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Lecture 3
Trace Metals in Seawater
What are trace elements?
Why are they important?
Principal of Oceanographic Consistency.
Profiles shapes as clues for controlling processes.
A first look at spatial variation
What are the different “types” of elements?
Trace elements in seawater
Definition: Those elements that do not contribute to salinity
All elements less than 1 mg kg-1. But usually use mole units!
Why are they important?
1.
2.
3.
4.
5.
many are micronutrients (e.g. Fe, Cu) – speciation is important
others are toxic (e.g. Cu, Hg)
some are tracers for redox conditions (Mn, Fe, Cr, I, Re, Mo, V, U)
some are enriched in economic deposits such as manganese nodules (e.g. Cu, Co, Ni, Cd)
some have man made sources and are tracers of pollution (e.g. Pb, Pu, Ag)
** Difficult to collect samples for without contamination and difficult to analyze.
Oceanographic consistency
Acceptance of data must satisfy two criteria:
1. Vertical profiles should be smooth, not spiky.
Ocean mixing produces smooth profiles
2. Correlations should exist with other elements that
share the same controlling mechanisms.
First Example –
Cu in surface waters south of New Zealand (Boyle and Edmond, 1975, Nature, 253, 107)
PO4
NO3
Si
SST
Classification of elements
Conservative
Bio-limiting
(or “bio-unlimited”)
(and “biointermediate”)
Scavenged
Some have a style of their own (e.g. O, Ar, Bi, Hg)
Shapes of Profiles – clues for controls
Conservative - Cesium (Cs); Molybdenum (Mo) - under oxic conditions
Nutrient Like – Biological control
Shallow (soft parts) and Deep (hard parts) Regeneration
Zinc
Cadmium
Nickel
Copper
Barium
Surface Enrichment – Atm input, River/Coastal inputs
Lead
Manganese
Mid-depth Maximum – Hydrothermal inputs, Oxygen minimum
Sediment Source
Manganese
Iron
Near Bottom Enrichment – sediment source
North Sea Metals (Cd, Cu, Mn)
Deep Depletion - scavenging
Lead-210
Aluminum
Manganese
Nutrient Like Profiles
Superposition of vertical
biological flux on
horizontal circulation
Results in low surface water and high
deep water concentrations.
Results in higher concentrations in
the older deep Pacific than the
younger deep Atlantic
Example: Comparison of vertical profiles of nutrients
from the Atlantic and Pacific
PO4
Shallow
Si
Deep
Nutrient Like Examples
Cd, Zn, Cu, Ni
But what about
Mn, Pb ??
Ba
Nutrient LikeDeep RegenerationHard Parts
Ba and Si strongly
correlated.
But Why??
Cd
Nutrient LikeShallow RegenerationSoft Parts
Cd and PO4 strongly
correlated.
But Why??
Modern Data
Use the Cd-PO4 correlation
as a tool to determine paleo
PO4 concentrations.
Paleo Reconstruction
Al
Atmospheric Input
and
Scavenging
Al profiles
Mediterranean to
Atlantic to Pacific
Mid-depth Maximum (~200 – 1000m)
Mn
Depth (km)
Depth (km)
Total
Dissolved
Oxygen Minimum Zone - ETNP
Murray et al (1981)
MOR Hydrothermal System – Mid-Depth Maximum and Scavenging
Mid-Depth Maximum (~2000m)
Fe and Mn
Hydrothermal plume from the Juan de Fuca Ridge
T anomaly
particles
Fe
Mn
Coale et al (1991) Nature, 352, 325
Pb
Atmospheric input
Pb in Greenland snow
Atmospheric Input
Anthropogenic Origin
Pb
Surface Maximum
Flegal and Patterson, 1983
Sediment Source
S
High Trace Metal Concentrations
on the Continental Shelf
PO4
Si
Cd
Cu
Mn
Kremling (1983) Nature 303, 225
Metal Limitation and Toxicity – Cu – Role of Free Metal Ion
Cu Speciation
and
Plankton Growth
pCu = - log Cu2+
Cutotal = Cu2+ + inorganic complexes + organic complexes
Cu Speciation – Ocean Distributions
Total Copper
Strong Organic Ligands
Free Cu2+
Total Cu
Quiz – What processes control the distribution of Fe in seawater?
All Fe data as of 1997 (Johnson et al)
Ocean Periodic Table (from Ken Johnson, MBARI)
http://www.mbari.org/chemsensor/pteo.htm
Then click on any element of interest for example profiles.