2  Lab culture

2.1 Mission

We love all things related to computational biology, biomedical data science, and microbial genotypes, phenotypes, and diseases, but we value and believe in investing in and nurturing scientists as much as the science. We pride ourselves on providing a safe and inclusive space for people across intersectionalities. We are committed to mentoring (postdocs, students, programmers), education and outreach, and personalized professional development. We are passionate about finding new, better ways to increase diversity and retention in STEM and quantitative sciences. If you share our passion, please reach out to us!

2.1.1 Mentoring Philosophy | full_post

My experiences as a mentee have varied widely: fantastic professors in college inspired me to start a research career; later, a mentor overlooked my whole dissertation work resulting in prolonged authorship discussion. In my postdoctoral lab, I was the sole computational researcher collaborating with a dozen experimental biologists. I seized this invaluable opportunity to restart my academic career from scratch in a different field (i.e., studying microbial diseases), to learn, understand, and speak the language of both experimental and computational biologists, and to bring these worlds together. Collectively, these experiences have shaped my mentoring philosophy.

  • Opening doors and leveling the playing field (i.e., not gate-keeping)
  • Lives bigger than work
  • Collaborative mentoring (i.e., not top-down advising)
  • Mentoring is not imprinting

2.1.2 Inclusive lab climate | full_post

I have mentored 30+ diverse undergraduate and graduate students. Several joined my lab as first-time coders and have co-authored computational papers; five have contributed to submitted manuscripts (see Bibliography). All these students have had positive research experiences, presented at (inter-)national conferences, and won awards/support from national programs, including NIH-funded T15 and R25-BRUSH, NSF-funded REU-ACRES, SROP, and NSURP. Several undergraduate trainees have graduated and started advanced studies at prestigious graduate and medical schools or jobs at pharmaceutical/IT companies. Using lessons learned from these experiences, I will focus on the following key areas to ensure an equitable and inclusive lab climate.

  • Recruiting practices - e.g., working with the Offices of Inclusion/Diversity, R/Py-Ladies, W+DS, and online groups for minorities in STEM (e.g., Black in Computational Biology, LatinR, AfricaR, AsiaR, ArabR, RainbowR).
  • Safe space for full participation - for people from all intersectionalities, zero tolerance to discriminatory or exclusionary behavior, appropriate pronoun usage, sustain a culture rooted in mutual respect.
  • Empowering mentees to forge their path - e.g., co-developing semester plans, conducting professional development workshops within the lab, creating networking opportunities through local/national/international meetings, and tailoring mentoring strategies to each mentee’s career aspirations.

2.2 Roles and expectations

The following sections were drafted by folks at each of these levels, and edited collectively by the entire group for cohesion.

2.2.1 PI

My role as a PI would be to ensure your growth and success as a trainee, and the success of the project. Towards this, I will

  • Plan and design
    • Sounding board. You will have the freedom to work on your best ideas broadly aligned with the lab’s vision and you will always find in me an audience to discuss and brainstorm.
    • I will help outline and plan your project(s) and design appropriate analyses.
    • I will check-in with you once a semester as you plan your time, and more regularly to ensure you’re on track – based on the professional, scientific, and personal goals you’ve set for yourself. In addition to the project/group meetings, check-in with me often (bi)weekly (or as needed) to make sure you are staying on track towards your primary research and professional goals, and to help me help you as best as I can.
  • Honing your skills –> career development. I will provide resources to develop your research program and technical skills as you plan the next stage of your career (e.g., PRA –> grad school, PhD student –> postdoc/industry, postdoc –> PI/research lead).
  • Scientific communication. I will provide ample opportunities within and outside the group to develop your reading, writing (grants and papers), and presenting skills, including engaging and networking at (inter)national meetings.
  • Professional networking. I will connect you with potential collaborators and mentors for scientific and professional growth and reciprocity. Team science is one of several skills you will learn during your tenure with us – you will learn to communicate effectively not just with other computational colleagues but with the admin, grants, and scientific writing teams, experimental and clinical collaborators.
  • Safe space. I will continually work towards creating a diverse and inclusive safe space for all intersectionalities in the lab to ensure everyone thrives and grows scientifically, professionally, and personally while respecting and supporting their colleagues.
  • Education and outreach. I will enable and strongly encourage you to pay forward by creating inclusive communities through scientific and technical education and outreach reach opportunities within and beyond CU (e.g., R-Ladies, AsiaR, WiSTEM, SACNAS).

2.2.2 Graduate students

  • Learning to be a well-rounded scientist
    • Strive to be creative, independent, and collaborative (as a team scientist).
    • Be willing to learn new things and be open-minded to new ideas/directions. Be thoughtful and think deep about your rationale and hypothesis. Be critical and rigorous in your methods and evaluation. It is perfectly OK to find your passion and love (and dream about) certain topics/fields, but remain open enough to like/appreciate other topics (and avoid maintaining a curtailing hate/dislike list). This will ensure you read, listen to, and consume ideas constructively, ultimately honing your scientific growth.
  • Reading
    • Have a clear and deep understanding of concepts (computational and biological) related to your research project.
    • Keep up with the literature and have a sound reading system (update your project/group members and PI of your most recent exciting reads via Slack/Journal clubs). Post updates regularly to the #papers-articles channel based on your self-assigned journals here.
  • Coding
    • Write clean and well-documented code, and commit to GitHub regularly.
    • Do code reviewor request review(s) from other lab members at a proper frequency e.g., once a month.
    • Your work must be reproducible; this applies to the methodology, codebase, software, and data you work on. (e.g., Ten Simple Rules for Reproducible Computational Research)
  • Writing
    • Keep applying for internal/external funding opportunities (good practice for scientific writing).
    • Contribute pro-actively to grant proposal writing with the PI by proposing new ideas and generating preliminary results.
  • Scientific communication
    • Formal/semi-formal scientific writing, e.g., abstracts, manuscripts, grant/fellowship applications, blog posts.
    • Give oral presentations in different settings, e.g., group meetings, posters, talks, research updates, and journal club meetings.
    • Keep well-organized meeting notes. In group meetings, take turns as the scribe.
    • Look out for opportunities that PI/others often posts in the lab Slack, the DBMI Slack, or email. Opportunities to look out for are but are not limited to funding, poster events, presentations, conferences, seminars, and courses.
  • Meeting and engagement
    • Attend all required meetings specific to your project and group meetings. If you would like to gain a general understanding of the other projects, you are welcome to attend other project meetings.
    • Schedule regular (weekly/biweekly, as needed) one-on-one meetings here. Maintain a good frequency of one-on-one meetings, especially when you are co-mentored. Do your best to keep both PIs on the same page.
    • Interact professionally (and respectfully) with all your peers within and outside the group.
    • Actively (and voluntarily) engage in lab, department, and program activities.
    • If a personal, scientific, or professional issue/concern is keeping you from engaging actively and fully with the group, let the PI and the group know so we can make reasonable accommodations and allow you to heal/recover and better integrate.
    • If co-mentored, it is expected that the trainee respectfully engages with both group members and attends events/meetings from both (unless exempted due to reasonable requests).
  • Communication
    • Check and respond appropriately to Slack and Outlook email and calendar regularly during working hours. Set reminders, as needed, for what is relevant/expected of you so your PI/colleagues do not have to remind you.
    • Respect everyone’s time by showing up to meetings regularly and on time (and in person if from CU and if that’s how everyone else is attending), and by not expecting prompts for responses and engagement.
    • Communicate regularly and clearly with the PI(s) on research, academic progress, and other professional development goals. Constructive feedback both ways is important for a strong long-term relationship.
    • Have good/proper interpersonal communication with everyone, and create an approachable environment.
    • Come prepared for all the meetings by noting your open questions, reading relevant material, planning your next steps, or the results you want to present.
  • Peer-mentoring
    • Mentor junior/newer trainees by giving primers, helping them troubleshoot anything related to their projects, helping them contact the correct individuals when you can’t help them, and answering their questions.
  • Project/time management
    • Set aside 3-4 hours of productive slots on days without classes for (i) writing code, (ii) reading/writing papers, and (iii) generating results.
    • Inculcate good time management skills. Ensure you have an efficient work-life balance to nurture your physical and mental health.
    • [Side projects] Learn more about other projects in the lab and make meaningful contributions to them, especially those most relevant to your research program (co-attendees of project meetings).
    • Deadlines. Establish clear deadlines/academic plans, e.g., comprehensive exam, defense. Plan to graduate within 5 years; finishing your comprehensive exam by the start of your third year (end-of-second-year would be preferable and ideal to keep you on track).
    • Adhere to general work ethics laid out for the lab.
  • Semester planning. In addition to detailed research goals, set SMART goals for professional and personal development. Below is a general list of what semester planning entails.
    • Academic planning: required/elective courses.
    • Take on leadership roles through mentoring or presenting.
    • Attend seminars (regularly/weekly) and conferences.
    • Set clear reading, writing, coding, and presenting goals.
    • Volunteer | education, outreach, JEDI.
    • Set recurring meetings with the PI(s) and attend project meetings.

2.2.3 Postdocs

As a postdoctoral researcher, you wear many hats besides those of more junior scientists in the lab. So, in addition to the expectations from a graduate-level researcher (above), these might be relevant to your senior level and experience.

  • Training opportunity. you are here to learn new skills and expand your scientific boundaries. You are not expected to know everything, but you should be comfortable (and preferably excited!) throwing yourself into new problems and solving them.
  • Peer mentoring. You are also here to help others learn. Postdocs have considerable experience in many aspects, typically involving academia, research, and more. That experience can be beneficial for scientists who are earlier in their careers. Contribute generously where you can, and make yourself available for others in the group. A rising tide lifts all boats.
  • Scientific independence. Postdocs are strongly encouraged to pursue their independent research interests aligned with the group’s research interests. For projects that succeed, they should have “future directions” they can take forward into their independent careers in the future.
  • Collaboration. In addition, you may work on several existing projects across the lab – either leading them or helping each team navigate research obstacles. Postdocs have already had experience troubleshooting their way through their work in the past, and are expected to be able to leverage that experience by operating more independently. Some projects you work on might be new and higher risk, and some might be stalled and in need of a fresh perspective. Postdocs are also strongly encouraged to engage in a few active collaborations outside the group (from our ongoing list) — to test their methods on interesting biomedical applications, gain diverse perspectives, while balancing basic and translational research. The professional networking aspect is critical, too.
  • Grants and fellowships. Grant/fellowship writing is a crucial aspect of a postdoc’s job. It funds your position and research where possible and, most critically, gives you practice and experience seeking and applying for funding opportunities needed for launching into independent faculty positions.
  • Communication. Communicating science is a fundamental and essential part of this role, be it through manuscripts, conference presentations, or workshops. Expect to keep busy presenting your work at regional and (inter)national platforms, and use the experience to get your name out there and network!
  • Career development. Finding your next step is the ultimate goal of your position. For all the roles you have, they should help focus your skillset, CV, and open future opportunities for you to move onwards and upwards towards where you want to end up in life.

2.2.4 Research professionals (PRAs / postbac, post-MS trainees)

  • In addition to most applicable points from the Graduate Student section above (barring rare exceptions like comprehensive exams, etc.), the following are great pointers for research professionals.
  • Individual and team scientist
    • Lead individual projects and contribute new ideas and research directions, while also supporting other lab members’ projects collaboratively.
    • Assist with the design and development of major bioinformatics-related programming projects.
    • The supportive role can overlap with the project-related scientific tasks, or other technical and software-development tasks like code review and any assistance with coding/environment/installation issues.
  • Technical contribution
    • Perform scientifically rigorous data management and bioinformatic analyses.
    • Develop and disseminate a variety of tools designed to access relevant experimental and clinical data.
    • Develop and implement complex analysis pipelines, modular functional programming, and data visualization techniques (e.g., for multi-layered -omics datasets)
    • Creatively and effectively integrate data from multiple sources to accelerate discoveries; write custom scripts to access databases and analyze data.
    • Write custom web tools and R/Py packages for the group and the larger scientific/technical community.
  • Communication
    • (In addition to the opportunities/modes highlighted above …) Present research/technical updates periodically, host journal clubs, workshops/tutorials, and attend all group and project meetings.
  • Professional development and networking
    • It is in the best and mutual interest of PRAs and the lab to hone and develop scientific, technical, and personnel/leadership skills that will benefit all involved parties, especially the PRAs’ professional and career development.
    • Work with the PI to make short- and long-term research, professional, and career plans to stay on track towards your next steps (e.g., grad school applications).
    • Work with the PI, others in the group and department, and collaborators to form a strong professional network that you can later rely on.

2.2.5 Undergraduates (Short-term interns/Visiting scientists)

The Graduate Student section above should give you a fair idea about how to be trained as a well-rounded scientist. As a junior researcher, however, the following would be excellent starting points.

  • Be present. Attend meetings and bring forth your best effort.
  • Ask for help. We encourage you to be proactive; ask questions and provide any updates or ideas to our Slack channels.
  • Strive for growth. It will be challenging, but we want you to keep trying and persist – learning is the main goal, and being receptive and open to constructive feedback is a great way to improve.
  • Give yourself grace. You’ve earned a spot in our community, and you belong here. Failure is inevitable with the work we’re doing; your work doesn’t define you or your abilities. We’re all here for you!
  • Stay organized. Keeping track of your priorities, tasks, and responsibilities will allow you to monitor your progress and make it easier for others to help you. Time management is essential for pacing yourself to achieve your goals.
  • Collaborate. We encourage you to present your work and discuss it with others frequently. Learn about the projects your labmates are working on, communicate any troubles or issues before they boil over (work-related and not), and keep a positive mental attitude!
  • Own your research. This is your research process, so be sure that you’re putting forth your best work and that you continue to practice scientific reading and writing.
  • Take advantage of resources. There are many avenues for learning in research. Here are a few to get you started:

2.3 Code of conduct

2.3.1 Overview

There is zero tolerance for harassment, discrimination, micro- or passive aggression in the JRaviLab and at the University of Colorado. These are forms of abuse, and they create a workplace environment that can leave people feeling unsafe and unwelcome. Members of the JRaviLab come from many different backgrounds, and this diversity is one of our greatest strengths. If you are uncomfortable with or have any issue with any lab member (including the PI), please bring it up immediately for a speedy resolution and a healthy and transparent long-term relationship.

While this is not exhaustive, examples of unacceptable behaviors include harassment, discrimination, or other unwanted behaviors, verbal or physical, that make others uncomfortable, both at and outside work. This applies to conduct in public or on social media, not just at the job. Protected categories include but are not limited to gender identity and sexuality, physical appearance, size, weight, and disability (of all types), race, ethnic group, age, and religion. These topics are covered in part by the required training modules you will take after employment at the University of Colorado.

You can review the policies from the Office of Equity’s Discrimination and Harassment page here, and from the Anschutz Medical Campus’ office of Diversity, Equity, Inclusion and Community Engagement here.

We recognize that because of our diverse backgrounds, our experiences with what conduct is considered appropriate may vary, and similarly, no-one should feel afraid to be themselves out of fear of violating an unspoken rule. Instead, it is our collective responsibility to educate each other. If we see or hear conduct that is inappropriate, whether it is targeted at us or other individuals or groups, each of us must commit to calling that behavior out. A joke in poor taste alone won’t get anyone terminated, but a pattern of misconduct despite being told it is inappropriate, arguing back or justification of misconduct when asked to avoid such behaviors, or severe misconduct are grounds for discipline.

If you are unsure what constitutes acceptable behavior and where the line is drawn, talk to us! These rules are important, but they are also a socially determined set of boundaries – they are not universally known and universally evident, and it is our collective responsibility to help each other understand what the boundaries are and how to steer safely clear of them. Similarly, if you feel like a comment or behavior might be inappropriate, you do not need to have a justification for feeling upset, you do not need to seek second opinions from others, and you do not need to observe the behavior repeatedly for it to be a problem – all of our individual boundaries, personalities, and histories are what define the rules, and your voice is important. You should always feel comfortable speaking up, especially if you are a lone voice!

If you observe or are the recipient of discrimination, sexual misconduct, or harassment, reports should be made to the Office of Equity. You can read about this process here. Depending on your classification, you may be a mandatory reporter of misconduct, meaning you must report any such misconduct you observe.

2.3.2 Professional Conduct

Details on responsible science, authorship, and the expectations of your role are found throughout this document. Generally speaking, as a member of the JRaviLab, you are a professional researcher, and you can and should take pride in this. We are better for your membership! With this role comes certain responsibilities that go beyond the code of conduct overview mentioned above. Remember that your behaviors represent the lab, all of our research, and even Anschutz and the University of Colorado at large. Treat our fellow scientists in other labs and the general public with respect and understanding, try to avoid being drawn into public arguments on social media (nobody wins these), always be open to learning and re-learning, and do not let ego cloud judgement. We should never seek to use or diminish others merely to climb a career ladder.

As a group, our success and reputation, and the quality of our science and its positive impacts on society all depend on our lab having a sense of social cohesion and psychological safety. This goal is aspirational and does not materialize automatically, but with our collective efforts and daily upkeep, is very attainable.

2.4 Health and wellness

Health, wellness, safety

2.4.1 Inclusive and safe space

A part of this is also highlighted above in Mission, Mentoring philosophy, Inclusive lab climate, and Code of Conduct. In addition, the University of Colorado offers trainings in diversity, equity, and inclusion topics, including the Health Equity in Action Lab (HEAL). We encourage you to participate in these trainings, including the Foundations in Equity Certificate Program.

While not required by CU, these modules will introduce you a great range of perspectives, explain topics like implicit bias or microaggressions and how to recognize and interrupt them in ourselves and others, and treat others more equitably and respectfully. Beyond the obvious benefits to our lab culture, these topics are absolutely critical to recognize for scientific study design (e.g. using human data). Being aware of our implicit biases and systemic issues can help navigate potential pitfalls in data collection and interpretation which can affect people worldwide.

Links and details to follow.

2.5 Lab Proceedings

2.5.1 Communication

  • Communication within the group | Slack | In-person/Zoom co-work

In all meetings and interactions, it is imperative that lab members are constructive in feedback and respectful of each other. Critiques are always welcome and encouraged, but they should be supportive and aimed at building others up and improving our science, not tearing others down. At the same time, we shouldn’t shy away from providing critical feedback! As scientists, we all need regular practice critically analyzing and interpreting what we read and hear, and a friendly environment like our lab group is the best place to work on these skills together.

2.5.2 Meetings and formats

Since communication is key to good science, we meet regularly as a lab in a variety of formats. The details about these meetings can be found here.

2.5.3 Remote work & working hours

At a very broad level, the more time you put into your work, the more you’ll get accomplished. However, this is also an obvious oversimplification. Some people prefer a typical 9-5, others thrive with a 10 hour/4 day workweek, and others still find their productivity falls off after 6 hours of work. Adding to this, our work can often be asynchronous, and working remotely can be integrated into a routine as well.

Regardless of your working style, taking breaks is important! Stretch, take a brisk walk, hydrate, enjoy some caffeine (in moderation).

If you are working remotely for extended periods, communicate regularly on Slack, and schedule a few co-work times where you and others can log on together and work in a shared virtual space that makes spontaneous interactions possible. Remote work has advantages, but a major drawback is the lack of this spontaneity. Being able to walk to a neighboring desk and ask a quick question, take a shared tea break, and see the faces of the people you work with are real advantages to collaborative science. Some of these aspects can still be done remotely, but they require active effort. Please stay involved like this even if you aren’t on campus!

Generally speaking, if you are meeting milestones, participating in project and group discussions, and comfortable with your work-life balance in our lab, the details of your work schedule are flexible. For a diverse group, a schedule that accommodates everyone necessarily requires compromise. Your exact schedule will come down to your role in the lab, your preferences, and the group’s availability. There are some basic rules and tenants to be aware of.

2.5.3.1 Work hours

For full-time members (e.g., PRAs, postdocs, grads), expect to put in 40 hours of work per week on average. For part-time members (e.g., undergraduates during the semester, interns, and other volunteers), you might be in the range of 10-30 hours a week typically.

These ranges are estimates, and will vary across people and over time. We never want to find ourselves in a crunch, but deadlines sometimes do pile up, and some weeks may require more hours. At the same time, some weeks will be lighter, breaks are encouraged, and working to the clock, or overtime should not be glorified either. Most importantly, maintain a comfortable work-life balance that leaves you wanting to come back for more, and keeps you far from the burnout line! If you ever feel stressed about your schedule/workload, talk to your PI & group to see how we can change things.

Presenteeism isn’t a healthy mindset, and health and productivity rank ahead (in that order!) of simply being present.

For any student-employee-related questions, please refer to the University of Colorado Denver student hourly employment handbook or the student employment website. Both handbooks define the student employment rules for the Denver and Anschutz Medical Campus.

2.5.3.2 Time Off

Always be a happy researcher! To be a happy researcher means you need a good balance between work and time off. We encourage you to take time off when needed, but there are a few things to remember. If there are meetings/deadlines involved, please let me (PI) and team members know ahead of time if you can’t make it during crunch time.

  • It’s understandable that things occasionally come up – so, it’s for a few hours/1 day, feel free to drop me (PI) a quick note and take off, as needed.

  • If it’s more than 1-3 days (or recurring few hours/single days), let me (PI) know in advance so we can plan ahead.

  • If it’s >3 days, please include me (PI) in the conversation during the planning phase (before booking your tickets/planning your travel). It’s better for all parties involved if this is a conversation rather than an FYI. *Similar for >few days remote work, unless previously requested.

  • Mark your time off on the lab calendar (in a non-disruptive way – darkest color background and NO notifications per event for everyone in the group) and notify your PI and co-workers in advance.

  • Let others know if you miss any meetings during your time off. Please do your best to plan your work accordingly when known vacation times (no meeting weeks) are approaching. Don’t leave too much undone before going on vacation because you may have too much to do when you return, which can cause stress.

  • Also, leave good notes on what you were working on and what you must do when you return. Sometimes, when you are gone for too long, remembering where you left off can be hard, so having these notes can help you get back on track.

  • Studies have shown not having a sustainable work-life balance can lead to difficulties in maintaining an efficient, productive, and healthy research experience. Therefore, it is essential to maintain a healthy work-life balance to ensure the best and most productive research experience.(Bartlett et al., 2021)

  • Be respectful of your labmates and avoid sending them messages when they are on vacation. If you are working closely with them on a project or need their help, notify them of any deadlines that may overlap with their vacation. This way meetings can be determined before your labmate leaves for vacation.

  • If you receive work-related messages during vacation/holidays (incl. weekends), you are not obligated to answer them unless they are critical. If the message is urgent (esp. something you’ve committed to prior to your vacation and have missed checking during working days), please do your best to answer them as soon as possible. This is more so important when there are deadlines approaching. It is OK if there are occasional instances when you can’t make it to a deadline – but this can’t be a norm and you *must* let me (PI) know in advance so we plan ahead.

2.5.3.3 Leave policy

2.6 Publication, Authorship & Research Misconduct

2.6.1 Publishing

To quote the Foreign Secretary of the Royal Society, Dr. Mark Walport, “Science isn’t finished until it’s communicated.” If work isn’t documented, written up, peer-reviewed, and made publicly available, it’s no different than if the work hadn’t been performed in the first place. For our group, that might involve writing clearly commented, clean code, submitting it for code reviews, and sharing it through GitHub, or it could involve writing a manuscript and submitting it to scientific journals. In any case, it is imperative to work towards sharing reproducible, repeatable, and replicable science.

2.6.2 Authorship

It’s often said that publications and citations are the currency of science. How does one become an author on a paper? What even is a paper? When is a project ready to publish? Many of these questions are best answered through conversations with peers and collaborators, but there are resources available to help provide context.

  • A paper, a publication, a manuscript, or whatever you might hear it called is a formal write-up of a scientific project. It typically follows a format referred to as IMRAD for Introduction, Methods, Results, and Discussion. These refer to the order of sections of the paper, which roughly presents the introduction to the problem or knowledge gap, the methodological approach or techniques the authors decided to use to address the issue established in the introduction, what the results and data outputs of those methods are, and the interpretation of those findings and how they relate back to the problem established at the start. While the exact formatting varies journal-to-journal, this structure generally captures how scientific results are written and reported.

  • Having your name on a paper’s author list typically requires a substantial intellectual contribution. Without your work, the story in the manuscript would not have been complete. Typically, the position of the authors in the list reflects the amount of credit they deserve for the work done, and the PI(s) who oversaw the project receive(s) the last author position(s) to signify that it was their lab(s) who performed the work. Many people make minor contributions that do not make the cut for the author list, and they may earn a space in an Acknowledgements section. Discussions about project responsibilities and the positions contributors will earn on a manuscript should happen early and often. The details of this vary from field to field and lab to lab, but a good overview can be found in this article, interviewing many different scientists across disciplines..

  • What kinds of contributions are important? Researchers have asked this question enough times to lead to the creation of a framework called CRediT for Contributor Roles Taxonomy. While this isn’t the final say on what types of contributions there can be on a manuscript, many journals have adopted the CRediT system to specifically assign which authors contributed in what ways in a paper, so it’s definitely worth a look.

  • What does it mean if you’re an author? No matter your position in the author list, it means you are literally assigning your name to work performed. Even if you only worked on one small part of the analysis, you must be familiar with all aspects of the paper. Your authorship is a statement that you vouch for the content, the methods, and the conclusions made in the paper. While honest mistakes do happen and can slip through to publication, all authors should do their best to ensure everything was conducted to the highest standards for scientific rigor. Mistakes that significantly change the interpretation or outcome of an experiment, or worse, intentionally misleading or fraudulent data, can seriously affect or even end scientific careers for authors on erroneous papers. Authorship should be taken seriously because contributing to the larger body of scientific knowledge can and does have real impacts on the world and lives in it.

2.6.3 Research Misconduct

  • If you are concerned about misconduct by fellow scientists, talk to them first! Science is inherently collaborative, and everybody brings a unique perspective – you may notice something that others have missed, and simply asking about it can course-correct a project. If you don’t feel satisfied with the answers, or if a researcher is not acting in good faith, it is your responsibility to report potential misconduct. In cases where you aren’t certain but still have concerns, you can speak with a Research Integrity Officer at CU and discuss whether the issue qualifies as misconduct before escalating to a formal report.