Arrigo (2005) Marine Microorganisms and Global Nutrient Cycles Nature 437: 349-355
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Transcript of Arrigo (2005) Marine Microorganisms and Global Nutrient Cycles Nature 437: 349-355
Arrigo (2005) Marine Microorganisms and Global Nutrient CyclesNature 437: 349-355
Issues:Redfield stoichiometryCo-limitationN2-FixationAnammox
N&P; Si&P; P&Fe
Light or Fe / vary with cell size
PO4 or Zn ? DOP useAdd P+Fe = N2 fixers
NO3 alone – non-N2 Fixers
PO4 versus Nitrate (GEOSECS data)Insert shows the effect of nitrification, photosynthesis, N2 fixationand denitrification.
The solid line shows thelinear equationP = 1/16 N + 0.345(equivalent to N* = 0)
Values to the right havepositive N*, to the left have negative N*
What is N*?
N* is defined asN* = [NO3] – 16 x [PO4] +2.9
N* is defined asN* = [NO3] – 16 x [PO4] +2.9
a, Observations used by Redfield in his original study1 (filled circles) and selected data from the global World Ocean Circulation Experiment survey (WOCE; small symbols) show a clear, approximately 16:1 relationship between nitrate and phosphate, with minimal deviation. b,c, Both denitrification (b) and N fixation (c) counteract any imbalances, with denitrification removing a nitrate excess, and N fixation adding more nitrate to the ocean. Together, these processes are expected to return nitrate concentrations back towards a mean content close to that of oceanic phytoplankton.
From Gruber and Deutsch (2014) Nature Geoscience
Feedbacks governing the marine N cycle
From Pahlow and Riebesell (2000) Science 287: 831
Does the Redfield ratio vary on geological timescales?
Gilbert (2013)Nature Climate Change3, 954andToseland et al (2013)NCC, 3, 979
To overcome the low water temperatures (average of 2 °C) and concomitant reduction in efficiency, these cells just make more protein factories to maintain their productivity. As this requires more P, the N:P ratio in their cells is reduced.
The model validated the hypothesis that under low temperatures the cells invested more in their cellular machinery to overcome the inefficiency of their factories; whereas under higher temperatures the cells invested in photosynthesis and hence biomass.
Effect of temperature on physiology
Kim et al (2014) Increasing anthropogenic nitrogen in the North Pacific Ocean.Science 346, 1102=1106
Rate of deposition of AND has increased over past 100 years
North Pacific receives a large input. Can it be seen in the data?
An increase could impact the nitrogen cycle and biological food-web and productivity.
This analysis: N* versus CFC-Age (N* = N – RN/P x P using RN/P = 16:1)
Fig. 1 Three trends of N* variation.This figure shows the relation between N* and the pCFC-12–derived ventilation date (which is the year that the CFC-12 concentration in the water sample would have last been in equilibrium with the atmosphere) for seawater samples
obtained in the East Sea (Sea of Japan) as part of the Circulation Research of the East Asian Marginal Seas II program in 1999.
Published by AAAS
Trend 1: Deep Ocean Southern Ocean Indian Ocean
Trend 2: Low O2 regions
Trend 3: Nsources > Nsinks
Due to AND and N2 Fixation
East Sea data
Fig. 2 Estimation of the rate of increase in excess N (N*).(A) Map showing the NPO. The color scale indicates AND in 1993 (15) overlaid with the mean wind vectors over the period 1990–
1999 (25).
Published by AAAS
Support for AND Date of increase Spatial pattern Ages best for 1960 to 2000
Fig. 3 Comparison of the N*-based rates with AND rates.Comparison of the N* values integrated over the water column [, where z is the depth at which the N* (N*OBS > N*DEEP) signal was observed, blue squares] with the modeled (circles) (15) and observed (stars) (16,
17) AND rates (see supplementary text S5 for the AND rates observed in the mid-latitude NPO).
Published by AAAS
Fig. 4 Temporal variations of N*.(A) Distribution of N* in the western and central NPO (20°N to 40°N and 130°E to 180°W) determined from data in the PACIFICA database collected between
300 and 400 m in the period 1992‒2008.
Published by AAAS
HOT – Annual Mean N*Western NPO – 10° averaged