{"id":35,"date":"2015-08-03T15:11:34","date_gmt":"2015-08-03T19:11:34","guid":{"rendered":"http:\/\/biology.cos.ucf.edu\/abl\/?page_id=35"},"modified":"2025-08-28T09:14:21","modified_gmt":"2025-08-28T13:14:21","slug":"publications","status":"publish","type":"page","link":"https:\/\/sciences.ucf.edu\/biology\/abl\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Click on publication to download.<\/strong> ** Please Note: by downloading these publications, you agree to use them for educational purposes only **<\/strong><\/p>\n

2025<\/strong><\/p>\n

Volk, J., McIntosh, C., Langley, J.A., Chapman, S.K. and L.G. Chambers (2025) Soil and Plant Physicochemical Properties Associated with Coastal Marsh Degradation. Estuaries and Coasts 48:161 https:\/\/doi.org\/10.1007\/s12237-025-01583-4<\/a><\/p>\n

Mirabito, A.J., Anandappa, J.A., Hurst, N.R., Berkowitz, J.F. and L.G. Chambers (2025) Can fine sediment addition promote carbon stabilization in coastal wetland soils? A laboratory experiment. Soil Sci Soc. Am. J. https:\/\/doi.org\/10.1002\/saj2.70044<\/a><\/p>\n

2024<\/strong><\/p>\n

Chambers, L.G., Mirabito, A.J., Brew, S., Nitsch, C.K., Bhabha, J.H., Hurst, N.R. and J.F. Berkowitz (2024) Evaluating permanganate oxidizable carbon (POXC)\u2019s potential for differentiating carbon pools in wetland soils. Ecological Indicators 167; https:\/\/doi.org\/10.1016\/j.ecolind.2024.112624<\/a><\/p>\n

Steinmuller, H.E., Breithaupt, J.L., Rovai, A.S., Englebert, K.M., Smoak, J.M., Chambers, L.G., Radabaugh, K.R., Moyer, R.P., Chappel, A., Vaughn, D.R., Bianchi, T.S., Twilley, R.R., Pargliosa, P.R., Cifuentes-Jara, M., and D. Torres (2024) Using loss-on-ignition to estimate total nitrogen content of mangrove soils. Geoderma 448: 116956; https:\/\/doi.org\/10.1016\/j.geoderma.2024.116956<\/a><\/p>\n

Boudreau, P., Sees, M., Mirabito, A., and Chambers, L.G. (2024) Utilizing water level draw-down to remove excess organic matter in a constructed treatment wetland. Science of the Total Environment, 918: 170508; 10.1016\/j.scitotenv.2024.170508<\/a><\/p>\n

2023<\/strong><\/p>\n

Radabaugh, K.R., Moyer, R.P., Chappel, A.R., Breithaupt, J.L., Lagomasino, D., Dontis, E.E., Russo, C.E., Rosenheim, B.E., Chambers, L.G., Peneva-Reed, E.I., and J.M. Smoak (2023) A spatial model comparing above- and belowground blue carbon stocks in Southwest Florida mangroves and salt marshes. Estuaries & Coasts, DOI: 10.1007\/s12237-023-01217-7<\/a><\/p>\n

Breithaupt, J.L., Steinmuller, H.E., Rovai, A.S., Engelbert, K.M., Smoak, J.M., Chambers, L.G., Radabaugh, K.R., Moyer, R.P., Chappel, A., Vaughn, D.R., Bianchi, T.S., Twilley, R.R., Pagliosa, P., Cifuentes-Jara, M., and D. Torres (accepted<\/em>) An improved framework for estimating organic carbon content of mangrove soils using loss-on-ignition and coastal environmental setting. Wetlands<\/a><\/p>\n

Bennett, J.S. and L.G. Chambers (2023) Wetland soil carbon storage exceeds uplands in an urban natural area (Florida, USA). Soil Research Journal. DOI: 10.1071\/SR22235<\/a><\/p>\n

Mirabito, A.J. and L.G. Chambers (2023) Quantifying mineral-associated organic matter in wetlands as an indicator of the degree of soil carbon protection. Geoderma 430:116327. DOI: 10.1016\/j.geoderma.2023.116327<\/a><\/p>\n

2022<\/strong><\/p>\n

Cannon, D.J., Kibler, K.M., Walters, L.J. and L.G. Chambers (2022) Hydrodynamic and biogeochemical evolution of a restored intertidal oyster (Crassostrea virginica) reef. Science of the Total Environment. DOI: 10.1016\/j.scitotenv.2022.154879<\/a><\/p>\n

Hurst, N.R., Locher, B., Steinmuller, H.E., Walters, L.J. and L.G. Chambers (2022) Organic Carbon Dynamics and Microbial Community Response to Oyster Reef Restoration. Limnology and Oceanography, 67, 1157-1168. DOI: 10.1002\/lno.12063<\/a><\/p>\n

2021<\/strong><\/p>\n

Harttung, S.A., Radabaugh, K.R., Moyer, R.P., Smoak, J.M., and L.G. Chambers (2021) Coastal Riverine Wetland Biogeochemistry Follows Soil Organic Matter Distribution along a Marsh-to-Mangrove Gradient (Florida, USA).\u00a0 Science of the Total Environment, 797, 149056. DOI: 10.1016\/j.scitotenv.2021.149056<\/a><\/p>\n

Nitsch, C.K., Walters, L.J., Sacks, J.S., Sacks, P.E., Chambers, L.G. (2021) Biodegradable Material for Oyster Reef Restoration: First-Year Performance and Biogeochemical Considerations in a Coastal Lagoon. Sustainability, 13, 7415. DIO: 10.3390\/su13137415<\/a><\/p>\n

Breithaupt, J.L., Smoak, J.M., Bianchi, T.S., Vaughn, D., Sanders, C.J., Radabaugh, K.R., Osland, M.J., Feher, L.C., Lynch, J., Cahoon, D.R., Anderson, G.H., Whelan, K.R.T., Rosenheim, B., Moyer, R.P. and L.G. Chambers (2021) Reply to Comment by R. Parkinson on \u201cIncreasing Rates of Carbon Burial in Southwest Florida Coastal Wetlands\u201d by J. Breithaupt et al. Journal of Geophysical Research: Biogeosciences, 126, e2021JG006245. DOI: 10.1029\/2021JG006245<\/a><\/p>\n

Locher, B., Hurst, N.R., Walters, L.J. and L.G. Chambers (2021) Juvenile oyster (Crassostrea virginica<\/em>) biodeposits contribute to a rapid rise in sediment nutrients on restored intertidal oyster reefs (Mosquito Lagoon, FL, USA). Estuaries and Coasts. DOI: 10.1007\/s12237-020-00874-2<\/a><\/p>\n

2020<\/strong><\/p>\n

Steinmuller, H.E., Foster, T.E., Boudreau, P., Hinkle, C.R. and L.G. Chambers (2020) Characterization of herbaceous encroachment on soil biogeochemical cycling within a coastal marsh.\u00a0 Science of the Total Environment. https:\/\/doi.org\/10.1016\/j.scitotenv.2020.139532<\/a><\/p>\n

Breithaupt, J.L., Smoak, J.M., Bianchi, T.S., Vaughn, D., Sanders, C.J., Radabaugh, K.R., Osland, M.J., Feher, L.C., Lynch, J., Cahoon, D.R., Anderson, G.H., Whelan, K.R.T., Rosenheim, B., Moyer, R.P. and L.G. Chambers (2020) Increasing rates of carbon burial in southwest Florida coastal wetlands. Journal of Geophysical Research: Biogeosciences 125, e2019JG005349. https:\/\/doi.org\/10.1029\/2019JG005349.<\/a><\/p>\n

Ho, J. and L.G. Chambers (2020) Willow-shrub encroachment affects physiochemical properties differently in two subtropical freshwater marshes. Wetlands Ecology & Management. https:\/\/doi.org\/10.1007\/s11273-019-09705-z.<\/a><\/p>\n

Steinmuller, H.E., Hayes, M.P., Hurt, N.R. Sapkota, Y., Cook, R.L., White, J.R., Xue, Z. and L.G. Chambers (2020) Does edge erosion alter coastal wetland soil properties? A multimethod biogeochemical study.\u00a0 CATENA 187: 104373.\u00a0 DOI: \u00a0https:\/\/doi.org\/10.1016\/j.catena.2019.104373.<\/a><\/p>\n

2019<\/strong><\/p>\n

Breithaupt, J.L., Duga, E., Witt, M., Filyaw, R., Friedland, N., Donnelly, M.J., Walters, L.J. and L.G. Chambers (2019) Carbon and nutrient fluxes from seagrass and mangrove wrack are mediated by soil interactions.\u00a0 Estuarine, Coastal, and Shelf Science 229: 106409. DOI: https:\/\/doi.org\/10.1016\/j.ecss.2019.106409.<\/a><\/p>\n

Breithaupt, J.L., Hurst, N., Steinmuller, H.E., Duga, E., Smoak, J.M., Kominoski, J.S. and L.G. Chambers (2019) Biogeochemical impacts of storm surge sediments in coastal wetlands: Hurricane Irma and the Florida Everglades.\u00a0 Estuaries and Coasts. DOI: 10.1007\/s12237-019-00607-0.<\/a><\/p>\n

Steinmuller, H.E., Foster, T.E., Boudreau, P., Hinkle, C.R. and L.G. Chambers (2019) Tipping points in the mangrove march: characterization of biogeochemical cycling along the mangrove-salt marsh ecotone.\u00a0 Ecosystems. https:\/\/doi.org\/10.1007\/s10021-019-00411-8.<\/a><\/p>\n

Steinmuller, H.E. and L.G. Chambers (2019) Characterization of coastal wetland soil organic matter: implications for wetland submergence.\u00a0 Science of the Total Environment, \u00a0677: 648-659. https:\/\/doi.org\/10.1016\/j.scitotenv.2019.04.405.<\/a><\/p>\n

Chambers, L.G. Steinmuler, H.E., Breithaupt, J. (2019) Toward a mechanistic understanding of \u201cpeat collapse\u201d and its potential contribution to coastal wetland loss.\u00a0 Ecology. DOI: 10.1002\/ecy.2720.<\/a><\/p>\n

Steinmuller, H.E., Dittmer, K., White, J.R., and L.G. Chambers (2019) Understanding the fate of soil organic matter in submerging coastal wetland soils: a microcosm approach. Geoderma, 337: 1267-1277 https:\/\/doi.org\/10.1016\/j.geoderma.2018.08.020.<\/a><\/p>\n

2018<\/strong><\/p>\n

Ho, J. and L.G. Chambers (2018) Altered soil microbial community composition and function in two shrub-encroached marshes with different physicochemical gradients. Soil Biology and Biochemistry, 130: 122-131. https:\/\/doi.org\/10.1016\/j.soilbio.2018.12.004.<\/a><\/p>\n

Kibler, K.M., Cook, G., Chambers, L.G., Donnelly, M., Hawthorne, T., Rivera, F., and L.J. Walters (2018) Integrating sense of place into ecosystem restoration: a novel approach to achieve synergistic social-ecological impact. Ecology and Society 23 (4): 25.<\/a><\/p>\n

Martin, K.M., Hasenmueller, E.A., White, J.R., Chambers, L.G. and J.L. Conkle (2018) Sampling, sorting and characterizing microplastics in aquatic environments with high suspended sediment loads and large floating debris. J. Visualized Experiments. http:\/\/www.jove.com\/video\/57969.<\/a><\/p>\n

Steinmuller, H.E. and L.G. Chambers (2018) Can saltwater intrusion accelerate nutrient export from freshwater wetland soils? Soil Science Society of America Journal,\u00a082 (1): 283-292. DOI: 10.2136\/sssaj2017.05.0162.<\/a><\/p>\n

Ho, J., Boughton, E.H., Jenkins, D.G., Sonnier, G., Bohlen, P.J. and L.G. Chambers (2018) Ranching practices interactively affect soil nutrients in subtropical wetlands.\u00a0 Agriculture, Ecosystems, and Environment, 254: 130-137.<\/a><\/p>\n

Chambers, L.G., Gaspar, S.A., Pilato, C., Steinmuller, H.E., McCarthy, K.J., Sacks, P.E., and L.J. Walters (2018) How well do restored intertidal oyster reefs support key biogeochemical functions in a coastal lagoon? Estuaries and Coasts,\u00a041(3): 748-799. DOI 10.1007\/s12237-017-0311-5.<\/a><\/p>\n

2017<\/strong><\/p>\n

Robinson, H., Hasenmueller, E.A., and L.G. Chambers (2017) Soils as a reservoir for road salt storage and gradual release to groundwater.\u00a0 Applied Geochemistry, 83: 78-85.<\/a><\/p>\n

Wang, C., Tong, C. Chambers, L.G. and X. Liu (2017) Identifying the salinity thresholds that impact greenhouse gas production in subtropical tidal freshwater marsh soils. Wetlands, DOI: 10.1007\/s13157-017-0890-8.<\/a><\/p>\n

Pearce, A.R., Chambers, L.G., and E.A. Hasenmueller (2017) Characterizing nutrient distributions and fluxes in a eutrophic reservoir, Midwestern United States.\u00a0 Sci. Total Enviro. 581-582: 589-600.\u00a0 http:\/\/dx.doi.org\/10.1016\/j.scitotenv.2016.12.168.<\/a><\/p>\n

2016<\/strong><\/p>\n

Chambers, L.G., Guevara, R., Boyer, J.N., Troxler, T.G., and S.E. Davis (2016) Effects of salinity and inundation on microbial community structure and function in a mangrove peat soil. Wetlands DOI: 10.1007\/s13157-016-0745-8.<\/a><\/p>\n

Chambers, L.G., Chin, Y.-P., Filippelli, G.M., Gardner, C.B., Herndon, E.M., Long, D.T., Lyons, B.W., Macpherson, G.L., McElmurry, S.P., McLean, C.E., Moore, J. Moyer, R.P., Neumann, K., Nezat, C.A., Soderberg, K. Teutsch, N. and E. Widom (2016) Developing the scientific framework for urban geochemistry. Applied Geochemistry DOI: 10.1016\/j.apgeochem.2016.01.005.<\/a><\/p>\n

Marks, B.W., Chambers, L.G., and J.R. White (2016) Salinity impacts on nitrogen cycling in estuarine soils and sediments. Soil Science Society of America Journal DOI:10.2136\/sssaj2015.07.0265.<\/a><\/p>\n

2008-2015<\/strong><\/p>\n

Chambers, L.G., Davis, S.E., and T.G. Troxler (2015) Sea level rise in the Everglades: plant-soil-microbial feedbacks in response to changing physical conditions. In: J.A. Entry, A.D. Gottlieb, K. Jayachandrahan and A. Ogram (eds.) Microbiology of the Everglades Ecosystem. CRC Press, Boca Raton, FL.<\/a><\/p>\n

Chambers, L.G., Davis, S.E., Troxler, T., Boyer, J. Downey-Wall, A. and L. Scinto. (2014) Biogeochemical effects of saltwater intrusion and increased inundation on Everglades peat soil. Hydrobiologia 726:195-211.<\/a><\/p>\n

Chambers, L.G., Osborne, T.Z., and K.R. Reddy (2013) Effect of salinity pulsing events on soil organic carbon loss along an intertidal wetland gradient: A laboratory experiment. Biogeochemistry 115: 363-383.<\/a><\/p>\n

Linhoss, A.C., Chambers, L.G., Wozniak, K., and T. Ankersen (2013) A multi-disciplinary review of current sea level rise research in Florida, USA. EDIS SG125. http:\/\/edis.ifas.ufl.edu\/sg125.<\/a><\/p>\n

Chambers, L.G., Reddy, K.R., and T.Z. Osborne (2011) Short-term response of carbon cycling to seawater pulses in a freshwater wetland. Soil Science Society of America Journal 75:2000-2007.<\/a><\/p>\n

Gardner, L.M.* and J.R. White (2010) Denitrification enzyme activity as an indicator of nitrate movement through a diversion wetland. Soil Sci. Society of Am. J. 74:1037-1047.<\/a><\/p>\n

White, J.R., Gardner, L.M.*, Sees, M., and R. Corstanje (2008) The short-term effects of prescribed burning on biomass removal and the release of nitrogen and phosphorus in a treatment wetland. Journal of Environmental Quality 37:2386-2391.<\/a><\/p>\n

*Note maiden name: L.M. Gardner<\/em><\/p>\n","protected":false},"excerpt":{"rendered":"

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Chambers (2025) Soil and Plant Physicochemical Properties … Continue reading →<\/span><\/a><\/p>\n","protected":false},"author":3,"featured_media":0,"parent":0,"menu_order":5,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-35","page","type-page","status-publish","hentry"],"yoast_head":"\nPublications - Aquatic Biogeochemistry Lab<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/sciences.ucf.edu\/biology\/abl\/publications\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Publications - Aquatic Biogeochemistry Lab\" \/>\n<meta property=\"og:description\" content=\"Click on publication to download. ** Please Note: by downloading these publications, you agree to use them for educational purposes only ** 2025 Volk, J., McIntosh, C., Langley, J.A., Chapman, S.K. and L.G. 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