Catalyzing Frontiers in Water-Climate-Society Research: A View from Early Career Scientists and Junior Faculty

While we have always experienced variability in the availability of water across a variety of time scales, anthropogenic climate change will likely bring substantial additional effects on water cycles and water resource management, such as changes in timing, amount, and patterns of precipitation; de...

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Veröffentlicht in:	Bulletin of the American Meteorological Society 2012-04, Vol.93 (4), p.477-484
Hauptverfasser:	McNeeley, Shannon M., Tessendorf, Sarah A., Lazrus, Heather, Heikkila, Tanya, Ferguson, Ian M., Arrigo, Jennifer S., Attari, Shahzeen Z., Cianfrani, Christina M., Dilling, Lisa, Gurdak, Jason J., Kampf, Stephanie K., Kauneckis, Derek, Kirchhoff, Christine J., Lee, Juneseok, Lintner, Benjamin R., Mahoney, Kelly M., Opitz-Stapleton, Sarah, Ray, Pallav, South, Andy B., Stubblefield, Andrew P., Brugger, Julie
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Sprache:	eng
Schlagworte:	Anthropogenic factors Careers Climate change Climate change adaptation Climate change policy Climate models Climatology Communities Decision making Drought Geography Hydrologic cycle IN BOX INSIGHTS and INNOVATIONS Interdisciplinary research Meteorology Research methods Society Studies Virtual water Water availability Water management Water resources management
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container_title	Bulletin of the American Meteorological Society
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creator	McNeeley, Shannon M. Tessendorf, Sarah A. Lazrus, Heather Heikkila, Tanya Ferguson, Ian M. Arrigo, Jennifer S. Attari, Shahzeen Z. Cianfrani, Christina M. Dilling, Lisa Gurdak, Jason J. Kampf, Stephanie K. Kauneckis, Derek Kirchhoff, Christine J. Lee, Juneseok Lintner, Benjamin R. Mahoney, Kelly M. Opitz-Stapleton, Sarah Ray, Pallav South, Andy B. Stubblefield, Andrew P. Brugger, Julie
description	While we have always experienced variability in the availability of water across a variety of time scales, anthropogenic climate change will likely bring substantial additional effects on water cycles and water resource management, such as changes in timing, amount, and patterns of precipitation; decreasing snow packs; enhanced droughts; and more frequent and intense floods and storms, among others. Water management systems based on stationarity assumptions (i.e., that water and climate cycles remain within a certain range of variability) could be replaced by analytical and numerical strategies and techniques based on a nonstationarity framework, borrowing from understanding in geography and applied and physical climatology.\n Again, not all tenure-track individuals or professional researchers need to engage in such work, but for those who do wish to engage in collaborative, problem-oriented research, alternative incentives are needed to evaluate, encourage, and reward such research.
doi_str_mv	10.1175/BAMS-D-11-00221.1
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subjects	Anthropogenic factors Careers Climate change Climate change adaptation Climate change policy Climate models Climatology Communities Decision making Drought Geography Hydrologic cycle IN BOX INSIGHTS and INNOVATIONS Interdisciplinary research Meteorology Research methods Society Studies Virtual water Water availability Water management Water resources management
title	Catalyzing Frontiers in Water-Climate-Society Research: A View from Early Career Scientists and Junior Faculty
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