Jobs:Job-01240: Difference between revisions
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|JOB URL application=https://jobs.mines.edu/cw/en-us/job/496358?&lApplicationSubSourceID=11250 | |JOB URL application=https://jobs.mines.edu/cw/en-us/job/496358?&lApplicationSubSourceID=11250 | ||
|Working group member=Terrestrial Working Group, Hydrology Focus Research Group, Critical Zone Focus Research Group, Ecosystem Dynamics Focus Research Group | |Working group member=Terrestrial Working Group, Hydrology Focus Research Group, Critical Zone Focus Research Group, Ecosystem Dynamics Focus Research Group | ||
|JOB bodytext=We invite applications for a postdoctoral researcher to join an NSF-funded project examining the impacts of climate-driven shifts in wildfire frequency on hillslope sediment transport processes and long-term erosion rates. The project uses a combination of novel short-lived radionuclide analysis, high-resolution topographic data and field measurements to calibrate a probabilistic model for bioturbation-driven postfire erosion and particle motion under changing surface conditions associated with wildfire and post-fire recovery. | |JOB bodytext=<div class="col-sm-9"> | ||
We invite applications for a postdoctoral researcher to join an NSF-funded project examining the impacts of climate-driven shifts in wildfire frequency on hillslope sediment transport processes and long-term erosion rates. The project uses a combination of novel short-lived radionuclide analysis, high-resolution topographic data and field measurements to calibrate a probabilistic model for bioturbation-driven postfire erosion and particle motion under changing surface conditions associated with wildfire and post-fire recovery. | |||
Primary responsibilities will be to 1) conduct and publish independent research related to sediment transport mechanics and novel radionuclide methods, and 2) assist in managing a research group of undergraduate and graduate students. Funding is available for 1 year with possible extension. | <p>Primary responsibilities will be to <b>1)</b> conduct and publish independent research related to sediment transport mechanics and novel radionuclide methods, and <b>2)</b> assist in managing a research group of undergraduate and graduate students. Funding is available for 1 year with possible extension. | ||
</p><p><b>Start date:</b> The position start date is targeted for July 15, 2023; however this date is negotiable. | |||
Start date: The position start date is targeted for July 15, 2023; however this date is negotiable. | </p><p><b>Qualifications</b> | ||
<ul> | |||
<li>PhD in Earth science, geoscience, or related field (must be complete before starting)</li> | |||
<li>Expertise in hillslope sediment transport processes and familiarity with short-lived radionuclide dating for soils (e.g., Cs-137, Pb-210, Be-7).</li><li>Strong publication and/or grant writing record.</li> | |||
<li>Quantitative, organizational and time-management skills.</li> | |||
<li>Ability to mentor a team of undergraduate and graduate students.</li> | |||
</ul></p><p><b>Salary:</b> $68,000 + full benefits | |||
</p><p><b>How to apply:</b> Applications must be submitted electronically through the application portal below and should include the following: | |||
<ul> | |||
<li>CV</li> | |||
Salary: $68,000 + full benefits | <li>Cover letter outlining your relevant research interests, experience and skills, and how these align with the position.</li> | ||
<li>Contact information for 3 professional references (name, title, professional relationship, email address).</li> | |||
How to apply: Applications must be submitted electronically through the application portal below and should include the following: | </ul> | ||
<b>Application portal and full job description: </b><a target="_blank" rel="nofollow noreferrer noopener" class="external free" href="https://jobs.mines.edu/en-us/job/496358/postdoctoral-fellowsurface-processes">https://jobs.mines.edu/en-us/job/496358/postdoctoral-fellowsurface-processes</a> | |||
</p><p>For questions or additional information on the position, please contact Danica Roth (droth@mines.edu). | |||
</p> | |||
Application portal and full job description: https://jobs.mines.edu/en-us/job/496358/postdoctoral-fellowsurface-processes | For additional information about the Surface Processes Research Group at Mines, see our website (<a target="_blank" rel="nofollow noreferrer noopener" class="external free" href="https://surfaceprocesses.mines.edu/">https://surfaceprocesses.mines.edu/</a>). Learn more about the Mines Geology & Geological Engineering Department (<a target="_blank" rel="nofollow noreferrer noopener" class="external free" href="https://geology.mines.edu/">https://geology.mines.edu/</a>) and interdisciplinary Hydrology Program (<a target="_blank" rel="nofollow noreferrer noopener" class="external free" href="https://hydrology.mines.edu/">https://hydrology.mines.edu/</a>). | ||
</div> | |||
For questions or additional information on the position, please contact Danica Roth (droth@mines.edu). | |||
For additional information about the Surface Processes Research Group at Mines, see our website (https://surfaceprocesses.mines.edu/). Learn more about the Mines Geology & Geological Engineering Department (https://geology.mines.edu/) and interdisciplinary Hydrology Program (https://hydrology.mines.edu/). | |||
}} | }} |
Revision as of 12:06, 11 June 2023
Apply before: 30 June 2023
Posting:
Position: Postdoc Position
Apply before: 30 June 2023
Apply online:
|
We invite applications for a postdoctoral researcher to join an NSF-funded project examining the impacts of climate-driven shifts in wildfire frequency on hillslope sediment transport processes and long-term erosion rates. The project uses a combination of novel short-lived radionuclide analysis, high-resolution topographic data and field measurements to calibrate a probabilistic model for bioturbation-driven postfire erosion and particle motion under changing surface conditions associated with wildfire and post-fire recovery.
Primary responsibilities will be to 1) conduct and publish independent research related to sediment transport mechanics and novel radionuclide methods, and 2) assist in managing a research group of undergraduate and graduate students. Funding is available for 1 year with possible extension.
Start date: The position start date is targeted for July 15, 2023; however this date is negotiable.
Qualifications
- PhD in Earth science, geoscience, or related field (must be complete before starting)
- Expertise in hillslope sediment transport processes and familiarity with short-lived radionuclide dating for soils (e.g., Cs-137, Pb-210, Be-7).
- Strong publication and/or grant writing record.
- Quantitative, organizational and time-management skills.
- Ability to mentor a team of undergraduate and graduate students.
Salary: $68,000 + full benefits
How to apply: Applications must be submitted electronically through the application portal below and should include the following:
- CV
- Cover letter outlining your relevant research interests, experience and skills, and how these align with the position.
- Contact information for 3 professional references (name, title, professional relationship, email address).
Application portal and full job description: <a target="_blank" rel="nofollow noreferrer noopener" class="external free" href="https://jobs.mines.edu/en-us/job/496358/postdoctoral-fellowsurface-processes">https://jobs.mines.edu/en-us/job/496358/postdoctoral-fellowsurface-processes</a>
For questions or additional information on the position, please contact Danica Roth (droth@mines.edu).
For additional information about the Surface Processes Research Group at Mines, see our website (<a target="_blank" rel="nofollow noreferrer noopener" class="external free" href="https://surfaceprocesses.mines.edu/">https://surfaceprocesses.mines.edu/</a>). Learn more about the Mines Geology & Geological Engineering Department (<a target="_blank" rel="nofollow noreferrer noopener" class="external free" href="https://geology.mines.edu/">https://geology.mines.edu/</a>) and interdisciplinary Hydrology Program (<a target="_blank" rel="nofollow noreferrer noopener" class="external free" href="https://hydrology.mines.edu/">https://hydrology.mines.edu/</a>).