Abstract
Monthly measurements made at 15 stations along the axis of the upper Neuse River estuary show a highly variable degree of correlation between concentration of suspended particulate material (SPM) and attenuation of light (c) as measured by transmissometer. Coefficients of determination along transect lines ranged from 0.12 to 0.93 and calibration slopes ranged from 0.50 to 5.63. When examined on a station-by-station basis, coefficients of determination ranged from 0.21 to 0.96 and calibration slopes ranged from 1.04 to 4.94. Surface calibrations made at individual stations over the full 13-month period were the most consistent of all observations and were considerably better than calibrations made using all of the stations on a given day. Organic content, which can dominate the suspended sediment load during some months, does not appear to explain the variations in reliability of the calibrations. However, an abundance of large aggregates with time-varying size and shape distributions may be partly responsible for variations in optical properties of the sediments, and thus may confound the relationship between SPM and c in the Neuse River estuary. Time-varying calibrations to account for non-negligible changes in optical properties may not suffice in complex estuarine environments where the in situ particle dynamics are poorly understood.
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Literature Cited
Baker, E. T. andJ. W. Lavelle. 1984. The effect of particle size on the light attenuation coefficient of natural suspensions.Journal of Geophysical Research 89:8197–8203.
Bishop, J. K. B. 1986. The correction and suspended particulate matter calibration of Sea Tech transmissometer data.Deep-Sea Research 33:121–134.
Campbell, D. E. andR. W. Spinrad. 1987. The relationship between light attenuation and particle characteristics in a turbid estuary.Estuarine, Coastal and Shelf Science 25:53–65.
Gardner, W. D., P. E. Biscaye, J. R. V. Zaneveld, andM. J. Richardson. 1985. Calibration and comparison of the LDGO nephelometer and the OSU transmissometer on the Nova Scotian Rise.Marine Geology 66:323–344.
Giese, G. L., H. B. Wilder, andG. G. Parker. 1979. Hydrology of major estuaries and sounds of North Carolina. Water Supply Paper 2221, United States Geological Survey, Raleigh, North Carolina. 108 p.
Gordon, H. R., J. M. Smith, andJ. R. V. Zaneveld. 1980. Introduction to ocean optics.SPIE Ocean Optics IV 208:14–55.
Griffin, G. M. andR. L. Ingram. 1955. Clay minerals of the Neuse River estuary.Journal of Sedimentary Petrology 25:194–200.
Jerlov, N. G. 1976. Marine Optics. Elsevier, New York. 231 p.
Kim, S.-Y. 1990. Physical processes and fine-grained sediment dynamics in the Neuse River estuary, North Carolina. Ph.D. Dissertation. Univ. of North Carolina, Chapel Hill, North Carolina. 128 p.
Manheim, F. T., R. H. Meade, andG. C. Bond. 1970. Suspended matter in surface waters of the Atlantic continental margin from Cape Cod to the Florida Keys.Science 167:371–376.
McCave, I. N. 1983. Particulate size spectra, behavior, and origin of nepheloid layers over the Nova Scotian continental rise.Journal of Geophysical Research 88:7647–7666.
Moody, J. A., B. Butman, andM. H. Bothner. 1987. Nearbottom suspended matter concentration on the continental shelf during storms: Estimates based onin situ observations of light transmission and a particle size dependent transmissometer calibration.Continental Shelf Research 7:609–628.
Pak, H. andJ. R. V. Zaneveld. 1977. Bottom nepheloid layers and bottom mixed layers observed on the continental shelf off Oregon.Journal of Geophysical Research 82:3921–3931.
Pak, H., G. F. Beardsley, Jr.,G. R. Heath, andH. Curl. 1970. Light-scattering vectors of some marine particles.Limnology and Oceanography 15:683–687.
Spinrad, R. W. 1986. A calibration diagram of specific beam attenuation.Journal of Geophysical Research 91:7761–7764.
Wells, J. T. 1989.In situ measurements of large aggregates over a fluid mud bed.Journal of Coastal Research SI5:75–86.
Wells, J. T. andS.-Y. Kim. 1989. Sedimentation in the Albemarle-Pamlico lagoonal system: Synthesis and hypotheses.Marine Geology 88:263–284.
Wells, J. T. andA. L. Shanks. 1987. Observations and geologic significance of marine snow in a shallow-water partially enclosed marine embayment.Journal of Geophysical Research 92:13,185–13,190.
Zaneveld, J. R. V., D. M. Roach, andH. Pak. 1974. The determination of the index of refraction distribution of oceanic particulates.Journal of Geophysical Research 79:4091–4095.
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Wells, J.T., Kim, SY. The relationship between beam transmission and concentration of suspended particulate material in the Neuse River estuary, North Carolina. Estuaries 14, 395–403 (1991). https://doi.org/10.2307/1352264
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DOI: https://doi.org/10.2307/1352264