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Entry #68
AES Student Submission form
Submitted: 2025-05-07 19:34:24
Form Fields
Duplicate
Admin Only
ID: 39
Faculty and/or Staff Mentor(s)
- All student submissions for presentations at AES must have the approval of a WOU faculty or staff mentor. To learn more about this requirement please visit http://wou.edu/pure/academicexcellenceshowcase/students/. The identified and approving mentor(s) will be automatically notified upon completion of this form.
- If you do not have a mentor's approval, please discuss your presentation ideas and proposal abstract with a faculty or staff member and ask them for their approval and sponsorship before completing this form.
- You must have approval BEFORE submitting or your presentation may not be included in AES.
Mentor Email
ID: 30
Mentor Name
ID: 29
First: Jeffrey
Last: Templeton
Do you have more than one mentor who should be listed for this submission?
ID: 32
No
Has your faculty or staff mentor reviewed your proposal and approved it for submission?
ID: 3
Yes: Yes
Presenters
ID: 4
| WOU Email | First Name | Last Name | vNumber | Major | Year (Senior, Junior, etc.) | Home Town |
|---|---|---|---|---|---|---|
| lprince22@mail.wou.edu | Lillian | Prince | V00387612 | Earth & Environmental Science | Senior | Tillamook |
What type of session are you participating in?
ID: 6
Presentation
Do you have a session key provided by your faculty mentor(s)?
ID: 8
Yes
Session Key
ID: 9
WOU-aes2025
Select the sponsored section your presentation will be part of
ID: 10
Earth and Environmental Science Senior Seminar: Global Volcanism and Humans
Title of your presentation/poster/performance
ID: 7
Influence of Large-Scale Volcanic Eruptions on Global Climate
Are there any accompanists or composers that should be recognized in the program?
ID: 14
No
Did your project involve Human Subjects?
ID: 15
No
Abstract or image files
ID: 17
I will add an abstract now
Abstract
ID: 21
This research project explores the relationship between large-scale volcanic eruptions and global climate, with a focus on the factors driving volcanically induced cooling events and the potential impact on humans. Information for this study was derived from existing literature sources and includes data, climate models, and global circulation maps, which were used to perform comparative analyses of well-studied large-scale volcanic eruptions. The severity and duration of volcanically driven global cooling events are controlled by several factors, including the location of the volcano in the global wind system and the quantity and characteristics of the aerosols ejected. The main climate shifts that follow eruptions are cooling driven by reduced solar irradiance, leading to humans being impacted by issues such as acid rain, plague outbreaks, and famine due to reduced agricultural productivity. Based on data and results from various studies, volcanoes that eject a higher quantity of sulfur and sulfur dioxide into the atmosphere tend to have more significant cooling periods, which also means that those eruptions are more likely to negatively affect humans. Coupled with this, volcanoes situated within the tropical latitudes have a more widespread effect due to their position within the global trade winds.
Abstract Approved
Hidden
ID: 37
Yes
Do you give us permission to publish your work online in partnership with Hamersly Library?
ID: 16
Yes
Would you be interested in submitting your work to PURE Insights?
ID: 24
Yes
Model release statement
ID: 18
Yes
Are you willing to allow WOU to make a video recording of your session?
ID: 23
Yes, but I want to know one or more weeks before AES
Name
Hidden
ID: 33
First: Lillian
Last: Prince
vNumber
Hidden
ID: 34
V00387612
Email
Hidden
ID: 35
lprince22@wou.edu
