<div dir="ltr"><a href="http://limnology.wisc.edu" target="_blank"></a><div class="gmail_quote">Abrupt Change in Ecological Systems<br><br>(Ecosystem modeling; Spatial modeling; Linking models + big data; Applied ecological statistics)<br><br><br>Postdoctoral Positions: We seek a cluster of 3-4 postdoctoral research associates (each for<br><br>two years) for newly funded research on understanding abrupt change in ecological systems<br><br>(ACES). Science currently lacks a framework for predicting when, where, why, and how<br><br>surprisingly abrupt and fundamental changes are likely to occur in ecosystems and landscapes.<br><br>Rates of environmental change are accelerating, and understanding the consequences of these<br><br>-C changes for natural resources and human wellbeing is among the biggest challenges in<br><br>contemporary ecology. We aim to answer fundamental research questions, such as: How much<br><br>disturbance can living resources absorb before they change qualitatively? Where are the<br><br>tipping points in ecosystems, and what forces can push ecosystems past those tipping points?<br><br>When and where do we expect significant changes in our landscapes and waters? What natural<br><br>resources are likely to change radically in the coming decades? <br><br>The ACES project is a new<br><br>collaboration among UW-Madison PIs (Monica Turner, Steve Carpenter, Tony Ives, Chris<br><br>Kucharik, Jack Williams) who are leaders and have complementary expertise in theoretical and<br><br>applied ecology; a range of terrestrial, aquatic, and agricultural systems; and scales that extend<br><br>deep in time and from local to regional extent. Our research will focus on a diverse set of real<br><br>world ‘model ecosystems,’ each characterized by complex spatial dynamics and time lags that<br><br>can mask impending abrupt changes. Case studies include harmful algal blooms that occur in<br><br>over-fertilized lakes, tree population collapses related to variation in climate in deciduous<br><br>forests of eastern North America, loss of conifer forests as climate and fire regimes change in<br><br>western North America, and risk to crop yields with climate warming and declining water<br><br>availability. For questions about ACES, contact Monica Turner (<a href="mailto:turnermg@wisc.edu">turnermg@wisc.edu</a>) or any of<br><br>the faculty listed above. For more information about ecology at UW-Madison, visit<br><br><br>Qualifications. Applications are encouraged from outstanding candidates who are experienced<br><br>collaborators who enjoy and work well in a team setting. Applicants should have flexible<br><br>ecological modeling skills in at least one of the following: (1) ecosystem simulation modeling,<br><br>(2) spatial simulation modeling, (3) linking models with big data, and (4) applied<br><br>ecological statistics. Applicants must have completed a PhD in ecology or related field prior to<br><br>appointment. Successful candidates will have an excellent publication record, proven<br><br>communication and quantitative skills, and proficiency working with models across a wide range<br><br>of spatial and temporal scales. Candidates ideally should be available to begin between 1<br><br>September 2016 and 15 January 2017.<br><br><br>To Apply. Candidates should email (in a single PDF file) a cover letter, CV, one-page<br><br>statement of research interests, and the names and contact information of three references to<br><br>Carol Cooley (<a href="mailto:cacooley@wisc.edu">cacooley@wisc.edu</a>). Please indicate “ACES Postdoc” in the subject line. Review<br><br>of applications will begin 15 June 2016, and positions will remain open until filled.<br>
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