![\"Image\"](\"http:\/\/scienceblog.darrouzet-nardi.net\/wp-content\/uploads\/2019\/12\/2019-12-09-12_42_56-AGU_2019_snowmelt_project_summary.pptx-PowerPoint.png\")
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Today at AGU I’m doing a synthesis of the results of our 2010-2012 snowmelt experiment. Here’s a quick bibliography of the project papers.<\/p>\n
Belowground responses<\/b><\/a> 2012 aboveground plant responses<\/b><\/a> Senescence<\/b><\/a> Soil cores vs. lysimetry<\/b><\/a> Microplate amino acid assay<\/b><\/a>
\nDarrouzet-Nardi, A., H. Steltzer, P. F. Sullivan, A. Segal, A. M. Koltz, C. Livensperger, J. P. Schimel, and M. N. Weintraub. 2019. Limited effects of early snowmelt on plants, decomposers, and soil nutrients in Arctic tundra soils. Ecology and Evolution 9:1820-1844.<\/p>\n
\nLivensperger, C., H. Steltzer, A. Darrouzet-Nardi, P. F. Sullivan, M. Wallenstein, and M. N. Weintraub. 2016. Earlier snowmelt and warming lead to earlier but not necessarily more plant growth. AoB Plants 8.<\/p>\n
\nLivensperger, C., H. Steltzer, A. Darrouzet-Nardi, P. F. Sullivan, M. Wallenstein, and M. N. Weintraub. 2019. Experimentally warmer and drier conditions in an Arctic plant community reveal microclimatic controls on senescence. Ecosphere 10:e02677.<\/p>\n
\nDarrouzet-Nardi, A., and M. N. Weintraub. 2014. Evidence for spatially inaccessible labile N from a comparison of soil core extractions and soil pore water lysimetry. Soil Biology and Biochemistry 73:22-32.<\/p>\n
\nDarrouzet-Nardi, A., M. P. Ladd, and M. N. Weintraub. 2013. Fluorescent microplate analysis of amino acids and other primary amines in soils. Soil Biology and Biochemistry 57:78-82.<\/p>\n