Abstract
Shifts in diatom species composition may be used to infer past changes in environmental conditions in fresh, estuarine and marine systems. Establishing the primary drivers of present day diatom community composition is a vital step in their use as a proxy for past conditions. Moreton Bay, Australia, has experienced extensive modification of its catchments and western and southern shorelines. Regional weather patterns and terrestrial runoff have created a gradient in water quality from relatively degraded western and southern areas to relatively pristine northern and eastern areas. The aim of this study was to examine the relative impact of short term changes to light and/or nutrient availability and long term changes in sediment type, light and nutrient availability to subtidal benthic community composition. Short term changes were imposed using a manipulative field experiment whilst long term changes were obtained from a field survey of sites across the gradient of water quality. Diatoms were found to be the dominant microalgal group at all studied sites. The diatom communities were comprised primarily of small benthic epipsammic species and community composition was primarily driven by changes in sediment silt content. Short term changes in light and/or nutrient availability had little impact on community composition. In this open estuarine system the use of diatom indices to infer past water quality must take into account the sediment silt content in their interpretations.
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References
Abal EG, Dennison WC (1996) Seagrass depth range and water quality in Southern Moreton Bay, Queensland, Australia. Mar Freshw Res 47:763–771
Admiraal W, Peletier H, Brouwer T (1984) The seasonal succession patterns of diatom species on an intertidal mudflat: an experimental analysis. Oikos 42:30–40
Bianchi TS, Dawson R, Sawangwong P (1988) The effects of macrobenthic deposit-feeding on the degradation of chloropigments in sandy sediments. J Exp Mar Biol Ecol 122:243–255
Cahoon LB (1999) The role of benthic microalgae in neritic ecosystems. Oceanogr Mar Bio Annu Rev 37:47–86
Cahoon LB, Redman RS, Tronzo CR (1990) Benthic microalgal biomass in Onslow Bay, North Carolina, USA. Estuar Coast Shelf Sci 31:805–816
Costanza R, d’Arge R, de Groot R, Farber S, Grasso M, Hannon B, Limburg K, Naeem S, O’Neill RV, Paruelo J, Raskin RG, Sutton P, van den Belt M (1997) The value of the world’s ecosystem services and natural capital. Nature 387:253–260
Costanzo SD, Udy J, Longstaff B, Jones A (2005) Using nitrogen stable isotope ratios (δ15N) of macroalgae to determine the effectiveness of sewage upgrades: changes in the extent of sewage plumes over four years in Moreton Bay, Australia. Mar Pollut Bull 51:212–217
Dennison WC, Abal EG (1999) Moreton Bay: a scientific basis for the Healthy Waterways Campaign. South East Queensland Regional Water Quality Management Strategy, Brisbane
Denys L, de Wolf H (1999) Diatoms as indicators of coastal paleoenvironments and relative sea-level change. In: Stoermer EF, Smol JP (eds) The diatoms. Applications for the environmental and earth sciences. Cambridge University Press, Cambridge, pp 277–297
Dixit SS, Smol JP, Kingston JC, Charles DF (1992) Diatoms: powerful indicators of environmental change. Environ Sci Technol 26:23–33
Douglas G, Palmer M, Caitcheon G (2003) The provenance of sediments in Moreton Bay, Australia: a synthesis of major, trace element and Sr–Nd–Pb isotopic geochemistry, modeling and landscape. Hydrobiologia 494:145–152
EHMP (2001–2005) Ecosystem Health Monitoring Program annual technical report. Moreton Bay Waterways and Catchments Partnership, Brisbane
Eyre BD, McKee L (2002) Carbon, nitrogen and phosphorus budgets for a shallow sub-tropical embayment (Moreton Bay, Australia). Limnol Oceanogr 47:1043–1055
Eyre B, Hossain S, McKee L (1998) A suspended sediment budget for the modified subtropical Brisbane river estuary, Australia. Estuar Coast Shelf Sci 47:513–522
Facca C, Sfriso A (2007) Epipelic diatom spatial and temporal distribution and relationship with the main environmental parameters in coastal waters. Estuar Coast Shelf Sci 75:35–49
Falkowski PG, Raven JA (1997) Aquatic photosynthesis. Blackwell Science, Malden
Flemming BW (2000) A revised textural classification of gravel-free muddy sediments on the basis of ternary diagrams. Cont Shelf Res 20:1125–1137
Foged N (1978) Diatoms in Eastern Australia. Bibliotheca Phycologia. Band 41. J. Cramer, Vaduz
Folk RL (1974) Petrology of sedimentary rocks. Hemphill Publishing Co, Austin
Gattuso JP, Gentili B, Duarte CM, Kleypas JA, Middleburg JJ, Antoine D (2006) Light availability in the coastal ocean: impact on the distribution of benthic photosynthetic organisms and their contribution to primary production. Biogeosciences 3:489–513
Hewson I, O’Neil JM, Heil CA, Bratback G, Dennison WC (2001) Effects of concentrated viral communities on photosynthesis and community composition of co-occurring benthic microalgae and phytoplankton. Aquat Microb Ecol 25:1–10
Jeffrey SW (1974) Profiles of photosynthetic pigments in the ocean using thin-layer chromatography. Mar Biol 26:101–110
Jeffrey SW, Hallegraeff GM (1987) Chlorophyllase distribution in 10 classes of phytoplankton: a problem for chlorophyll analysis. Mar Ecol Prog Ser 35:293–304
Jeffrey SW, Rochford DJ, Cresswell GR (1990) Oceanography of the Australasian region. In: Clayton MN, King RJ (eds) Biology of marine plants. Longman Cheshire, Melbourne, pp 244–265
Jeffrey SW, Mantoura RFC, Wright SW (1997) Phytoplankton pigments in oceanography. UNESCO Publishing, Paris
Jorgensen BB, Richardson K (1996) Eutrophication in coastal marine ecosystems. American Geophysical Union, Washington, DC
Krammer K, Lange-Bertalot H (1986–1991) Bacillariophyceae. Süβwasserflora von Mitteleuropa 2 (vols 1–4). Gustav Fischer Verlag, Jena
Littler M, Littler D, Blair SM, Norris JN (1985) Deepest known plant life discovered on an uncharted seamount. Science 227:57–59
Longstaff BJ (2003) Investigations into the light requirements of seagrasses in northeast Australia. PhD thesis, The University of Queensland, p 152
Lorenzen CJ (1967) Determination of chlorophyll and phaeopigments: spectrophotometric equations. Limnol Oceanogr 12:343–346
Lotze HK, Lenihan HS, Bourque BJ, Bradbury RH, Cooke RG, Kay MC, Kidwell SM, Kirby MX, Peterson CH, Jackson JBC (2006) Depletion, degradation, and recovery potential of estuaries and coastal seas. Science 312:1806–1809
MacIntyre HL, Geider RJ, Miller DC (1996) Microphytobenthos: the ecological role of the “secret garden” of unvegetated, shallow-water marine habitats. 1. Distribution, abundance and primary production. Estuaries 19:186–201
MacIntyre HL, Kana TM, Anning T, Geider RJ (2002) Photoacclimation of photosynthesis irradiance response curves and photosynthetic pigments in microalgae and cyanobacteria. J Phycol 38:17–38
McEwan J, Gabric AJ, Bell PRF (1998) Water quality and phytoplankton dynamics in Moreton Bay, south-eastern Queensland. II. Mathematical modelling. Mar Freshw Res 49:227–239
Meleder V, Barille Y, Rince Y, Morancais M, Rosa P, Gaudin P (2005) Spatio-temporal changes in microphytobenthos structure analysed by pigment composition in a macrotidal flat (Bourgneuf Bay, France). Mar Ecol Prog Ser 297:83–99
Meyer-Reil LA, Koster M (2000) Eutrophication of marine waters: effects on benthic microbial communities. Mar Pollut Bull 41:255–263
Moss AJ, Rayment GE, Reilly N, Best EK (1993) A preliminary assessment of sediment and nutrient exports from Queensland coastal catchments. Queensland Department of Environment and Heritage Environment technical report no. 5, Queensland Government, Brisbane
Moss AJ, Bennet J, Poplawski W, Shaw R, Moller G (1996) Land use factors affecting the conditions of rivers, estuaries and bays in southern Queensland. In: Hunter HM, Eyles AG, Rayment GE (eds) Downstream effects of land use. Department of Natural Resources, Brisbane, pp 35–44
Neil DT (1998) Moreton Bay and its catchment: seascape and landscape, development and degradation. In: Tibbetts IR, Hall NJ, Dennison WC (eds) Moreton Bay and catchment. School of Marine Science, Brisbane
Nixon SW (1995) Coastal marine eutrophication: a definition, social causes and future concerns. Ophelia 41:199–219
O’Donohue MJ, Dennison WC (1997) Phytoplankton productivity response to nutrient concentrations, light availability and temperature along an Australian estuarine gradient. Estuaries 3:521–533
O’Donohue MJ, Glibert PM, Dennison WC (2000) Utilization of nitrogen and carbon by phytoplankton in Moreton Bay, Australia. Mar Freshw Res 51:703–712
Olafsson JS, Paterson DM (2004) Alteration of biogenic structure and physical properties by tube-building chironomid larvae in cohesive sediments. Aquat Ecol 38:219–229
Parsons TR, Maita Y, Lalli CM (1989) A manual of chemical and biological methods for seawater analysis. Pergamon Press, Oxford
Perkins RG, Underwood GJC, Brotas V, Snow GC, Jesus B, Ribeiro L (2001) Responses of microphytobenthos to light: primary production and carbohydrate allocation over an emersion period. Mar Ecol Prog Ser 223:101–112
Reid MA, Ogden RA (2009) Factors affecting diatom distribution in floodplain lakes of the southeast Murray Basin, Australia and implications for palaeolimnological studies. J Paleolimnol 41:453–470
Round FE, Crawford RM, Mann DG (1990) The diatoms. Cambridge University Press, Cambridge
Sabbe K (1993) Short-term fluctuations in benthic diatom numbers on an intertidal sandflat in the Westerschelde estuary (Zeeland, The Netherlands). Hydrobiologia 269(270):275–284
Saunders KM, Taffs KH (2009) Palaeoecology: a tool to improve the management of Australian estuaries. J Environ Manag 90:2730–2736
Saunders KM, Hodgson DA, McMinnn A (2009) Quantitative relationships between benthic diatom assemblages and water chemistry in Macquarie Island lakes and their potential for reconstructing past environmental changes. Antarct Sci 21:35–49
Serôdio J, da Silva JM, Catarino F (1997) Non destructive tracing of migratory rhythms of intertidal benthic microalgae using in vivo chl a fluorescence. J Phycol 33:542–553
Stimson RJ, Minnery J (1998) Why people move to the ‘Sun-belt’: a case study of long distance migration to the Gold Coast, Australia. Urban Stud 35:193–214
Sullivan MJ (1999) Applied diatom studies in estuaries and shallow coastal environments. In: Stoermer EF, Smol JP (eds) The diatoms. Applications for the environmental and earth sciences. Cambridge University Press, Cambridge, pp 277–297
Sundbäck K, Snoeijs P (1991) Effects of nutrient enrichment on microalgal community composition in a shallow-water sediment system: an experimental study. Bot Mar 34:341–358
Udy JW, Dennison WC (1997) Growth and physiological responses of three seagrass species to elevated sediment nutrients in Moreton Bay, Australia. J Exp Mar Biol Ecol 217:253–277
Underwood GJC (2002) Adaptations of tropical marine microphytobenthic assemblages along a gradient of light and nutrient availability in Suva Lagoon, Fiji. Eur J Phycol 37:449–462
Underwood GJC, Kromkamp J (1999) Primary production by phytoplankton and microphytobenthos in estuaries. Adv Ecol Res 29:93–153
Uwins PJR, Yago AJE, Yago JVR, Quicio M (1998) Baseline monitoring of the phytoplankton and phytoplankton bloom associations in the Southern Moreton Bay catchment. In: Tibbetts IR, Hall NJ, Dennison WC (eds) Moreton Bay and catchment. School of Marine Science, Brisbane
Warner RF (1986) Hydrology. In: Jean DN (ed) Australia—a geography. Volume one: the natural environment. Sydney University Press, Sydney, pp 49–79
You B, Greilach P, Turnball J, Hatton D (1999) Task RD: resuspension dynamics—Phase 2 final report. South East Queensland Water Quality Strategy, Brisbane
Zann L (1995) Our Sea, our future: major findings of the state of the marine environment report for Australia. Department of the Environment, Sport and Territories, Canberra
Zar JH (1984) Biostatistical analysis, 2nd edn. Prentice-Hall, Englewood Cliffs
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Grinham, A., Gale, D. & Udy, J. Impact of sediment type, light and nutrient availability on benthic diatom communities of a large estuarine bay: Moreton Bay, Australia. J Paleolimnol 46, 511–523 (2011). https://doi.org/10.1007/s10933-010-9407-7
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DOI: https://doi.org/10.1007/s10933-010-9407-7