Nitrogen isotopes in chlorophyll and the origin of Eastern Mediterranean sapropels

Sachs, Julian P.

doi:10.1575/1912/5707

Cited by 14 publications

(8 citation statements)

References 144 publications

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“…Similar results were obtained by Falk et al (1975), who observed that CPP516 is extremely unstable in organic solvents in the presence of air. Sachs (1997) and Ocampo et al (1999) also observed that CPP516 degrades rapidly under a variety of conditions. Once care is taken to exclude oxygen from extracts, this degradation can be minimized.…”

Section: Sources Of Cyclic Pheophorbides In the Marine Environment-mentioning

confidence: 84%

Distribution and sources of cyclic pheophorbides in the marine environment

Goericke

Strom

Bell

2000

Limnology & Oceanography

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The labile chlorophyll a (Chl a 1 ) degradation product, 13 2 , 17 3 -cyclopheophorbide a enol (CPP516), was only recently found in marine sediments, where it can contribute a significant fraction to solvent-extractable sedimentary chlorins. We developed a new chromatographic method for the analysis of CPP516 to study its distribution and sources in the marine environment. We found high concentrations of CPP516 in surficial sediments and particulate matter collected in sediment traps. It contributed 40 to 70% to the sum of all Chl a 1 degradation products in fecal material from herbivorous microzooplankton and macrozooplankton. We did not find CPP516 in exponentially growing or stationary phase algal cultures. These data suggest that a major source of CPP516 is herbivores feeding on phytoplankton. We also found a series of compounds similar to CPP516 in sediments and sediment-trap samples. Mass-spectrometric and ultraviolet(UV)/visible-spectrometric analyses suggest that these are CPP516 analogs of divinyl-Chl a and Chl bs and Chl cs, conclusions that have to be confirmed by synthesis. CPP516, dissolved in organic solvents, easily degrades to 13 2 -oxopyropheophorbide a and chlorophyllone a under oxic conditions. When associated with particles, CPP516 is stable in oxic aquatic environments on a timescale of days, possibly stabilized by the chelation of metal cations. The chromophore of CPP516 differs substantially from that of other Chl a 1 degradation products; it has absorption maxima at 360, 426, and 688 nm. CPP516 does not fluoresce as other Chl a 1 degradation products. As a consequence, it is invisible to fluorescence-based analyses of ''pheopigments.'' Thus, rates of grazing and growth derived from such measurements, as used in conjunction with the gut fluorescence and the Chl-budget method, will be underestimates of true rates when CPP516 contributes significantly to total chlorins.

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Section: Sources Of Cyclic Pheophorbides In the Marine Environment-mentioning

confidence: 84%

Distribution and sources of cyclic pheophorbides in the marine environment

Goericke

Strom

Bell

2000

Limnology & Oceanography

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“…1). These studies have focused mostly on eukaryotic taxa that are dominant in modern marine systems, as well as on terrestrial plants (Sachs, 1997;Kennicutt et al, 1992). measured an average value of e por = 5.1 ± 1.1& (i.e., chlorophyll was $5& depleted in 15 N relative to biomass) in seven species of eukaryotic phytoplankton and one cyanobacterium (Synechococcus sp., order Chroococcales).…”

Section: Introductionmentioning

confidence: 99%

Paleoenvironmental implications of taxonomic variation among δ15N values of chloropigments

Higgins

Wolfe-Simon

Robinson

et al. 2011

Geochimica et Cosmochimica Acta

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“…Several field observations confirmed changes in δ 15 N during organic matter diagenesis. Sigman et al (1999), working with the sediments from the Southern Ocean, and Sachs (1997) and Sachs and Rapeta (1999), in the sapropels from Mediterranean Sea, found a 2‰-5‰ positive shift in δ 15 N of bulk sediments relative to unaltered organic matter. On the other hand, Altabet et al (1999a) and Pride et al (1999) found no evidence of diagenetic alterations in δ 15 N of preserved organic matter in California borderland basins and in the Gulf of California.…”

Section: Introductionmentioning

confidence: 96%

Lack of isotopic fractionation of 15N of organic matter during long-term diagenesis in marine sediments, ODP Leg 202, Sites 1234 and 1235

Prokopenko¹,

Hammond²,

Stott³

2006

Proceedings of the Ocean Drilling Program, 202 Scientific Results

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The isotopic composition of nitrogen in pore water ammonium and in sedimentary organic matter (N org) was measured at Sites 1234 and 1235 in order to evaluate the impact of long-term (>100 k.y.) diagenesis on δ 15 N of preserved organic matter. At both sites, the average δ 15 N of pore water ammonium and N org are within 0.2‰ to 0.4‰. The small difference is less than the analytical uncertainty, indicating that no significant isotopic fractionation is associated with decomposition of organic matter in these sediments. A mass balance for nitrogen was also computed, indicating that ~20% of the organic matter flux buried below 1.45 meters composite depth (mcd) is degraded between this depth and 40 mcd (Site 1235) to 60 mcd (Site 1234) depth. Two factors determine the absence of isotopic fractionation in these sediments:

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Nitrogen isotopes in chlorophyll and the origin of Eastern Mediterranean sapropels

Cited by 14 publications

References 144 publications

Distribution and sources of cyclic pheophorbides in the marine environment

Distribution and sources of cyclic pheophorbides in the marine environment

Paleoenvironmental implications of taxonomic variation among δ15N values of chloropigments

Lack of isotopic fractionation of 15N of organic matter during long-term diagenesis in marine sediments, ODP Leg 202, Sites 1234 and 1235

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