Review Article
Syllabus Mining for Information Literacy Instruction:
A Scoping Review
Kathleen Butler
Health Sciences Librarian
University Libraries
George Mason University
Fairfax, Virginia, United
States
Email: kbutle18@gmu.edu
ORCID ID 0000-0002-9608-4784
Theresa Calcagno
IT and Engineering Librarian
University Libraries
George Mason University
Fairfax, Virginia, United
States
Email: tcalcagn@gmu.edu
ORCID ID 0000-0001-7422-1330
We have no conflicts of
interest to disclose.
Correspondence concerning
this article should be addressed to Kathleen Butler, University Libraries,
George Mason University, 4400 University Dr., MSN 2FL, Fairfax, VA 22030.
Email: kbutle18@gmu.edu
Received: 6 July 2020 Accepted: 15 Sept. 2020
2020 Butler and Calcagno. This is an Open
Access article distributed under the terms of the Creative Commons‐Attribution‐Noncommercial‐Share Alike License 4.0
International (http://creativecommons.org/licenses/by-nc-sa/4.0/),
which permits unrestricted use, distribution, and reproduction in any medium,
provided the original work is properly attributed, not used for commercial
purposes, and, if transformed, the resulting work is redistributed under the
same or similar license to this one.
DOI: 10.18438/eblip29800
Abstract
Background - The course syllabus is a roadmap to
curriculum development and student learning objectives providing valuable
information to assist library instruction. This scoping review examines
research that uses syllabus mining to track Information Literacy concepts and
skills in academic settings.
Objectives - The present study uses a scoping
methodology to examine syllabus mining of Information Literacy with the focus
of analysis on the methodologies employed in syllabus review and the
recommendations from the studies.
Design - Searches of databases of literature
from librarianship and education, as well as a multidisciplinary database,
yielded 325 journal articles. Inclusion criteria specified peer-reviewed
articles from any year, and excluded grey literature. After removing
duplicates, 2 reviewers screened titles and abstracts and reviewed full text,
yielding 17 studies to analyze.
Results - Characteristics of the included
studies, methodology, and recommendations were charted by two reviewers. All
studies reported retrieving information that increased opportunities for
collaboration with instructors and targeted engagement with students, and seven
themes were identified.
Conclusions - Instructional librarians should be
encouraged to conduct syllabus studies to increase collaboration with faculty
to develop coursework, to meet student information needs in a strategic manner,
and to identify discipline-specific Information Literacy concepts.
Introduction
Course
syllabi provide a roadmap to instructional goals and the development of the
student as scholar. Although syllabi may present challenges with accessibility
and inconsistency, and contain incomplete or vague content, they are one tool
instructional librarians can use to coordinate Information Literacy (IL)
instruction with a course. Student learning objectives (SLOs) in syllabi show
concepts suitable for instruction, helping librarians coordinate the timing of
instruction and skill development (Miller & Neyer,
2016).
One
reason for studying research on syllabus mining is to see how IL has evolved
over time. Perceptions of IL are still evolving, beginning with bibliographic
instruction and moving to IL Standards, and in 2018, the creation of the IL Framework.
Many disciplines and accreditation agencies now incorporate IL concepts as part
of their professional competencies (AAC&U, n.d.; ACHE Healthcare Executive
Competencies Assessment Tool, 2020). Examining the syllabus of a course is an
effective way to determine how IL is reflected and will help the library
instructor put the necessary IL skills and concepts into relevant context.
Another
reason to study syllabus mining is to identify ways library instructors can
collaborate with faculty (Williams, et al, 2004; Dubicki, 2019). By examining
syllabus course objectives, the librarian has information to suggest timely and
relevant literacy instruction to faculty and create support materials in
subject guides or build instructional modules for integration in online
learning systems.
Williams,
Cody, and Parnell (2004, p.270) sum up the importance of syllabi studies to
academic libraries: “key to embedding the library into the student experience
is to be an integral part of the course work. The most detailed evidence of
what that coursework entails is the syllabus. Therefore, obtaining and
analyzing syllabi for existing and potential library collaboration are valuable
endeavors for librarians.”
Historically,
syllabus studies in library research examine different outcomes. Rambler (1982,
p.156) is credited with the first study in library research to examine the
syllabi across an academic setting to identify assignments that require library
resources and services: “In essence, decisions and actions based at least in
part on findings from a syllabus study can facilitate the creation of the
ideally responsive and completely curriculum-integrated library.” Other studies
look at how the syllabus reflected or influenced library usage (Dewald, 2003;
Lauer, 1989) or collection development (Lukes et al.,
2017). This scoping review aims to systematically search for library research
utilizing syllabus studies and Information Literacy objectives or instruction
in academic settings to provide an overview of what research has already been
done and help inform new research.
Why a Scoping Review?
A systematic review “uses explicit, systematic methods that are selected
with a view to minimizing bias, thus providing reliable findings from which
conclusions can be drawn and decisions made” (Liberati
et al., 2009, p. e2). The strict methods used in a systematic review and a
scoping review are designed to minimize bias in study selection and analysis
and provide transparent and replicable study design. However, unlike a systematic
review, a scoping review is designed to look at literature on a topic without
an analysis of quality, so it reveals an overview of all research on a broad
topic. The results of a scoping review will not necessarily point to new or
best practices or answer a clinical question, but will show the breadth of
research conducted on a topic. (Arksey & O’Malley, 2005; Peters et al.,
2015).
This scoping review follows the five stages outlined by Arksey and
O’Malley (2005): 1) identifying the research question, 2) identifying relevant
studies, 3) study selection, 4) charting the data, and 5) collating,
summarizing, and reporting the result. Also consulted was the scoping review
checklist published by The Preferred Reporting Items for Systematic Reviews and
Meta-Analyses (PRISMA) in 2018, which includes 20 essential items. (Tricco et al., 2018)
The topics of this scoping review are:
- How has syllabus mining or syllabus review been
used by librarians to inform Information Literacy instruction in the
academic setting?
- What methods for analyzing syllabi are described
in library and information science literature?
- What are the conclusions or recommendations of
these studies for IL instruction?
Methods
A protocol established by the authors identified inclusion and exclusion
criteria. The protocol is registered at Open Science Framework, February 26,
2020, osf.io/9ur2n, “Syllabus mining for
Information Literacy instruction: A scoping review protocol.”
Eligible articles for inclusion must be in the English language and peer
reviewed. Only syllabus studies of college or university classes (undergraduate
and graduate levels) in any discipline were included. Grey literature was
excluded as were studies using syllabi created by librarians for information
literacy. No dates were specified, so selected databases were searched without
date limits. The search was completed in May 2019.
The searches were performed in the databases that index library research
and education research: Library and Information Sciences Abstracts, Library and
Information Technology Abstracts, ERIC, and Education Research Complete. Web of
Science was searched as the multidisciplinary database available to the
reviewers.
Figure 1
PRISMA Flowchart
The search strategy used keywords and controlled vocabulary to reflect
concepts of “information literacy” and syllabus.
The following search was executed in Library Literature and Information Science Index Full
Text and Library and Information Science and Technology
Abstracts databases using keywords and descriptors (DE):
- (Syllabus or syllabi)
- (“information literacy” or “librar* instruction” or “librar*
teach*” or “bibliographic instruction” or “library research”)
- (DE "Information literacy" OR DE
"Electronic information resource literacy" OR DE "Health
literacy" OR DE "Internet literacy" OR DE "Media
literacy")
- 2 or 3
- 1 and 4
Source Selection
Search results were collected using Zotero (https://zotero.org), a
citation management software, and duplicates were removed using that software’s
feature. Two reviewers independently conducted abstract review using Rayaan (https://rayyan.qcri.org/) software. The reviews
were blinded (reviewer did not know other reviewer’s decision) using Rayaan’s feature to help minimize bias. Any differences in
include/exclude decisions were resolved with discussion. The reviewers piloted
a checklist of inclusion/exclusion criteria for full text review in Rayaan and differences were resolved with discussion. In
addition, the reviewers checked the bibliographies of selected articles and,
after a second review, decided to include two studies previously excluded. The
PRISMA flowchart (Figure 1) reflects the steps of the selection and review
process.
Data Charting
A preliminary Excel sheet with categories was created, and two articles
were independently charted by two reviewers. The results were compared, and
after discussion the chart was fine-tuned with additional categories before
charting all articles. After all articles were charted, reviewers agreed some
categories (academic units, class standing, and number of syllabi; methodology
and analysis) should be combined.
Variables charted for each article included:
·
purpose or research question(s)
·
academic units
·
graduate or undergraduate classes
·
number of syllabi retrieved
·
methodology and methods of analysis
·
indicators for Information Literacy instruction
·
IL standards used
·
results
·
recommendations
·
limitations
·
themes
Results
Search results yielded 325 journal articles, and an additional 20
articles were identified through citation analysis of chosen articles.
Duplicates were removed and 115 articles were eliminated because they did not
meet predetermined criteria. The resulting 25 articles were examined in full
text, and eight articles were eliminated because Information Literacy was not
the focus of the research or they focused on library usage or collection
development. The total number of articles for synthesis was 17.
One article (Rambler, 1982) was not included in the final analysis, even
though it is cited frequently by research and considered a foundational study.
While it is cited as the first syllabus study to address library integration,
the outcomes were related to library usage and not specifically Information
Literacy instruction. Thus, this study is outside the scope of this syllabus
review.
Table
1
Study
Characteristics
|
Citation |
Purpose |
Academic Units |
# of Syllabi |
|
Undergraduate Course Syllabi Studies |
|||
|
Alcock & Rose., 2016 |
1) Examine difference in disciplinary IL & instruction; 2) Identify
gaps & opportunities to integrate instruction |
History
and Chemistry |
48 |
|
Dewald, 2003 |
1) Identify faculty expectations of library use and research for
undergraduate business students. |
School
of Business |
Not
explicitly stated |
|
Dinkelman, 2010 |
1) Identify research components of IL learning outcomes; 2)
Examining IL instruction in a single discipline. |
Biology
(majors only) |
104 |
|
Lowry, 2012 |
1) Identify faculty expectations of Library use for
undergraduate business students |
Business/Accounting |
66 |
|
McGowan, et al.,2016 |
1) See how IL courses aligned with ACRL IL Standards. |
Multi-disciplinary
(all) |
1153 |
|
Miller & Neyer, 2016 |
1) Identify research components of IL learning outcomes; 2) Map
nursing curriculum to multiple published IL standards. |
Nursing |
25 |
|
Morris, et al., 2014 |
1) Identify expectations of history faculty for archival
research skills; 2) Create a list of archival research competencies. |
History |
37 |
|
O’Hanlon,
2007 |
1)
Identify relationship of institutional learning outcomes to library research skills
instruction; 2) Develop a better understanding of faculty implementation of
learning outcomes in the classroom. |
Multi-disciplinary |
71 |
|
Smith,
et al., 2012 |
1)
Identify gaps and opportunities to integrate IL instruction; 2) Examine
differences in disciplinary IL instruction; 3) Examined library usage
expectations |
Multi-disciplinary
(all) |
144 |
|
Stanny, et al., 2015 |
1) Review syllabi for best practice components and IL was a part
of this assessment. |
Multi-disciplinary
(all) |
1153 |
|
VanScoy, & Oakleaf, 2008 |
1) Assess research skills needed by incoming college freshman;
2) Identify gaps and opportunities for curriculum-based IL instruction. |
Multi-disciplinary (all) |
139 |
|
Undergraduate and Graduate Course Syllabi Studies |
|||
|
Beuoy,& Boss, 2019 |
1) Establish methodology for syllabus analysis using ACRL
Framework; 2) Identify opportunities for scaffolded/tiered IL instruction; 3)
Examine Disciplinary IL instruction |
Media,
Culture & Communication; Food Studies; & Teaching & Learning |
104 |
|
Boss, & Drabinski, 2014 |
1) Identify opportunities for curriculum-integrated IL
instruction in School of Business classes. |
School
of Business |
79 |
|
Dubicki, 2019 |
1) Align IL instruction with IL in syllabus/curriculum; 2)
Opportunities for scaffolded/tiered IL instruction. |
Multi-disciplinary |
180 |
|
Jeffery, et al., 2017 |
1) Identify library resources and people in syllabus; 2)
Identify library engagement opportunities 3) Establish methodology for
syllabus analysis. |
Multi-disciplinary; |
1258 |
|
Maybee, et al., 2015 |
1)
Identify expectations for student learning in IL and Data IL |
Nutrition; Political Science |
88 |
|
Willingham-McLain, 2011 |
1) Examine articulation of learning outcomes; 2) Determine
alignment of student learning outcomes in syllabi with Institutional
outcomes. |
Multi-disciplinary
(10 schools) |
280 |
Synthesis of
Results
Purpose
of Research (Table 1 Characteristics)
The overall purpose of these research studies was
to coordinate library IL instruction with course and faculty expectations.
Investigators hoped the results would identify opportunities for, and find gaps
in, IL instruction (Alcock & Rose, 2016; Dinkleman, 2010; Jeffrey et al., 2017; Smith et al., 2012)
and better collaboration with faculty (Dubicki, 2019; Lowry, 2012; McGowan et
al., 2016; Stanny et al., 2015; Dewald, 2003).
Several articles discussed the place of library IL in overall curriculum
development, and looked for ways to scaffold, embed, or tier instruction (Beuoy & Boss, 2019; Boss & Drabinski,
2014; Dinkelman, 2010; VanScoy
& Oakleaf, 2008; Willingham-McClain, 2011). Also, aligning course
objectives with IL standards or institutional IL standards was present in
several articles (Willingham-McClain, 2011; Beuoy
& Boss, 2019; McGowan et al., 2016; Miller & Neyer,
2016; Dubicki, 2019). Identifying IL components of disciplinary competencies
was key in accounting (Lowry, 2012), nursing (Miller & Neyer,
2016), biology (Dinkleman, 2010) and other
disciplines (Maybee et al., 2015; Dewald, 2003).
Developing IL competencies specific to archives (Morris et al., 2014) and data
(Maybee et al., 2015) were prominent in two studies.
Jeffrey et al. (2017) hoped to establish a methodology for syllabus analysis.
Academic Units,
Number Grad/Undergrad (Table 1 Characteristics)
There
was a wide variation in number of syllabi included in research design. A total
of 1153 syllabi were retrieved and analyzed in 2 different papers by the same
group of researchers. In the first paper, IL was a piece of the overall
evaluation and the study was a collaboration between the librarian and
institutional entities evaluating syllabi for best practices (Stanny et al., 2015). The same data set was examined more
closely for IL outcomes in the second article (McGowan et al., 2016). The
smallest set was 13 syllabi from Chemistry courses (Alcock
& Rose, 2016) compared to 35 syllabi retrieved from History courses. The
author acknowledged the small set was not generalizable but did offer insight
into the instructors’ expectations for IL.
Six
studies looked at a combination of graduate and undergraduate courses (see Table 1) and 11 studies examined
syllabi from undergraduate courses only. There was not a study that examined
graduate course syllabi only.
Eleven
studies analyzed syllabi for a range of disciplines (Table 1), but 6 studies focused on individual disciplines,
specifically, biology, accounting, nursing, history, and business. Two papers
provided direct comparisons of two disciplines, contrasting science,
humanities, and social sciences—history vs chemistry, and nutrition vs
political science.
The
indicators for IL content reflected tasks, assignments and concepts:
- Tasks that reflected
library resource usage –find articles, find statistics (VanScoy & Oakleaf, 2008; Lowry, 2012; Alcock &
Rose, 2016; Dewald, 2003).
- Assignments including
independent use of the library, research papers, annotated bibliographies
(McGowan et al., 2016; Dubicki, 2019).
- Statements in the
syllabus that reflected IL concepts:
- SLOs: academic integrity, critical thinking (Dubicki, 2019)
- IL competencies from discipline standards—AACN Nursing (Miller
& Neyer, 2016); Canadian accounting (Lowry,
2012)
- Institutional curriculum goals (Willingham-McLain,
2011)
- ACRL standards (McGowan et al., 2016), ACRL Framework (Boss &
Drabinski, 2014; Beuoy
& Boss, 2019)
- SLOs in syllabus
compared to IL concepts from ACRL (Stanny et
al., 2015; Miller & Neyer, 2016; McGowan et
al., 2016; Lowry, 2012; Dubicki, 2019; Beouy
& Boss, 2019) AAC&U (Miller & Neyer,
2016; Boss & Drabinski, 2014; Alcock & Rose, 2016), or Middle States Commission
on Higher Education (Willingham-McClain, 2011).
The Lauer/Dewald rating scale was used by
multiple studies to score the syllabi from 0-4 (used by Smith et al., 2012; Lowry,
2012; Dewald, 2003). A score of zero was assigned if a syllabus showed no
research or library use, one point was given to a syllabus with reserve
readings, a score of two meant students were required to complete optional
readings not on reserve, three points were awarded for shorter writing
assignments or presentations, and four points were awarded to a syllabus
reflected a significant research project (10 pages or 20% of grade).
Boss and Drabinski
(2014) developed a list of questions, each related to an ACRL frame. Responses
were scored 0-2 for each frame, with a possible total of 12 points (used by Alcock & Rose, 2016; adapted by Beouy
& Boss, 2019). A list of questions derived from O’Hanlon (2007) were used
by Dinkleman (2010) to evaluate syllabi but not
assigned a score.
Most studies reported results in terms of
percentages of syllabi that contained IL concepts or assignments (Table 3).
Percentages varied by discipline (Alcock
& Rose, 2016; Dinkelman, 2010; Lowry, 2012;
Morris et al., 2014). Science classes showed fewer assignments that required
library research (Alcock & Rose, 2016; Dinkelman, 2010). History, as a subject in Arts &
Humanities, required many more library research assignments (Alcock & Rose, 2016; Morris et al., 2014). Percentages
of IL present in syllabi differed by which indicators were used in assessment,
and for this reason, comparison of studies is problematic. VanScoy
& Oakleaf (2008) looked for statements in syllabi that required finding any
library material and scored a 97% rate in syllabi. Independent research was
used as an indicator of IL in Boss and Drabinski,
(2014) with a rate 73%, and also in Alcock and Rose
(2016) showing History at 85% and Chemistry at 39%.
Rubrics, scales, or questions were used by multiple
reviewers as evaluation tools for syllabi, so interrater reliability was an
important consideration. Interrater
reliability was calculated for Beouy and Boss (2019)
using Cohen’s kappa calculations; Krippendorf’s alpha
was used in studies by Boss and Drabinski (2014) and
McGowan et al. (2016). McGowan et al. (2016) used a random sample of syllabi
for norming with reviewers. Scores
were assigned for the presence of IL tasks or concepts in syllabi: 0-4 (Smith
et al., 2012; Lowry, 2012; McGowan et al., 2016).
Table
2
Indicators
for Information Literacy in Syllabi
Indicators of IL |
critical thinking |
evaluating sources |
integrate multiple
viewpoints |
academic integrity |
form research question |
annotated bib;
presentations; book reports |
research paper/project |
independent research |
Data |
use reserves; find
articles, etc |
|
Alcock & Rose, 2016 |
X |
X |
X |
X |
X |
|||||
|
Beuoy & Boss, 2019 |
X |
X |
X |
X |
X |
X |
||||
|
Boss
& Drabiniski, 2014 |
X |
X |
X |
X |
X |
|||||
|
Dewald,
2003 |
|
|
|
|
|
X |
X |
|
|
X |
|
Dinkleman, 2010 |
X |
X |
X |
X |
||||||
|
Dubicki,
2019 |
X |
X |
X |
X |
||||||
|
Jeffrey
et al., 2017 |
X |
X |
X |
|||||||
|
Lowry,
2012 |
X |
X |
X |
|||||||
|
Maybee et al., 2015 |
X |
X |
X |
X |
||||||
|
McGowan,
2016 |
X |
X |
X |
|||||||
|
Miller & Neyer,
2016 |
X |
X |
X |
X |
X |
|||||
|
Morris,
2014 |
X |
|||||||||
|
O’Hanlon,
2007 |
|
|
|
|
|
|
X |
X |
|
X |
|
Smith
et al., 2012 |
X |
X |
X |
|||||||
|
Stanny et al., 2015 |
X |
X |
||||||||
|
Vanscoy &
Oakleaf, 2008 |
X |
X |
||||||||
|
Willingham-McLain,
2011 |
X |
X |
X |
X |
Table 3
Methodology and Analysis of Studies Reviewed
|
Citation |
IL Standards used in Analysis |
Syllabi with IL Indicators (%) |
Analysis |
|
|
Alcock, E., & Rose, K., 2016 |
ACRL Framework; AAC&U |
History 85% (independent research); Chemistry 39%
(independent research) |
Used a question list requiring yes/no answers;
also searched for keywords in the text. Bias was minimized by using yes/no
answers and double coding. Quantitative methods. |
|
|
Beuoy, M., & Boss, K., 2019 |
ACRL Framework |
not specifically reported |
Used the Boss & Drabinski
(2014) scale and adapted it to the ACRL IL Framework. Normed a randomized set
of syllabi; inter-rater reliability was calculated using Cohen's kappa. Used NVIVO for analysis of syllabi text.
Used scale to review syllabi for the presence of the 6 IL frames. Assigned each syllabi a score of 0-2 based
on the frame presence. Quantitative methods. |
|
|
Boss, K., & Drabinski,
E., 2014 |
AAC&U |
73% |
Developed questions based on the AAC&U VALUE
rubric to measure presence of IL concepts in syllabi. Two raters evaluated
syllabi independently and compared. Normed a set of three unrelated syllabi
at beginning and measured inter-rater reliability using Krippendorf's
alpha and Stemler's per cent agreement method. Quantitative methods. |
|
|
Dewald, N., 2003 |
None |
52.90% |
Modified the scale developed by Lauer et al. (1989) to include non-library research,
e.g. online research or personal contact. Analyzed syllabi and scored them
according to the scale. Quantitative methods. |
|
|
Dinkelman, A. L., 2010 |
None |
25% (biology) |
Combined rubrics/question lists from Holiday
& Martin (2006) and O'Hanlon (2007) and then added several other
questions. Norming was not done. Used the combined list to evaluate syllabi
for the inclusion of IL concepts. Data were collected on Excel sheets.
Quantitative methods. |
|
|
Dubicki, E., 2019 |
ACRL Framework |
81% |
Syllabi were analyzed to identify SLOs, research
assignments, library services and resources.
Data were collected using Excel spreadsheets listing courses by level
and course codes. Columns contained the possible IL indicators on a syllabi and their presence was marked with a check.
Faculty defined learning outcomes were then mapped to the ACRL IL
Framework. |
|
|
Jeffery, K. M., et al., 2017 |
None |
21% (research) |
Obtained spreadsheet for syllabi metadata and
wrote script to use to download syllabi from the DSpace
repository. All syllabi (1258) were converted to PDF and imported into QDA
Miner. Metadata were applied to each
document. Developed list of keywords
related to library, library services, spaces, and research assignments. Similar keywords were grouped to form
codes. Coded syllabi (1226 or 17% of
classes) were analyzed. Used Sorenesen's
coefficient of similarly to map relationships between codes. |
|
|
Lowry, L. 2012 |
ACRL Standards; Canadian professional accounting
competency standards: Canadian Institute
of Chartered Accountants; Certified Management Accountants Canada and
Certified General Accountants Canada |
12% (upperclass
Accounting) |
Collected accounting syllabi for 1 academic year.
Modified Dewald's (2003) revision of the scale developed by Lauer et al.
(1989). The current revision included questions related to the use of course
management systems for linked readings. Author coded syllabi using the
modified 5 pt scale. Evidence-based methods.
Quantitative methods. |
|
|
Maybee, C., et al., 2015 |
None |
13.8% (undergrad Political Science) 17.9% (undergrad Nutrition
Science) 57.1% (Grad Political
Science) 69% (Grad Nutrition
Science) |
Used Grounded Theory approach. Used two teams, one for each subject
area. Teams read though syllabi and
did initial coding. Syllabi were
reviewed a second time by teams and coding results were discussed. Categories of code groups were created and
memos discussing each category were written (iterative process). When
consensus was reached on the categories, the teams reviewed them to identify
the themes. Qualitative method. |
|
|
McGowan, B., et al.,2016 |
ACRL Standards |
79% |
Developed a rubric to measure if student learning
outcomes were aligned with the ACRL IL Standards. Rubric was normed using 110
syllabi randomly selected for training with graduate student reviewers. Conducted weekly calibration checks with
coder pairs; computed inter-rater agreement. Agreement scores improved during
the process. Quantitative methods. |
|
|
Miller, M., & Neyer,
L., 2016 |
ACRL IL Standards; AAC&U VALUE Rubric; ACRL
Standards for Nursing; AACN standards (Nursing); |
not specifically reported |
Collected all syllabi for nursing classes (n=25)
and assignment descriptions. Data were transferred to spreadsheets along with
keywords from the course description, course objectives, etc. Learning
Outcomes were then mapped to the AAC&U VALUE Rubric for IL and written
communication. Mapping was also done
to the ACRL Standards for both IL (2000) and for Nursing (2013). A crosswalk was developed with the AACN
Essentials (2008). |
|
|
Morris, S., et al., 2014 |
None |
60% (primary sources) |
University Archivist developed a list of
indicators of archival activities and syllabi were analyzed to identify
classes with any of these indicators present. Conducted interviews with
select History faculty regarding their expectations for student development
of archival awareness and research skills. Revised list of archival
competencies using suggestions from faculty.
After list was revised, sent the list to all history faculty for the
feedback. Mixed Methods. |
|
|
O'Hanlon, N. 2007 |
None |
not specifically reported |
Conducted web-based survey of faculty focused on
writing assignments and research related tasks used in classes as wells as
information research skills in students.
Reviewed syllabi from interested survey respondents or syllabi that
were found on the Internet. Syllabi came from second writing classes and
senior capstone courses. Mixed Methods. |
|
|
Smith, C., et al., 2012 |
None |
57% |
Gathered syllabi from Registrar (5173 course
sections). Filtered out certain class
types: First Year Composition, Graduate, laboratory classes and directed
research classes. Randomly sampled the
remaining syllabi (n=1496) to get a subset of 200 syllabi. Requested syllabi for these classes from
instructor with a return rate of 52% (144 syllabi). Used Dewald's modified
version (2003) of the Lauer et al. scale (1989). Syllabi were coded by pairs of reviewers
and disagreements were noted. All
disagreements on syllabi were then re-examined and coded by all six team
members. Quantitative Methods. |
|
|
Stanny, C., et al., 2015 |
ACRL Standards |
59.20% |
Developed a rubric and used it to document SLOs
and assignments on the syllabi and their alignment with the ACRL IL Standards. Rubric was normed using 110 syllabi
randomly selected for training purposes.
Conducted weekly calibration checks with coder pairs and inter-rater
agreement (95%) was computed. Quantitative methods. |
|
|
VanScoy, A., & Oakleaf, M.J., 2008 |
Mentioned ACRL IL Standards but not used in analysis |
97% |
Registrar provided a random sample (n=350) of
first semester, freshman containing course information for each. Data were transferred to a relational
database for analysis. Syllabi and assignment information were collected but
complete data were collected for only 139.
The full set of syllabi was analyzed to see if assignments required
research tests and yes/no was entered into the database. |
|
|
Willingham-McLain, L., 2011 |
IL Components from the Middle States Commission
on Higher Education; Institutional Student Learning Outcomes |
44% |
Created question list from self-study questions
list developed by University for accreditation. Created a random sample of syllabi
containing 10% of courses in all departments.
Solicited syllabi from department and received 68%. Developed a detailed coding sheet and then
refined it to be more precise. Three
researchers each coded one-third of the syllabi for answers to all the
questions. IL was present if one or
more of the IL indicators from the Middle States Commission on Higher
Education were found. Random, stratified sample used; IRR was informally
done. |
In some studies, scales were used to
assign scores to syllabi showing the extent of IL activity. Higher scores were
associated with more demanding IL assignments (Smith et al., 2012; Lowry, 2012; McGowan et al., 2016). The Lauer rating scale gave long research
papers/projects more weight than shorter assignments. The syllabi in Beouy and Boss (2019) were compared to the ACRL framework
and each frame present in the syllabus was scored between 0-2, with an optimal
IL score of 12 points for the syllabus. Other studies mapped syllabi to
IL concepts in professional standards, such as AAC&U (Boss & Drabinski, 2014; Alcock & Rose, 2016); AACN Essentials, and the ACRL
Standards for Nursing (Miller & Neyer, 2016).
Institutional Student Learning Objectives were also used as tool for
identifying IL concepts (Willingham-McClain, 2011; O’Hanlon, 2007).
For many papers, the syllabus studies highlighted
classes that were missed by subject librarians or that provided opportunities
for IL instruction (McGowan et al., 2016; Alcock
& Rose, 2016; Beouy & Boss, 2019; Boss & Drabinski, 2014). The results of syllabus analysis gave librarians
new and strategic information for approaching faculty and more opportunities
for collaboration (Lowry, 2012; Boss & Drabinski,
2014; Beouy & Boss, 2019; Dewald, 2003).
Willingham-McLain
(2011) and Dinkelman (2010) made recommendations for improving syllabi overall. Dinkleman
specifically addressed ways to make library resources and services clear to
students. For science classes, names of discipline specific databases
should be part of the syllabus and the subject librarian and library resources/services
should be mentioned. Also, wording can be confusing and students may
misinterpret directions. If the statement "Only 2 resources may be from
the Internet” is in the syllabus, students may think a scholarly article from a
dot com publisher is excluded (Dinkleman, 2010).
Tailoring IL instruction for different disciplines
was described in several studies. Dinkleman (2010)
noted the basics of science literacy and reading a scientific article were
indicators for IL instruction. Alcock & Rose (2016) compared syllabi from Chemistry and History,
and Maybee et al. (2015) compared syllabi from
Nutrition Science and Political Science. Both studies noted very different SLOs
and research development. Data literacy was included in the Maybee
et al. (2015) review and they argue that data literacy is a component that
should be included when measuring IL. Morris et al. (2014) looked at archival
literacy as a specialized form of IL and examined syllabi for use of primary
sources.
Maybee (2015) found
that research assignments increased in syllabi in graduate studies across
disciplines. Dubicki (2019) found more complex research required in upper level
and graduate classes. Two studies included graduate and undergraduate syllabi
in the same subjects. An increase in emphasis on the research process and data
analysis in graduate courses was noted in Maybee et
al. (2015). Beouy and Boss (2019) used the ACRL
frames to identify increased opportunities for research and IL intervention in
graduate courses. VanScoy
and Oakleaf (2008) determined that tiered IL instruction may not be appropriate
because their study of incoming freshman showed IL tasks in syllabi from the
beginning. However, Dubicki (2019) argued strongly for scaffolding instruction
and teaching IL on a novice to expert searcher path.
Table 4
Results and Recommendations of Studies
Reviewed
|
Citation |
Results |
|
Alcock, E., & Rose, K., 2016 |
Comparison of the results revealed that Chemistry always lagged
History. In History, 85% of the
syllabi required independent research versus 39% of the Chemistry syllabi.
Cumulative projects were required on 72% of the History syllabi versus 8% of
the Chemistry syllabi. |
|
Beuoy, M., & Boss, K., 2019 |
Analysis of the IL presence scores showed in all but one frame,
the average score for all disciplines was less than 1. Food science had the
highest average scores in five of the six frames. Media, Culture and
Communication's average score was the highest in one frame (Information has
value.) |
|
Boss, K., & Drabinski, E., 2014 |
The data showed that 53% of syllabi required business students
to use library resources independently while 64% of syllabi required a
cumulative project. |
|
Dewald, N., 2003 |
Analysis showed that in 2001-2002, 48% of all business classes
reviewed did not require library use or research. Significant research projects during the
same period were found in only 18.3% of the business classes. |
|
Dinkelman, A. L., 2010 |
Found that only 18% (average) of the syllabi with IL assignments
mentioned the library as a resource and that only 10% (average) of the
classes required a research paper/project.
Recommended a required library course for students |
|
Dubicki, E., 2019 |
Addressed need to tailor IL instruction for specific
disciplines; Found that tiered IL instruction is important for a student's
development. |
|
Jeffery, K. M., et al., 2017 |
No mention of library related services or spaces or research
assignments was found in 54% of the syllabi.
The most popular keyword codes were Research paper, APA, and MLA. |
|
Lowry, L. 2012 |
Syllabi covered 100% of accounting classes during study period
and found that only 8 of 66 courses (12%; all at the senior level) required
outside research or significant research. Author suggests that problem-based
learning is a good way for students to acquire information competence. |
|
Maybee, C., et al., 2015 |
Major themes identified in Political Science were: Research
Inquiry at the undergrad level and Research Process and Critical Awareness of
Aspects of Political Science Research at the grad level. In Nutrition Science, the major themes
identified included Professional Identity and Scientific Practice
(undergraduate) and Engaging as a Scholar including information and data
literacy (graduate). |
|
McGowan, B., et al.,2016 |
Inclusion of any ACRL IL Standard by course varied from 53.8% at
the Junior level to 65% at the Senior level and averaged 58.8%. Research
paper or literature review without data collection varied from 19.6%
(Sophomores) to 33.1% (Freshman). Empirical research papers varied from 1.6%
of assignments for Sophomores to 3.8% for Juniors. |
|
Miller, M., & Neyer, L., 2016 |
Discussed IL instruction scaffolding within nursing and the
importance of tiered IL instruction. Analysis showed that IL outcomes in
assignments were explicit 84% of the time. |
|
Morris, S., et al., 2014 |
Began development of a list of archival literacy competencies. |
|
O'Hanlon, N. 2007 |
48% of all syllabi analyzed did not contain any research-related
SLOs. 59% of syllabi described a writing assignment requiring external
research. |
|
Smith, C., et al., 2012 |
Hypothesis that library research would be required by the
majority of classes. The findings did
support the hypotheses that the amount and degree of research required would
vary by course level and that the amount of research would also vary by
subject discipline. |
|
Stanny, C., et al., 2015 |
More than half of the syllabi (58.5%) had one or more course SLO
that aligned with IL outcomes.
Alignment of assignments with IL outcomes was observed in 59.2% of
syllabi. Online classes described few assignments related to IL concepts and
the most common assignment was not an IL assignment. In both online (17%) and
face-to-face classes (27%),
literature reviews were the most common IL assignment. |
|
VanScoy, A., & Oakleaf, M. J., 2008 |
Recommended a re-examination of earlier tiered IL instruction
recommendations; analysis showed that 97% of the 350 students had assignments
that required the use of research resources. For the subset of 139 students,
100% had assignments requiring them to find research resources with the most
common being (in rank order) articles, websites, and books for both groups. |
|
Willingham-McLain, L., 2011 |
Found that 44% of syllabi incorporated any of the Middle States
Commission IL indicators. |
Limitations Identified by Study Authors
Several limitations were noted by authors of
the syllabus studies. Standardized templates for a syllabus can skew results of
a syllabus analysis. If the library is mentioned in a syllabus, and that is
used as an indicator of IL in the course, the researcher needs to know if it is
referring to a building, resources, or services (Alcock
& Rose, 2016). “Template
language and template syllabi can also yield less robust data, as they are a
shell for the course” (Beouy & Boss, 2019; Boss
& Drabinski, 2014). A lack of a thorough norming
process for interrater reliability (Boss & Drabinski,
2014) and the small number of syllabi in sample sets (Alcock
& Rose, 2016; Dubicki, 2019) were limitations in some study designs. Finally,
SLOs and learning goals can be unique
to an institution or department, so generalization of results to other campuses
is not possible (Dubicki, 2019).
Discussion
The questions posed for this scoping review asked
how syllabus studies were used to inform IL instruction, what methods were used
to analyze syllabi, and what recommendations were suggested by researchers for
IL instruction. Seven themes were identified in this scoping review.
Universally,
Syllabus Examination Gave Librarians Better Insight into Collaboration with
Faculty and Student Instruction
All studies tried to determine the expectations of
instructors for IL concepts and tasks through syllabus examination. Some found
opportunities identified by syllabi to offer IL instruction to faculty; others
gained an understanding of scaffolding instruction; and others identified
specific courses that would benefit from librarian intervention. Several
studies reported better collaboration with faculty because of the information
derived from the syllabus study.
“What
emerged were indicators of potential student needs as they conduct research
projects, leading to a roadmap of the topics that librarians should include
during IL instruction at various levels of students' academic careers, as well as
services the library can develop to support students' independent study.”
(Dubicki, 2019, p. 291)
“Rather
than approaching faculty and administration with the assertion that librarians
can add value to their program, the gathered data provide evidence for this
claim, as librarians make the case for institutional collaboration and the need
for increased resources for the information literacy program.” (Boss & Drabinski, 2014, p. 274)
Disciplines Vary
in Kinds of IL Instruction Needed
Differences in IL requirements for subjects were
illustrated by comparisons between history and chemistry, and food science and
political science. Several studies approached IL with specialized concepts:
primary sources, scientific literature, data literacy. Also recognized were the
range of research assignments that are specific to disciplines: lab reports or
field work for the sciences compared to literature reviews or annotated
bibliographies for the social sciences and arts & humanities.
“Although
students are taught basic information regarding research skills and library
resources in English composition courses and the required library course, the
continued development of these skills, especially as they relate to the
discipline, is crucial to their success in college and beyond.” (Dinkleman, 2010, n.p.)
Numerical Scales
Preferred
The
methods used reflected different indicators of IL. Scales scoring the presence
of assignments that would benefit from IL instruction were used most widely.
Library usage (reserve readings, outside readings) was used as an indicator of
IL content on some measurements. Other studies looked for IL concepts
identified in ACRL standards or framework (for example, critical thinking).
Standards from educational organizations (AAC&U) or professional
associations (AACN), were also used to identify IL concepts.
IL Reflects
Changes Over Time
IL
instruction has evolved over time, with more emphasis placed on concepts vs
tasks. In 2008, VanScoy and Oakleaf showed that tasks
like “Find a book” or “Find an article” were required from the beginning
coursework, leading them to conclude that freshman need the same IL skills as
students in advanced classes. Eight years later, the ACRL Framework for IL
(2016) addressed threshold learning and skill mastery as a student progresses
through courses. The assumption is that basic IL concepts are taught in
undergraduate core classes and advanced research concepts are mastered at
higher academic levels. Dubicki’s study (2019) argued strongly for building on
IL instruction through course progression. The conflict between these 2 papers,
published 11 years apart, are a reflection of changing views on IL instruction.
“This
research study revealed that a tiered approach can be used effectively to
provide library instruction as students move along the continuum from novice to
expert researchers.” (Dubicki, 2019, p. 296)
“The
study results suggest that many early recommendations regarding tiered
instructional approaches should be reexamined.” (Vanscoy
& Oakleaf, 2008, p. 572)
Mismatch Between Librarian Involvement and IL Indicators
Found in Syllabi
All studies found elements of Information
Literacy in the syllabus. Some studies found IL was defined in terms of tasks
or activities (find peer-reviewed articles); other studies found IL was
identified by concepts (plagiarism, critical appraisal of articles) that
aligned with Student Learning Objectives of the instructor and institution.
The
studies that compared IL mentioned in syllabi to librarian involvement in
classes showed that librarians were not providing IL instruction or librarian
presence in a large percentage of courses. Results from Jeffrey et al., 2017,
detailed an 18% gap between library instruction and research assignments in
syllabi. Several possible reasons were posited by authors: instructors assume
students have IL competence; are unaware of librarian IL instruction or
contributions; or instructors don’t have time in the course to use librarian
services. Smith et al. (2012) and Alcock and Rose,
(2016) found examples that showed faculty are teaching IL in courses.
“In the absence of library instruction, 34% of
the courses suggested that the professors were taking on a type of library
instruction to ensure that students had the skills to successfully complete.” (Alcock & Rose, 2016, p. 92)
Methodology for
Studies Was Often Unclear
The
methodologies used by the different researchers varied and frequently did not
provide key details. The number of syllabi used was not always reported. The
use of specific scoring tools was reported, but studies using question
checklists, searching of keyword lists developed for the study or other methods
of analysis were not described sufficiently. However, one study (Maybee et al., 2015) used a grounded theory research
design, clearly outlined, resulting in a comprehensive examination of
differences between political science and nutrition studies at the
undergraduate and graduate level. The use of this research design allowed
researchers to analyze in depth the IL requirements at different stages of
curriculum.
Studies Are
Replicable but Results Are Not Generalizable
Although
some studies tried to compare results to other published studies, the numerous
and inconsistent variables make that difficult to accomplish. Too many
variables (SLOs unique to campus, syllabi templates, individual instructors,
unique content, number of syllabi, discipline differences) in these studies
make the results unique to a campus, instructor, or discipline and not
generalizable.
“Although
this project may provide insights on how the Framework concepts can be infused
into IL instruction, the results are unique to the XX curriculum.” (Dubicki,
2019, p. 296)
However,
the methods of syllabi mining used in these studies are easily replicable and
do offer liaison librarians strategic ways to connect to instructors and the
curriculum.
Limitations
This scoping review includes several limitations.
The searches executed excluded grey literature and did not consider poster
presentations and conference proceedings. Two reviewers charted data
independently, but a third reviewer would have helped to limit bias and make
decisions on inclusion and exclusion questions. The multidisciplinary database,
Web of Science, was used because the authors had access, but other large
databases should be considered.
Conclusions
The
results of this scoping review show IL concepts and assignments are present in
approximately half of syllabi examined in these studies. The presence of IL
competencies in syllabi was more dependent on discipline (arts and humanities
vs science) than on class standing (lower vs upper or graduate vs
undergraduate). Librarian researchers used syllabi studies to examine what
kinds of IL instruction are needed by students to complete coursework
successfully.
The
early methods for assessing syllabi for IL content looked for any mention of
library use, but with the promotion of ACRL standards and more recently the IL
Framework, the evaluation of what concepts and assignments meet the criteria
for IL is better identified. This provides a structure and continuity to the
research that will be easier to replicate and interpret. Converting the IL
framework into rubrics or checklists is the method used in many of the existing
studies, and provides a blueprint for future research.
IL
standards from professional associations were central to many studies, and
further research aligning ACRL frames, discipline standards and course syllabi
will help to integrate instruction. Three articles mentioned data literacy,
which is becoming central to a scholar’s education in the increasingly
networked research world (Shorish, 2015). More
research on inclusion of data literacy as part of IL instruction, and as it is
reflected in course syllabi, is warranted.
Even
though the results of a syllabus study are not generalizable, the methods can
be consistent and provide valuable information to an IL program.
Overwhelmingly, the studies provided recommendations for using a syllabus study
for better collaboration with instructors. The information derived from these
studies present talking points to use with instructors and allow the IL
instruction to be relevant and targeted at the point of need of the student.
Liaison librarians should be encouraged to conduct syllabus studies to increase collaboration with instructional faculty, to meet student information needs in a strategic manner, and to identify discipline-specific Information Literacy concepts.
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