{"id":79,"date":"2017-08-01T14:23:33","date_gmt":"2017-08-01T16:53:33","guid":{"rendered":"https:\/\/www.esd.mun.ca\/wordpress\/sziegler\/?page_id=79"},"modified":"2026-03-05T20:07:42","modified_gmt":"2026-03-05T23:37:42","slug":"publications","status":"publish","type":"page","link":"https:\/\/www.esd.mun.ca\/wordpress\/sziegler\/?page_id=79","title":{"rendered":"Publications"},"content":{"rendered":"
(Names in italics<\/em> indicate those working under Sue’s supervision or co-supervision.)<\/h5>\n
\n

Barry, E.A., <\/em>Ziegler, S.E<\/strong>., Angnatok, J., Harrison, E.J.<\/em> and U. Passow (2026) The IceShark, an effective method for sampling plankton under sea ice. Limnology and Oceanography Methods e70029 https:\/\/doi.org\/10.1002\/lom3.70029<\/a><\/p>\n

Patrick, M.E., Myers-Pigg, A., Gates, Z.X., Gaviria, C., Morry, A.K, <\/em>Prestegaard, K. and S.E. Ziegler<\/strong> (2025) Hillslope hydrologic influences on soil dissolved organic carbon fate informs extreme precipitation impacts on boreal forest mineral soil stocks. Catena 259: 109361 https:\/\/doi.org\/10.1016\/j.catena.2025.109361<\/a><\/p>\n

Miatta, M., Snelgrove, P.V.R., Bates, A.E., Bailey, M., Bradbury, I.R., Cadman, R., Campany\u00e0-Llovet, N., Clinton, M.E., Cote, D., Denniston, M., de Young, B., Gregory, R.S., King, B.G.C., Kourantidou, M., Layton, K.K.S., McBride, C.E<\/em>., McCarney, P., Oliver, E,C.J, Sipler, R.E., S.E., Ziegler<\/strong> (2024) A 4-phase framework for developing socio-ecological indicators for changing northern coastal environments. FACETS 10: 1-18. https:\/\/dx.doi.org\/10.1139\/facets-2023-0183<\/a><\/p>\n

Ziegler, S.E<\/strong>., Billings, S.A., Poderbarac, F.A<\/i>., Edwards, K.A., Skinner, A., Buckeridge, K.M., Vanden Boer, T<\/i>.C<\/i> (2025) Biogeochemical evidence raises questions on the longevity of warming-induced growth enhancements in wet boreal forests<\/span>. Ecosphere 15 (12): e70109. https:\/\/doi.org\/10.1002\/ecs2.70109<\/a><\/p>\n

Colossi, A.A., Persaud, D., Lao, M., Place, B.K<\/em>., Hems, R.F., Ziegler, S.E<\/strong>., Edwards, K.A., Young, C.J. and Trevor VandenBoer<\/em> (2024) Cost effective off-grid automatic precipitation samplers for pollutant and biogeochemical atmospheric deposition. Atmospheric Measurement Techniques 17: 3697-3718. https:\/\/doi.org\/10.5194\/amt-17-3697-2024<\/a><\/p>\n

Gates, Z.X.,<\/em> Galagedara, L.W. and S.E. Ziegler<\/strong> (2023) Combining ground penetrating radar methodologies enables large-scale mapping of soil horizon thickness and bulk density in boreal forests. Soil Use and Management. https:\/\/DOI:10.1111\/sum.12964<\/a><\/p>\n

Gaviria Salazar, C., Roebuck, J.A., Myers-Pigg, A.N. <\/em>and S.E. Ziegler<\/strong> (2023) Self-diagnosis of model suitability for continuous measurements of stream-dissolved organic carbon derived from in-situ UV-visible spectroscopy. Limnology and Oceanography Methods. \u00a0https:\/\/DOI: 10.1002\/LOM3.10559.<\/a><\/p>\n

Budge, S.M., Townsend, K., Ziegler, S.E.<\/strong>, and S. P. Lall (2023) Fatty acid isotopic composition in Atlantic pollock is not influenced by environmentally relevant dietary fat concentrations. Oecologia 202: 513-522. https:\/\/link.springer.com\/article\/10.1007\/s00442-023-05403-z<\/a><\/p>\n

Roebuck, J.A.,<\/em> Prestegaard, K., Gaviria Salazar, C., Myers-Pigg, A<\/em>.,<\/u> and S. E. Ziegler<\/strong> (2023) Hydrobiogeochemical controls on the delivery of dissolved organic matter to boreal headwater streams. Water Resource Research https:\/\/DOI:\u00a010.1029\/2022WR033358<\/a><\/p>\n

Bowering, K.L<\/em>., Edwards, K.A. and S.E. Ziegler<\/strong> (2023) Seasonal controls override forest harvesting effects on the composition of dissolved organic matter mobilized from boreal forest soils. Biogeosciences 20: 2189-2206 https:\/\/bg.copernicus.org\/articles\/20\/2189\/2023\/ <\/a><\/p>\n

Casas-Ruiz, J., Bodmer, P, Bona, K. A., Butman, B., Couturier, M., Emilson, E.J.S., Finlay, K., Genet, H., Hayes, D., Karlsson, J., Par\u00e9, D., Peng, C., Striegl, R., Webb, J., Wei, X., Ziegler, S.E<\/strong>., and P.A. del Giorgio (2023) Connecting terrestrial and aquatic ecosystems to constrain estimates of land-atmospheric exchange of carbon. Nature Communications. https:\/\/doi.org\/10.1038\/s41467-023-37232-2<\/a><\/p>\n

Khoo, C.L.L<\/em>., Sipler, R.E., Faulkner, S.J.M, Boyd, S.G., Beheshti Foroutani, M<\/em>., McBride, C.E., <\/em>and S. E<\/strong>. Ziegler<\/strong>. (2023). Size fractionated biogeochemical constituents across adjacent coastal systems informs approaches for integrating small catchment studies into regional models. Limnology and Oceanography. https:\/\/doi.org\/10.1002\/lno.12346<\/a><\/p>\n

Myers-Pigg, A.N<\/em>., Kaiser, K., Benner, R and S.E. Ziegler<\/strong> (2023) Soil organic matter diagenetic state informs ecosystem feedbacks to climate change. Biogeosciences 20: 489-503 (Special Issue: Global change effects on terrestrial biogeochemistry at the plant\u2013soil interface) https:\/\/doi.org\/10.5194\/bg-20-489-2023<\/a><\/p>\n

Khoo, C.L.L<\/em>., Sipler, R.E., Fudge, A.R., Beheshti Foroutani, M<\/em>., Boyd, S.G<\/em>. and S.E. Ziegler<\/strong> (2022) Evaluating the mechanisms influencing salt-induced flocculation of dissolved organic matter in boreal coastal systems. JGR Biogeosciences 127: e2022JG006844. http:\/\/doi.org\/10.1029\/2022JG006844<\/a><\/p>\n

Harris, E.J., <\/em>Webb, R., Ziegler, S.E<\/strong>. and E. Oliver (2022) <\/em>Close to home co-producing research questions and solutions to coastal erosion in Nunatsiavut. Journal of Ocean Technology. 17(3): 21-29<\/p>\n

Patrick, M.E., Young, C., <\/em>Zimmerman A. and S.E. Ziegler<\/strong> (2022) Mineralogic controls are harbingers of hydrological controls on soil organic matter content in warmer boreal forests. Geoderma 425: 116059 https:\/\/doi.org\/10.1016\/j.geoderma.2022.116059<\/a><\/p>\n

Philben, M<\/em>., Bowering, K<\/em>., Poderbarac, F<\/em>., Laganiere, J<\/em>., Edwards, K.A., S.E. Ziegler<\/strong> (2022). Enrichment of 13<\/sup>C with depth in soil organic horizons is not explained by CO2 or DOC losses during decomposition. Geoderma 424: 116004 https:\/\/doi.org\/10.1016\/j.geoderma.2022.116004<\/a><\/p>\n

Sipler, R., Ziegler, S.E<\/strong>., & Memorial University of Newfoundland. (2022).\u00a0Water chemistry characteristics of two tributaries of Placentia Bay, Newfoundland, in 2019\u00a0[Data set].\u00a0https:\/\/catalogue.preprod.ogsl.ca\/dataset\/ca-cioos_e1914900-d916-4062-95b3-41ea7f57365e?local=en<\/a>.\u00a0https:\/\/doi.org\/10.26071\/ogsl-e1914900-d916<\/a><\/p>\n

Bowering, K<\/em>. Edwards, K.A. Weirsma, Y.F., Billings, S.A., Warren, J<\/em>., Skinner, A., Ziegler, S.E.<\/strong> (2022). Dissolved organic carbon mobilization across a climate transect of mesic boreal forests is explained by air temperature and snowpack duration. Ecosystems https:\/\/doi.org\/10.1007\/s10021-022-00741-0<\/a><\/p>\n

Podrebarac, F.A<\/em>. Billings, S.A. Edwards, K.A. Laganiere, J<\/em>. Norwood, M<\/em>. Ziegler, S.E.<\/strong> (2021). Soil profile connectivity can impact microbial substrate use, affecting how soil CO2 effluxes are controlled by temperature. Biogeosciences. 18: 4755-4772. https:\/\/doi.org\/10.5194\/bg-18-4755-2021<\/a><\/p>\n

Sullivan, P.L., Billings, S.A., Hirmas, D., Li, L., Zhang, X., Ziegler, S.E<\/strong>., Murenbeeld, K., Ajami, H., Guthrie, A., Singha, K., Gimenez, D., Duro, A.M., Moreno, V., Flores, A., Cueva, A., Koop, A.N., Aronson, E., Barnard, H., Banwart, S., Keen, R., Nemes, A., Nikolaidis, N., Nippert, J., Richter, D., Robinson, D., Sadayappan, K., Souza, L., Unruh, M. and H. Wen. (2021). Embracing the dynamic nature of soil structure: A key paradigm shift for illuminating the role of life in critical zones of the Anthropocene. Earth-Science Reviews 225: 103873 https:\/\/doi.org\/10.1016\/j.earscirev.2021.103873<\/a><\/p>\n

Kohl, L., Myers-Pigg, A.N., <\/em>Edwards, K.<\/em>A, <\/em>Billings, S.A, Warren, J, Podrebarac, F.,<\/em> and S.E. Ziegler<\/strong> (2021) Microbial inputs at the litter layer translate climate into altered organic matter properties. Global Change Biology 27(2): 435-453. DOI: 10.1111\/gcb.15420<\/a><\/p>\n

Buckeridge, K., Edwards, K.E., Min, K., Ziegler, S.E.<\/strong> and S. A. Billings (2020) Short- and long-term temperature responses of soil denitrifier net N2<\/sub>O efflux rates, inter-profile N2<\/sub>O dynamics, and microbial genetic potentials. Soil 6: 399-412. https:\/\/doi.org\/10.5194\/soil-6-399-2020<\/a><\/p>\n

Bowering, K.,<\/em> Edwards, K., Prestegaard, K., Zhu, X. and S.E. Ziegler<\/strong> (2020) Dissolved organic carbon mobilized from organic horizons of mature and harvested black spruce plots in a mesic boreal region. Biogeosciences 17:581-595. https:\/\/doi.org\/10.5194\/bg-17-581-2020<\/a><\/p>\n

VandenBoer, T.C<\/em>., Di Lorenzo, R.A., Hems, R.F., Dawe, K.E.,<\/em> S.E. Ziegler<\/strong>, and Young, C.J. (2020)\u00a0 Quantitation of Amino Sugar Stereoisomer and Muramic Acid Biomarkers by Hydrophilic Interaction Liquid Chromatography-Mass Spectrometry. Journal of Chromatography A 1618: 460843 (https:\/\/doi.org\/10.1016\/j.chroma.2019.460843<\/a>)<\/p>\n

Billings, S.A., Richter, D.deB., Ziegler, S.E<\/strong>., K. Prestegaard (2019) Distinct contributions of eroding and depositional profiles to land-atmosphere CO2 exchange in two contrasting forests. Frontiers in Earth Sciences 7 DOI: 10.3389\/feart.2019.00036<\/a><\/p>\n

Min, K., Buckeridge, K, Ziegler, S.E<\/strong>., Edwards, K.E., Bagchi, S. and S.A. Billings (2019) The temperature sensitivity of biomass-specific microbial exo-enzyme activities and CO2 efflux is resistant to change across diverse timescales.\u00a0<\/em>Global Change Biology 25(5) DOI: 10.1111\/gcb.14605<\/a><\/p>\n

Philben, M<\/em>., Butler, S<\/em>., Billings, S.A., Benner, R., Edwards, K.A. and S.E. Ziegler<\/strong> (2018) Biochemical and structural controls on the decomposition dynamics of boreal upland forest moss tissues. Biogeosciences 15: 6731-6746. https:\/\/doi.org\/10.5194\/bg-15-6731-2018<\/a><\/p>\n

Place, B.K., <\/em>Young, C. J., <\/em>Ziegler, S.E<\/strong>., Edwards, K. A.and T. C. Vanden Boer <\/em>(2018) Passive sampling capabilities for ultra-trace quantitation of atmospheric nitric acid in remote environments. Atmospheric Environment 191: 360-369. https:\/\/doi.org\/10.1016\/j.atmosenv.2018.08.030<\/a><\/p>\n

Philben, M<\/em>., Billings, S.A., Edwards, K.A., Podrebarac, F.A., van Biesen, G<\/em>. and S.E. Ziegler<\/strong> (2018) Amino acid d15<\/sup>N indicates lack of N isotope fractionation during soil organic nitrogen decomposition. Biogeochemistry https:\/\/doi.org\/10.1007\/s10533-018-0429-y<\/a><\/p>\n

Klapstein, S.J<\/em>., Ziegler, S.E<\/strong><\/b>., Risk, D. and N. O\u2019Driscoll (2018) Assessing the utility of dissolved organic matter photoreactivity as a predictor of in situ methylmercury concentration. Accepted for publication in<\/em> Journal of Environmental Sciences https:\/\/doi.org\/10.1007\/s10533-018-0429-y<\/a><\/p>\n

Mann, E.A<\/em>., Ziegler, S.E.<\/strong><\/b>, Steffen, A. and N.J. O\u2019Driscoll (2018) Increasing chloride concentration causes retention of mercury in Arctic snow due to changes in photoreduction kinetics. Accepted for publication in<\/em> Journal of Environmental Sciences\u00a0https:\/\/www.sciencedirect.com\/science\/article\/pii\/S1001074217321502<\/a><\/p>\n

Kohl, L<\/em>., Philben, M<\/em>., Edwards, K.A., Podrebarac, F.A., Warren, J<\/em>. and S.E. <\/strong><\/b>Ziegler<\/strong><\/b> (2017) The origin of soil organic matter controls its composition and bioreactivity across a mesic boreal forest latitudinal gradient. Global Change Biology 24:e458-e473 DOI: 10.1111\/gcb.13887<\/a><\/p>\n

Klapstein, S.J<\/em>., Ziegler, S.E<\/strong>. and N. O\u2019Driscoll (2017) Dissolved organic matter inhibits freshwater methylmercury photodemethylation. Environmental Pollution 232: 392-401. https:\/\/doi.org\/10.1016\/j.envpol.2017.09.049<\/a><\/p>\n

Warren, J<\/em>. and S.E. Ziegler<\/strong><\/b> (2017) A solid-phase extraction method for isolating HF-extractable soil organic matter for NMR analysis. Organic Geochemistry\u00a0111:1-8. (http:\/\/www.sciencedirect.com\/science\/article\/pii\/S0146638016303904<\/a>)<\/p>\n

Place, B., Quilty, A.<\/em>, Di Lorenzo, R., Ziegler, S.E<\/strong><\/b>. and T. VandenBoer<\/em> (2017) Quantitation of nine alkyl amines in atmospheric samples: Separating structural isomers by ion chromatography. Atmospheric Measurement Techniques\u00a010: 1061-1078. doi:10.5194\/amt-10-1061-2017<\/a> (online open access)<\/p>\n

Ziegler, S.E<\/strong><\/b>., Benner, R., Billings, S.A., Edwards, K., Philben, M<\/em>., Zhu, X., and J. Laganiere<\/em> (2017) Climate change can accelerate carbon fluxes without changing soil carbon stocks. Frontiers in Earth Science 5:2<\/a>\u00a0(link to open access article)<\/a><\/p>\n

Lajtha, K. et al. (2017) Brave New World. Biogeochemistry DOI 10.1007\/s10533-017-0316-y (open access\u00a0online<\/a>)<\/p>\n

Klapstein, S<\/em>., Ziegler, S.E.<\/strong><\/b>, Risk, D. and N.J. O\u2019Driscoll (2016) Quantifying the effect of photoreactive DOM on the methylmercury photodemethylation rate in a temperate freshwater ecosystem. Environmental Toxicology and Chemistry36(6): 1493-1502. https:\/\/doi.org\/10.1002\/etc.3690<\/a><\/p>\n

Budge, S. M., Aucoin, L.R., Ziegler, S.E<\/strong><\/b>. and S.P. Lall (2016) Fractionation of stable carbon isotopes of polyunsaturated fatty acids during assimilation and mobilization in Atlantic pollock (Pollachius virens). (invited paper) Ecosphere 7(8): 1-16. DOI:10.1002\/ecs2.1437<\/a><\/p>\n

Philben, M<\/em>., Ziegler, S.E<\/strong><\/b>., Edwards, K., Kahler, R. and R. Benner (2016) Rates of soil organic nitrogen cycling increase with temperature and precipitation along a boreal forest latitudinal transect. Biogeochemistry 127(2) 397-410. https:\/\/link.springer.com\/article\/10.1007\/s10533-016-0187-7<\/a><\/p>\n

Podrebarac, F., Laganiere, J<\/em>., Billings, S.A., Edwards, K. and S.E. Ziegler<\/strong><\/b> (2016) Soils isolated during incubation underestimate temperature sensitivity of respiration and its response to climate history. Soil Biology and Biochemistry\u00a093: 60-68.<\/p>\n

Mann, E. A<\/em>., Mallory, M. L., Ziegler, S. E<\/strong><\/b>., Avery, T.S., Tordon, R. and N.J. O’Driscoll (2015) Mercury loss from Arctic snow is controlled by UV irradiation, temperature, and snow age. Environmental Science and Technology\u00a049: 12120-12126.<\/p>\n

Kohl, L. Lagani\u00e8re, J.<\/em>, Edwards, K., Billings, S.A, VanBiesen, G., Morrill, P.L, and S.E. Ziegler<\/strong><\/b> (2015) Distinct fungal and bacterial ?13C signatures as potential drivers of increasing ?13<\/sup>C of soil organic matter with depth. Biogeochemistry Letters\u00a0124:13-26.<\/p>\n

Wiegner, T. N., Kaplan, L.A., Ziegler, S.E.<\/strong><\/b> and R.H. Findlay (2015) Ubiquitous consumption of terrestrial dissolved organic carbon by stream microorganisms. Aquatic Microbial Ecology\u00a075:225-237<\/p>\n

Laganiere, J., Podrebarac, F.<\/em>, Billings S.A., Edwards, K. and S.E. Ziegler<\/strong><\/b> (2015) A warmer climate reduces the bioreactivity of isolated boreal forest soil horizons without increasing the temperature sensitivity of respiratory CO2<\/sub>. Soil Biology and Biochemistry 84:177-188.<\/p>\n

Morrill, P.A., Brazelton, W., Kohl, L.<\/em>, Rietze, A., Miles, S., Kavanagh, H., Schrenk, M., Ziegler, S.E<\/strong><\/b>., and S. Lang (2014) Investigations of potential microbial methanogenic and carbon monoxide utilization pathways in ultra-basic reducing springs associated with present day continental serpentinization: The Tablelands, NL, CAN. Frontiers in Microbiology 5: 613.<\/p>\n

Mann, E. A<\/em>., Mallory, M. L., Ziegler, S.E<\/strong><\/b>., Tordon, R., & O’Driscoll, N. J. (2014). Mercury in Arctic snow: Quantifying the kinetics of photochemical oxidation and reduction. Science of the Total Environment. doi:10.1016\/j.scitotenv.2014.07.056<\/p>\n

Mann, E.A<\/em>., Ziegler, S.E<\/strong><\/b>., Mallory, M. and N.J. O\u2019Driscoll (2014) Mercury photochemistry in snow and implications for Arctic Ecosystems. Environmental Reviews 22: 1-15.<\/p>\n

Berggren, M., Ziegler, S.E.<\/strong><\/b>, St-Gelais, N.F., Beisner, B.E. and P.A. del Giorgio (2014) Contrasting patterns of allochthony among three major groups of crustacean zooplankton in boreal and temperate lakes. Ecology 95(7): 1947-1959.<\/p>\n

Li, J<\/em>., Ziegler, S.E<\/strong><\/b>., Lane, C.S. and S. Billings (2013) Legacies of native climate regime govern responses of boreal soil microbes to litter C:N and temperature. Soil Biology and Biochemistry 66: 204-213.<\/p>\n

Franke, D., Bonnell, E.J.<\/em> and S.E. Ziegler <\/strong><\/b>(2013) Dissolved organic matter mineralization by heterotrophic stream biofilm communities in a large boreal watershed. Freshwater Biology 58(10): 2007-2026. DOI: 10.1111\/fwb.12187<\/p>\n

Ziegler, S.E<\/strong><\/b>., Lane, C.S, Li<\/em>, J., Fogel, M.L. and S.A. Billings (2013) Warming alters the microbial routing of litter versus more humified carbon in boreal forest organic soils. Soil Biology and Biochemistry 60, 23-32.<\/p>\n

DeBond, N.A<\/em>., Fogel, M.L., Morrill, P.L., Benner, R., Bowden, R. and S.E. Ziegler <\/strong><\/b>(2013) The major biochemicals in plants have variable ?D: implications forenvironmental studies. Geochimica et Cosmochimica Acta\u00a0111, 117-127. ISSN 0016-7037.<\/p>\n

Lane, C.S., Lyon, D.R.<\/em> and S.E. Ziegler <\/strong><\/b>(2012) Cycling of two contrasting carbon substrates by heterotrophic biofilms across a nutrient gradient of headwater streams. Aquatic Sciences. Doi:10.1007\/s00027-012-0269-0<\/p>\n

Li. J.<\/em>, Ziegler, S.E.<\/strong><\/b>, Lane, C.S.<\/em> and S.A. Billings (2012) Warming preferentially enhances mineralization of slower-turnover soil organic matter along a boreal forest transect. Journal of Geophysical Research 117, G02008, doi: 10.1029\/2011JG001769<\/p>\n

Billings, S.A., Ziegler, S.E., <\/strong><\/b>Benner, R., Richter, D. deB. And W.H. Schlesinger (2012) Predicting carbon cycle feedbacks to climate: integrating the right tools for the job. EOS 93, No. 19, 8 May 2012.<\/p>\n

Franke, D.<\/em>, Hamilton, M.W.<\/em>, and S.E. Ziegler<\/strong><\/b> (2012) Variation in the photochemical lability of dissolved organic matter in a large boreal watershed. Aquatic Sciences. doi 10.1007\/s00027-012-0258-3<\/p>\n

Schaeffer, S.M.<\/em>, Ziegler, S.E.<\/strong><\/b>, Belnap, J. and R. D. Evans (2011) Effects of Bromus tectorum<\/em> invasion on microbial carbon and nitrogen cycling in two adjacent undisturbed grassland communities. Biogeochemistry, doi: 10.1007\/s10533-011-9668x<\/p>\n

Jin, V. L., S. M. Schaeffer<\/em>, S. E. Ziegler<\/strong><\/b>, and R. D. Evans (2011), Soil water availability and microsite mediate fungal and bacterial phospholipid fatty acid biomarker abundances in Mojave Desert soils exposed to elevated atmospheric CO2<\/sub>, J. Geophys. Res., 116, G02001, doi:10.1029\/2010JG001564.<\/p>\n

Ziegler, S.E<\/strong>. and D.R. Lyon<\/em> (2010). Factors regulating epilithic biofilm carbon cycling and release with nutrient enrichment in headwater streams. Hydrobiologia (Special Issue on Global Change in River Ecosystems). 657(1): 71-88<\/p>\n

Ziegler, S.E.<\/strong><\/b> and S. Billings (2010) Interactive effects of elevated CO2<\/sub> and nitrogen fertilization on substrate carbon flow through forest soil microbial communities. Geophysical Research-Biogeosciences 116, G01011 doi 1029\/2010JG001434.<\/p>\n

Billings, S.A., Lichter, J., Ziegler, S.E<\/strong><\/b>., Hungate, B.A. and D. de B. Richter (2010) A call to investigate drivers of soil organic matter retention vs. mineralization in a high CO2<\/sub> world. Soil Biology and Biochemistry 42:665-668.<\/p>\n

Ziegler, S.E<\/strong><\/b>., Lyon, D.R. and S. Townsend<\/em> (2009) Carbon release and cycling within epilithic biofilms in two contrasting headwater streams. Aquatic Microbial Ecology 55: 285-300<\/p>\n

Bellinger, B.J<\/em>., Underwood, G.J.C., Ziegler, S.E<\/strong><\/b>, and M.R. Gretz (2009) The significance of diatom-derived polymers in carbon flow dynamics within estuarine biofilms determined through isotopic enrichment. Aquatic Microbial Ecology 55:169-187.<\/p>\n

Lyon, D.R.<\/em> and S.E. Ziegler<\/strong><\/b> (2009) Carbon cycling within epilithic biofilm communities across a nutrient gradient of headwater streams. Limnology and Oceanography 54(2): 439-449.<\/p>\n

Billings, S.A.<\/strong><\/b>, Ziegler, S.E<\/strong><\/b>.(2008) Altered patterns of soil carbon substrate usage and heterotrophic respiration in a pine forest with elevated CO2<\/sub> and N fertilization.Global Change Biology14:1\u201312.<\/p>\n

Lichter, J., Billings, S.A., Ziegler, S.E<\/strong><\/b>., Gaindh, D., Ryals, R., Finzi, A.C., Jackson, R.B., Stemmler, E.A., Schlesinger, W.H.(2008) Soil carbon sequestration in a pine forest after nine years of atmospheric CO2<\/sub> enrichment.Global Change Biology 14:2910-2922.[This paper was selected as a research highlight by Nature Reports Climate Change <\/em>3:2.]<\/p>\n

Billings, S. and S.\u00a0<\/strong><\/b>Ziegler <\/strong><\/b>(2005) Linking microbial activity and soil organic matter transformations in forest soils under elevated CO2<\/sub>. Global Change Biology 11:203-212.<\/p>\n

Ziegler, S.<\/strong><\/b>, White, P. M., D. C. Wolf, and G.J. Thoma (2005) Tracking the fate and recycling of a 13<\/sup>C-labeled glucose in soil. Soil Science 170: 767-778.<\/p>\n

Ziegler S.<\/strong><\/b>, Kaiser E. and R. Benner (2004) Seasonal and diel dynamics of dissolved organic nitrogen and phosphorus in a subtropic seagrass- dominated lagoon. Bulletin of Marine Science 75(3): 391-407.<\/p>\n

Brisco, S<\/em>. and S.\u00a0<\/strong><\/b>Ziegler <\/strong><\/b>(2004) Effects of solar radiation on the utilization of dissolved organic matter in Ozark headwater streams. Aquatic Microbial Ecology 37: 197-208.<\/p>\n

Ziegler S.<\/strong><\/b> and S. Brisco<\/em> (2004) Relationships between the isotopic composition of dissolved organic carbon and its bioavailability in contrasting Ozark streams. Hydrobiologia 513: 153-169.<\/p>\n

Ziegler S.<\/strong><\/b> and M. L. Fogel (2003) Seasonal and diel relationships between the isotopic compositions of dissolved and particulate organic matter in a freshwater ecosystem. Biogeochemistry 64:25-52.<\/p>\n

Ziegler S.<\/strong><\/b> and R. Benner (2000) Effects of solar radiation on microbial production and dissolved organic matter cycling in a shallow, subtropical lagoon. Limnology and Oceanography 45: 257-266.<\/p>\n

Benner R. and S. Ziegler<\/strong><\/b> (2000) Do photochemical transformations of dissolved organic matter produce biorefractory as well as bioreactive substrates? In<\/em> Current Perspectives in Microbial Ecology, C. R. Bell, M. H. Brylinsky, and P. Johnson-Green (eds). Springer-Verlag.<\/p>\n

Ziegler S.<\/strong><\/b> and R. Benner (1999) Dissolved organic carbon cycling in a subtropical seagrass-dominated lagoon. Marine Ecology Progress Series 180:149-160.<\/p>\n

Ziegler S. <\/strong><\/b>and R. Benner (1999) Nutrient cycling in the water column of a subtropical seagrass meadow Marine Ecology Progress Series 188: 51-62.<\/p>\n

Ziegler S.<\/strong><\/b> and R. Benner (1998) Ecosystem metabolism in a subtropical seagrass dominated lagoon. Marine Ecology Progress Series 173: 1-12.<\/p>\n

Strom S., Benner R., Ziegler S.<\/strong><\/b> and M. Dagg (1997) Planktonic grazers are a potentially important source of marine dissolved organic carbon. Limnology and Oceanography 42: 1364-1374.<\/p>\n\n\n

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\u00a0<\/p>\n","protected":false},"excerpt":{"rendered":"

(Names in italics indicate those working under Sue’s supervision or co-supervision.) Barry, E.A., Ziegler, S.E., Angnatok, J., Harrison, E.J. and U. Passow (2026) The IceShark, an effective method for sampling plankton under sea ice. Limnology and Oceanography Methods e70029 https:\/\/doi.org\/10.1002\/lom3.70029 Patrick, M.E., Myers-Pigg, A., Gates, Z.X., Gaviria, C., Morry, A.K,… Read more“Publications”<\/span><\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":4,"comment_status":"closed","ping_status":"closed","template":"templates\/page-full-width.php","meta":{"footnotes":""},"_links":{"self":[{"href":"https:\/\/www.esd.mun.ca\/wordpress\/sziegler\/index.php?rest_route=\/wp\/v2\/pages\/79"}],"collection":[{"href":"https:\/\/www.esd.mun.ca\/wordpress\/sziegler\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.esd.mun.ca\/wordpress\/sziegler\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.esd.mun.ca\/wordpress\/sziegler\/index.php?rest_route=\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.esd.mun.ca\/wordpress\/sziegler\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=79"}],"version-history":[{"count":53,"href":"https:\/\/www.esd.mun.ca\/wordpress\/sziegler\/index.php?rest_route=\/wp\/v2\/pages\/79\/revisions"}],"predecessor-version":[{"id":2717,"href":"https:\/\/www.esd.mun.ca\/wordpress\/sziegler\/index.php?rest_route=\/wp\/v2\/pages\/79\/revisions\/2717"}],"wp:attachment":[{"href":"https:\/\/www.esd.mun.ca\/wordpress\/sziegler\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=79"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}