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Seasonal patterns of daily net photosynthesis, transpiration and net primary productivity of Juncus roemerianus and Spartina alterniflora in a Georgia salt marsh

Oecologia volume 52pages 404–410 (1982)Cite this article

Summary

Studies of the seasonal CO2 and water vapor exchange patterns of Juncus roemerianus and Spartina alterniflora were conducted in an undisturbed marsh community on Sapelo Island, Georgia. Daily patterns of net photosynthesis, transpiration, leaf diffusive conductance and water-use efficiency in response to ambient conditions were monitored on intact, in situ plants. Net primary productivity was calculated from the daytime CO2 fixation totals, nighttime CO2 loss, leaf standing stock and aboveground to belowground biomass ratios for each plant type.

The tall form of S. alterniflora had higher rates of photosynthesis and higher water-use efficiency values which, in conjunction with low respiratory losses and large leaf standing crop, results in high values of net primary productivity. The environmental factors in the marsh which permit these physiological responses occur in less than 10% of the marsh. Overall, the physiological capabilities of the short form of S. alterniflora were reduced in comparison to the tall form, but the combination of environmental factors which determine the physiological responses of this form occur in a much greater portion of the marsh, and the short form of S. alterniflora dominates the Sapelo Island marshes.

The response patterns of the C3 species, J. roemerianus, differed somewhat from the height forms of S. alterniflora. A large, seasonally constant leaf standing crop coupled with moderate rates of photosynthesis resulted in a net primary productivity value which was between the tall and short height forms of S. alterniflora. However, as with the tall S. alterniflora, the environmental conditions under which this high productivity and high water loss rate can be sustained are restricted to specific regions of the environmental gradient in the marsh.

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References

  • Anonymous (1968) Climatic atlas of the United States. U.S. Department of Commerce, Environmental Data Service. U.S. Government Printing Office

  • Barr AJ, Goodnight JH, Sall JP, Helwig JT (1976) A user's guide to SAS 76. Raleigh NC: SAS Institute, Inc.

    Google Scholar 

  • Blum U, Seneca ED, Stroud LM (1978) Photosynthesis and respiration of Spartina and Juncus salt marshes in North Carolina: some models. Estuaries 1:228–238

    Google Scholar 

  • Caldwell MM, White RS, Moore RT, Camp LB (1977) Carbon balance productivity, and water use of cold winter desert shrub communities dominated by C3 and C4 species. Oecologia (Berl) 29:275–300

    Google Scholar 

  • Cooper AW (1974) Salt marshes. In: HT Odum, BJ Copeland and EA McMahan (eds) Coastal ecological systems of the United States. Washington, D.C.: The Conservation Foundation

    Google Scholar 

  • Cruz AA de la, Hackney CT (1975) Energy value, elemental composition and producitivity of belowground biomass of a Juncus tidal marsh. Ecology 58:1165–1170

    Google Scholar 

  • Dunn EL (1975) CO2 exchange in evergreen sclerophylls in Mediterranean climates. In: DM Gates and R.B. Schmerl (eds.) Perspectives of biophysical ecology. Ecological Studies, vol. 12. Berlin-Heidelberg-New York: Springer pp 159–181

    Google Scholar 

  • Dunn EL, Haines BL, Giurgevich JR: Nutrient and salinity effects on photosynthesis of Spartina alterniflora Loisel. grown in solution culture. (submitted)

  • Gallagher JL, Plumley FG, Wolf PL (1977) Underground biomass dynamics and substrate selective properties of Atlantic coastal salt marsh plants. Tech. Report D-77-28. Vicksburg, Miss.: U.S. Army, Corps of Engineers, Waterways Experiment Station

    Google Scholar 

  • Gallagher JL, Reimold RJ, Linthurst RA, Pfeiffer WJ (1980) Aerial production, mortality, and mineral accumulation-export dynamics in Spartina alterniflora and Juncus roemerianus plant stands in a Georgia salt marsh. Ecology 61:303–312

    Google Scholar 

  • Giurgevich JR (1977) Seasonal patterns of carbon metabolism and plant water relations of Juncus roemerianus and Spartina alterniflora in a Georgia salt marsh. Athens GA: University of Georgia, Ph.D. diss.

    Google Scholar 

  • Giugevich JR, Dunn, EL (1978) Seasonal patterns of CO2 and water vapor exchange of Juncus roemerianus Scheele in a Georgia salt marsh. Am J Bot 65:502–510

    Google Scholar 

  • Giurgevich JR, Dunn EL (1979) Seasonal patterns of CO2 and water vapour exchange of the tall and short height forms of Spartina alterniflora Loisel. in a Georgia salt marsh. Oecologia (Berl) 43:139–156

    Google Scholar 

  • Gosselink JR, Hopkinson CS, Jr, Parrondo RT (1977) Common marsh plant species of the Gulf Coast area. Tech. Report D-77-44. Vicksburg, Miss. U.S. Army, Corps of Engineers, Waterways-Experiment-Station

    Google Scholar 

  • Jarvis PG (1971) The estimation of resistances to carbon dioxide transfer. In: Z Sestak, J Catsky and PF Jarvis (eds) Plant photosynthetic production: manual of methods. Junk The Hague pp 566–631

    Google Scholar 

  • Keefe CW (1972) Marsh production: A summary of the literature. Contrib in Marine Sci 16:163–181

    Google Scholar 

  • Linthurst RA, Reimold RJ (1978) Estimated net aerial primary productivity for selected estuarine angiosperms in Maine, Delaware and Georgia. Ecology 59:945–955

    Google Scholar 

  • Linthurst RA, Seneca ED (1980) The effects of standing water and drainage potential on the Spartina alterniflora-substrate complex in a North Carolina salt marsh. Estuar Coast Mar Sci 11:41–52

    Google Scholar 

  • List RJ (1951) Smithsonian meterological tables, 6th edition. Washington DC: Smithsonian Institution

    Google Scholar 

  • Longstreth DJ (1976) The effect of salinity and tidal inundation on photosynthesis and plant water relations of Spartina alterniflora Loisel. Durham NC: Duke University, Ph.D. diss.

    Google Scholar 

  • Mendelssohn IA (1979) Nitrogen metabolism in the height forms of Spartina alterniflora in North Carolina. Ecology 60:587–584

    Google Scholar 

  • Mendelssohn IA, Seneca ED (1980) The influence of soil drainage on the growth of salt marsh cordgrass Spartina alterniflora in North Carolina. Estuar Coast Mar Sci 11:27–40

    Google Scholar 

  • Mooney HA, Dunn EL, Harrison AT Morrow PA, Bartholomew B, Hays RL (1971) A mobile laboratory for gas exchange measurements. Photosynthetica 5:128–132

    Google Scholar 

  • Reimold RJ, Gallagher JL, Thompson DE (1973) Remote sensing of tidal marsh. Photogrammetric Engineering 39:477–488

    Google Scholar 

  • Stroud LM (1976) Net primary production of belowground material and carbohydrate patterns of two height forms of Spartina alterniflora in two North Carolina marshes. Raleigh NC: North Carolina State Univ. Ph.D. diss.

    Google Scholar 

  • Teal JM (1962) Energy flow in the salt marsh ecosystem of Georgia. Ecology 43:614–624

    Google Scholar 

  • Thornthwaite CW, Mather JR (1957) Instructions and tables for computing potential evapotranspiration and the water balance. Climatology 10:181–311 Centerton NJ: Laboratory of Climatology

    Google Scholar 

  • Turner RE (1976) Geographic variations in salt marsh macrophyte production. Contrib in Marine Sci 20:47–68

    Google Scholar 

  • Woodwell GM, Botkin DB (1974) Metabolism of terrestrial ecosystems by gas exchange techniques: The Brookhaven approach. In: DE Reichle (ed) Studies in ecology. Berlin-Heidelberg-New York: Springer pp 73–85

    Google Scholar 

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Author notes

  1. J. R. Giurgevich

    Present address: Department of Environmental Quality, 401 West 19th Street, 82002, Cheyenne, Wyoming, USA

Affiliations

  1. Botany Department, University of Georgia, 30602, Athens, Georgia, USA

    J. R. Giurgevich

  2. School of Biology, Georgia Institute of Technology, 30332, Atlanta, Georgia, USA

    E. L. Dunn

Authors
  1. J. R. Giurgevich
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  2. E. L. Dunn
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Contribution No. 435 from the University of Georgia Marine Institute

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Giurgevich, J.R., Dunn, E.L. Seasonal patterns of daily net photosynthesis, transpiration and net primary productivity of Juncus roemerianus and Spartina alterniflora in a Georgia salt marsh. Oecologia 52, 404–410 (1982). https://doi.org/10.1007/BF00367967

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  • DOI: https://doi.org/10.1007/BF00367967

Keywords

  • Water Loss Rate
  • Spartina Alterniflora
  • Tall Form
  • Height Form
  • Juncus Roemerianus