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Communications in Soil Science and Plant Analysis Volume 33, 2002 - Issue 5-6
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Original Articles

Feasibility study of long-term continuous field measurement of soil redox potential

G. Eshel Department of Soil and Water Sciences, Hebrew University, P.O. Box 12, Rehovot, 76100, Israel
&
A. Banin Department of Soil and Water Sciences, Hebrew University, P.O. Box 12, Rehovot, 76100, IsraelCorrespondence[email protected]
Pages 695-709 | Published online: 05 Feb 2007

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Jérémy Cottes, Alix Saquet, Ludovic Palayret, Olivier Husson, Robin Beghin, Deonie Allen, Javier Scheiner, Cédric Cabanes & Maritxu Guiresse. (2020) Effects of soil redox potential (Eh) and pH on growth of sunflower and wheat. Archives of Agronomy and Soil Science 66:4, pages 473-487.
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Irene M. Unger, Rose‐Marie Muzika, Peter P. Motavalli & John Kabrick. (2008) Evaluation of Continuous In Situ Monitoring of Soil Changes with Varying Flooding Regimes. Communications in Soil Science and Plant Analysis 39:11-12, pages 1600-1619.
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Henning Matthiesen, David Gregory, Poul Jensen & Birgit Sørensen. (2004) Environmental Monitoring at Nydam, a Waterlogged Site with Weapon Sacrifices from the Danish Iron Age. I: A Comparison of Methods Used and Results from Undisturbed Conditions. Journal of Wetland Archaeology 4:1, pages 55-74.
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Articles from other publishers (19)

David Yalin & Moshe Shenker. (2022) Potentiometric redox measurements in the environment: a novel perspective on method powers and limitations. Biogeochemistry 158:3, pages 327-343.
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Tom Sale, Sam Gallo, Kayvan Karimi Askarani, Maria Irianni-Renno, Mark Lyverse, Harley Hopkins, Jens Blotevogel & Scott Burge. (2021) Real-time soil and groundwater monitoring via spatial and temporal resolution of biogeochemical potentials. Journal of Hazardous Materials 408, pages 124403.
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Joshua Brooks, Noam Weisbrod & Edo Bar-Zeev. (2020) Revisiting Soil Aquifer Treatment: Improving Biodegradation and Filtration Efficiency Using a Highly Porous Material. Water 12:12, pages 3593.
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René Reiser, Viktor Stadelmann, Peter Weisskopf, Lina Grahm & Thomas Keller. (2020) System for quasi‐continuous simultaneous measurement of oxygen diffusion rate and redox potential in soil. Journal of Plant Nutrition and Soil Science 183:3, pages 316-326.
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Chayan Lahiri & Gregg R. Davidson. (2020) Heterogeneous oxygenation of wetland soils with increasing inundation: Redox potential, water depth, and preferential flow paths. Hydrological Processes 34:6, pages 1350-1358.
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Vicente Ferreira, Ernesto Franco-Luesma, Eduardo Vela, Ricardo López & Purificación Hernández-Orte. (2017) Elusive Chemistry of Hydrogen Sulfide and Mercaptans in Wine. Journal of Agricultural and Food Chemistry 66:10, pages 2237-2246.
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Ilan Ben-Noah & Shmulik P. Friedman. (2018) Review and Evaluation of Root Respiration and of Natural and Agricultural Processes of Soil Aeration. Vadose Zone Journal 17:1, pages 1-47.
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Gil Eshel & Michael J. Singer. (2016) Inorganic carbon transformations between phases and its impact on its isotopic signature under open conditions. Geoderma 273, pages 20-24.
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Gil Eshel, Chunye Lin & Amos Banin. (2015) Novel approach for quantitatively estimating element retention and material balances in soil profiles of recharge basins used for wastewater reclamation. Science of The Total Environment 502, pages 517-525.
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Won-Seok KimJeffrey A. Cunningham. (2014) Biodegradation of Bisphenol-A and 17β-Estradiol Under Alternating Aerobic/Anoxic Conditions. Environmental Engineering Science 31:5, pages 232-242.
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C. Shoemaker, R. Kröger, B. Reese & S. C. Pierce. (2013) Continuous, short-interval redox data loggers: verification and setup considerations. Environmental Science: Processes & Impacts 15:9, pages 1685.
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J. Fernández-Gálvez, A. Gálvez, A. Peña & M.D. Mingorance. (2012) Soil hydrophysical properties resulting from the interaction between organic amendments and water quality in soils from Southeastern Spain—A laboratory experiment. Agricultural Water Management 104, pages 104-112.
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R. Sade, M.I. Litaor & M. Shenker. (2010) Evaluation of groundwater and phosphorus transport in fractured altered wetland soils. Journal of Hydrology 393:1-2, pages 133-142.
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Wei Zhang, Joshua W. Faulkner, Shree K. Giri, Larry D. Geohring & Tammo S. Steenhuis. (2010) Effect of Soil Reduction on Phosphorus Sorption of an Organic‐Rich Silt Loam. Soil Science Society of America Journal 74:1, pages 240-249.
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Cassondra R. Thomas, ShiLi Miao & Erik Sindhoj. (2009) Environmental factors affecting temporal and spatial patterns of soil redox potential in Florida Everglades wetlands. Wetlands 29:4, pages 1133-1145.
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M. C. Rabenhorst, W. D. Hively & B. R. James. (2009) Measurements of Soil Redox Potential. Soil Science Society of America Journal 73:2, pages 668-674.
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S. Brand-Klibanski, M. I. Litaor & M. Shenker. (2007) Overestimation of Phosphorus Adsorption Capacity in Reduced Soils: An Artifact of Typical Batch Adsorption Experiments. Soil Science Society of America Journal 71:4, pages 1128-1136.
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M. Shenker, S. Seitelbach, S. Brand, A. Haim & M. I. Litaor. (2005) Redox reactions and phosphorus release in re-flooded soils of an altered wetland. European Journal of Soil Science 56:4, pages 515-525.
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Michel Vorenhout, Harm G. van der Geest, Daan van Marum, Kees Wattel & Herman J. P. Eijsackers. (2004) Automated and Continuous Redox Potential Measurements in Soil. Journal of Environmental Quality 33:4, pages 1562-1567.
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