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    • Livre
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    Writing science : how to write papers that get cited and proposals that get funded

    Schimel, Joshua
    Oxford ; New York : Oxford University Press
    [2012]
    Recherche de la disponibilité
    Prêt entre bibliothèques Plus…
    Titre: Writing science : how to write papers that get cited and proposals that get funded / Joshua Schimel
    Auteur: Schimel, Joshua
    Editeur: Oxford ; New York : Oxford University Press
    Date: [2012]
    Collation: xiv, 221 p. : ill. ; 25 cm.
    Sujet RERO: Thèses et écrits académiques - Rapports techniques - Manuels d'enseignement - Rédaction - publication scientifique - rédaction
    Sujet RERO - forme: [Manuels d'enseignement]
    Sujet LCSH: Proposal writing for grants - Technical writing
    Note: Includes bibliographical references and index.
    Identifiant: 0199760233 (alk. paper) (ISBN); 0199760241 (pbk. : alk. paper) (ISBN); 9780199760237 (alk. paper) (ISBN); 9780199760244 (pbk. : alk. paper) (ISBN)
    No RERO: R007039104
    Permalien:
    http://data.rero.ch/01-R007039104/html

    • Plusieurs versions

    Analysis of Run-to-Run Variation of Bar-Coded Pyrosequencing for Evaluating Bacterial Community Shifts and Individual Taxa Dynamics

    Ge, Yuan, Schimel, Joshua P, Holden, Patricia A
    PLoS ONE, 2014, Vol.9(6) [Revue évaluée par les pairs]

    • Plusieurs versions

    Playing scales in the methane cycle: from microbial ecology to the globe

    Schimel, Joshua
    Proceedings of the National Academy of Sciences of the United States of America, 24 August 2004, Vol.101(34), pp.12400-1 [Revue évaluée par les pairs]

    • Plusieurs versions

    Soybean susceptibility to manufactured nanomaterials with evidence for food quality and soil fertility interruption

    Priester, John H, Ge, Yuan, Mielke, Randall E, Horst, Allison M, Moritz, Shelly Cole, Espinosa, Katherine, Gelb, Jeff, Walker, Sharon L, Nisbet, Roger M, An, Youn-Joo, Schimel, Joshua P, Palmer, Reid G, Hernandez-Viezcas, Jose A, Zhao, Lijuan, Gardea-Torresdey, Jorge L, Holden, Patricia A
    Proceedings of the National Academy of Sciences of the United States of America, 11 September 2012, Vol.109(37), pp.E2451-6 [Revue évaluée par les pairs]

    • Plusieurs versions

    Seasonal and episodic moisture controls on plant and microbial contributions to soil respiration

    Carbone, Mariah, Still, Christopher, Ambrose, Anthony, Dawson, Todd, Williams, A., Boot, Claudia, Schaeffer, Sean, Schimel, Joshua
    Oecologia, 2011, Vol.167(1), pp.265-278 [Revue évaluée par les pairs]

    • Article
    Sélectionner

    Understanding and eliminating iron interference in colorimetric nitrate and nitrite analysis

    Colman, Benjamin P, Schimel, Joshua P
    Environmental monitoring and assessment, June 2010, Vol.165(1-4), pp.633-41 [Revue évaluée par les pairs]
    MEDLINE/PubMed (U.S. National Library of Medicine)
    Disponible
    Plus…
    Titre: Understanding and eliminating iron interference in colorimetric nitrate and nitrite analysis
    Auteur: Colman, Benjamin P; Schimel, Joshua P
    Sujet: Colorimetry ; Iron -- Chemistry ; Nitrates -- Analysis ; Nitrites -- Analysis
    Description: Across many environments, nitrate (NO_3(-)) is an important form of N available for microorganisms and photosynthetic organisms. Accurate NO_3(-) measurements are important for examining N cycling and retention in terrestrial and aquatic ecosystems, but a common method of NO_3(-)) analysis can underestimate NO_3(-)) concentrations when soluble iron is present (iron > 10 mg L(-1)). The basic method is robust, using copperized cadmium to reduce NO_3(-)) and then diazotizing the resulting NO_2(-)) in a two-step process to form an easily measured colored product. We show that iron interference is unique to using an NH(4)Cl and ethylenediaminetetraacetic acid (EDTA) buffer. We hypothesize that interference is through iron-catalyzed reduction of the intermediate color product, a diazonium ion. We examine three historical buffers as alternatives to NH(4)Cl/EDTA and recommend replacement of EDTA with diethylenetriaminepentaacetic acid, which chelates metals much like EDTA, but unlike EDTA, it does...
    Fait partie de: Environmental monitoring and assessment, June 2010, Vol.165(1-4), pp.633-41
    Identifiant: 1573-2959 (E-ISSN); 19496004 Version (PMID); 10.1007/s10661-009-0974-x (DOI)

    • Article
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    Erratum to: Understanding and eliminating iron interference in colorimetric nitrate and nitrite analysis

    Colman, Benjamin, Schimel, Joshua
    Environmental Monitoring and Assessment, 2010, Vol.165(1), pp.693-693 [Revue évaluée par les pairs]
    Springer Science & Business Media B.V.
    Disponible
    Plus…
    Titre: Erratum to: Understanding and eliminating iron interference in colorimetric nitrate and nitrite analysis
    Auteur: Colman, Benjamin; Schimel, Joshua
    Sujet: Catalysis–Chemistry ; Colorimetry–Chemistry ; Edetic Acid–Analysis ; Iron–Analysis ; Nitrates–Analysis ; Nitrites–Analysis ; Oxidation-Reduction–Analysis ; Reproducibility of Results–Analysis ; Nitrates ; Nitrites ; Edetic Acid ; Iron;
    Description: Across many environments, nitrate (NO_3(-)) is an important form of N available for microorganisms and photosynthetic organisms. Accurate NO_3(-) measurements are important for examining N cycling and retention in terrestrial and aquatic ecosystems, but a common method of NO_3(-)) analysis can underestimate...
    Fait partie de: Environmental Monitoring and Assessment, 2010, Vol.165(1), pp.693-693
    Identifiant: 0167-6369 (ISSN); 1573-2959 (E-ISSN); 10.1007/s10661-010-1440-5 (DOI)

    • Plusieurs versions

    Evaluating soil microbial carbon use efficiency explicitly as a function of cellular processes: implications for measurements and models

    Hagerty, Shannon, Allison, Steven, Schimel, Joshua
    Biogeochemistry, 2018, Vol.140(3), pp.269-283 [Revue évaluée par les pairs]

    • Plusieurs versions

    Microbial control over carbon cycling in soil

    Schimel, Joshua P, Schaeffer, Sean M
    Frontiers in microbiology, 2012, Vol.3, pp.348 [Revue évaluée par les pairs]

    • Article
    Sélectionner

    Identification of soil bacteria susceptible to TiO2 and ZnO nanoparticles

    Ge, Yuan, Schimel, Joshua P, Holden, Patricia A
    Applied and environmental microbiology, September 2012, Vol.78(18), pp.6749-58 [Revue évaluée par les pairs]
    MEDLINE/PubMed (U.S. National Library of Medicine)
    Disponible
    Plus…
    Titre: Identification of soil bacteria susceptible to TiO2 and ZnO nanoparticles
    Auteur: Ge, Yuan; Schimel, Joshua P; Holden, Patricia A
    Sujet: Nanoparticles ; Soil Microbiology ; Anti-Bacterial Agents -- Pharmacology ; Bacteria -- Classification ; Titanium -- Pharmacology ; Zinc Oxide -- Pharmacology
    Description: Because soil is expected to be a major sink for engineered nanoparticles (ENPs) released to the environment, the effects of ENPs on soil processes and the organisms that carry them out should be understood. DNA-based fingerprinting analyses have shown that ENPs alter soil bacterial communities, but specific taxon changes remain unknown. We used bar-coded pyrosequencing to explore the responses of diverse bacterial taxa to two widely used ENPs, nano-TiO(2) and nano-ZnO, at various doses (0, 0.5, 1.0, and 2.0 mg g(-1) soil for TiO(2); 0.05, 0.1, and 0.5 mg g(-1) soil for ZnO) in incubated soil microcosms. These ENPs significantly altered the bacterial communities in a dose-dependent manner, with some taxa increasing as a proportion of the community, but more taxa decreasing, indicating that effects mostly reduced diversity. Some of the declining taxa are known to be associated with nitrogen fixation (Rhizobiales, Bradyrhizobiaceae, and Bradyrhizobium) and methane oxidation (Methylobacteriaceae),...
    Fait partie de: Applied and environmental microbiology, September 2012, Vol.78(18), pp.6749-58
    Identifiant: 1098-5336 (E-ISSN); 22798374 Version (PMID); 10.1128/AEM.00941-12 (DOI)