprint.Projects
- 2 Finished
Equipment
-
Inductively Coupled Plasma - Optical Emission Spectrometry Laboratory and Mass Spectrometry Laboratories (ICP)
Laetitia Pichevin (Manager)
School of GeosciencesFacility/equipment: Facility
-
Oceanography Clean Laboratory (OCL)
Laetitia Pichevin (Manager)
School of GeosciencesFacility/equipment: Facility
-
Oceanography Open Laboratory (OOL)
ALEX Thomas (Manager)
School of GeosciencesFacility/equipment: Facility