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Geoscience Career Master’s Preparation Survey ReportHeather R. HoultonAmerican Geosciences InstituteWorkforce Program
Geoscience Career Master’s Preparation Survey Report
by Heather R. Houlton
If you have any questions or comments relating to this report please contact:
Heather HoultonWorkforce Development, Education and
Outreach SpecialistAmerican Geosciences Institute4220 King StreetAlexandria, VA [email protected](703) 379-2480, ext. 227
Design by Brenna Tobler, AGI Graphic DesignerFront cover image submitted by Jack Tseng to AGI’s 2014 Life in the Field contest. Images used for Geology, Geography and Hybrid section banners: Geology: ©Shutterstock.com/Matthijs Wetterauw; Geography: ©Shutterstock.com/Toria; Hybrid: ©Shutterstock.com/Peshkov Daniil.
ISBN-10: 151715801X
ISBN-13: 978-1517158019
Published and printed in the United States of America. All rights reserved. No part of this work may be reproduced or transmitted in any form or by any means, electronic or mechanical, recording, or any information storage and retrieval system without the expressed written consent of the publisher.
For more information on the American Geosciences Institute and its publications check us out at www.americangeosciences.org/pubs.
© 2015 American Geosciences Institute
iGeo Career MaPS Report
About the Geoscience Career Master’s Preparation Survey (Geo Career MaPS)
T raditionally in the geosciences, the Master’s degree is the degree for employment and
most likely to promote career growth within the profession. Current workforce supply-and-demand trends indicate a net deficit of 135,000 geoscientists in the next 10 years. The discipline is facing a harsh reality where closing the long-term workforce supply gap will only be possible by producing well-trained geoscientists with the appropriate competencies and skills-portfolios that meet the scope and depth of employers’ requirements.
Limited data exist regarding non-Ph.D. preparatory Master’s degree programs, particularly consider-ing academic and career preparation, students’ career paths and advising and mentoring prac-tices. Understanding how programs are preparing Master’s students for employment, how prepared students feel to enter the workforce and the align-ment of graduates’ skills with workplace require-ments is imperative for remaining competitive in a global geoscience market. Society increasingly relies on the work of geoscientists for energy, fresh water, natural resources, and safety from natural hazards and thus preparing high quality geoscien-tists to meet today’s demand is vital.
The American Geosciences Institute (AGI) and the Association of American Geographers (AAG) assessed the preparation of Master’s students and compared their preparation to what non-academic professionals indicated as the most important skills for geoscience occupations. The study was funded by the National Science Foundation, grant #1202707.
There are four main areas of inquiry:
1. What are the motivations and career goals of Master’s students who pursue graduate study in geology and geography? What factors influ-ence and inform these decisions?
2. What entry-level positions are most commonly taken by graduates of Master’s programs in geology and geography?
3. How satisfied are faculty and students with the curriculum, advising, and professional devel-opment opportunities provided by Master’s programs?
4. What types of geoscience, geographic, and general competencies are taught and developed in Master’s programs? How prepared were cur-rent non-academic professionals in their field of employment when entering the workforce from their Master’s degree programs? What are the skills and competencies required of new hires in geology and geography employing industries, and how important are these to employment?
The Institutional Review Board (IRB) of the University of Colorado, Boulder provided approval for executing this research through the Association of American Geographers’ Enhancing Departments and Graduate Education (EDGE) Program.
This report disseminates information regarding these lines of inquiry about Master’s degree pro-grams, students’ career decisions, their prepara-tion and influences, and non-academic employers’ preparation and current positions.
ii Geo Career MaPS Report
Research Methods
Participants
The study aimed to recruit 20 geology, 20 geog-raphy and 10 hybrid departments to participate in the survey, all of which offered a Master’s
degree that does not intend on preparing students to pursue a Ph.D. We defined a “hybrid” department as a program that contains a mixture of geology and geography courses or one that has combined geology and geography programs into one department. Our targeted departments only included those which do not confer doctoral degrees and those which do not intend on preparing students to pursue doctoral degrees upon graduation. These specific requirements made identifica-tion of these programs difficult, and limited the number of total departments from which we could sample. Thus, this report does not aim to make generalizations about all Master’s degree programs. It does intend, however, to catalyze community discussion about the emerging trends being observed.
The initial list of faculty members within geology depart-ments was generated from AGI’s Directory of Geoscience Departments. The query also included faculty in some geography departments that are found within AGI’s database. To identify faculty in more geography depart-ments, AAG provided a list from their database. Both databases included some hybrid departments.
The following table describes the number of departments who participated in the study. Not all departments had both students and faculty participate (e.g. Faculty from 25 different Geology departments participated in the survey. However, students from only 18 different Geology departments participated).
Geology Departments
Geography Departments
Hybrid Departments
Faculty = 25 Faculty = 33 Faculty =10
Students = 18 Students = 25 Students = 9
Data Collection
The Geo Career MaPS instrumentation was devel-oped and expanded upon from AAG’s Geography and Career Planning Survey for students and
faculty from the Enhancing Departments and Graduate Education (EDGE) program. The EDGE Survey con-tained questions regarding satisfaction of programs, stu-dent career decisions, and preparation of non-technical and technical geography competencies. To appropriately measure the competencies taught and learned within geology and hybrid departments, AGI and AAG col-laborated with the National Association of State Boards of Geology (ASBOG). ASBOG is the organization respon-sible for developing and grading the Fundamentals of Geology and Practicing Geology examinations used for state licensure. Incorporating the competencies covered within the ASBOG exams ensured Geo Career MaPS was well aligned with industry standards.
The survey tool, LimeSurvey, was used for the study. Questions were designed as a 5-point Likert scale. The first choice on the scale always read “Not Applicable/I don’t know.” The scale read from left to right, which corresponded with negative to positive responses (i.e. when inquiring about preparation the scale read: “Not Applicable/I don’t know, Not Prepared, Somewhat Prepared, Adequately Prepared, Extensively Prepared”).
A small pilot test was sent to a select few faculty and students to refine the survey instrumentation. Input from participants allowed AGI staff to clarify questions and make slight modifications to the instrument.
To recruit individuals to participate in the research, AGI and AAG crafted a hardcopy letter that explained the study, impetus for the research, and an invitation to participate. This informational letter was physically mailed to the department head or chair’s office for dis-semination to faculty and administrators within each program. After receipt of the letter, department heads and chairs, administrators, counselors, and faculty received a series of 3 emails (the initial email about the study calling for participation with survey link and 2 follow-up reminder emails) between October 2013 and December 2013. Data collection continued in the spring semester 2014 and throughout the summer via direct contact with faculty, social media alumni groups, and dissemination of the survey to selected AGI member societies.
iiiGeo Career MaPS Report
• About the Geoscience Career Master’s Preparation Survey (Geo Career MaPS) •
Data Analysis
Once data collection was completed, we imported the data into Microsoft Excel for quality control and analysis. Subsequent data analysis was
performed using JMP, a statistical software package. In all of the faculty and student surveys, there were a series of qualifying questions to ensure we accurately collected data from the appropriate sample population:
• Faculty at 4-Year institutions in geology, geography, or hybrid departments that confer Master’s degrees, but not doctoral degrees. Additionally, faculty who actively advise Master’s students had an additional set of questions inquiring about advising practices.
• Students who are currently enrolled within a 4-Year institution in a Master’s degree program which does not confer doctoral degrees, who are seeking to exit with a Master’s degree.
• Non-academic professionals who graduated with their highest degree as a Master’s. These profes-sionals may or may not have come out of non-Ph.D. granting departments.
For those individuals who did not fit the above criteria, their data were not included in the analysis. This also included social/human geographers.
More than 350 participants qualified using the above criteria. This includes faculty and students in geology,
geography, and hybrid programs, as well as non-aca-demic professionals in geology and geography disci-plines. We estimate from AGI’s Directory of Geoscience Departments and through AAG’s database that there was an average of 2,200 Master’s students enrolled annu-ally in non-Ph.D. preparatory programs between 2000 and 2013. Additionally, there were approximately 800 active faculty members within these programs in 2013. Thus, we estimate that approximately 3% of students and 14% of faculty completed our survey. Unfortunately, estimating the total number of professionals in the geoscience workforce based on the qualifying criteria is highly complex, so we were unable to determine a per-centage of participation. However, from the faculty and student participation rates, we believe to have captured a representative dataset for this study.
Analyses measuring statistical differences between faculty, students, and non-academic professionals were completed for each of the questions for each type of department, as well as between different department types. For the statistical analyses, the “Not Applicable/I don’t know” option was discarded because it is not measurable on the ordinal scale from “Not Prepared” to “Very Prepared”, cited above. The Wilcoxon/Kruskal Wallis Tests (Rank Sums) were used: a 2-Sample Test with Normal Approximation and a 1-way Test, ChiSquare Approximation. For a full report of the sta-tistical analyses, please visit www.americangeosciences.org/workforce/geo-career-maps.
Image submitted by Teresa Ubide to AGI’s 2014 Life in the Field contest.
iv Geo Career MaPS Report
• About the Geoscience Career Master’s Preparation Survey (Geo Career MaPS) •
Acknowledgements
There are several organizations and individuals that were integral in the success of this project. First, I would like to express my sincere appreciation
to the National Science Foundation for supporting the research. I would also like to thank my co-PI Michael Solem and my colleague Leila Gonzales for conceptual-izing the project and demonstrating its utility to NSF. The members of my research team deserve equal grati-tude: Joy Adams, Jamie Ricci, and Candice Luebbering. Thank you so much for all your hard work over the years helping develop the survey instrumentation, with data collection and with all the data analysis, interpretation,
and dissemination! I would also like to thank AAG’s Enhancing Departments and Graduate Education (EDGE) program and the National Association of State Boards of Geology (ASBOG) for contributing their expertise regard-ing geography and geology competencies, and for giving us the opportunity to present at your events. I would be remiss if I didn’t thank all those who participated in the research. This study would have never happened without you! Thank you for taking the time to thought-fully complete our survey. Finally, I would like to thank Brenna Tobler, Nicole Schmidgall, and Kathleen Cantner for their creativity and design work.
Contents ii About the Geoscience Career Master’s Preparation Survey (Geo Career MaPS)
2 Section 1 — Demographics of Geoscience Career Master’s Preparation Survey Participants
6 Section 2 — Student Experiences within Master’s Programs
12 Section 3 — Faculty and Students’ Satisfaction with Departments
18 Section 4 — Types of Positions Taken by Students
22 Section 5 — Academic Preparation and Importance of Non-Technical Skills for Geoscience Employment
32 Section 6 — Academic Preparation and Importance of Geology and Geography Technical Skills
42 Conclusion
46 Appendix 1: References and Resources
47 Appendix 2: List of Figures
1Geo Career MaPS Report
• About the Geoscience Career Master’s Preparation Survey (Geo Career MaPS) •
Section 1 — Demographics of Geoscience Career Master’s Preparation Survey Participants
Since 2005, female enrollment at four-year institu-tions has hovered around 57%, which is compa-
rable to the percentage of female students enrolled at two-year institutions (Wilson, 2014). Specifically in the geosciences, female enrollments for Bachelor’s, Master’s, and Doctoral candidates hovered around 40%, 40-45%, and 40-45% respectively, between 2010 and 2012 (Wilson, 2014). During this timeframe, it appears that there was a decline in female enroll-ments; however, the actual number of female stu-dents in geoscience departments was increasing. The apparent downward trends for female enrollments were due to a large increase in male enrollments.
The demographics of science, technology, engineer-ing, and mathematics (STEM) communities do not reflect the general ethnic and racial diversity in
today’s U.S. population. Geoscientists of diverse ethnic or racial backgrounds comprise approxi-mately 6-8% of the total U.S. geoscience workforce. However, this includes multiracial data, which increases the percentages because some individu-als that had traditionally not been counted are now considered underrepresented minorities. This participation rate of underrepresented geoscientists is lower than the participation rate of other STEM disciplines (Wilson, 2014).
The gender and demographic data presented in this report align with these overall trends, despite our small sample sizes. Additionally, multiracial data were not double counted, thus the percentages are not inflated due to individuals with dual or mixed racial/ethnic backgrounds.
Image submitted by Benjamin Surpless to AGI’s 2014 Life in the Field contest.
2 Geo Career MaPS Report
100%
60%
57%50%
67%
25%
50%
67%33%
43%
54%86%
89%
82%
40%
43%
50%
20%
42%
33%
100%
57%
46%
14%
11%
18%
13%
75%
8%
67%
100%
5
10
15
20
25
30
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
Faculty Students Non -Academic Professionals
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
Prefer not to respondFemaleMale
KEY:
Age and Gender of Geology Respondents
Num
ber o
f Res
pond
ents
Figure 1.1: Age and Gender of Geology Respondents
African American 2%
Hispanic10%
Prefer not to respond
Caucasian 81%
Geology Faculty Race/Ethnicity
Prefer not to respond
Asian13%
Caucasian74%
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
Geology Students’ Race/Ethnicity
Prefer not to respond
HispanicMultiracial
4%4%
3%
Caucasian89%
Geology Professionals Race/Ethnicity
7% 13%
Faculty Students Professionals
In Geology, our survey participants’ age and gender trends mirror those in the broader geoscience community. The majority of faculty participants are males 40 years of age or older, though of those between the ages of 50 and 59, half are men and half are women. Our student respondents are primarily 29 years of age or younger, with the majority being male. These male-dominant trends in academia reflect those in the private sector; an overwhelming proportion of geology participants 30 years of age and older is male: 86% of participating private sector geologists ages 40-49 are male and 89% of those ages 50-59 are male.
The majority of geology faculty are Caucasian, with fewer than 10% being from underrepresented groups. Students who responded to the survey are primarily Caucasian; there were no traditionally underrepresented geoscience students who par-ticipated in our survey. Lastly, 7% of our non-academic professionals are from underrepresented groups, and an overwhelming 89% are Caucasian.
Figure 1.2: Race and Ethnicity Demographics for Geology Respondents
GEOLOGY
100%
60%
57%50%
67%
25%
50%
67%33%
43%
54%86%
89%
82%
40%
43%
50%
20%
42%
33%
100%
57%
46%
14%
11%
18%
13%
75%
8%
67%
100%
5
10
15
20
25
30
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
Faculty Students Non -Academic Professionals
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
Prefer not to respondFemaleMale
KEY:
Age and Gender of Geology Respondents
Num
ber o
f Res
pond
ents
100%
60%
57%50%
67%
25%
50%
67%33%
43%
54%86%
89%
82%
40%
43%
50%
20%
42%
33%
100%
57%
46%
14%
11%
18%
13%
75%
8%
67%
100%
5
10
15
20
25
30
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
Faculty Students Non -Academic Professionals
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
Prefer not to respondFemaleMale
KEY:
Age and Gender of Geology Respondents
Num
ber o
f Res
pond
ents
3Geo Career MaPS Report
• Section 1 — Demographics of Geoscience Career Master’s Preparation Survey Participants •
Prefer not to respondFemaleMale
KEY:
45%
73%81%
71%
33%
59%
75% 83%
80%
80%
55%
20%
19%
29%
33%
41%
25%
100% 100%
17%
20%
20%
100%
7%
33%
100%
5
10
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20
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30
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
Faculty Students Non-Academic Professionals
Age and Gender of Geography Respondents
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
100%
Num
ber o
f Res
pond
ents
Figure 1.3: Age and Gender of Geography Respondents
Geography survey participants’ age and gender trends mirror those of our geology respondents, as well as those of the broader geoscience population. Faculty respondents who are 40 years of age and older tend to be male, and 81% of those between the ages of 50 and 59 are male. Students are primarily under the age of 30; however, a larger group of the responding students ages 30–39 is studying geography than geology. Most of these older students are male (75%). Non-academic participants tended to be male (over 80%), and younger than 40 years of age.
Similar to geology faculty, the majority of our geography faculty participants are Caucasian, with 5% from underrepresented groups. Geography students are a little more diverse, with 67% Caucasian and 13% from underrepresented groups. However, only 4% of our non-academic respondents are from underrepresented groups, with the majority of individuals being Caucasian.
Geography Professionals’ Race/Ethnicity
Caucasian88%
Native American or Alaskan 4%
Prefer not to respond
Geography Students’ Race/Ethnicity
Asian13%
Caucasian67%
African American
5%
Geography Faculty Race/Ethnicity
Hispanic Hispanic
Multiracial2%
3%
Caucasian81%
Prefer not to respond
7% 7%
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
AsianPrefer not to respond
8%8%
8%
Faculty Students Professionals
Figure 1.4: Race and Ethnicity Demographics for Geography Respondents
GEOGRAPHY
Prefer not to respondFemaleMale
KEY:
45%
73%81%
71%
33%
59%
75% 83%
80%
80%
55%
20%
19%
29%
33%
41%
25%
100% 100%
17%
20%
20%
100%
7%
33%
100%
5
10
15
20
25
30
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
Faculty Students Non-Academic Professionals
Age and Gender of Geography Respondents
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
100%
Num
ber o
f Res
pond
ents
Prefer not to respondFemaleMale
KEY:
45%
73%81%
71%
33%
59%
75% 83%
80%
80%
55%
20%
19%
29%
33%
41%
25%
100% 100%
17%
20%
20%
100%
7%
33%
100%
5
10
15
20
25
30
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
Faculty Students Non-Academic Professionals
Age and Gender of Geography Respondents
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
100%
Num
ber o
f Res
pond
ents
4 Geo Career MaPS Report
• Section 1 — Demographics of Geoscience Career Master’s Preparation Survey Participants •
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Prefer not to respondFemaleMale
KEY:
60%80%
67%
65%
67%50% 25%
60%
80%
40%20%
33%
35%
33%50%
75%
40%
20%
100%
5
10
15
20
25
30
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
Faculty Students Non-Academic Professionals
Age and Gender of Hybrid Respondents
100%100
%
100%
Num
ber o
f Res
pond
ents
Figure 1.5: Age and Gender of Hybrid Respondents
Faculty and student respondents in hybrid geology-geography departments are predominantly male, similar to the trends observed in geology and geography Master’s degree programs. The majority of students are under 30 years of age, yet similar to geography, there are several students over the age of 30. Non-academic professionals are mostly under 50 years of age, and representation is more gender-balanced then for their academic counterparts.
Most of our hybrid respondents are Caucasian (94% of faculty, 83% of students, and 85% of professionals). Student and profes-sional participants are more diverse than faculty participants, with 9% and 11% from underrepresented groups, respectively.
Hybrid Professionals’ Race/Ethnicity
Caucasian85%
Asian
AfricanAmerican
Multiracial
Hybrid Students’ Race/Ethnicity
African American3%
Multiracial 3%Hispanic 3%
Prefer not to respond
Caucasian83%
Caucasian94%
Hispanic
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Hybrid Faculty Race/Ethnicity
7% 7%6% 4% 4%
Faculty Students Professionals
Figure 1.6: Race and Ethnicity Demographics for Hybrid Respondents
HYBRID
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Prefer not to respondFemaleMale
KEY:
60%80%
67%
65%
67%50% 25%
60%
80%
40%20%
33%
35%
33%50%
75%
40%
20%
100%
5
10
15
20
25
30
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
Faculty Students Non-Academic Professionals
Age and Gender of Hybrid Respondents
100%100
%
100%
Num
ber o
f Res
pond
ents
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Prefer not to respondFemaleMale
KEY:
60%80%
67%
65%
67%50% 25%
60%
80%
40%20%
33%
35%
33%50%
75%
40%
20%
100%
5
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30
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
18-29 30-39 40-49 50-59 60 or older
Prefer not to
respond
Faculty Students Non-Academic Professionals
Age and Gender of Hybrid Respondents
100%100
%
100%
Num
ber o
f Res
pond
ents
5Geo Career MaPS Report
• Section 1 — Demographics of Geoscience Career Master’s Preparation Survey Participants •
Section 2 — Student Experiences within Master’s Programs
Understanding students’ reasons for choosing a Master’s program and how the program
has influenced their career goals are important for assessing programs’ abilities to prepare graduates to transition into meaningful geoscience careers. Additionally, data about financial support available
to students are also reported. This section aims to paint a broad picture of the Master’s degree pro-grams sampled in the study. These data are not meant to provide generalizations about all Master’s programs, but rather illuminate emerging trends within our small sample.
Geology: n= 31 responsesGeography: n = 39 responses
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY:
Hybrid: n = 28 responses
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
To increase my earnings (salary) potential
To gain more education and appreciation of ideas
Opportunities to conduct research Intellectual challenge Opportunities to teach
Student Decisions to Enroll in a Graduate Program 2
Geology: n= 31 responsesGeography: n = 39 responses
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY:
Hybrid: n = 28 responses
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
My family wanted me to enroll A mentor/role model encouraged me to enroll
I could not find a job To prepare for a better job To change my career path
Student Decisions to Enroll in a Graduate Program 1
Figure 2.1: Students' Decisions to Enroll in a Graduate Program, part 1
Figure 2.2: Students' Decisions to Enroll in a Graduate Program, part 2
Decisions to EnrollThe first set of graphs explains students’ reasons for enrolling in their Master’s degree programs. The graphs compare stu-dents within geology, geography, and hybrid departments. Specifically, the survey asked students, “How important were the following factors in your decision to enroll in your current graduate program?” Students indicated how important 23 different items were regarding their decisions to enroll in their Master’s programs.
Geology: n= 31 responsesGeography: n = 39 responses
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY:
Hybrid: n = 28 responses
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
My family wanted me to enroll A mentor/role model encouraged me to enroll
I could not find a job To prepare for a better job To change my career path
Student Decisions to Enroll in a Graduate Program 1Geology: n= 31 responsesGeography: n = 39 responses
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY:
Hybrid: n = 28 responses
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
My family wanted me to enroll A mentor/role model encouraged me to enroll
I could not find a job To prepare for a better job To change my career path
Student Decisions to Enroll in a Graduate Program 1
6 Geo Career MaPS Report
Geology: n= 31 responsesGeography: n = 39 responses
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY:
Hybrid: n = 28 responses
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
The academic reputation of this program
The reputation of this program's faculty
The reputation of this program's alumni
This program's graduates get good jobs
This institution has affordable tuition
Student Decisions to Enroll in a Graduate Program 3
Figure 2.3: Students' Decisions to Enroll in a Graduate Program, part 3
0%
10%
20%
30%
40%
50%
60%
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80%
90%
100%
Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
I was not accepted anywhere else I was not offered financial aid by my first-choice program
I was offered financial assistance This program includes specializations that match my
research interests
I was recruited by this program
Geology: n= 31 responsesGeography: n = 39 responses
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY:
Hybrid: n = 28 responses
Student Decisions to Enroll in a Graduate Program 4
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This program seemed to be the best match for my career goals
Ranking of this graduate program in national publications
A faculty member from this program encouraged me to enroll
Student Decisions to Enroll in a Graduate Program 5
Geology: n= 31 responsesGeography: n = 39 responses
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY:
Hybrid: n = 28 responses
Figure 2.4: Students' Decisions to Enroll in a Graduate Program, part 4
Figure 2.5: Students' Decisions to Enroll in a Graduate Program, part 5
7Geo Career MaPS Report
• Section 2 — Student Experiences within Master’s Programs •
Influences on Students' Career Goals 1
Not Applicable/ I don't knowNot InfluentialSomewhat InfluentialInfluentialVery Influential
KEY:
Geology: n= 31 responsesGeography: n = 39 responsesHybrid: n = 28 responses
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Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
Research advisor Academic advisor or counselor Other faculty in the department Faculty at other institutions
Figure 2.6: Influences on Students' Career Goals, part 1
InfluencesThis set of graphs shows what factors, internal and external to their degree programs, were most and least influential to students for pursuing their career goals. The survey asked students, “To what extent has each of the following individuals, resources, or experiences influenced your #1 career goal?”
First, data were collected specifically to understand stu-dents’ number one career goals; the survey specifically inquired, “In a sentence or two, please describe your current #1 career goal.” Students’ answers ranged from short-term goals such as simply completing the degree or obtaining a permanent position of employment, to goals which were more sentimental (e.g., find a job that I love and get to travel). Those students who had more practical career goals cited specific occupations within
the academic, government, or private sectors. Looking specifically across geology programs, students’ most common career goals included working in the private sector within education, environmental consulting, and energy exploration with many aspiring towards management positions within a company. In geography departments, Master’s students are looking to pursue teaching and education careers, work in the Geographic Information System (GIS) field, in preservation and conservation, meteorology, or in industry in general. Students who are enrolled in hybrid geology-geography programs have more variability in their career goals. Their goals ranged from pursuing careers in GIS, envi-ronmental, conservation, or water resource challenges to careers in geochemistry, economic geology, education and museums, or energy exploration.
Influences on Students' Career Goals 1
Not Applicable/ I don't knowNot InfluentialSomewhat InfluentialInfluentialVery Influential
KEY:
Geology: n= 31 responsesGeography: n = 39 responsesHybrid: n = 28 responses
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Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
Research advisor Academic advisor or counselor Other faculty in the department Faculty at other institutions
Influences on Students' Career Goals 1
Not Applicable/ I don't knowNot InfluentialSomewhat InfluentialInfluentialVery Influential
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Geology: n= 31 responsesGeography: n = 39 responsesHybrid: n = 28 responses
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Research advisor Academic advisor or counselor Other faculty in the department Faculty at other institutions
8 Geo Career MaPS Report
• Section 2 — Student Experiences within Master’s Programs •
Not Applicable/ I don't knowNot InfluentialSomewhat InfluentialInfluentialVery Influential
KEY:Influences on Students' Career Goals 3
Geology: n= 31 responsesGeography: n = 39 responsesHybrid: n = 28 responses
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Other peer Geoscientific professional society Other (non-geoscience) professional society
Professional journals, books and/or articles
Not Applicable/ I don't knowNot InfluentialSomewhat InfluentialInfluentialVery Influential
KEY:
Influences on Students' Career Goals 2
Geology: n= 31 responsesGeography: n = 39 responsesHybrid: n = 28 responses
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Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
Campus administrator Spouse or partner Other family member Graduate student in the department
Figure 2.7: Influences on Students' Career Goals, part 2
Figure 2.8: Influences on Students' Career Goals, part 3
Influences on Students' Career Goals 1
Not Applicable/ I don't knowNot InfluentialSomewhat InfluentialInfluentialVery Influential
KEY:
Geology: n= 31 responsesGeography: n = 39 responsesHybrid: n = 28 responses
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Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
Research advisor Academic advisor or counselor Other faculty in the department Faculty at other institutions
9Geo Career MaPS Report
• Section 2 — Student Experiences within Master’s Programs •
Not Applicable/ I don't knowNot InfluentialSomewhat InfluentialInfluentialVery Influential
KEY:Influences on Students' Career Goals 5
Geology: n= 31 responsesGeography: n = 39 responsesHybrid: n = 28 responses
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Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
Former co-worker Current co-worker Professional contact or associate Undergraduate courses and experiences
Not Applicable/ I don't knowNot InfluentialSomewhat InfluentialInfluentialVery Influential
KEY:Influences on Students' Career Goals 4
Geology: n= 31 responsesGeography: n = 39 responsesHybrid: n = 28 responses
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Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
Internship experience Professional conference Former employer Current employer
Figure 2.9: Influences on Students' Career Goals, part 4
Figure 2.10: Influences on Students' Career Goals, part 5
Influences on Students' Career Goals 1
Not Applicable/ I don't knowNot InfluentialSomewhat InfluentialInfluentialVery Influential
KEY:
Geology: n= 31 responsesGeography: n = 39 responsesHybrid: n = 28 responses
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Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
Research advisor Academic advisor or counselor Other faculty in the department Faculty at other institutions
10 Geo Career MaPS Report
• Section 2 — Student Experiences within Master’s Programs •
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Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
My Master's degree program has adequate funding opportunities through the department for me to continue my
education
My academic/research advisor provides adequate financial support for me to
support my graduate work
My Master's degree program or my academic/research advisor provide adequate summer funding for me to continue my research and stay in my
degree program
Students' Financial Support in Master's Degree Programs
Not Applicable/ I don't knowDo Not AgreeSomewhat AgreeAgreeStrongly Agree
KEY:
Geology: n= 31 responsesGeography: n = 39 responsesHybrid: n = 29 responses
Figure 2.11: Students' Financial Support in Master's Degree Programs
Financial SupportThis graph shows students’ responses to questions regard-ing funding opportunities and financial support in geology, geography, and hybrid programs. The survey question stated, “Indicate your agreement with the following state-ments about financial support.”
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Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
My Master's degree program has adequate funding opportunities through the department for me to continue my
education
My academic/research advisor provides adequate financial support for me to
support my graduate work
My Master's degree program or my academic/research advisor provide adequate summer funding for me to continue my research and stay in my
degree program
Students' Financial Support in Master's Degree Programs
Not Applicable/ I don't knowDo Not AgreeSomewhat AgreeAgreeStrongly Agree
KEY:
Geology: n= 31 responsesGeography: n = 39 responsesHybrid: n = 29 responses
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Geology Geography Hybrid Geology Geography Hybrid Geology Geography Hybrid
My Master's degree program has adequate funding opportunities through the department for me to continue my
education
My academic/research advisor provides adequate financial support for me to
support my graduate work
My Master's degree program or my academic/research advisor provide adequate summer funding for me to continue my research and stay in my
degree program
Students' Financial Support in Master's Degree Programs
Not Applicable/ I don't knowDo Not AgreeSomewhat AgreeAgreeStrongly Agree
KEY:
Geology: n= 31 responsesGeography: n = 39 responsesHybrid: n = 29 responses
11Geo Career MaPS Report
• Section 2 — Student Experiences within Master’s Programs •
Section 3 — Faculty and Students’ Satisfaction with Departments
Faculty and students were asked to rate the level of satisfaction they have with their Master’s
degree programs. The survey asked faculty, “Rate your level of satisfaction with the following aspects of your department’s Master’s degree program.” Similarly, students responded to, “How satisfied
are you with the following aspects of your Master’s degree program?” The survey listed 22 items for faculty and students to rate. Below are nine graphs rating faculty and students’ satisfaction with their Master’s programs in geology, geography, and hybrid departments.
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Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
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Geology Students: n= 31Geology Faculty: n = 58
Satisfaction with Geology Departments 1
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Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
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Geology Students: n= 31Geology Faculty: n = 58
Satisfaction with Geology Departments 1
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Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
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Geology Students: n= 31Geology Faculty: n = 58
Satisfaction with Geology Departments 1
Figure 3.1: Satisfaction with Geology Departments, part 1
GEOLOGY
12 Geo Career MaPS Report
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Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students
Amount of contact students have with
faculty
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within the department
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outside of the department
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available within the department
Training in research methods
Teaching opportunities
Training in teaching methods
Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
KEY:
Geology Students: n= 31Geology Faculty: n = 58
Satisfaction with Geology Departments 2
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Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students
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Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
KEY:
Geology Students: n= 31Geology Faculty: n = 58
Satisfaction with Geology Departments 1
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Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students
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mentoring and advising
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facilities
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Satisfaction with Geology Departments 3Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
KEY:
Geology Students: n= 31Geology Faculty: n = 58
Figure 3.2: Satisfaction with Geology Departments, part 2
Figure 3.3: Satisfaction with Geology Departments, part 3
13Geo Career MaPS Report
• Section 3 — Faculty and Students’ Satisfaction with Departments •
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Geography Students: n= 39Geography Faculty: n = 59
Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
KEY:
Satisfaction with Geography Departments 1
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Geography Students: n= 39Geography Faculty: n = 59
Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
KEY:
Satisfaction with Geography Departments 1
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Geography Students: n= 39Geography Faculty: n = 59
Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
KEY:
Satisfaction with Geography Departments 1
Figure 3.4: Satisfaction with Geography Departments, part 1
GEOGRAPHY
Image submitted by Ulyana Nadia Horodyskyj to AGI’s 2014 Life in the Field contest.
14 Geo Career MaPS Report
• Section 3 — Faculty and Students’ Satisfaction with Departments •
Geography Students: n= 39Geography Faculty: n = 59
Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
KEY:
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Satisfaction with Geography Departments 3
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Geography Students: n= 39Geography Faculty: n = 59
Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
KEY:
Satisfaction with Geography Departments 1
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Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students
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within thedepartment
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outside of the department
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available within the department
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Satisfaction with Geography Departments 2
Geography Students: n= 39Geography Faculty: n = 59
Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
KEY:
Figure 3.5: Satisfaction with Geography Departments, part 2
Figure 3.6: Satisfaction with Geography Departments, part 3
15Geo Career MaPS Report
• Section 3 — Faculty and Students’ Satisfaction with Departments •
Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
KEY:
Hybrid Students: n= 29Hybrid Faculty: n = 18
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Satisfaction with Hybrid Departments 1
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Hybrid Students: n= 29Hybrid Faculty: n = 18
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Satisfaction with Hybrid Departments 1Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
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Hybrid Students: n= 29Hybrid Faculty: n = 18
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Satisfaction with Hybrid Departments 1
Figure 3.7: Satisfaction with Hybrid Departments, part 1
HYBRID
Image submitted by Reed Maxwell to AGI’s 2014 Life in the Field contest.
16 Geo Career MaPS Report
• Section 3 — Faculty and Students’ Satisfaction with Departments •
Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
KEY:
Hybrid Students: n= 29Hybrid Faculty: n = 18
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Satisfaction with Hyprid Departments 3Not Applicable/ I don't knowNot SatisfiedSomewhat SatisfiedSatisfiedVery Satisfied
KEY:
Hybrid Students: n= 29Hybrid Faculty: n = 18
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Satisfaction with Hybrid Departments 1
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Hybrid Students: n= 29Hybrid Faculty: n = 18
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Satisfaction with Hybrid Departments 2
Figure 3.8: Satisfaction with Hybrid Departments, part 2
Figure 3.9: Satisfaction with Hybrid Departments, part 3
17Geo Career MaPS Report
• Section 3 — Faculty and Students’ Satisfaction with Departments •
Section 4 — Types of Positions Taken by Students
Similar to understanding students’ experiences and reasons for choosing a Master’s degree
program, the types of careers students pursue after graduating from their programs is reflective of those Master’s programs and how well they prepare students to enter the workforce. We present data regarding the types of positions that current stu-dents intend on pursuing and present data on what positions faculty say their graduates have accepted post-graduation. We compare the intended and secured positions to the types of positions cur-rently held by non-academic professionals. It is important to note that the highest degree received by these non-academic professional participants is the Master’s degree. This analysis helps identify potential deviations between intent and outcomes of graduates or potential shifts in the nature of the job market.
Faculty were asked about the types of positions their students have accepted post-graduation from their Master’s degree programs, “How often do your Master’s advisees secure each of these types of positions post-graduation?” Students were asked
about the types of positions they want to pursue once they graduate, “How likely are you to consider the following career choices after completing your graduate program?”
We compare these data to pie charts that report the types of positions that non-academic professionals secured after completing their Master’s degree. Note that some respondents cited more than one type of position they secured after graduation. Non-academic professionals from geography and hybrid programs who indicated “other” include being employed during their Master’s program, and being employed as a Research Associate at a university after graduation.
Additionally, we compare the results to what non-academic professionals indicated as the types of positions they currently hold in their careers. Non-academic professionals were asked, “Which of the following positions did you secure after graduating from your Master’s degree program?” and “Which of the following best describes your current position?”
Image submitted by Robyn Haney of Global Geophysical Services to AGI’s 2014 Life in the Field contest.
18 Geo Career MaPS Report
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PhD Program Academia Nonprofit/NGO Government Private Sector
Not Applicable/ I don't knowNot Often/LikelySomewhat Often/LikelyOften/LikelyVery Often/Likely
KEY:
Geology Students’ Accepted/Desired PositionsGeology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
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Geology Students’ Accepted/Desired PositionsGeology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
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Not Applicable/ I don't knowNot Often/LikelySomewhat Often/LikelyOften/LikelyVery Often/Likely
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Geology Students’ Accepted/Desired PositionsGeology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
Figure 4.1: Geology Students' Accepted/Desired Positions
Geology
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
PhD Program3.7%
Nonprofit/NGO 4.6%
Government19.4%
Private Sector61.1%
Academia
11.1%
Post-Graduation Positions Current Positions
Academia1.4%
Government22.2%
Nonprofit/NGO2.8%
Private Sector73.6%
Figure 4.2: Geology Professionals' Post-graduate and Current Positions
GEOLOGY
19Geo Career MaPS Report
• Section 4 — Types of Positions Taken by Students •
Geography
Government45.5%
Other12.1%
PhD Program3.0%
Academia 3.0%Nonpro�t/NGO 6.1%
Private Sector30.3%
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Current PositionsPost-Graduation Positions
Academia
Government58.3%
Private Sector29.2%
12.5%
Figure 4.4: Geography Professionals' Post-graduate and Current Positions
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Not Applicable/ I don't knowNot Often/LikelySomewhat Often/LikelyOften/LikelyVery Often/Likely
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Geology Students’ Accepted/Desired PositionsGeology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
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Geography Students’ Accepted/Desired Positions
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Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
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Geography Students’ Accepted/Desired Positions
Not Applicable/ I don't knowNot Often/LikelySomewhat Often/LikelyOften/LikelyVery Often/Likely
KEY:
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Figure 4.3: Geography Students' Accepted/Desired Positions
GEOGRAPHY
20 Geo Career MaPS Report
• Section 4 — Types of Positions Taken by Students •
HybridHybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Other 2.9%PhD Program 5.9%
Academia 2.9%
Nonpro�t/NGO8.8%
Government32.4%
Private Sector47.1%
Current PositionsPost-Graduation Positions
Government37.0%
Private Sector44.4%
Academia11.1%
Nonpro�t/NGO7.4%
Figure 4.5: Hybrid Students' Accepted/Desired Positions
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students
PhD Program Academia Nonprofit/NGO Government Private Sector
Not Applicable/ I don't knowNot Often/LikelySomewhat Often/LikelyOften/LikelyVery Often/Likely
KEY:
Geology Students’ Accepted/Desired PositionsGeology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students
PhD Program Academia Nonprofit/NGO Government Private Sector
Hybrid Students’ Accepted/Desired Positions
Not Applicable/ I don't knowNot Often/LikelySomewhat Often/LikelyOften/LikelyVery Often/Likely
KEY:
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Faculty Students Faculty Students Faculty Students Faculty Students
PhD Program Academia Nonprofit/NGO Government Private Sector
Hybrid Students’ Accepted/Desired Positions
Not Applicable/ I don't knowNot Often/LikelySomewhat Often/LikelyOften/LikelyVery Often/Likely
KEY:
Figure 4.6: Hybrid Professionals' Post-graduate and Current Positions
HYBRID
21Geo Career MaPS Report
• Section 4 — Types of Positions Taken by Students •
Section 5 — Academic Preparation and Importance of Non-Technical Skills for Geoscience Employment
Faculty and students were asked about students’ academic preparation. The survey listed 28 non-
technical skills, ranging from various communica-tion skills to critical-thinking and management skills. These non-technical skills, commonly referred to as “soft-skills,” were developed from AAG’s EDGE survey, which were used to maintain consistency of data between each of the department types (Geology, Geography and Hybrid departments).
Faculty were asked, “How prepared are your Master’s advisees in each of the following skill areas for post-graduation employment in geo-science-related positions?” Students answered, “How much preparation have you received in the following skill areas for post-graduation
geoscience employment?” Non-academic profes-sionals responded to two questions. First, they were asked about their own preparation in each of these non-technical skills. They were also asked how important each skill is to their current posi-tions: “Now that you’ve indicated how prepared you feel for each of these items, please indicate how important each skill area is for employment in your current position.”
The blue bars indicate how prepared geoscientists are in each of the skills. The red and gold bars indi-cate how important each of these skills is to non-academic professionals’ employment. Professionals’ preparation is abbreviated as “Prof. Prep.” and the importance is abbreviated by “Prof. Imp.”
Image submitted by Amy Edwards to AGI’s 2014 Life in the Field contest.
22 Geo Career MaPS Report
0%
10%
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100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Public Speaking Writing Foreign (Non-English)Language Skills
Visual Presentations Creative Thinking
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
Geology Non-Technical Skills 1
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
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20%
30%
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Critical Thinking Problem Solving Research Planning and Design Qualitative Skills Quantitative Skills
Geology Non-Technical Skills 2
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
10%
20%
30%
40%
50%
60%
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100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Critical Thinking Problem Solving Research Planning and Design Qualitative Skills Quantitative Skills
Geology Non-Technical Skills 2
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
10%
20%
30%
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50%
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Critical Thinking Problem Solving Research Planning and Design Qualitative Skills Quantitative Skills
Geology Non-Technical Skills 2
Figure 5.1: Geology Non-Technical Skills, part 1
Figure 5.2: Geology Non-Technical Skills, part 2
GEOLOGY
23Geo Career MaPS Report
• Section 5 — Academic Preparation and Importance of Non-Technical Skills for Geoscience Employment •
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
10%
20%
30%
40%
50%
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Relationship Building Skills Intercultural Skills Teaching Computer & Technology Skills Publishing
Geology Non-Technical Skills 4
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Visioning Supervising Entrepreneurial Skills Teamwork Coaching and Advising
Geology Non-Technical Skills 3Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
Figure 5.4: Geology Non-Technical Skills, part 4
0%
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Visioning Supervising Entrepreneurial Skills Teamwork Coaching and Advising
Geology Non-Technical Skills 3Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
Figure 5.3: Geology Non-Technical Skills, part 3
24 Geo Career MaPS Report
• Section 5 — Academic Preparation and Importance of Non-Technical Skills for Geoscience Employment •
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
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20%
30%
40%
50%
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90%
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Faculty Students Prof. Prep. Prof. Imp. Faculty Students Prof. Prep. Prof. Imp. Faculty Students Prof. Prep. Prof. Imp.
Ethical Practice Project Management Fiscal Management
Geology Non-Technical Skills 6
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
10%
20%
30%
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Information Management Grant Proposals Time Management Adaptability Self Awareness
Geology Non-Technical Skills 5
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
10%
20%
30%
40%
50%
60%
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80%
90%
100%
Faculty Students Prof. Prep. Prof. Imp. Faculty Students Prof. Prep. Prof. Imp. Faculty Students Prof. Prep. Prof. Imp.
Ethical Practice Project Management Fiscal Management
Geology Non-Technical Skills 6
Figure 5.6: Geology Non-Technical Skills, part 6
Figure 5.5: Geology Non-Technical Skills, part 5
25Geo Career MaPS Report
• Section 5 — Academic Preparation and Importance of Non-Technical Skills for Geoscience Employment •
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geography Non-Technical Skills 2
0%
10%
20%
30%
40%
50%
60%
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80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Critical Thinking Problem Solving Research Planning and Design Qualitative Skills Quantitative Skills
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geography Non-Technical Skills 1
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Public Speaking Writing Foreign (Non English) Language Skills Visual Presentations Creative Thinking
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geography Non-Technical Skills 1
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Public Speaking Writing Foreign (Non English) Language Skills Visual Presentations Creative Thinking
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geography Non-Technical Skills 1
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Public Speaking Writing Foreign (Non English) Language Skills Visual Presentations Creative Thinking
Figure 5.8: Geography Non-Technical Skills, part 2
Figure 5.7: Geography Non-Technical Skills, part 1
GEOGRAPHY
26 Geo Career MaPS Report
• Section 5 — Academic Preparation and Importance of Non-Technical Skills for Geoscience Employment •
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Relationship Building Skills Intercultural Skills Teaching Computer & Technology Skills Publishing
Geography Non-Technical Skills 4
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Visioning Supervising Entrepreneurial Skills Teamwork Coaching and Advising
Geography Non-Technical Skills 3
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Visioning Supervising Entrepreneurial Skills Teamwork Coaching and Advising
Geography Non-Technical Skills 3
Figure 5.10: Geography Non-Technical Skills, part 4
Figure 5.9: Geography Non-Technical Skills, part 3
27Geo Career MaPS Report
• Section 5 — Academic Preparation and Importance of Non-Technical Skills for Geoscience Employment •
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep. Prof. Imp. Faculty Students Prof. Prep. Prof. Imp. Faculty Students Prof. Prep. Prof. Imp.
Ethical Practice Project Management Fiscal Management
Geography Non-Technical Skills 6
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geography Non-Technical Skills 5
0%
10%
20%
30%
40%
50%
60%
70%
80%
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100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Information Management Grant Proposals Time Management Adaptability Self Awareness
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geography Non-Technical Skills 5
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Information Management Grant Proposals Time Management Adaptability Self Awareness
Figure 5.12: Geography Non-Technical Skills, part 6
Figure 5.11: Geography Non-Technical Skills, part 5
28 Geo Career MaPS Report
• Section 5 — Academic Preparation and Importance of Non-Technical Skills for Geoscience Employment •
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
40%
50%
60%
70%
80%
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Hybrid Non-Technical Skills 2
Critical Thinking Research Planning and Design Qualitative Skills Quantitative SkillsProblem Solving
0%
10%
20%
30%
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Hybrid Non-Technical Skills 1
Public Speaking Writing Foreign (Non English)Language Skills
Visual Presentations Creative Thinking
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
40%
50%
60%
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Hybrid Non-Technical Skills 1
Public Speaking Writing Foreign (Non English)Language Skills
Visual Presentations Creative Thinking
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
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50%
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Hybrid Non-Technical Skills 1
Public Speaking Writing Foreign (Non English)Language Skills
Visual Presentations Creative Thinking
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Figure 5.14: Hybrid Non-Technical Skills, part 2
Figure 5.13: Hybrid Non-Technical Skills, part 1
HYBRID
29Geo Career MaPS Report
• Section 5 — Academic Preparation and Importance of Non-Technical Skills for Geoscience Employment •
Figure 5.16: Hybrid Non-Technical Skills, part 4
Figure 5.15: Hybrid Non-Technical Skills, part 3Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
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Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Hybrid Non-Technical Skills 3
Visioning Supervising Entrepreneurial Skills Teamwork Coaching and Advising
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
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Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Hybrid Non-Technical Skills 4
Relationship Building Skills Intercultural Skills Teaching Computer and Technology Skills
Publishing
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
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Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Hybrid Non-Technical Skills 3
Visioning Supervising Entrepreneurial Skills Teamwork Coaching and Advising
30 Geo Career MaPS Report
• Section 5 — Academic Preparation and Importance of Non-Technical Skills for Geoscience Employment •
Figure 5.18: Hybrid Non-Technical Skills, part 6
Figure 5.17: Hybrid Non-Technical Skills, part 5Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
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Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Hybrid Non-Technical Skills 5
Information Management Grant Proposals Time Management Adaptability Self Awareness
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
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20%
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50%
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Faculty Students Prof. Prep. Prof. Imp. Faculty Students Prof. Prep. Prof. Imp. Faculty Students Prof. Prep. Prof. Imp.
Hybrid Non-Technical Skills 6
Ethical Practice Project Management Fiscal Management
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
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Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
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Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Hybrid Non-Technical Skills 5
Information Management Grant Proposals Time Management Adaptability Self Awareness
31Geo Career MaPS Report
• Section 5 — Academic Preparation and Importance of Non-Technical Skills for Geoscience Employment •
Section 6 — Academic Preparation and Importance of Geology and Geography Technical Skills
The technical skills taught within geology Master’s programs differ from those within
geography and hybrid programs. Therefore, we asked faculty, students, and non-academic pro-fessionals with geology versus geography back-grounds to answer different sets of questions regarding their training and competencies. Hybrid programs’ questions about preparation and impor-tance of technical competencies were a mixture of the geology and geography competency questions.
We asked faculty from each of these departments to “indicate the amount of preparation students receive in your degree program for each of the fol-lowing geoscience competencies.” Geology, geogra-phy, and hybrid department students were asked, “Indicate the amount of preparation you receive in your Master’s degree program for each of the following geoscience competencies.” Geoscience non-academic professionals were asked about their preparation and the importance of each of the skills: “Indicate the amount of preparation you received in your Master’s degree program for each of the following competencies” and “Now that you’ve indicated how prepared you feel for each of these items, please indicate how important each skill area is for employment in your current position.”
Thirty-six different geology and twenty differ-ent geography competencies were listed in the respective surveys. The Hybrid survey com-bined competencies from geology and geogra-phy, and listed 30 different items. The geology competencies were organized by theme: General and Field Geology; Mineralogy, Petrology, and Geochemistry; Sedimentology, Stratigraphy, and Paleontology; Geomorphology, Surficial Processes, and Quaternary Geology; Structure, Tectonics, and Seismology; Hydrology and Hydrogeology; Economic Geology, and Energy Resources.
The 36 geology competencies were identified from the National Association of State Boards of Geology (ASBOG) Task Analysis Survey. These are the specific competencies required to pass the Fundamentals of Geology and Practicing Geology examinations for state licensure. Therefore, by aligning the survey to this portfolio of ASBOG competencies, it allows the measurement of prepa-ration level of Master’s students for professional employment within the geoscience workforce. For more information about ASBOG, and how to help prepare students for the licensing examination, please go to: www.asbog.org.
The 20 geography competencies were adopted directly from AAG’s Enhancing Departments & Graduate Education (EDGE) survey. For more infor-mation about EDGE, its research, resources, and publications, please visit: www.aag.org/cs/edge.
Image submitted by Alisa Kotash to AGI’s 2014 Life in the Field contest.
32 Geo Career MaPS Report
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 2
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Plan and conduct mineralogical, petrological, and geochemical
investigations, including the use of modeling and geophysics
Identify minerals and rocks and their characteristics
Identify and interpret rock and mineral sequences, associations,
and genesis
Evaluate geochemical and isotopic data and construct geochemical
models related to rocks and minerals
Determine type, degree, and effects of rock and mineral
alteration
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 1
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Plan and conduct geological investigations considering human health, safety, the environment,
regulations, and quality assurance/quality control (QA/QC)
Collect, compile, and interpret historic information to plan
geological investigations
Interpret and analyze available geological and geophysical data,
maps, sections, and reports
Determine scales, distances, and elevations from imagery, surveys,
maps, and GIS applications
Prepare, analyze, and interpret logs, cross-sections, maps, and
other graphics derived from field investigations and GIS applications
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 1
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Plan and conduct geological investigations considering human health, safety, the environment,
regulations, and quality assurance/quality control (QA/QC)
Collect, compile, and interpret historic information to plan
geological investigations
Interpret and analyze available geological and geophysical data,
maps, sections, and reports
Determine scales, distances, and elevations from imagery, surveys,
maps, and GIS applications
Prepare, analyze, and interpret logs, cross-sections, maps, and
other graphics derived from field investigations and GIS applications
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
Figure 6.2: Geology Technical Skills, part 2
Figure 6.1: Geology Technical Skills, part 1
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 1
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Plan and conduct geological investigations considering human health, safety, the environment,
regulations, and quality assurance/quality control (QA/QC)
Collect, compile, and interpret historic information to plan
geological investigations
Interpret and analyze available geological and geophysical data,
maps, sections, and reports
Determine scales, distances, and elevations from imagery, surveys,
maps, and GIS applications
Prepare, analyze, and interpret logs, cross-sections, maps, and
other graphics derived from field investigations and GIS applications
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
GEOLOGY
33Geo Career MaPS Report
• Section 6 — Academic Preparation and Importance of Geology and Geography Technical Skills •
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 4
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Plan and conduct geomorphic investigations, including the use of
modeling and geophysics
Identify, classify, and interpret landforms, surficial materials, and
processes
Determine absolute or relative age relationships of landforms,
sediments, and soils
Evaluate geomorphic processes and development of landforms, sediments, and soils, including
watershed functions
Interpret geomorphic conditions and processes based on remote
sensing and GIS
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 3
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Plan and conduct sedimentologic, stratigraphic, or paleontological
investigations, including the use of modeling and geophysics
Select and apply appropriate stratigraphic nomenclature and
establish correlations
Identify and interpret sedimentary processes and structures,
depositional environments, and sediment provenance
Identify and interpret sediment or rock sequences, positions, and
ages
Identify and interpret fossils and fossil assemblages for age or
paleoenvironmental interpretations
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
Figure 6.4: Geology Technical Skills, part 4
Figure 6.3: Geology Technical Skills, part 3
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 3
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Plan and conduct sedimentologic, stratigraphic, or paleontological
investigations, including the use of modeling and geophysics
Select and apply appropriate stratigraphic nomenclature and
establish correlations
Identify and interpret sedimentary processes and structures,
depositional environments, and sediment provenance
Identify and interpret sediment or rock sequences, positions, and
ages
Identify and interpret fossils and fossil assemblages for age or
paleoenvironmental interpretations
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
34 Geo Career MaPS Report
• Section 6 — Academic Preparation and Importance of Geology and Geography Technical Skills •
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 6
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Plan and conduct hydrogeological, geochemical, and environmental
investigations, including the use of modeling, geophysics, and isotopic
and tracer studies
Define and characterize hydraulic properties of saturated and vadose
zone flow systems
Design groundwater monitoring, observation, extraction,
production, or injection wells
Evaluate water resources and assess aquifer yield and
sustainability
Characterize water quality and assess chemical fate and transport
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 5
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Plan and conduct structural, tectonic, or seismologic
investigations, including the use of modeling and geophysics
Identify and define structural features and relations, including
constructing and interpreting structural projections and
statistical analyses
Interpret deformational history through structural and tectonic
analyses
Develop and apply tectonic models to identify geologic processes and
history
Evaluate earthquake mechanisms, paleoseismic history, and hazards
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 5
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Plan and conduct structural, tectonic, or seismologic
investigations, including the use of modeling and geophysics
Identify and define structural features and relations, including
constructing and interpreting structural projections and
statistical analyses
Interpret deformational history through structural and tectonic
analyses
Develop and apply tectonic models to identify geologic processes and
history
Evaluate earthquake mechanisms, paleoseismic history, and hazards
Figure 6.6: Geology Technical Skills, part 6
Figure 6.5: Geology Technical Skills, part 5
35Geo Career MaPS Report
• Section 6 — Academic Preparation and Importance of Geology and Geography Technical Skills •
Figure 6.8: Geology Technical Skills, part 8
Figure 6.7: Geology Technical Skills, part 7
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 7
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep Prof. Imp. Faculty Students Prof. Prep Prof. Imp. Faculty Students Prof. Prep Prof. Imp.
Manage, develop, protect, or remediate surface water or groundwater resources
Plan and conduct mineral or energy resource exploration, evaluation, and
environmental programs including the use of modeling, geophysics, and geochemistry
Compile, assess, and evaluate the data necessary to explore for mineral and
energy resources
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 8
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep Prof. Imp. Faculty Students Prof. Prep Prof. Imp. Faculty Students Prof. Prep Prof. Imp.
Estimate the distribution of resources based on surface and subsurface data, including imagery and GIS applications
Determine quantity and quality of resources and reserves from laboratory,
surface, and subsurface data
Perform geological evaluations for design, abandonment, closure, and reclamation
and restoration of energy development or mineral extraction operations
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geology Technical Skills 7
Geology Students: n= 31Geology Faculty: n = 58
Geology Professionals: n = 72
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep Prof. Imp. Faculty Students Prof. Prep Prof. Imp. Faculty Students Prof. Prep Prof. Imp.
Manage, develop, protect, or remediate surface water or groundwater resources
Plan and conduct mineral or energy resource exploration, evaluation, and
environmental programs including the use of modeling, geophysics, and geochemistry
Compile, assess, and evaluate the data necessary to explore for mineral and
energy resources
36 Geo Career MaPS Report
• Section 6 — Academic Preparation and Importance of Geology and Geography Technical Skills •
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Geography Technical Skills 2
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Knowing and applying geographic information about political systems
and processes
Knowing and applying geographic information about culture and
cultural processes
Knowing and applying geographic information about population, demography, and demographic
processes
Knowing and applying geographic information about relationships
between nature and society
Designing paper or digital maps
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Geography Technical Skills 1
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Knowing and applying geographic information about geology and the
processes that shape physical landscapes
Knowing and applying geographic information about weather,
climate, and atmospheric processes
Knowing and applying geographic information about ecosystems and
ecological processes
Knowing and applying geographic information about natural hazards
Knowing and applying geographic information about the economy
and economic processes
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Geography Technical Skills 1
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Knowing and applying geographic information about geology and the
processes that shape physical landscapes
Knowing and applying geographic information about weather,
climate, and atmospheric processes
Knowing and applying geographic information about ecosystems and
ecological processes
Knowing and applying geographic information about natural hazards
Knowing and applying geographic information about the economy
and economic processes
Figure 6.10: Geography Technical Skills, part 2
Figure 6.9: Geography Technical Skills, part 1
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Geography Technical Skills 1
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Knowing and applying geographic information about geology and the
processes that shape physical landscapes
Knowing and applying geographic information about weather,
climate, and atmospheric processes
Knowing and applying geographic information about ecosystems and
ecological processes
Knowing and applying geographic information about natural hazards
Knowing and applying geographic information about the economy
and economic processes
GEOGRAPHY
37Geo Career MaPS Report
• Section 6 — Academic Preparation and Importance of Geology and Geography Technical Skills •
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Geography Technical Skills 4
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Possessing and applying knowledge of the physical and human
geography of a specific country or world region
Drawing on and synthesizing the information, concepts, and
methods of the natural and social sciences for geographic research
and applications
Identifying, explaining, and finding meaning in spatial patterns and
relationships
Possessing and applying knowledge of how people, places, and regions are linked by global networks and
processes
Using knowledge about population diversity
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Geography Technical Skills 3
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Using GIS to acquire, manage, display, and analyze spatial data in
digital form
Recording, measuring, and plotting electromagnetic radiation data from aerial photographs and
remote sensing systems against land features identified in ground
control surveys, generally to produce planimetric, topographic,
and contour maps
Understanding the underlying theories and methods related to
acquiring an object without contacting it physically
Using interviews, questionnaires, observations, photography, maps,
and other techniques for measuring geographic information
in the fiel
Using quantitative methods to process spatial data for the
purpose of making calculations, models, and inferences about
space, spatial patterns, and spatial relationship
Geography Students: n= 39Geography Faculty: n = 59
Geography Professionals: n = 24
Geography Technical Skills 3
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Faculty Students Prof. Prep
Prof. Imp.
Using GIS to acquire, manage, display, and analyze spatial data in
digital form
Recording, measuring, and plotting electromagnetic radiation data from aerial photographs and
remote sensing systems against land features identified in ground
control surveys, generally to produce planimetric, topographic,
and contour maps
Understanding the underlying theories and methods related to
acquiring an object without contacting it physically
Using interviews, questionnaires, observations, photography, maps,
and other techniques for measuring geographic information
in the fiel
Using quantitative methods to process spatial data for the
purpose of making calculations, models, and inferences about
space, spatial patterns, and spatial relationship
Figure 6.12: Geography Technical Skills, part 4
Figure 6.11: Geography Technical Skills, part 3
38 Geo Career MaPS Report
• Section 6 — Academic Preparation and Importance of Geology and Geography Technical Skills •
Hybrid Technical Skills 2
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Record, measure, and plot electromagnetic radiation data
from aerial photographs and remote sensing systems against
land features identified in ground control surveys, generally to
produce planimetric, topographic, and contour maps
Understand the underlying theories and methods related to acquiring
an object without contacting it physically (e.g., aerial photography,
radar, and satellite imaging)
Identify, explain, and find meaning in spatial patterns and relationships (e.g., site conditions, how places are similar or different, the influence of a land feature on its neighbors, the
nature of transitions between places)
Use quantitative methods to process spatial data for the purpose of making calculations, models, and
inferences about space, spatial patterns, and spatial relationships
Identify minerals and rocks and their characteristics
Hybrid Technical Skills 1
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Interpret and analyze available geographical, geological, and
geophysical data, maps, sections, and reports
Determine scales, distances, and elevations from imagery, surveys,
maps, and GIS
Prepare, analyze, and interpret logs, cross-sections, maps, and other
graphics derived from field investigations and GIS applications
Design paper or digital maps Use GIS to acquire, manage, display, and analyze spatial data in digital
form
Hybrid Technical Skills 1
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Interpret and analyze available geographical, geological, and
geophysical data, maps, sections, and reports
Determine scales, distances, and elevations from imagery, surveys,
maps, and GIS
Prepare, analyze, and interpret logs, cross-sections, maps, and other
graphics derived from field investigations and GIS applications
Design paper or digital maps Use GIS to acquire, manage, display, and analyze spatial data in digital
form
Hybrid Technical Skills 1
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Interpret and analyze available geographical, geological, and
geophysical data, maps, sections, and reports
Determine scales, distances, and elevations from imagery, surveys,
maps, and GIS
Prepare, analyze, and interpret logs, cross-sections, maps, and other
graphics derived from field investigations and GIS applications
Design paper or digital maps Use GIS to acquire, manage, display, and analyze spatial data in digital
form
Figure 6.14: Hybrid Technical Skills, part 2
Figure 6.13: Hybrid Technical Skills, part 1
HYBRID
39Geo Career MaPS Report
• Section 6 — Academic Preparation and Importance of Geology and Geography Technical Skills •
Hybrid Technical Skills 4
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Interpret geomorphic conditions and processes based on remote
sensing and GIS
Know and apply geographic information about geology and the
processes that shape physical landscapes (e.g., soils, hydrology,
topography, erosion)
Identify and define structural features and relations, including
constructing and interpreting structural projections and statistical
analyses
Interpret deformational history through structural and tectonic
analyses
Develop and apply tectonic models to identify geologic processes and
history
Hybrid Technical Skills 3
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Identify and interpret rock and mineral sequences, associations,
and genesis
Select and apply appropriate stratigraphic nomenclature and
establish correlations
Identify and interpret sedimentary processes and structures,
depositional environments, and sediment provenance
Determine absolute or relative age relationships of landforms,
sediments, and soils
Evaluate geomorphic processes and development of landforms,
sediments, and soils, including watershed functions
Hybrid Technical Skills 3
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Identify and interpret rock and mineral sequences, associations,
and genesis
Select and apply appropriate stratigraphic nomenclature and
establish correlations
Identify and interpret sedimentary processes and structures,
depositional environments, and sediment provenance
Determine absolute or relative age relationships of landforms,
sediments, and soils
Evaluate geomorphic processes and development of landforms,
sediments, and soils, including watershed functions
Figure 6.16: Hybrid Technical Skills, part 4
Figure 6.15: Hybrid Technical Skills, part 3
40 Geo Career MaPS Report
• Section 6 — Academic Preparation and Importance of Geology and Geography Technical Skills •
Hybrid Technical Skills 5
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Know and apply geographic information about natural hazards
(e.g., hurricanes, floods, earthquakes, fire)
Evaluate earthquake mechanisms, paleoseismic history, and hazards
Design groundwater monitoring, observation, extraction, production,
or injection wells
Evaluate water resources and assess aquifer yield and
sustainability
Characterize water quality and assess chemical fate and transport
Figure 6.18: Hybrid Technical Skills, part 6
Figure 6.17: Hybrid Technical Skills, part 5
Hybrid Technical Skills 6
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Manage, develop, protect, or remediate surface water or
groundwater resources
Compile, assess, and evaluate the data necessary to explore for mineral and energy resources
Estimate the distribution of resources based on surface and
subsurface data, including imagery and GIS applications
Determine quantity and quality of resources and reserves from
laboratory, surface, and subsurface data
Know and apply geographic information about the economy
and economic processes (e.g., labor, development, industry, agriculture,
transportation, trade, resources, land use, technology change)
Hybrid Technical Skills 5
Not Applicable/ I don't knowNot PreparedSomewhat PreparedAdequately PreparedExtensively Prepared
KEY Preparation:
Not Applicable/ I don't knowNot ImportantSomewhat ImportantImportantVery Important
KEY Importance:
Hybrid Students: n= 29Hybrid Faculty: n = 18
Hybrid Professionals: n = 27
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Faculty Students Prof. Prep.
Prof. Imp.
Know and apply geographic information about natural hazards
(e.g., hurricanes, floods, earthquakes, fire)
Evaluate earthquake mechanisms, paleoseismic history, and hazards
Design groundwater monitoring, observation, extraction, production,
or injection wells
Evaluate water resources and assess aquifer yield and
sustainability
Characterize water quality and assess chemical fate and transport
41Geo Career MaPS Report
• Section 6 — Academic Preparation and Importance of Geology and Geography Technical Skills •
Conclusion
Image submitted by Abijah Bauer to AGI’s 2014 Life in the Field contest.
The Geoscience Career Master’s Preparation Survey sought to investigate four lines of inquiry. These questions included issues of student motivations, career goals, and career decisions. The survey inquired about faculty and students’ satisfaction with their degree programs, the competencies
that are taught within the programs, and what types of positions students desire and typically secure upon graduation. Additionally, the survey investigated how important these competencies were to employment within non-academic sectors.
1. What are the motivations and career goals of Master’s students who pursue graduate study in geology and geography? What factors influ-ence and inform these decisions?
The majority of student respondents indicated that they enrolled in a graduate program due to extrinsic factors regarding career advancement. As one would expect, the majority of students enrolled in their graduate pro-grams to prepare for a better job upon graduation and to increase salary potential throughout their careers. In addition to these extrinsic career factors, students indi-cated that purely academic and intellectual pursuits were also important in their enrollment decisions. Students typically want to be intellectually challenged during their degree programs, and gaining more education and appreciation of ideas was particularly salient for geology students.
To supplement the information collected about students’ enrollment decisions, the survey also investigated their
career goals post-graduation. Geology students most often cited working within the private sector in educa-tion, environmental consulting, and energy exploration as career prospects. Furthermore, many geology students indicated that they wish to grow into management positions during their careers. Geography students typically want to work within GIS careers, in education, preservation and conservation, meteorology, or within industry in general. Students within hybrid programs had more diverse career goals including those listed above, as well as geochemistry, economic geology, and water resource challenges.
The top factors that influenced students’ career decisions were the individuals that students seem to have the most interaction with, including research advisors, faculty within their departments and at other institutions, and students’ significant others or family members. Some of the least influential factors included campus adminis-trators, and geoscience or non-geoscience professional societies, perhaps due to the relative lack of involvement of these entities in students’ daily lives.
42 Geo Career MaPS Report
2. What entry-level positions are most commonly taken by graduates of Master’s programs in geology and geography?
Though many geology students hope to secure govern-ment positions, the reality is that faculty report only about 10% find employment within the government. The 50% of geology students interested in the private sector have more realistic expectations – geology faculty indi-cated that nearly half of their graduates accepted these positions. These trends mirror non-academic profession-als’ career trajectories. Well over half of non-academic geologists secured positions within the private sector after their Master’s degree programs, and fewer than 20% secured government positions. As their careers advanced, 75% of participants currently hold positions in the private sector. Therefore, despite what students hope to pursue in the future, the majority of them end up working within the private sector, according to these trends.
Geography differs from geology in that nearly one-third of faculty indicated that their graduates secure positions within a non-profit or NGO. This is in contrast to the less than 10% of geology graduates who typically secure similar positions. Additionally, over 30% of geography graduates secure government positions, a contrast to the 10% of geology graduates, with geography students seeing stronger employment prospects at the state and local level given their tendencies towards GIS careers.
However, less than one-quarter of geography graduates secure positions within the private sector. These trends are similar to non-academic professionals’ positions; almost half of professionals accepted government positions after graduating from their Master’s programs, and about a third of them transitioned into the private sector. Unlike the employment trends that geography faculty report, less than 10% of professional geographers accepted a position within a non-profit or NGO. A stark contrast from geology non-academic professionals, the majority of geographers currently work in the government and less than one-third work within the private sector.
Career trends for hybrid-program students and profes-sionals are similar to the geography community. Faculty in hybrid programs indicate that over a third of their graduates secure positions within the non-profit/NGO sector and nearly half of students want to pursue these kinds of careers post-graduation. These are different career goals compared to the less than 20% of geolo-gists who are interested in a non-profit/NGO position. According to faculty reports, there is a greater chance that graduates from hybrid programs secure positions within the government, compared to geology students, which is reinforced by the fact that the majority of students want to pursue government careers once they graduate. One third of faculty indicated that their students typically secured private sector positions and nearly half of non-academic professionals from hybrid departments secured and still currently hold these positions.
Image submitted by Robert Witter/Alaska Geological Survey to AGI’s 2014 Life in the Field contest.
• Conclusion •
43Geo Career MaPS Report
3. How satisfied are faculty and students with the curriculum, advising, and professional development opportunities provided by Master’s programs?
Overall, faculty in geology, geography, and hybrid departments are consistently more satisfied than stu-dents with the curriculum, course offerings, applicability of coursework to students’ career aspirations, and the quality of instruction. The differences in satisfaction are more prominent in geology programs than in geography or hybrid programs.
Geology faculty and students are satisfied with career counseling and advising services. In addition, almost 40% of students are very satisfied with the amount of contact they have with faculty. Similar trends are observed in geography programs: nearly half of both faculty and students are very satisfied with the amount of faculty-student interaction. On the other hand, the majority of faculty from hybrid programs are not happy with career counseling and advising, which is not what students reported – about 60% indicated they were satis-fied with those services.
There is a consistent trend within all three programs with the lack of satisfaction faculty and students have regarding job and internship opportunities available both within and outside of the departments. Research opportunities, however, don’t present such consistent trends. Research opportunities are robust, according to faculty, in hybrid Master’s programs, and about half of student respondents indicated they are happy with the opportunities available. In geography programs, however, the majority of faculty and students are not impressed with the opportunities presented. Across the board, students and faculty are not particularly satisfied with training in teaching methods – about 75% of students across all three programs were not happy with or aware of training opportunities available in teaching methods.
4. What types of geoscience, geographic and gen-eral competencies are taught and developed in Master’s programs? How prepared were cur-rent non-academic professionals in their field of employment when entering the workforce from their Master’s degree programs? What are the skills and competencies required of new hires in geology and geography employ-ing industries, and how important are these to employment?
The study divided the competencies into two types – non-technical skills (“soft-skills”) and technical skills. The top non-technical skills that geology students are very pre-pared in include making visual presentations, teamwork skills, and public speaking. The most important skills, according to non-academic professionals, are writing, critical thinking, problem solving, time management, adaptability, and ethical practice. There seems to be a gap in what geology students are most prepared in versus what is actually used in the workplace. In geography, students’ skills are more analytical, including problem solving skills, critical thinking, quantitative, and com-puter and technology skills. Non-academic geographers’ most important skills include writing, critical thinking, problem solving, computer and technology skills, and time management skills. There seems to be more align-ment between geography students’ preparation and the non-technical skills which are most important for geographers’ careers. Similar to geography departments, students from hybrid programs are most prepared in creative thinking skills, critical thinking, problem solving, research planning and design, and quantitative skills. The most important skills to gainful employment include critical thinking, problem solving, time management, and ethical practice. It is interesting that ethical practice was a reoccurring skill that is very important in the workplace, yet it never appeared as something students had any formal preparation in learning.
Image submitted by Robyn Haney of Global Geophysical Services to AGI’s 2014 Life in the Field contest.
44 Geo Career MaPS Report
• Conclusion •
In addition to non-technical competencies, the study investigated different technical competencies for each type of program. Geology students are most prepared in interpreting and analyzing geological data and maps, and determining scales, distances and elevations from imagery and maps, of which over 50% of professionals indicate as very important to their careers. However, identifying and interpreting minerals, rocks, their char-acteristics, their sequences, associations and genesis is not as important in the workplace, and yet, students are prepared in these skills. Students don’t have as much preparation in incorporating human health concerns, safety, regulations or quality assurance/quality control, or collecting and interpreting historic information to plan geologic investigations, which nearly 50% of pro-fessionals indicate that these skills are very important to their positions. The data suggest overall that geology students are more prepared to work with, interpret, and manipulate a well-defined dataset, yet they are missing the applied skills which focus on understanding the full context of complex problems and developing creative solutions when given a diverse toolset.
Concerning the overlap of geology and geography, over half of non-academic geographers indicated knowing and applying geographic information about geology and geologic processes is very important to their careers. This is in contrast to the over 50% of students and faculty who feel students lack preparation in this topic. Conversely, geography students are most prepared in designing paper or digital maps and using GIS to acquire and ana-lyze spatial data, which are well aligned with workforce needs. About 75% of professional geographers indicated designing paper or digital maps is very important, and over 50% indicate using GIS to acquire and analyze spatial data is vital to their careers.
Similar to geography students, hybrid students are well prepared in designing paper or digital maps, using GIS to acquire and analyze spatial data, and additionally, interpreting and analyzing geographical and geological data, maps and reports. These three competencies were aligned with workforce needs – over 50% of profession-als indicated that they are very important to their careers. However, students were not as prepared to know and apply geographic information about natural hazards and yet almost half of professionals indicate that this is important. Students generally were not as prepared in skills that incorporated geologic content, knowledge or skills, and surprisingly, this finding is aligned with how important these skills typically are to the non-academic professionals who came from hybrid departments.
These emerging trends may be helpful in informing administrators, heads and chairs of departments, and faculty about the viability of non-PhD preparatory
Master’s programs in the geosciences. With the develop-ment of robust Professional Science Master’s Programs (PSMs) and online Master’s degree programs, many out-side of the geoscience discipline, the academic enterprise is continually evolving to match students’ acquired skills with workforce demand. Bolstering and offering more of these programs within the geosciences is imperative to matching students’ career expectations with the skills qualifications employers require.
Image submitted by Sam Robinson to AGI’s 2014 Life in the Field contest.
45Geo Career MaPS Report
• Conclusion •
Appendix 1: References and Resources
REFERENCES AND RESOURCES
References:
Wilson, C. (2014). Status of the Geoscience Workforce 2014. American Geosciences Institute.
Resources:
• American Geosciences Institute (AGI) website: www.americangeosciences.org
• AGI’s Workforce Program website: www.americangeosciences.org/workforce
• Statistical Analysis Report for Geo Career MaPS: www.americangeosciences.org/workforce/geo-career-maps
• AGI’s Workforce Reports Page: www.americangeosciences.org/workforce/reports
• Association of American Geographers (AAG) website: www.aag.org
• AAG’s Enhancing Departments and Graduate Education (EDGE) website: www.aag.org/edge
• National Association of State Boards of Geology: www.asbog.org
Image submitted by Alisa Kotash to AGI’s 2014 Life in the Field contest.
46 Geo Career MaPS Report
Appendix 2: List of Figures
2 Section 1 — Demographics of Geoscience Career Master’s Preparation Survey Participants
3 Figure 1.1: Age and Gender of Geology Respondents
3 Figure 1.2: Race and Ethnicity Demographics for Geology Respondents
4 Figure 1.3: Age and Gender of Geography Respondents
4 Figure 1.4: Race and Ethnicity Demographics for Geography Respondents
5 Figure 1.5: Age and Gender of Hybrid Respondents
5 Figure 1.6: Race and Ethnicity Demographics for Hybrid Respondents
6 Section 2 — Student Experiences within Master’s Programs
6 Figure 2.1: Students’ Decisions to Enroll in a Graduate Program, part 1
6 Figure 2.2: Students’ Decisions to Enroll in a Graduate Program, part 2
7 Figure 2.3: Students’ Decisions to Enroll in a Graduate Program, part 3
7 Figure 2.4: Students’ Decisions to Enroll in a Graduate Program, part 4
7 Figure 2.5: Students’ Decisions to Enroll in a Graduate Program, part 5
8 Figure 2.6: Influences on Students’ Career Goals, part 1
9 Figure 2.7: Influences on Students’ Career Goals, part 2
9 Figure 2.8: Influences on Students’ Career Goals, part 3
10 Figure 2.9: Influences on Students’ Career Goals, part 4
10 Figure 2.10: Influences on Students’ Career Goals, part 5
11 Figure 2.11: Students’ Financial Support in Master’s Degree Programs
12 Section 3 — Faculty and Students’ Satisfaction with Departments
12 Figure 3.1: Satisfaction with Geology Departments, part 1
13 Figure 3.2: Satisfaction with Geology Departments, part 2
13 Figure 3.3: Satisfaction with Geology Departments, part 3
14 Figure 3.4: Satisfaction with Geography Departments, part 1
15 Figure 3.5: Satisfaction with Geography Departments, part 2
15 Figure 3.6: Satisfaction with Geography Departments, part 3
16 Figure 3.7: Satisfaction with Hybrid Departments, part 1
17 Figure 3.8: Satisfaction with Hybrid Departments, part 2
17 Figure 3.9: Satisfaction with Hybrid Departments, part 3
18 Section 4 — Types of Positions Taken by Students 19 Figure 4.1: Geology Students’ Accepted/Desired Positions
19 Figure 4.2: Geology Professionals’ Post-graduate and Current Positions
20 Figure 4.3: Geography Students’ Accepted/Desired Positions
20 Figure 4.4: Geography Professionals’ Post-graduate and Current Positions
21 Figure 4.5: Hybrid Students’ Accepted/Desired Positions
21 Figure 4.6: Hybrid Professionals’ Post-graduate and Current Positions
22 Section 5 — Academic Preparation and Importance of Non-Technical Skills for Geoscience Employment
23 Figure 5.1: Geology Non-Technical Skills, part 1
23 Figure 5.2: Geology Non-Technical Skills, part 2
24 Figure 5.3: Geology Non-Technical Skills, part 3
24 Figure 5.4: Geology Non-Technical Skills, part 4
25 Figure 5.5: Geology Non-Technical Skills, part 5
25 Figure 5.6: Geology Non-Technical Skills, part 6
26 Figure 5.7: Geography Non-Technical Skills, part 1
26 Figure 5.8: Geography Non-Technical Skills, part 2
27 Figure 5.9: Geography Non-Technical Skills, part 3
27 Figure 5.10: Geography Non-Technical Skills, part 4
28 Figure 5.11: Geography Non-Technical Skills, part 5
28 Figure 5.12: Geography Non-Technical Skills, part 6
29 Figure 5.13: Hybrid Non-Technical Skills, part 1
29 Figure 5.14: Hybrid Non-Technical Skills, part 2
30 Figure 5.15: Hybrid Non-Technical Skills, part 3
30 Figure 5.16: Hybrid Non-Technical Skills, part 4
31 Figure 5.17: Hybrid Non-Technical Skills, part 5
31 Figure 5.18: Hybrid Non-Technical Skills, part 6
32 Section 6 — Academic Preparation and Importance of Geology and Geography Technical Skills
33 Figure 6.1: Geology Technical Skills, part 1
33 Figure 6.2: Geology Technical Skills, part 2
34 Figure 6.3: Geology Technical Skills, part 3
34 Figure 6.4: Geology Technical Skills, part 4
35 Figure 6.5: Geology Technical Skills, part 5
35 Figure 6.6: Geology Technical Skills, part 6
36 Figure 6.7: Geology Technical Skills, part 7
36 Figure 6.8: Geology Technical Skills, part 8
37 Figure 6.9: Geography Technical Skills, part 1
37 Figure 6.10: Geography Technical Skills, part 2
38 Figure 6.11: Geography Technical Skills, part 3
38 Figure 6.12: Geography Technical Skills, part 4
39 Figure 6.13: Hybrid Technical Skills, part 1
39 Figure 6.14: Hybrid Technical Skills, part 2
40 Figure 6.15: Hybrid Technical Skills, part 3
40 Figure 6.16: Hybrid Technical Skills, part 4
41 Figure 6.17: Hybrid Technical Skills, part 5
41 Figure 6.18: Hybrid Technical Skills, part 6
47Geo Career MaPS Report
American Geosciences Institute 4220 King Street, Alexandria, VA 22302, U.S.A. phone: 703-379-2480; www.americangeosciences.org
AGI Geoscience Workforce Program(www.americangeosciences.org/workforce) tracks the supply and demand of geoscientists by collecting original data and by analyzing existing data from federal, industry, and other sources. The Geoscience Workforce Program informs the geoscience community by reporting on workforce and higher education trends and by making predictions for future workforce needs.
Image submitted by Alison Dorsey to AGI’s 2014 Life in the Field contest.