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Journal of Freshwater Ecology Volume 32, 2017 - Issue 1
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Original Articles

Comparison of ecosystem processes in a woodland and prairie pond with different hydroperiods

Daniel J. HornbachDepartment of Biology, Macalester College, St. Paul, MN, USACorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0003-3985-6183View further author information
ORCID Icon,
Mark C. HoveDepartment of Biology, Macalester College, St. Paul, MN, USAORCID Iconhttp://orcid.org/0000-0002-6916-2425View further author information
ORCID Icon,
Mira W. Ensley-FieldDepartment of Biology, Macalester College, St. Paul, MN, USAView further author information
,
Matthew R. GlasenappDepartment of Biology, Macalester College, St. Paul, MN, USAView further author information
,
Ian A. GoodbarDepartment of Biology, Macalester College, St. Paul, MN, USAView further author information
,
J. Douglas HarmanDepartment of Biology, Macalester College, St. Paul, MN, USAView further author information
,
Benjamin D. HuberDepartment of Biology, Macalester College, St. Paul, MN, USAView further author information
,
Emily A. KangasDepartment of Biology, Macalester College, St. Paul, MN, USAView further author information
,
Kira X. LiuDepartment of Biology, Macalester College, St. Paul, MN, USAView further author information
,
Molly Stark-RagsdaleDepartment of Biology, Macalester College, St. Paul, MN, USAView further author information
&
Long K. TranDepartment of Biology, Macalester College, St. Paul, MN, USAView further author information
 show all
Pages 675-695 | Received 26 May 2017, Accepted 11 Oct 2017, Published online: 19 Dec 2017

References

  • Ali S, Mishra PK, Islam A, Alam NM. 2016. Simulation of water temperature in a small pond using parametric statistical models: implications of climate warming. J Environ Eng. 142:04015085-1-14.
  • Almeida GH, Boëchatb IG, Gückerb B. 2014. Assessment of stream ecosystem health based on oxygen metabolism: which sensor to use? Ecol Eng. 69:134–138.
  • Anderson MP. 2005. Heat as a ground water tracer. Ground Water. 43:951–968.
  • Arar EJ, Collins GB. 1997. In vitro determination of chlorophyll a and pheophytin a in marine and freshwater algae by fluorescence. Cincinnati (OH): National Exposure Research Laboratory Office of Research and Development U.S. Environmental Protection Agency; EPA publication; method no. 445.0. [ accessed 2015 Dec 13]. http://permanent.access.gpo.gov/lps68140/m445-0.pdf
  • Àvila N, López-Flores R, Boix D, Gascón S, Quintana XD. 2016. Environmental factors affecting the balance of autotrophs versus heterotrophs in the microbial food web of temporary ponds. Hydrobiologia. 782:127–143.
  • Batt RD, Carpenter SR. 2012. Free-water lake metabolism:addressing noisy time series with a Kalman filter. Limnol Oceanogr-Meth. 10:20–30.
  • Bauder, ET. 2005. The effects of an unpredictable precipitation regime on vernal pool hydrology. Freshwater Biol. 50:2129–2135.
  • Beck WS, Rugenski AT, Poff NL. 2017. Influence of experimental, environmental, and geographic factors on nutrient-diffusing substrate experiments in running waters. Freshwater Biol. 62:1667–1680.
  • Bortolotti LE, Vinebrooke RD, St. Louis VL. 2016. Prairie wetland communities recover at different rates following hydrological restoration. Freshwater Biol. 61:1874–1890.
  • Brooks, RT. 2009. Potential impact of global climate change on the hydrology and ecology of ephemeral freshwater systems of the forests of the northeastern United States. Clim Change. 95:469–483.
  • Brothers S, Lazanjian G, Köhler J, Scharfenberger U, Hilt S. 2017. Convective mixing and high littoral production established systematic errors in the diel oxygen curves of a shallow, eutrophic lake. Limnol Oceanogr-Meth. 15:429–435.
  • Cael BB, Seekell DA. 2016. The size-distribution of Earth's lakes. Sci Rep-UK. 6:29633. doi:10.1038/srep29633
  • Camacho A, Murueta N, Blasco E, Santamans AC, Picazo A. 2016. Hydrology-driven macrophyte dynamics determines the ecological functioning of a model Mediterranean temporary lake. Hydrobiologia. 774:93–107.
  • Carpenter SR. 2008. Phosphorus control is critical to mitigating eutrophication. Natl Acad Sci USA. 105:11039–11040.
  • Chandler HC, Rypel AL, Jiao Y, Haas CA, Gorman TA. 2016. Hindcasting historical breeding conditions for an endangered salamander in ephemeral wetlands of the southeastern USA: implications of climate change. PLoS One. 11(2):e0150169. doi:10.1371/journal.pone.0150169
  • Christensen JP, Sand-Jensen AK, Staehr PA. 2013. Fluctuating water levels control water chemistry and metabolism of a charophyte-dominated pond. Freshwater Biol. 58:1353–1365.
  • Cole JJ, Caraco NF. 1998. Atmospheric exchange of carbon dioxide in a low-wind oligotrophic lake measured by the addition of SF6. Limnol Oceanogr. 43:647–656.
  • Cole JJ, Prairie YT, Caraco NF, McDowell WH, Tranvik LJ, Striegl RG, Duarte CM, Kortelainen P, Downing JA, Middelburg JJ, et al. 2007. Plumbing the global carbon cycle: integrating inland waters into the terrestrial carbon budget. Ecosystems. 10:171–184.
  • Dillon PJ, Rigler FH. 1974. The phosphorus-chlorophyll relationship in lakes. Limnol Oceanogr. 19:767–773.
  • Downing JA. 2010. Emerging global role of small lakes and ponds: little things mean a lot. Limnetica. 29:9–24.
  • Downing JA, Prairie YT, Cole JJ, Duarte CM, Tranvik LJ, Striegl RG, McDowell WH, Lortelainen P, Caraco NF, Melack JM, et al. 2006. The global abundance and size distribution of lakes, ponds, and impoundments. Limnol Oceanogr. 51:2388–2397.
  • Dzialowski AR, Wang S, Lim N, Spotts WW, Huggins DG. 2005. Nutrient limitation of phytoplankton growth in central plains reservoirs. USA J Plankton Res. 27:587–595.
  • Evtimova VV, Donohue I. 2014. Quantifying ecological responses to amplified water level fluctuations in standing waters:an experimental approach. J Appl Ecol. 51:1282–1291.
  • Flanagan KM, McCauley E. 2010. Experimental warming increases CO2 saturation in a shallow prairie pond. Aquat Ecol. 44:749–759.
  • Geertz-Hansen O, Montes C, Duarte CM, Sand-Jensen K, Marbá N, Grillas P. 2011. Ecosystem metabolism in a temporary Mediterranean marsh (Doñana National Park, SW Spain). Biogeosciences. 8:963–971.
  • Gingerich RT, Merovich G, Anderson JT. 2014. Influence of environmental parameters on litter decomposition in wetlands in West Virginia, USA. J Freshwater Ecol. 29:535–549.
  • Gołdyn B, Kowalczewska-Madura K, Celewicz-Gołdyn S. 2015. Drought and deluge: influence of environmental factors on water quality of kettle holes in two subsequent years with different precipitation. Limnologica. 54:14–22.
  • Hall RO, Tank JL. 2005. Correcting whole-stream estimates of metabolism for groundwater input. Limnol Oceanogr-Meth. 3:222–229.
  • Hanson MA, Herwig BR, Zimmer KD, Hansel-Welch N. 2017. Rehabilitation of shallow lakes: time to adjust expectations? Hydrobiologia. 787:45–59.
  • Hanson PC, Bade DL, Carpenter SR, Kratz TK. 2003. Lake metabolism: relationships with dissolved organic carbon and phosphorus. Limnol Oceanogr. 48:1112–1119.
  • Hanson PC, Carpenter SR, Kimura N, Wu C, Cornelius SP, Kratz TK. 2008. Evaluation of metabolism models for free-water dissolved oxygen methods in lakes. Limnol Oceanogr-Meth. 6:454–465.
  • Harpole WS, Ngai JT, Cleland EE, Seabloom EW, Borer ET, Bracken MES, Elser JJ, Grunner DS, Hillebrand H, Shurin JB, et al. 2011. Nutrient co-limitation of primary producers communities. Ecol Lett. 14:852–862.
  • Holgerson MA, Raymond PA. 2016. Large contribution to inland water CO2 and CH4 emissions from very small ponds. Nat Geosci. 9:222–228.
  • Hoellein TJ, Bruesewitz DA, Richardson DC. 2013. Revisiting Odum (1956): a synthesis of aquatic ecosystem metabolism. Limnol Oceanogr. 58:2089–2100.
  • Jeppesen E, Meerhoff M, Davidson TA, Trolle D, Søndergaard M, Lauridsen TL, Bekilğlu M, Brucet S, Volta P, González-Bergonzoni I, et al. 2014. Climate change impacts on lakes: an integrated ecological perspective based on a multi-faceted approach, with special focus on shallow lakes. J Limnol. 73:84–107.
  • Klotz RL. 2013. Factors driving the metabolism of two north temperate ponds. Hydrobiologia. 711:9–17.
  • Klotz RL, Linn SA. 2001. Influence of factors associated with water level drawdown on phosphorus release from sediments. Lake Reserv Manage. 17:48–54.
  • Kneitel JM. 2014. Inundation timing, more than duration, affects the community structure of California vernal pool mesocosms. Hydrobiologia. 732:71–83.
  • Kniffin M, Neill C, McHorney R, Gregory G. 2009. Nutrient limitation of periphyton and phytoplankton in Cape Cod coastal plain ponds. Northeast Nat. 16:395–408.
  • Laas A, Nõges P, Kõiv T, Nõges T. 2012. High-frequency metabolism study in a large and shallow temperate lake reveals seasonal switching between net autotrophy and net heterotrophy. Hydrobiologia. 694:57–74.
  • Liboriussen L, Jeppesen E. 2003. Temporal dynamics in epipelic, pelagic and epiphytic algal production in a clear and turbid shallow lake. Freshwater Biol. 48:418–431.
  • Loeb SL, Reuter JE, Goldman CR. 1983. Littoral zone production of oligotrophic lakes: the contributions of phytoplankton and periphyton. In: Wetzel RG, editor. Proceedings of the first international workship on periphyton of freshwater ecosystems held in Växjö; Sep 14–17; Sweden. The Hague: Dr. W. Junk Publishers. p. 161–167.
  • Long MH, Rheuban JE, Berg P, Zieman JC. 2012. A comparison and correction of light intensity loggers to photosynthetically active radiation sensors. Limnol Oceanogr-Meth. 10:416–424.
  • López-Archilla AI, Mollá S, Coleto MC, Guerrero MC, Montes C. 2004. Ecosystem metabolism in a Mediterranean shallow lake (Laguna de Santa Olalla, Doñana National Park, SW Spain. Wetlands. 24:848–858.
  • Marton JM, Creed IF, Lewis DB, Lane CR, Basu NB, Cohen MJ, Craft CB. 2015. Geographically isolated wetlands are important biogeochemical reactors on the landscape. Bio Sci. 65:408–418.
  • McNair JN, Gereaux LC, Weinke AD, Sesselmann MR, Kendall ST, Biddanda BA. 2013. New methods for estimating components of lake metabolism based on free-water dissolved oxygen dynamics. Ecol Model. 263:251–263.
  • McNair JN, Sesselmann MR, Kendall ST, Gereaux LC, Weinke AD, Biddanda BA. 2015. Alternative approaches for estimating components of lake metabolism using the free-water dissolved-oxygen (FWDO) method. Fund Appl Limnol. 186:21–44.
  • Mischler JA, Taylor PG, Townsend AR. 2014. Nitrogen limitation of pond ecosystems on the plains of Eastern Colorado. PLoS One. 9(5):e95757. doi:10.1371/journal.pone.0095757
  • Moss B. 2012. Cogs in the endless machine: lakes, climate change and nutrient cycles: a review. Sci Total Environ. 434:130–142.
  • Naiman RJ, Melillo JM, Hobbie JE. 1986. Ecosystem alteration of boreal forest streams by beaver (Castor canadensis). Ecology. 67:1254–1269.
  • Odum HT. 1956. Primary production in flowing waters. Limnol Oceanogr. 1:102–117.
  • Oki T, Kanae S. 2006. Global hydrological cycles and world water resources. Science. 313:1068–1072.
  • Peck DV, Olsen AR, Weber MH, Paulsen SG, Peterson C, Holdsworth SM. 2013. Survey design and extent estimates for the National Lakes Assessment. Freshw Sci. 32:1231–1245.
  • Paelr HW, Ustach JF. 1982. Blue-green algal scums: an explanation for their occurrence during freshwater blooms. Limnol Oceanogr. 27:212–217.
  • Pyke CR. 2005. Assessing climate change impacts on vernal pool ecosystems and endemic branchiopods. Ecosystems. 8:95–105.
  • Reverey F, Grossart H, Premke K, Lischeid G. 2016. Carbon and nutrient cycling in kettle hole sediments depending on hydrological dynamics: a review. Hydrobiologia. 775:1–20.
  • Rohia T, Laurion I, Rautio M. 2015. Carbon dynamics in highly heterotrophic subarctic thaw ponds. Biogeosciences. 12:7223–7235.
  • Rose C, Crumpton WG. 2006. Spatial patterns in dissolved oxygen and methane concentrations in a prairie pothole wetland in Iowa, USA. Wetlands. 26:1020–1025.
  • Rosset V, Oertli B. 2011. Freshwater biodiversity under climate warming pressure: identifying the winners and losers in temperate standing waterbodies. Biol Conserv. 144:2311–2319.
  • Rubbo MJ, Cole JJ, Kiesecker JM. 2006. Terrestrial subsidies of organic carbon support net ecosystem production in temporary forest ponds: evidence from an ecosystem experiment. Ecosystems. 9:1170–1176.
  • Sand-Jensen K, Staehr PA. 2007. Scaling of pelagic metabolism to size, trophy and forest cover in small Danish lakes. Ecosystems. 10:127–141.
  • Sand-Jensen K, Staehr PA. 2009. Net heterotrophy in lakes: a widespread over gradients in trophic and land cover. Ecosystems. 12:336–348.
  • Schindler DW. 1977. Evolution of phosphorus limitation in lakes. Sci-New Ser. 195:260–262.
  • Schindler DW. 2012. The dilemma of controlling cultural eutrophication of lakes. Proc R Soc B. 279:4322–4333.
  • Schindler DW. 1997. Widespread effects of climatic warming on freshwater ecosystems in North America. Hydrol Process. 11:1043–1067.
  • Schriver P, Bøgestrand J, Jeppesen E, Søndergaard M. 1995. Impact of submerged macrophytes on fish-zooplankton-phytoplankton interactions: large scale enclosure experiments in a shallow eutrophic lake. Freshwater Biol. 33:255–270.
  • Schriever TA, Williams DD. 2013. Influence of pond hydroperiod, size, and community richness on food-chain length. Freshwater Sci. 32:964–975.
  • Shurin JB, Clasen JL, Greig HS, Kratina P, Thompson PL. 2012. Warming shifts top-down and botton-up control of pond food web struture and function. Phil Trans Soc B. 367:3008–3017.
  • Smith AD, Gilbert JJ. 1995. Spatial and temporal variability in filament length of a toxic cyanobacterium (Anabaena affinis). Freshwater Biol. 33:1–11.
  • Smith SDP. 2014. The roles of nitrogen and phosphorus in regulating the dominance of floating and submerged plants in a field mesocosm experiment. Aquat Bot. 112:1–9.
  • Smith SM, Lee KD. 2006. Responses of periphyton to artificial nutrient enrichment in cold freshwater kettle ponds of Cape Cod National Seashore. Hydrobiologia. 571:201–211.
  • Solomon CT, Bruesewitz DA, Richardson DC, Rose KC, Van de Bogert MC, Hanson PC, Kratz TK, Larget B, Adrian R, Babin BL, et al. 2013. Ecosystem respiration: drivers of daily variability and background respiration in lakes around the globe. Limnol Oceanogr. 58:849–866.
  • Staehr PA, Baastrup-Spohr L, Sand-Jensen K, Stedmon C. 2012. Lake metabolism scales with lake morphometry and catchment conditions. Aquat Sci. 74:155–169.
  • Trochine C, Guerrieri ME, Liboriussen L, Lauridsen TL, Jeppesen E. 2014. Effects of nutrient loading, temperature regime and grazing pressure on nutrient limitation of periphyton in experimental ponds. Freshwater Biol. 59:905–917.
  • Tsai J, Kratz TK, Rusak JA, Shih WY, Liu WC, Tang SL, Chiu CY. 2016. Absence of winter and spring monsoon changes in water level and rapidly shifts metabolism in a subtropical lake. Inland Waters. 6:436–448.
  • Van de Bogert MC, Bade DL, Carpenter SR, Cole JJ, Pace ML, Hanson PC, Langman OC. 2012. Spatial heterogeneity strongly affects estimates of ecosystem metabolism in two north temperate lakes. Limnol Oceanogr. 57:1689–1700.
  • Vaughn CC, Spooner DE, Galbraith HS. 2007. Context-dependent species identity effects within a functional group of filter-feeding bivalves. Ecology. 88:1654–1662.
  • Whitehead PG, Wilby RL, Battarbee RW, Kernan M, Wade AJ. 2009. A review of the potential impacts of climate change on surface water quality. Hydrol Sci J. 54:101–123.
  • Williamson CE, Saros JE, Schindler DW. 2009a. Sentinels of change. Science. 323:887–888.
  • Williamson CE, Saros JE, Vincent WF, Smol JP. 2009b. Lakes and reservoirs as sentinels, integrators, and regulators of climate change. Limnol Oceanogr. 54:2273–2282.
  • Winslow LA, Zwart JA, Batt RD, Dugan HA, Woolway RI, Corman JR, Hanson PC, Read JS. 2016. LakeMetabolizer: an R package for estimating lake metabolism from free-water oxygen using diverse statistical models. Inland Waters. 6:622–636.
  • Woodward G, Perkins DM, Brown LE. 2010. Climate change and freshwater ecosystems:impacts across multiple levels of organization. Philos T Royal Soc B. 365:2093–2106.
  • Yvon-Durocher G, Allen AP, Montoya JM, Trimmer M, Woodward G. 2010. The temperature dependence of the carbon cycle in aquatic ecosystems. Adv Ecol Res. 43:267–313.
  • Yvon-Durocher G, Caffrey JM, Cescatti A, Dossena M, del Giorgio P, Gasol JM, Montoya JM, Pumpanen J, Staehr PA, Trimmer M, et al. 2012. Reconciling the temperature dependence of respiration across timescales and ecosystem types. Nature. 487:472–476.
  • Yvon-Durocher G, Hulatt CJ, Woodward G, Trimmer M. 2017. Long-term warming amplifies shifts in the carbon cycle of experimental ponds. Nat Clim Change. 7:209–213.

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