Bibliography Chapter7

Chapter 7

Bibliography

[1] Antarctica cup.

http://www.antarcticacup.com/x maps.cfm, Accessed: June 2011. [2] Argo floats maps.

http://wo.jcommops.org/cgi-bin/WebObjects/Argo.woa/1/wo/

BpY5OwCRKem6cNb2vIkw8w/2.0.30.19.1.1, Accessed: February 2011. [3] Cambridge dictionaries online.

http://dictionary.cambridge.org/dictionary/business-english/, Accessed: March 2011. [4] CDIAC website.

http://cdiac.ornl.gov/, Accessed: February 2011. [5] IOCCP website.

http://www.ioccp.org/, Accessed: February 2011. [6] Life in small bites environment.

http://aniekatec.blogspot.com/2008/11/southernoceanchangingbutstillmajor.html, Accessed: November 2008.

[7] Mathworks.

www.mathworks.com/help/index.html, Accessed: April 2011. [8] Metric-converions.org.

http://metricconversions.org/length/nautical-miles-to-miles.htm, Accessed: April 2011. [9] National Center for Atmospheric Research.

[10] National Weather Service Environmental Modeling Center. http://www.emc.ncep.noaa.gov/, Accessed: March 2011. [11] Ocean modelling and prediction.

http://www.hpl.umces.edu/ocean/sml main.htm, Accessed: March 2011. [12] SOCAT website.

http://www.socat.info/, Accessed: April 2011. [13] SOLAS website.

http://solas-int.org/, Accessed: April 2011.

[14] Windows to the universe - the deep waters of the ocean.

http://www.windows2universe.org/earth/Water/deep ocean.html, Accessed: March 2011. [15] Glossary of Meteorology, 2nd ed. American Meteorological Society, 1995.

[16] Collins English Dictionary - Complete and Unabridged. HarperCollins Publishers, 2003.

[17] McGraw-Hill Dictionary of Scientific and Technical Forms, 6th ed. McGraw-Hill Companies Inc., 2003.

[18] The American Heritage Dictionary of the English Language. Houghton Miffin Company, 2009. [19] Atashkari, K., Nariman-Zadeh, N., Pilechi, A., Jamali, A., and Yao, X.

Thermody-namic pareto optimization of turbojet engines using multi-obejective genetic algorithms. Inter-national Journal of Thermal Sciences 44 (2005), 1061–1071.

[20] Bakker, D., de Baar, H. J., and Bathmann, U. V. Changes of carbon dioxide in surface waters during spring in the Southern Ocean. Deep Sea Research II 44 (1996), 91–127.

[21] Baum, S., and Saundry, P. The Encyclopedia of Earth - Antarctic convergence. http://www.eoearth.org/article/Antarctic Convergence?topic=49523, March 2010.

[22] Bye, J. A. T. Coupling ocean-atmosphere models. Earth-Science Reviews 40, 1-2 (4 1996), 149–162.

[23] Canellas, B., Balle, S., Tintore, J., and Orfila, A. Wave height prediction in the Western Mediterranean using genetic algorithms. Ocean Engineering 37 (2010), 742–748. [24] Chang, N. Mixed layer dynamics of the southern ocean, March 2010.

[25] Chen, L., Xu, S., Gao, Z., Chen, H., Zhang, Y., Zhan, J., and Li, W. Estimation of monthly air-sea CO2 flux in the Southern Atlantic and Indian ocean using in situ and remotely

sensed data. Remote Sensing of Environment 115 (2011), 1935–1941.

[26] Chierici, M., Olsen, A., Johannessen, T., Trina˜nes, J., and Wanninkhof, R. Algo-rithms to estimate the carbon dioxide uptake in the northern North Atlantic using shipboard observations, satellite and ocean analysis data. Deep Sea Research II 56 (2009), 630–639. [27] d’Andon, O. F., Lavender, S., and Pinnock, S. ESA DUE GlobColour global ocean colour

for carbon cycle research.

http://www.globcolour.info/project objectives.html, February 2008. [28] Davis, L. D. Genetic algorithms and their applications.

www.informatics.indiana.edu/fil/CAS/PPT/Davis/sld001.htm, Accessed: February 2011. [29] de Baar, H. J. W., and Suess, E. Ocean carbon cycle and climate change: An introduction

to the interdisciplinary union symposium. Global and Planetary Change 8, 1-2 (7 1993), VII–XI. [30] de Boer, A., van der Schoot, M., and Bijl, H. Mesh deformation based on radial basis

function interpolation. Computers and Structures 85 (2007), 784–795.

[31] Deng, F., and Chen, J. M. Recent global CO2 flux inferred from atmospheric CO2

observa-tions and its regional analysis. Biogeosciences Discussions 8 (2011), 3497–3536.

[32] Doney, S. C., Tilbrook, B., Roy, S., Metzl, N., Qur, C. L., Hood, M., Feely, R. A., and Bakker, D. Surface-ocean CO2 variability and vulnerability. Deep Sea Research Part II:

Topical Studies in Oceanography 56, 8-10 (4 2009), 504–511.

[33] D’Ortenzio, F., Antoine, D., and Marullo, S. Satellite-driven modeling of the upper ocean mixed layer and air-sea CO2 flux in the Mediterranean sea. Deep Sea Research I 55

(2008), 405–434.

[34] Durand, D., Mangin, A., and Pinnock, S. ESA DUE GlobColour global ocean colour for carbon cycle research full validation report.

http://www.globcolour.info/validation/index.html, Accessed: March 2011. [35] Fasshoauer, G. Compactly supported radial basis functions.

www.math.iit.edu/˜fass/Notes590 Ch11Print.pdf, Accessed: May 2011, 2010. [36] Fauchereau, N. Personal communication. NFauchereau@csir.co.za, 2011.

[37] Feng, D., Li, X., and Siu, W.-C. Optimal sampling schedule design for positron emission tomography data acquistion. Control Egineering Practice 5(12) (1997), 1759–1766.

[38] Floater, M. S., and Iske, A. Multistep scattered data interpolation using compactly sup-ported radial basis functions. Journal of Computational and Applied Mathematics 73 (1996), 65–78.

[39] Friedrich, T., and Oschlies, A. Basin-scale pCO2 maps estimated from Argo float data: A

model study. Journal of Geophysical Research 114 (2009), 1–9.

[40] Gen, M., and Cheng, R. Genetic Algorithms and Engineering Optimization. John Wiley and Sons, inc., 2000.

[41] Goyet, C., Adams, R., and Eischeid, G. Observations of the CO2 system properties in the

tropical Atlantic ocean. Marine Chemistry 60 (1997), 49–61.

[42] Hastings, D. A., and Emery, W. J. The Advanced Very High Resolution Radiometer (AVHRR): A brief reference guide. http://www.ngdc.noaa.gov/ecosys.cdroms/AVHRR.

[43] Hoppema, M. Weddell sea turned from source to sink for atmospheric CO2 between

pre-industrial time and present. Global and Planetary Change 40 (2003), 219–231.

[44] Huber, V., Adrian, R., and Gerten, D. Phytoplankton response to climate warming modified by trophic state. Limnology and Oceanography 53 (2008), 1–13.

[45] Johnson, C. R. Positive definite matrices. The American Mathematical Monthly 77 (1970), 259–264.

[46] Kalicka, R. Optimal design and organisation of biomedical experiment. Measurement 26 (1999), 19–44.

[47] Kalicka, R., and Bochen, D. Properties of D-optimal sampling schedule for compartmental models. Biocybernetics and Biomedical Engineering 25 (2005), 23–36.

[48] Lazzaro, D., and Montefusco, L. B. Radial basis functions for the multivariate inter-polation of large scattered data sets. Journal of Computational and Applied Mathematics 140 (2002), 521–536.

[49] Lee, Y., Park, S., and D.E.Chang. Parameter estimation using the genetic algorithm and its impact on quantitative precipitation forecast. Annales Geophysicae 24 (2006), 3185–3189.

[50] Li, X., Feng, D., and Wong, K.-P. A general algorithm for optimal sampling schedule design in nuclear medicine imaging. Computer Methods and Programs in Biomedicine 65 (2001), 45–59. [51] Llewellyn-Jones, D. Measuring sea-surface temperature from space. Space Research Centre,

University of Leicester, UK, September 2006.

[52] Marinov, I., and Gnanadesikan, A. Changes in ocean circulation and carbon storage are decoupled from air-sea CO2 fluxes. Biogeosciences Discussions 7 (2010), 7985–8000.

[53] McNeil, B. I. Oceanic implications for climate change policy. Environmental Science & Policy 9, 7-8 (12 2006), 595–606.

[54] Menandro, F. C., LoefflerNeto, C. F., Meira, H. J. S. G., and Bastos, R. P. Compactly supported radial basis functions for function interpolation: Comparative behaviour. Mec´anica Computacional XXIX (2010), 4733–4752.

[55] Metzl, N., Brunet, C., Jabaud-Jan, A., Poisson, A., and Schauer, B. Summer and winter air-sea CO2 fluxes in the Southern Ocean. Deep Sea Research Part I: Oceanographic

Research Papers 53, 9 (9 2006), 1548–1563.

[56] Monteiro, P. Personal communication. PMonteir@csir.co.za, 2011.

[57] Monteiro, P., Lucas, M., Ansorge, I., Waldron, H., Barlow, R., and Bender, M. 2010-2011 SANAE 50 data report, 2011.

[58] Monteiro, P. M. S. Understanding and predicting the seasonal cycle of carbon in the Southern Ocean: A high resolution global carbon-climate model study and model development platform in the CSIR. Proposal, 2010/2011.

[59] Narcowich, F. J., and Ward, J. D. Generalized Hermite interpolation via matrix-valued conditionally positive definite functions. Mathematics of Computation 63 (1994), 661–687. [60] NASA. Ocean motion and surface currents.

http://oceanmotion.org/html/background/ocean-vertical-structure.htm.

[61] Newcastle University. Engineering design centre - Roulette wheel selection. http://www.edc.ncl.ac.uk/highlight/rhjanuary2007g02.php/.

[62] Olsen, A., and Metzl, N. SOCAT QC cookbook for SOCAT participants.

[63] Orsi, A., Nowlin, W., and Whitworth, T. On the circulation and stratification of the Weddell Gyre. Deep Sea Research II 40 (1993), 169–203.

[64] Peressini, A., Sullivan, F., and Uhl, J. The Mathematics of Nonlinear Programming. Springer-Verlag, 1991.

[65] Pfeil, B., and Olsen, A. Uniform format surface fCO2database. Bjerknes Centre for Climate

Research, Bergen, Norway.

[66] Prentice, I. IPCC third assessment report - climate change 2001, chapter 3, the carbon cycle and atmospheric carbon dioxide, 2001.

[67] Rahmstorf, S. Encycolpedia of Quaternary Sciences: Thermohaline ocean circulation. Else-vier, 2006.

[68] Rangama, Y., Boutin, J., Etcheto, J., Merlivat, L., Takahashi, T., Delille, B., Frankignoulle, M., and Bakker, D. Variability of the net air-sea CO2 flux inferred

from shipboard and satellite measurements in the Southern Ocean south of Tasmania and New Zealand. Journal of Geophysical Research 110 (2005), 1–17.

[69] Rehdanz, K., Tol, R. S. J., and Wetzel, P. Ocean carbon sinks and international climate policy. Energy Policy 34, 18 (12 2006), 3516–3526.

[70] Renko, E. K., and Sirvio, H. Optimal sampling design for a sludge blanket interface settling model. Water Research 31 (1996), 1148–1154.

[71] Saha, S., Moorthi, S., Pan, H.-L., Wu, X., Wang, J., Nadiga, S., Tripp, P., Kistler, R., Woollen, J., Behringer, D., Liu, H., Stokes, D., Grumbine, R., Gayno, G., Wang, J., Hou, Y.-Y., Chuang, H.-Y., H.Juang, H.-M., Sela, J., Iredell, M., Treadon, R., Kleist, D., VanDelst, P., Keiser, D., derber, J., Ek, M., Meng, J., Wei, H., Yang, R., Lord, S., VanDenDool, H., Kumar, A., Wang, W., Long, C., Chelliah, M., Xue, Y., Huang, B., Schemm, J.-H., Ebisuzaki, W., Lin, R., Xie, P., Chen, M., Zhou, S., Higgins, W., Zou, C.-Z., Liu, Q., Chen, Y., Han, Y., Cucu-rull, L., W.Reynolds, R., Rutledge, G., and Goldberg, M. The NCEPclimate forecast system reanalysis. American Meteorological Society (2010).

[72] Sivanandam, S., and Deepa, S. Introduction to Genetic Algorithms. Springer, 2008.

[73] Steiner, C. F., Schwaderer, A. S., Huber, V., Klausmeier, C. A., and Litchman, E. Periodically forced food-chain dynamics: model predictions and experimental validation. Ecology 90 (2009), 3099–3107.

[74] Takahashi, T., and Sutherland, S. C. Global ocean surface water partial pressure of CO2

[75] Takahashi, T., Sutherland, S. C., Wanninkhof, R., Sweeney, C., Feely, R. A., Chip-man, D. W., Hales, B., Friederich, G., Chavez, F., Sabine, C., Watson, A., Bakker, D. C. E., Schuster, U., Metzl, N., Yoshikawa-Inoue, H., Ishii, M., Midorikawa, T., Nojiri, Y., Krtzinger, A., Steinhoff, T., Hoppema, M., Olafsson, J., Arnar-son, T. S., Tilbrook, B., Johannessen, T., Olsen, A., Bellerby, R., Wong, C. S., Delille, B., Bates, N. R., and de Baar, H. J. W.Climatological mean and decadal change in surface ocean pCO2, and net sea-air CO2flux over the global oceans. Deep Sea Research Part

II: Topical Studies in Oceanography 56, 8-10 (4 2009), 554–577.

[76] Telszewski, M., Chazottes, A., Schuster, U., Watson, A., Moulin, C., Bakker, D., M.Gonzalez-Davila, Johannessen, T., Kortzinger, A., Luger, H., Olsen, A., Omar, A., Padin, X., Rios, A., T.Steinhoff, Santana-Casiano, M., Wallace, D., and Wanninkhof, R. Estimating the monthly pCO2 distribution in the North Atlantic using

a self organizing neural network. Biogeosciences 6 (2009), 1405–1421. [77] UNFCCC. Kyoto protocol official site.

http://unfccc.int/kyoto protocol/items/2830.php, Accessed: May 2011. [78] Whitley, D. A genetic algorithm tutorial. Colorado State University.

[79] Williams, P. D., Guilyardi, E., Madec, G., Gualdi, S., and Scoccimarro, E. The role of mean ocean salinity in climate. Dynamics of Atmospheres and Oceans 49, 2-3 (4 2010), 108–123.

[80] Xue, Y., Huang, B., Hu, Z.-Z., Kumar, A., Wen, C., Behringer, D., and Nadiga, S. An assessment of oceanic variability in the NCEP climate forecast system reanalysis. Springer (2010).