ocn 623 – chemical oceanography · ocn 623 – chemical oceanography reading: libes, chapters 22...
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OCN 623 – Chemical Oceanography
Reading: Libes, Chapters 22 & 23 (much detail on subject)
Note: You can skim the details on compound classes (22.4)
Operational definitions!
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POM
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Organic compounds display a range of polarities:
CH4 - methane (non-polar)
CH3COOH - acetate (polar)
C16 - n-hexadecane (non-polar)
CH3-(CH2)16-COOH - stearate (polar carboxyl group + non-polar wax = "fatty acid")
Fatty acids in water tend to form micelles:
Polar (acidic) “head”
Non-polar (waxy) “body”
Increasing polarity
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Pre-industrial coastal ocean organic C cycle
DOC & POC transported from land & formed in situ POC – 50% reactive, 50% refractory
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Carbon: not just for the coastal & photic zone anymore
www.millipore.com
www.2spi.com
www.millipore.com
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3. Dissolved organic matter (DOM) a. Dissolved organic carbon (DOC)
• Oceanic concentrations = µg-C/L to mg-C/L
• Turnover time: days to centuries, depending on compound
• Very fast during blooms, when large amounts of DOC are excreted
• Typical upper ocean DOC turnover time: 3 - 40 days.
b. Dissolved organic nitrogen (DON)
• Oceanic concentrations = µg-N/L
• Much shorter turnover time
c. Dissolved organic phosphorus (DOP)
• Oceanic concentrations = ng-P/L to µg-P/L
• Presumably very fast turnover time
Note: If you are using mass/vol units, be sure you specify if you mean mass of atoms or mass of molecules!
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“myriad of forms that organic molecules exhibit in the environment”
More complexity:
Multiple bonds,
Stereochemical isomers,
additional elements (N, O, S, P)
Isotopes
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DOC is messy
Vast structural diversity of organic matter in marine and terrestrial systems poses a significant challenge to geochemists trying to identify & quantify individual components
Requires many different analytical procedures, many require breaking down macromolecules before separating by chromatography
Dan Repeta (WHOI), Kai Hinrichs (Bremen), Fabien Kenig (UIC), Craig Carlson (UCSB)
More polar, larger, molecules have higher boiling/melting points
O & N impart polarity = solubility
Dissociated or protonated
H & O within alcohols, phenols, carboxylic acids, amines are interchangeable; not C & N
Characterized by functional groups
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Learn a little about a lot or a lot about a little?
Separation & identification of certain compound classes,
Usually only a sm % of TOC, though
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C, H, O, N, S – “CHN analyzers”
Differing classes,
Also different Org C sources, e.g. terrestrial vs marine
Compounds rich in H & low in O (lipids) have a high O2 demand for complete respiration
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DOC in this case: Passes through Whatman GF/F filter (0.7 um)
Downward DOC flux – a significant fraction of OC flux
Seafloor
Mixed layer – high DOC
Subsurface layer – steep DOC gradient
Deep water – Low and constant DOC conc.
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10 kDa – 0.2 um
3 - 10 kDa
1 - 3 kDa (Guo et al., 1995)
Filter water first thru a 0.2 µm filter to obtain DOC, then thru a series of ultrafilters to measure colloidal organic carbon:
COC10 = 10 kDa - 0.2 µm (>200 L, 8 h)
COC3 = 3 kDa - 0.2 µm (>200 L, 8 h)
COC1 = 1 kDa - 0.2 µm (1000 L, 12 h)
1 Dalton = mass of 1 hydrogen atom
= 1.67 x 10-24 g
1. Autochthonous vs. Allochthonous organic matter
(locally produced vs. imported) Greek roots: "auto" = self
"allo" = other
"chthonous" = earth, ground
2. In general, the major source of open ocean OM is planktonic primary producers (autochthonous)
Most OM exported from coastal waters (allochthonous) is consumed in stratified continental shelf waters during the summer
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Seawater bulk DOM chemical composition is not consistent with riverine origin
Most evidence suggests that seawater DOM is largely autochtonous rather than being allochtonous
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3. OM abundance in the open ocean is controlled by grazing: • ~85% of primary production is recycled through
consumers • ~15% is released from primary producers by
extracellular release • This extracellular release supplies ~50% of
microbial growth requirements
5. Humic materials – Part of colored dissolved organic matter (CDOM) – “Gelbstoffe”
• Mostly terrestrial in origin (e.g., brown rivers) • Product of random polymerization • Refractory • Quickly removed from seawater by poorly
understood processes
CO2
100
?
CO2 10
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• Adsorption of UV and visible light by CDOM:
• Controls UV penetration
• Impacts phytoplankton and other microbial activity
• A primary reactant in the photoproduction of CO2 , CO , H2O2 , OCS (carbonyl sulfide)
• Can affect remote observations of ocean chlorophyll and primary production
• Coastal regions:
• Mostly terrestrial humic and fulvic acids (from plant-matter breakdown) from rivers and runoff
• CDOM decreases with distance from coast, as does DOM
• Open ocean:
• Composition in open ocean is largely unknown
• <5% from terrestrial sources
• DOM from microbial excretion / lysis must be altered to become CDOM
• Summertime bleaching of CDOM -- lowers CDOM conc but has negligible effect on DOM conc
• Significant variations in CDOM concs occur in the upper ocean over seasonal-to-interannual timescales
• CDOM and DOM concs vary inversely over large space scales
Nelson, N.B., D.A. Siegel, Chromophoric DOM in the Open Ocean. In: Biogeochemistry of Marine Dissolved Organic Matter, D.A. Hansell, C.A. Carlson (eds.), Academic Press, 2002.
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Absorption spectra:
achl - chlorophyll absorbance
acdom - CDOM absorbance
aw - pure water absorbance
Two main processes:
• H2O2 (hydrogen peroxide) production:
O2 + 2e- + 2H+ + hυ H2O2
• DOM oxidation:
DOM + O2 + hυ CO2 + altered-DOM
Similar rate of O2 consumption by each process
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Pond
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Back to consideration for composition…
Back to consideration for composition…
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Primary Production
Rate Recycling
Early Diagenesis
Particulate Organic Matter Fluxes
Fig 23.5 in text
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“Biomarkers” – relatively unchanged during sedimentation and diagenesis
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A succession of preservation methods as the OM ages
Mayer 2004
E.g., difficulty of uptake or degradation of specific compounds
E.g., intercalation into clay minerals
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