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Communications in Soil Science and Plant Analysis Volume 34, 2003 - Issue 13-14
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Original Articles

Influence of Red Imported Fire Ants on Greenhouse Gas Emissions from a Piedmont Plateau Pasture

M. R. Bender Department of Environmental and Technological Studies, St. Cloud State University, St. Cloud, Minnesota, USACorrespondence[email protected]
&
C. W. Wood Department of Agronomy and Soils, Auburn University, Auburn, Alabama, USA
Pages 1873-1889 | Published online: 05 Feb 2007

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C. B. Hedley, S. Saggar & K. R. Tate. (2006) Procedure for Fast Simultaneous Analysis of the Greenhouse Gases: Methane, Carbon Dioxide, and Nitrous Oxide in Air Samples. Communications in Soil Science and Plant Analysis 37:11-12, pages 1501-1510.
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Articles from other publishers (22)

Luana Caiafa, Nathan Oliveira Barros & Juliane Floriano Santos Lopes. (2023) Greenhouse gas emissions from ant nests: A systematic review. Ecological Entomology 48:4, pages 397-408.
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Paride Balzani, Alberto Masoni, Stefania Venturi, Filippo Frizzi, Marina Bambi, Renato Fani, Barbara Nisi, Franco Tassi, Orlando Vaselli, Marco Zaccaroni & Giacomo Santini. (2022) CO2 biogeochemical investigation and microbial characterization of red wood ant mounds in a Southern Europe montane forest. Soil Biology and Biochemistry 166, pages 108536.
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Shaojun Wang, Qianbin Cao, Qianqian Zuo, Ping Wang, Bo Yang, Shuang Zhao, Minkun Chen & Run Cao. (2020) Species-specific effects of belowground-nesting ants on soil N2O emissions in a tropical forest. Soil Biology and Biochemistry 151, pages 108020.
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Sophie Petit, M. Bernard Stonor, John J. Weyland, Joan Gibbs & Bianca Amato. (2020) Camponotus ants mine sand for vertebrate urine to extract nitrogen . Austral Ecology 45:2, pages 168-176.
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M. Z. Majeed, E. Miambi, I. Barois, M. Bernoux & A. Brauman. (2017) Characterization of N2O emissions and associated microbial communities from the ant mounds in soils of a humid tropical rainforest. Folia Microbiologica 63:3, pages 381-389.
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Gabriele Berberich, Aaron Ellison, Martin Berberich, Arne Grumpe, Adrian Becker & Christian Wöhler. (2018) Can a Red Wood-Ant Nest Be Associated with Fault-Related CH4 Micro-Seepage? A Case Study from Continuous Short-Term In-Situ Sampling. Animals 8:4, pages 46.
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C. E. Konemann, B. M. Kard, M. E. Payton, S. P. Deng, J. G. Warren & T. M. Wilson. (2016) CO 2 Emissions from Soil on Oklahoma's Tallgrass Prairie Preserve in the Presence or Absence of Termites (Isoptera: Rhinotermitidae) . The American Midland Naturalist 176:1, pages 60-71.
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Matthew C. Ricker, B. Graeme Lockaby, Gavin D. Blosser & William H. Conner. (2016) Rapid wood decay and nutrient mineralization in an old-growth bottomland hardwood forest. Biogeochemistry 127:2-3, pages 323-338.
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Haitao Wu, Xianguo Lu, Shouzheng Tong & Darold P. Batzer. (2015) Soil engineering ants increase CO2 and N2O emissions by affecting mound soil physicochemical characteristics from a marsh soil: A laboratory study. Applied Soil Ecology 87, pages 19-26.
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Peggy Bierbaß, Jessica L.M. Gutknecht & Beate Michalzik. (2015) Nest-mounds of the yellow meadow ant (Lasius flavus) at the “Alter Gleisberg”, Central Germany: Hot or cold spots in nutrient cycling?. Soil Biology and Biochemistry 80, pages 209-217.
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Veronika Jílková, Tomáš Picek & Jan Frouz. (2015) Seasonal changes in methane and carbon dioxide flux in wood ant (Formica aquilonia) nests and the surrounding forest soil. Pedobiologia 58:1, pages 7-12.
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Sasitorn Hasin, Mizue Ohashi, Akinori Yamada, Yoshiaki Hashimoto, Wattanachai Tasen, Tomonori Kume & Seiki Yamane. (2014) CO 2 efflux from subterranean nests of ant communities in a seasonal tropical forest, T hailand . Ecology and Evolution 4:20, pages 3929-3939.
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S. Bradleigh Vinson. (2013) Impact of the invasion of the imported fire ant. Insect Science 20:4, pages 439-455.
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Haitao Wu, Darold P. Batzer, Xiumin Yan, Xianguo Lu & Donghui Wu. (2013) Contributions of ant mounds to soil carbon and nitrogen pools in a marsh wetland of Northeastern China. Applied Soil Ecology 70, pages 9-15.
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Haitao Wu, Xianguo Lu, Donghui Wu, Lihong Song, Xiumin Yan & Jing Liu. (2013) Ant mounds alter spatial and temporal patterns of CO2, CH4 and N2O emissions from a marsh soil. Soil Biology and Biochemistry 57, pages 884-891.
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Mizue Ohashi, Timo Domisch, Leena Finér, Martin F. Jurgensen, Liselotte Sundström, Jouni Kilpeläinen, Anita C. Risch & Pekka Niemelä. (2012) The effect of stand age on CO2 efflux from wood ant (Formica rufa group) mounds in boreal forests. Soil Biology and Biochemistry 52, pages 21-28.
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Leandro Sousa-Souto, Danielle Caroline de Jesus Santos, Bianca Giuliano Ambrogi, Mário Jorge Campos dos Santos, Marcelo Braga Bueno Guerra & Edenir Rodrigues Pereira-Filho. (2012) Increased CO2 emission and organic matter decomposition by leaf-cutting ant nests in a coastal environment. Soil Biology and Biochemistry 44:1, pages 21-25.
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E. L. H. Cammeraat & A. C. Risch. (2008) The impact of ants on mineral soil properties and processes at different spatial scales. Journal of Applied Entomology 132:4, pages 285-294.
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M. Ohashi, L. Finér, T. Domisch, A.C. Risch, M.F. Jurgensen & P. Niemelä. (2007) Seasonal and diurnal CO2 efflux from red wood ant (Formica aquilonia) mounds in boreal coniferous forests. Soil Biology and Biochemistry 39:7, pages 1504-1511.
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T. Domisch, L. Finér, M. Ohashi, A.C. Risch, L. Sundström, P. Niemelä & M.F. Jurgensen. (2006) Contribution of red wood ant mounds to forest floor CO2 efflux in boreal coniferous forests. Soil Biology and Biochemistry 38:8, pages 2425-2433.
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Mizue Ohashi, Leena Finér, Timo Domisch, Anita C. Risch & Martin F. Jurgensen. (2005) CO2 efflux from a red wood ant mound in a boreal forest. Agricultural and Forest Meteorology 130:1-2, pages 131-136.
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Anita C. Risch, Martin F. Jurgensen, Martin Schütz & Deborah S. Page-Dumroese. (2005) THE CONTRIBUTION OF RED WOOD ANTS TO SOIL C AND N POOLS AND CO 2 EMISSIONS IN SUBALPINE FORESTS . Ecology 86:2, pages 419-430.
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