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Periphyton in Springs

Periphyton in Springs. What do we know?. Periphyton?. attached to anything under water ☼ Algae ☼ cyano -bacteria (blue-green algae) ☼ bacteria ☼ decaying material . Periphyton background . Term coined in 1920s by Russian limnologist.

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Periphyton in Springs

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  1. Periphyton in Springs What do we know?

  2. Periphyton? attached to anything under water ☼ Algae ☼cyano-bacteria (blue-green algae) ☼bacteria ☼decaying material

  3. Periphyton background Term coined in 1920s by Russian limnologist. May not be the appropriate term when only talking about algae. Benthic algae is the more appropriate term.

  4. Benthic Algae- Primary producer This means they use nutrients and sunlight to grow . So, if you were a scientist looking at benthic algae in springs… You would probably look at a relationship between primary producers , nutrients, and light

  5. The 1st Characterization • L.A. Whitford (N.C. State Univ.) “The Communities of Algae in the Springs and Spring Streams of Florida” (1956) • Characterized the first algal communities in Florida springs • Collected for > 3 years at 30 different springs

  6. What Whitford found?? Benthic algae make by far the major portion of the algal flora in both spring and run

  7. What Whitford found The most prevalent community in springs are the diatoms that are not only attached to underwater surfaces, but also free living in the mats of attached algae.

  8. What Whitford found • What is the benthic algae relationship to water chemistry • Nitrate has no apparent effect on the flora. • Carbon dioxide and oxygen seem to have little effect on community except when oxygen is depleted.

  9. What Whitford found What habitat factors are important to benthic algae? Next to light, current is the most important. In current, the constant renewal of minerals and gases at the plants surface is emphasized.

  10. 1st study on primary production in FL Springs • Howard T. Odum (University of Florida-2002) • “Primary Production Measurements in Eleven Florida Springs and a Marine Turtle-Grass Community” (1957) • Calculated primary production on springs by measuring oxygen and carbon dioxide throughout the day just below the spring boil.

  11. Odum found that… • Carbon-dioxide, nitrogen, and phosphorus suggests no correlation with the primary production. • Light is the most important factor controlling production. • that “permanently fixed benthic algal communities are like pine trees on land (Rabinowitch 1951) are sun tolerant at high light intensities…”

  12. After the Gap… • In 1995, there was another look at what is living in springs. • “Description of Benthic Communities in Karst, Spring-Fed Streams of North Florida” • Mattson, et. al. • Systems of the lower Suwannee and lower Sante Fe are dominated by diatoms.

  13. Nutrients & benthic algae Nutrient Limitation of Periphyton in a Spring-Fed, Coastal Stream in Florida, USA” Mean periphyton biomass in μgchl/cm2 by treatment type • Notenstein, et al. (UF) 2003 • Periphyton , Phosphorus • This means that phosphorus is the nutrient that most affected algal growth

  14. Nutrients & benthic algae • 2003 -2004 PBS&J, SRWMD, & Notenstein, et.al. • “Mapping and Monitoring Submerged Aquatic Vegetation in Ichetucknee Springs – 2004”

  15. In the River In the feeder springs • Periphyton & nutrient • No significant relationship between • Nutrients not in short supply

  16. Remember Whitman & Odum Current constantly renews nutrients so that there is no real deficit

  17. Nutrients & benthic algae • Series of spring studies 2004-2007 (UF) • “Ecological Conditions of Algae and Nutrients in Florida Springs: A Synthesis Report” • Stevenson, et Al. (2007) • 29 freshwater Springs: • 1st magnitude (64.6 mgd or more) • 2nd magnitude (6.46 – 64.6 mgd) • Wide range of water nitrogen and phosphorus concentrations

  18. Stevenson et. Al. overview

  19. Stevenson et. Al overview

  20. Bugs & benthic algae • “Environmental Factors Affecting Aquatic Invertebrate Community Structure on Snags in the Ichetucknee river, Florida” • Nancy Marie Steigerwalt (UF, thesis, 2008) • Algae living on the woody debris increases the surface area for the invertebrate habitat.

  21. Bugs & benthic algae • “Relationships Between Benthic Algae and Macroinvertebrate Communities inFlorida Spring Run Streams” • Robert Mattson, SJWMD (2007)

  22. Rob Mattson found… • In general, • more of a negative consequence to macroinvertebrate communities from the increased algal growth in springs and spring streams than positive.

  23. Snails & benthic algae • “Oxygen Mediated Grazing Impacts In Florida Springs” • Kristen Dormjo (UF, thesis, 2007) • Grazing impacts on algae from the snail, Elimia floridensis http://www.flmnh.ufl.edu

  24. Snails & benthic aglae • In the river • in combination with some other factor(s) is responsible for controlling periphyton growth

  25. Snails & benthic aglae • In the feeder spring/ runs • no regulatory effect on periphyton • Other snails inhabit feeder springs • Affects on algal growth not measured in this study

  26. Other factors & benthic algae • “Factors Affecting Periphyton Abundance on Macrophytes in a Spring-Fed River in Florida” • Vincent Politano (UF, thesis, 2008) • Ichetucknee River and feeder springs

  27. Other factors & benthic algae

  28. Current benthic algal research • Dina M. Liebowitz, School of Natural Resources and the Environment, University of Florida, Gainesville, FL • Matthew J. Cohen , School of Forest Resources and Conservation, University of Florida, Gainesville, FL • James B. Heffernan , Biological Sciences, Florida International University, Miami, FL • Thomas K. Frazer , School of Forest Resources and Conservation, University of Florida, Gainesville, FL

  29. Current benthic algal research • recent DO decreases in springs • due to interactions of climatic variation and consumptive use. • The DO-grazer hypothesis • Entire grazer community • Algal biomass • Chemical and seasonal variability

  30. Current benthic algal research • Synoptic ecosystem study on 12 Florida springs • Conducted by Wetland Solutions, Inc. • Sponsored by: • Fish & Wildlife Conservation Commission • With support from • Department of Environmental Protection • St. John’s River Water Management District • Southwest Florida Water Management District • Three Rivers Trust, Inc.

  31. References • Dormsjo, K. (2008). Oxygen mediated grazing impacts in Florida springs. Unpublished Master thesis. University of Florida, Gainseville, FL. • Mattson, R.A. (2007). Relationships between benthic algae and macroinvertebratecommunities in Florida spring run streams. St. Johns River Water Mngmnt. Dist. • Mattson, R.A., Epler, John H., Hein, Michael K. (1995). Description of benthic macroinvertebrate communities in karst, spring-fed systems in northcentral Florida. J. Kansas Ent. Soc., 68(2), 18-41. • Odum, Howard T. (1957). Primary Production Measurements in Eleven Florida Springs and a Marine Turtle-Grass Community. Limn. and Oceano., 2(2):85-97. • Politano, Vincent (2008). Factors affecting periphyton abundance on macrophytes in a spring-fed river in Florida. Master thesis. University of Florida, Gainesville, FL. • Stevenson, R.J., Pinowska, A., Albertin, A, & Sickman, J. (2007). Ecological Condition of algae and nutrients in Florida springs: The synthesis report. Submitted to FL Dept. Environ. Protect., Tallahassee, FL. http://www.floridadep.org/labs/library/springs.htm. • Whitford, L.A. (1956). The communities of Algae in the springs and spring streams of Florida. Ecology. 37(3), 433-442.

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