It’s finally the end of the semester! Time to put your textbooks away, apply some sunscreen, and get ready for a summer of…science? Your summers spent as an undergrad and your summers as a grad student (and all the subsequent summers you’ll spend as a researcher) will look very different from one another. Even though it’s been 7 years since I finished my undergraduate studies, I still feel nostalgic and a bit jealous when I see droves of undergrads heading home after finishing their spring term exams, off for that blissful time when you’ve accomplished another year of studies and have an entire summer ahead to enjoy life before it all begins again in the fall.
Life as a researcher can certainly leave you feeling like you need your own summer vacation. It’s additionally difficult when working in an academic setting, where you witness the happy undergrads set off on summer adventures while you’re stuck in the lab. Regardless of whatever stage in your career you’re in, summer can still be a great time in the year of a researcher. Summer provides us a bit of warm air to freshen our spirits and plenty of sunshine to brighten and motivate us. It’s also generally a less busy time of the year regardless of what field or what sector you’re in, as most folks will head off on vacation when kids are out of school or to take advantage of the nicer weather for some needed rest and relaxation. As with most things in life, having a good plan is a great way to make the most of it. Summer can be a great chance to unwind and relax after a busy academic year, but it’s also an opportunity to re-focus and re-assess where you are and what you need to do to make progress in your own project, while also thinking about where you and your career will go next. Especially for those of you who are just starting grad school and experiencing your first ‘academic’ summer, it’s important to see how this part of the year will look like, what you can expect from the people you’ll work with, and how to make the most of your summer months. Summers are a great time to explore some ideas of your own and to develop your skills of working more independently. And while summer is a good opportunity for you to take your own summer vacation, be careful not to use it as an excuse to do no work at all. Remember that part of the training in grad school is to become an independent researcher, so just because your advisor’s not around doesn’t mean you necessarily should take off, too! Plan ahead for the summer. Whether you’re at a university or an industry research lab, people tend to disappear over the summer. Between school vacation for kids, fieldwork, conferences, and the fact that everyone else is on vacation, you may soon find yourself in an empty lab. If you have things you need done by other people during the summer months, or need to get feedback on something from a committee member, professor, or collaborator, be sure to keep in touch with them early on in the start of summer and find out when they’ll be out of town. Don’t put yourself in a position to be set back in your own project just because one of your collaborators is spending 2 weeks away! Spend some time on your own projects or goals. Summer is a great time to focus on the things that you haven’t managed to get done or that might not have been a priority during the regular academic year. Have a small side project or experiment that you’ve been dying to try but haven’t had the time? Set aside some time in the summer months to focus on getting it done. Doing these smaller projects can also keep you motivated during the quieter part of the year, especially if you are the type of person that thrives on always having something to do. You can also expand your idea of a ‘side project’ to include new activities like outreach, volunteering, and mentoring. Want to get involved in some public engagement? There are always ample opportunities for activities with schools and summer programs, and it’s a great time to try something new like talking to 7th graders about science. Has your PI talked about setting up a lab twitter or Facebook page but never got around to it? Sign up for an account and work on developing your group’s social media presence over the summer, then come the start of the semester you’ll have a fully up-and-running platform to build from. These activities can also bolster your CV and give some breadth to your current work and research perspectives. Practice becoming an independent researcher. It may be easy to lose sight of goals when there is no one around to witness your hard work or tell you what to do. Regardless of what sector you end up in, though, you’ll be required to work independently as a part of it, and you’ll be expected to take initiative instead of always waiting to be told what to do next. If your PI or other collaborators are gone for some time, use the opportunity to work things out on your own and to try out some new approaches to answering a problem. It will show your PI that you’re working on developing your own independent research skillset and will also give you some hands-on experience in how to manage your own time and efforts. While doing so, keep tabs on yourself and your productivity levels during a day. Be sure to also keep in touch and report back to your PI on a regular basis when possible, which will allow you to get feedback on your independent research endeavors and to figure out what works and what doesn’t. Think about what you want the rest of the year to look like. One way that you can work on becoming a better independent researcher is to do some long-range planning of your own. It can be hard to think of what the next year or two will look like when you’re busy trying to get things done during the busy academic year, and the summer can offer a brief respite for your schedule to think about where you are and where you want to (and need to) go next. Take some time to think about what data you have, what questions you’ve addressed, which ones have arisen because of your work, and what you need to do to have a complete story by the end of your project. Doing this thinking exercise can give you some perspective on what you’ve done already and can put you in a better position to do great work during the next year to be in a position where you’ll have a lot to show, be it a manuscript, a dissertation, or a job! Do some summer reading. Whether you get something off the summer best-seller’s list or something that’s been sitting on your shelf for a year, grab a book and make your own summer reading club. Reading something that’s not a scientific paper can be a good break and refresher for your own mind and can offer some perspectives that you don’t as easily get from a TV show or a movie. Added bonus: you can enjoy them outside without worrying about screen glare! On the more scientific side, you can also use the summer to read a few papers that go outside the scope of your normal reading list. Just as picking up a new book can expand your mind and introduce you to new places, reading a paper from another field is a good way to get a fresh look at science as a whole, and it may even bring a few ideas to bring back to your own project. Make some excursions…for writing. Nice weather and relaxed academic schedules are a great opportunity for some excursions from the lab to a new working environment. Take advantage of shorter lines and less noise at your favorite coffee shop to watch the world go by while you work on emails or a manuscript from outside your normal work setting. Summer is a great time of the year to get some writing done and to take some time ‘off’ from the lab and other obligations you have during the regular academic year to work on a paper or make some progress on your dissertation. Summer is also a great time for your advisor to be able to read your work more thoroughly, as fewer obligations for faculty meetings and teaching means they’ll have some time on their hands to help you with a manuscript. Enjoy the sun while it’s there. Remember that not every excursion has to be for work! Take advantage of a sunny afternoon for an afternoon drink with a colleague or a brainstorming/sunbathing session outside. While you should work on not making these excursions too much of a habit, take advantage of a more relaxed working pace and don’t feel guilty for taking some time to recharge and relax. Summer is a great reminder to take life at a slower pace and to enjoy life and work outside of the constant rushing around and fast-pace of the academic year and of research as a whole. There is always plenty of work to do in the lab and for your project, so be sure to enjoy the sun and the slower pace while it lasts. Take your own vacation! There’s a reason that a lot of your colleagues, advisors, and collaborators will take a vacation in the summer: because they need one. We all need a break sometimes, and the hard part about research is that you always feel like there’s something that needs to be done or a pang of guilt when you’re not dedicating all of your time for scientific progress. The fact is that life as a researcher is busy, with months full of grant writing, lab work, classes, conferences, and everything in between. Regardless of whether you did 100% of the things on your to do list, a break in the summer will do you some good. It doesn’t have to be a long vacation, as even a couple of days to get out of town or a day at home to enjoy the sun from the comfort of your own balcony can do wonders to refresh your mind and get your brain re-oriented for the next round of research. Be sure to check out our archives for ways to make the most out of your break time. Regardless of where your summer is spent, be it out in the field counting bugs or in the cool air conditioning debugging code, there’s a lot you can do to make your summer productive and relaxing at the same time. Taking some time to focus on your own interests and professional development, taking the initiative to become more independent, and working on the loose ends on your to do list can set you up for a great summer that will leave you poised for the start of another academic year. At the same time, remember that even though you’re not an undergrad anymore, it doesn’t mean you shouldn’t get to enjoy some much-needed R&R in the summer months. In terms of our own Science with Style summer itinerary: We are currently getting ready for our first-ever Science with Style seminar this week at the University of Liverpool as part of Post-graduate researcher week! If your UK-based institute or research group is interested in hosting a one-hour seminar on giving scientific presentations, please get in touch and we’d be happy to work with you. We’ve also got quite a long reading list of our own, with a couple of these to be featured in an upcoming book review later on in the summer, in addition to some new posts for our Heroes of Science series. In the meantime, I’m also ready for my own summer break, currently listening to Andalusian music while dreaming of the Moroccan food I’ll get to enjoy in less than a week while I’m sipping mint tea in Marrakech. - Modern Poisons, a contemporary book on toxicology written by my honors thesis advisor Dr. Alan Kolok - Seven brief lessons on physics, because I need a good lesson in physics, be it one or seven of them! - Born for this: How to find the work you were meant to do, intrigued after taking this quiz - Aleph, because it's been sitting on my bedside table since March and because I loved The Alchemist
With one and half days still remaining in the SETAC Nantes meeting, I was exhausted by the lunch hour on Wednesday. I had presented in an early morning session that day, had spent the previous two days in meetings and filming a promo video for the next SETAC science slam, and was dreaming of caffeine on a regular basis. That being said, I did feel good knowing that the next day I had an evening flight to Marseilles for an extended weekend in the south of France. Just then, a text message from RyanAir informed me that my flight was cancelled because of strike actions by air traffic control. It was a bit of a drag, but soon enough I was re-booked for a Friday trip to Perpignan and re-invigorated with the chance of spending a weekend of wine and sun after four days of conference-ing.
Instead of a simple bus ride to the airport to catch my sunshine-bound flight on Friday, I found myself sitting in a taxi queue with less than an hour and a half before my flight left, glancing around the corner every few moments and beginning to feel anxious and desperate, wondering if a taxi would ever appear. With protesters blocking the roads for the airport buses and no taxis in sight for the past 30 minutes, would I ever make it for my long-awaited holiday? Long story short, I didn’t. And after yet another cancelled flight and the prospect that my return flight to Manchester next Monday would also be cancelled because of strikes, I rebooked myself for a direct flight home and spent my long weekend on the Merseyside instead of the Mediterranean. This was the first time that I had to cancel a trip completely, but it was certainly not the first time I’ve felt stuck somewhere and quite anxious because of it. Last week, there was no way for me to call for a cab, no way to unblock roads or un-cancel flights, and only a limited amount of times I could continue to keep booking and re-booking things last-minute. In hindsight I was frustrated with how I felt about the whole thing, since in the grand scheme of things it was just a long weekend away. It also made reflect back on times in grad school and as a post-doc when I was really stuck and on things that were more important than just a weekend in southern France. Whether it was crossing my fingers about a job, advisors that left halfway through a PhD, or even just full days in the lab that went completely wrong, research has a way of making you feel on edge, like so many things are beyond your scope of control. The internal dialogue can get even worse if the situations you find yourself in cause to second guess yourself or your past decisions. Throughout this blog, and also in the way I talk to myself and to my friends, I focus on finding opportunities, developing strategies, and visualizing the potential of life. I do what I can to focus on making bad situations better, and strive to give advice or ideas for getting through the tougher parts of life as a researcher or as a graduate student. But in my own encounters with stress and anxiety, it’s become clear that there isn’t always a strategy for getting out of a bad situation. Sometimes you really are quite stuck, like waiting for a taxi in a city full of protests and road blockades as the minutes count down for your flight leaving without you. In the words of an Italian woman who, when my friend asked her when the bus would arrive since it was already 5 minutes late, replied with a curt ‘It comes when it comes’. It's true in travel as much as it is in life. It may seem like an odd set of advice to tell you what you can do when you can’t do anything, but if you’re like me, when you can’t do anything, you still want to do something. You can’t make the bus or the taxi come on command, but you can make things better for yourself during the wait: - Do something small yet positive for yourself. You may not be able to fix the problem or change your situation right away, but you can still do things to take care of yourself when you’re in a rut. Go for an afternoon jog, do some shopping, read a book instead of a paper, see a movie. These things won’t directly fix anything related to the problem at hand, but taking some time for yourself, regardless of how small it may be, can do wonders to help you relax, even if just for a small amount while stuck in a stressful situation. This is especially true if you focus on things such as beloved personal hobbies or your physical well-being. - Do something for someone else. This may seem counter-intuitive, but being there for other people, whether they be friends or strangers, can help put your own stresses in context. It’s not that their problems are bigger than yours but it’s a reminder that we all have somethings that knock us over now and again, and this provides us some solidarity in realizing that we’re not alone. This can be something very formal such as volunteer work or even something informal, like offering to take a colleague for dinner or a walk after work when you know they are stressed out. Talking to other people can provide some perspective for your own situation, and sometimes a bit of advice about what to do moving forward, and sharing sympathies with another person can help get you out of your own funk that you might be in from feeling stuck. - Don’t keep it to yourself. Even if you think your situation is exclusively unique to your project or your life, don’t feel like you should keep it to yourself. And since you know you won’t be able to distract yourself from thinking about the problem, don’t try to push it to the back of your mind only to have it come up time and time again and wear you down even further. The best way to approach the situation is to articulate it, in whatever medium you feel the most comfortable in. If it’s something more emotional or personal that you want to keep private, write it down somewhere. If it’s something that you want advice or perspective on, talk to someone you respect and trust. In graduate school I kept a small notebook at home; I didn’t use it to write about what I did or what happened that day but instead used it as a way to talk to myself about emotions and frustrations. How you do this will depend on you and how you deal with stress, but however you approach it be sure to articulate what you’re going through and why exactly you feel stuck, stressed, or anxious. - Keep moving. There are ways in which you will be stuck, but don’t get stuck in thinking that you’re perpetually trapped or are stuck in every part of your life. You may not be able to directly solve the problem you’re in at the moment, but there is always something you can do in the meantime. If you’re waiting to hear back on a job or a grant application, keep working on other applications in the meantime. If you had a big experiment that gave results you didn’t expect and you have no clue how to move forward, read a few papers that you didn’t see before and see if you missed something. It won’t be an ideal solution to the problem, and sometimes to keep moving means you have to take the decision to leave a situation entirely, but anything that helps you from feeling slightly un-stuck is a good thing. - Think about the big picture. In the heat of the moment, even a small hurdle can feel like a mountain. As you go through the previous ‘to dos’ in this post, think about the situation you’re in and how it will impact your life a year or even five years from now. Sometimes these are big events that we feel stuck in, but other times they only feel big because we’re right in the middle of them. Think about your long-term goals and how you can get there. Maybe this situation is a giant wall in front of those goals, and maybe it’s just a road blockage on the way to the airport that you can walk around with your luggage in tow. In the situations I’ve been in and have seen others go through, when you have your health, a good support team, and a little bit of drive to keep going, you’ll always there. Wherever there is isn’t always clear, but you’ll always end up somewhere and, more importantly, you won’t be stuck forever. As for me, I’ve been fortunate to have gotten out of a few ‘stuck’ situations fully in-tact, and have seen a fair share of colleagues and friends do the same. Whether it be minor or major, working from small things to big, talking to friends or to yourself about your situation, and looking beyond the immediate situation, there are numerous ways of doing something when you can’t do much else. That being said, if you are in a place where you feel stuck more often than not, or feel like you can’t easily do the things on the list, don’t be afraid to ask for help from someone at your institute, university, or your doctor. There is no reason that anyone in research or graduate school should feel impossibly stuck. There’s always a way forward-even if you end up in Northern England instead of Southern France!
This weekend I traveled to the Scottish Highlands and hiked Ben Nevis on an unusually sunny Saturday. On a typical weekend I try to think about the upcoming week’s blog post, but this time I had other things on my mind, namely What am I going to pack for the upcoming SETAC meeting? This seems an odd question to spring to mind while hiking the tallest peak in the UK, but it was partially relevant and inspired by the attire of the hikers that I crossed along the trail. While there are some ‘rules’ to hiking clothes, such as sturdy boots, some sun protection, and layers that you can take on and off in case the weather takes a turn, you always end up seeing quite an assortment of outfits on a hike, ranging from the fully equipped hiker with high-end equipment in all matching brands and colors to the person who just looks like they rolled out of bed and hit the trail.
For those of us that work in a wet lab setting or who spend our whole day in an office with other graduate students or researchers, there really aren’t any day-to-day outfit ‘rules’ (except for closed-toe shoes when necessary). As graduate students and early career researchers, we can easily get away with wearing just about whatever we want and as long as it’s comfortable and appropriate for your work environment, there’s little else that needs to be done. That being said, there are times of the year when all of a sudden new rules come into play, and several situations will arise when your most tattered jeans and your most favorite t-shirt just won’t get the job done. One of these important times is presenting at or attending a scientific conference. Regardless of whether you’re heading to the meeting just to learn some new science and do some networking or whether you’re giving your own platform or poster presentation, scientific conferences are an important fixture in any young scientists’ career. It’s a time for your work to be seen by a bigger audience, to make connections that will last throughout your career, and to leave a good impression on potential future employers and collaborators. Like it or not, your attire will be part of that impression. So given the importance of conferences, what’s the best way to dress for success? What’s your style? I’m not going to write this post as a go-to style guide on How to dress yourself for a conference, but instead I’ll focus on the more important question of What’s your style?, since finding the answer to this will set you up for knowing what to pack in that suitcase of yours. Finding your style will take some time, and likely you’ve already gone through some style phases of your own. In high school and college, I didn’t really have a great sense of style, and found myself trying to figure out how I wanted to look by trying to emulate what I saw on other people or what looked nice on a store mannequin. At some point in grad school, and really not even until my post-doc, did I figure what type of clothes I liked and what looked good on me. Since then I haven’t deviated too far away from my go-to outfits, which are generally skinny jeans, fitted graphic t-shirts, and a blazer/sweater combo (since, after all, life in Northern England is generally not adept to being out in just a t-shirt). Finding my own style came down to asking myself what I wanted to convey through my clothes, and the answer was that I wanted a balance of fitted yet casual and simple yet able to be scaled up with a change of shoes or jacket. I won’t be able to tell you what exactly you should wear at a conference, but will instead I encourage you to think about what message you want to convey through your style in general. If it makes you happy and makes you feel good about yourself, then go for it! Once you figure this out, you can focus on tailoring your conference wear as simply a slightly upgraded version of your regular style. To be both comfortable and presentable throughout the conference day, think of an outfit that would be appropriate for a long day at work followed by a social event (such as getting a drink or eating out with your friends). Once you have this in mind, take the outfit up a notch in terms of professionalism. Focus on clean and simple outfits that will let you and your work shine. And while I’m all about finding your style and embracing your own sense of you through this blog, I would encourage you to not have your conference style to not be a hoodie and pair of sweatpants. While it’s important to be yourself and to be comfortable, you also want to make a good impression by showing the best side of you possible, so here’s a few tips to help you get there: These boots were made for walking, and that’s just what they’ll do. If you’ve never been to a conference, here’s the first thing you should know: conferences take a lot out on your feet. You might first think that you’ll just be sitting in presentations all day, but there’s actually quite a bit of time you’ll not be sitting down. Between walking to the conference center from your hotel and back, going between different session rooms (and if it’s a big conference, the rooms can be quite far apart), walking outside to get lunch with colleagues, and finishing off the day with poster socials and other networking events, which will likely keep you on your toes as you mingle and meet new people. As a bit of perspective, your feet will take as much of a beating at a conference as they would a whole day standing around working in a wet lab. Since your feet are important for walking, standing, and other necessary conference activities, be sure to set yourself up for success by making them (your feet) comfortable. Again the key here is to focus on getting a slight upgrade of what your go-to shoes already are, and then you’re on your way to being conference savvy while lasting the whole day without blisters or sore feet. If your go-to style is a tennis shoe or casual trainer, then a pair of leather-sided trainers can easily be a nice conference shoe option. If you love boots and heels and wear them on a regular basis, then by all means go with them for the meeting—but only if they are a pair of shoes you’d wear if you were standing all day in a non-conference setting. If they’re not, leave them at home. Girls’ shoes are notoriously devious, as we’ve recently been tricked into thinking that ballet flats are a comfortable alternative to dressing in heels for a more professional look. If you have a pair of often-worn, broken-in flats that you wear around work all the time, then by all means bring them to the meeting. If you just bought a brand-new pair that only go with your presentation outfit, you’re better off leaving at home unless you want to spend your presentation day looking for band-aids to cover up your numerous blisters. The worst thing you can do at a conference is put your feet in so much pain that you can’t be yourself or made to feel like you should go home and change instead of taking advantage of all the networking opportunities. Pants, skirts, or something in between? Unless your conference is quite literally on a tropical beach, our official Science with Style recommendation is to avoid shorts at a conference. Even if they are ‘nice shorts’ or the weather is rather hot, shorts are still nearly impossible to help you convey a professional look. Otherwise, stick to the mantra of aiming for a slightly style upgraded version of yourself. If you’re a denim jeans kind of person, then don’t feel the need to stray too far from your go-to bottoms by buying a pair of dress pants that you’ll never wear again. If you go for denim jeans, make sure to avoid trendy washes or that damaged/cut-out look and instead go with a straightforward and simple cut and color, and darker colors can even give the illusion of dress pants if you want to look a bit more formal. Girls again have a few more options for warmer weather such as skirts and dresses. If you enjoy wearing skirts and dresses and generally go for something more loose or casual fit at work, then at the conference aim for a slightly more fitted cut. Don’t feel like you need to put on a dress or skirt for a conference if you normally don’t wear them, and don’t choose an outfit solely on the fact that it’s dressy. Go for a conference outfit that you like and one that helps you feel like yourself. If you go over the top on dressing up, you’ll be more likely to stand out due to not being comfortable rather than for having great research results. Topping things off Bring shirts to a conference that are clean and simple, and as with denim try to avoid anything overly trendy in terms of washes or wording, and don’t go for any tops that weirdly cut or showing skin that doesn’t need to be shown in a professional setting. For me, the thing I like about wearing t-shirts is that they are easy to finish off with an H&M blazer or sweater, which helps tone down the casual feel of the outfit. While I have a large range of graphic design shirts, for conferences I stick to simpler ones that are focused more on good design without much text—messages should be kept to your presentations instead! If you’re looking for a dressier alternative, button-up shirts are an easy way to have more of a formal look for a presentation or meeting a future employer. Spend the time to find a dress shirt that works for you instead of grabbing the first one off the shelf, and look for one that has a good cut for your body type as well as being made of a breathable material. The last think you want to do is to get all dressed up for a talk in some fabric that’s not cut right or starts making you sweat when you’re standing at the front of a full room giving your talk. Another fact about conferences for those that haven’t attended one yet: regardless of what country, outdoor temperature, or time of the year that the meeting is in, most if not all conference centers are seemingly designed to only be a few degrees warmer than your walk-in fridge in the lab. You’ll need to keep warm even if it’s hot outside, so layers such as blazers or cardigans are an easy way to dress up an outfit while also keeping you from freezing during the platform sessions. All you need are a couple of top layers that look good with both more casual or more formal conference outfits and you’ll easily be set for a week-long conference. Accessories for success(-ories) - Bag it up. You’ll most likely get a free conference back when you pick up your registration materials. At first glance it seems perfect: just what you need for carrying around your laptop, abstract book, and free pens from the exhibition booths all week long! The only problem with this is that this same bag will also be given to the 500+ other conference attendees, which can make it easy for your stuff to get switched around for someone else’s. Save some room in your suitcase to bring one of your favorite backpacks or shoulder bags instead. That way you can carry your conference necessities (and swag) around all week in a bag that you know is comfortable, and you can also find your stuff more easily in a pile of other delegate bags when you’re leaving a busy session room. - Keep up with the times. Your conference week will be driven by scheduled talks, meetings, and social events. Keeping good time is essential, and is also an easy opportunity to upgrade your style for a conference. I’ve yet to find a nice watch that I like and still rely on my phone for the time, but if you are looking for the opportunity to wear your graduation gift from your grandparents, there’s no better time. - Kiss and make-up? As with the rest of your outfit, aim for just a slight upgrade of your current style. Don’t feel like you need to be fancy, and for girls you also don’t feel like you need to wear make-up if you usually don’t. I hope this post offers some useful insights into packing your backs for your next (or even first!) big scientific conference. Just as with hiking, there’s no right or wrong way to do your style, but there are a few suggestions that will keep your feet from getting stubbed on rocks, or rather blistered in the case of long conference days. As for me, I should start packing my own conference bag here soon, now that my favorite blazer is clean and I have my A-team t-shirts assembled and ready for the final selection. If only perfecting my platform presentation was as easy as packing for the meeting!
A few weeks ago I attended a workshop on public engagement by Steve Cross at our University. While not knowing what to expect at first, I came back from the workshop motivated and impressed with the amount of time, energy, and infrastructure put into encouraging scientists to engage the public here in the UK. I also found myself for the first time actually thinking about what public engagement really is, thanks to the resources and exercises Steve provided in the workshop. The workshop helped me form a concrete understanding of public engagement and the steps needed to make it successful. For this week’s post, I’ll touch on some of the highlights of the workshop, provide some resources n public engagement, and hopefully inspire some of you to take on the challenge of getting involved in some engagement activities this summer.
Universities here in the UK are putting a lot of time and energy into public engagement. Not only are there diverse approaches and a large volume of activities, but there is also formally agreed-upon definitions and structures. At first it might seem a bit overblown: why do we need flow charts and 5-year institute plans when public engagement is just about talking to the public about your research. Right? As it turns out, public engagement is much more complicated than just telling people what you’re research is-at least if the goal of the interaction is to actually become involved in conversations and even collaborate with members of the public. So what exactly is public engagement? You can find the answer to this and many other questions on the National Co-ordinating Centre for Public Engagement website, which also has a wealth of information about how you can get your own engagement activities up and running. On their ‘what is public engagement’ page, you can find the definition: "Public engagement describes the myriad of ways in which the activity and benefits of higher education and research can be shared with the public. Engagement is by definition a two-way process, involving interaction and listening, with the goal of generating mutual benefit." I’ve highlighted the part of the definition that’s key to understand how to put on engaging activities and events. This is why it’s not good enough to just put your papers or your findings out there for the public to see. If you can’t hear back from them, see things from their perspective, or get ideas on what it means and where things can go next, then can you really call it engagement? Below is a simple diagram I developed based on the workshop and the definition above, showing how ideas should go back and forth during public engagement activities, and how collaboration comes only when information has been transmitted and received on both ends. Obviously you have to start somewhere in the dialogue, which is generally in transmitting your ideas to the public, but the key is to engage in such a way as to provide an opening for them to transmit back to you. Why should we do public engagement? During the workshop we were asked to come up with reasons for why public engagement was worthwhile. We came up with quite a long list, and you can find other answers here as well. Highlights from our list include:
Personal: Feels good to take part in these types of activities Educational: For both parties, learning can take place whenever there is an exchange of ideas Moral: Research uses taxpayer money so there should be an obligation to give back to the community that enabled us to do the research in the first place Business: If it’s required or encouraged, then at some point you’ll need to do it to get grants Academic: It’s a place to get new ideas and collaborations while increasing your personal profile While this all sounds well and good, there are certainly limitations in the way that research is done at the moment that may make it hard to find the time or the infrastructure for these types of activities. For starters, you need to align your aims with those of your research group, institute, or university in order to get a bigger organization on your side, instead of just doing something on your own. For many, it’s likely difficult to find the spare time when public engagement is not explicitly part of your job. In a survey from 2006, 64% of scientists said that the need to spend time on research kept them from doing public engagement-and 20% even said that peers who did this type of work were looked down upon by their colleagues because they were wasting time which could have gone to more papers. How to engage the public Since you only have a small amount of spare time in the day to do non-research ‘work’, you’ll want to be efficient about it. In the workshop, Steve gave us a great model for how to think about public engagement activities. His mantra is to avoid focusing on the activity (e.g. ‘it would be really nice to do seminars with Q&A for non-scientists every other Thursday), but instead to think of the aim of the public engagement as well as who the audience will be. Identify your audience and an activity to address a specific set of goals and aims. Steve also provided a great template for thinking about the two-way aspects of the activity. Once you’ve established the aims and the audience, you can think about how your activity provides specific outcomes for both parties involved. For example, in the ‘skills’ outcome, if you can only fill in something in one box (e.g., just the audience or just the researchers gain some skill after the activity), then what can you do to try to provide some training or enhance the knowledge of the other group? When working on a project for our own institute’s public engagement group, I found the diagram extremely helpful-and it made me realize the project had other outcomes I hadn’t considered when when I was drafting the idea. It’s also a nice way to visualize exactly what you’re giving to your audience, and to see the possibilities for enabling and empowering people with your activity, which can certainly be a motivator on its own. Another take-home that I got from this workshop is that you don’t have to make huge changes all at once. You can do small things to empower groups one event at a time. Even if the level of empowerment is just a few take-home facts, a small amount of knowledge added up over time can amount to a lot. Who is the public? While talking about public engagement, it may seem trivial to take a step back and define what ‘the public’ actually is. During the workshop, it quickly became apparent that the public is not a single entity, nor one that can be talked to or interacted consistently. The public is a diverse, heterogeneous set of people with varying interests, experiences, and backgrounds. Part of the workshop involved brainstorming specific audiences for events and thinking about who would actually turn up to a public engagement event. For example, events held at museums will have a different group of people depending on the time of the week and the day. If you’re there on a Saturday afternoon versus a Monday morning versus a Thursday museum late-night event, the primary groups at each of those will be different, so the approaches used at each event to engage with people should also be different. It soon became clear that when thinking of the audience before drafting an activity that we can’t assume the audience is ‘everyone’, and as part of the workshop we were given an exercise about tailoring approaches based on the demographic and their interests. Our group had to construct a persona of a young couple on holiday who came to the museum and saw our science outreach activity, and we had to imagine the their attributes in terms of their interests, free-time activities, media consumed, brands, favorite foods/film/books/games, emotional needs, and life stage. The exercise felt like being an advertising executive, but breaking things down in this way helped us see the barriers as well as the ‘ins’ to a person’s perspectives that could help drive a message home. It helped us see how we could meet people where they are and made us appreciate how events are promoted to target certain groups and who might see and share things based on where they’re advertised. Making science communication count: get out there! Public engagement is not limited by public interest, and it still seems that the public has the impression that scientists put too little effort to tell the public about their work. Even in 2016, when scientists are embracing social media and new outlets for communication, there might still be a residual ivory tower mindest that is holding us back from sharing our research. Given that the public is hungry for science, we as scientists should work to give it to them! You can start off by finding events already happening in either your research community, university, or city-whether there’s a museum you can volunteer at or a school that’s looking for a scientist to talk to primary school students about ecology, there’s always a way to find events to connect yourself with. Think about what you already enjoy doing, whether it be writing, working with kids, organizing or participating in debates, or making creative and colorful visuals, and look for ways to incorporate your talents and interests to events and activities already happening. Then when you’ve had your feet wet, think about why you want to make a change in something, who you want to reach, and what you can do to get there.
This weekend in the UK we had our first Monday holiday of the summer season, festively named ‘Early May Bank Holiday’. Being the travel-loving person I am, I decided to head out of town for the weekend. My husband and I greatly enjoyed the weekend hiking along the Pembrokeshire coast in southern Wales. In true Bank Holiday fashion, it was an equal mix of splendid, sunny days and miserably windy and rainy ones. It was a great break after a busy week and a chance to celebrate my contract extension and new UK work permit, which finally just came through about a week ago.
As exciting and relaxing as the weekend was, I knew that after heading home from the holiday weekend, I had a lot of work on my plate, and only 11 months more to get it all done. While having a job is always a reason to celebrate, the fact that my job was still a temporary one made the reality of my career sink in: I got my post-doc contract extension, finally! So…now what? What comes after April 2017? There are numerous parts of research and graduate school that are stressful, but the uncertainty, transitions, and transient status that define the early stages of a career most definitely add to the stress. There is always uncertainty in the sense that you have ideas of what you want to do, but can’t ever be 100% sure you’ll get there until you do. Your career transitions include going from student to trainee to expert, all in a relatively short yet intense period of time. And the transient status is part of the process, since once you graduate or your contract ends, you need to move on to the next stage. In grad school you likely oftentimes feel like you just can’t wait to get to the next stage, since no one wants to be in school forever. You might find yourself intensely focused on the goals at hand, such as finishing crucial experiments or writing before you get close to the submission deadline. You might also spend time daydreaming of how great it will be to graduate, to be Dr. So-And-So, and to propel yourself off into the real world. But then, oftentimes, as you get closer to becoming Dr. So-And-So, you realize the reality of the situation: graduation is not an end-all to your journey, and things are only going to become a different type of complex at the next stage, whether it’s an uncertain job market or just feeling like you’re not cut out to do what you initially dreamed of doing. For those of you with goals of staying in academia, a post-doc is obviously a logical option, but here the waters certainly feel choppy at their best. With only temporary roles and positions to get more training and write good papers, it can leave even the calmest of people feeling stressed when getting close to the end of your funding. Then once you get your dream job, you’re still in a similar boat, with a different set of waves: there are more grants you need to get to keep your lab running, a tenure review board to keep you on your toes, and don’t forget that your primary job title is to still actually do research! An industry job can offer some solace in terms of more job security and less abrupt transitions, but in return you may jump from project/department/boss more often than you want. And the path up the career ladder might not look the same as you might expect—it could even differ from company to company, and office politics will come more into play than just your work alone. And while job security is certainly not an issue in the regulatory/government sectors, getting one of these jobs is definitely half, or even 3/4th, of the battle. It can be a difficult thing to feel like you can relax regardless of where you end up, but that’s not to say that relaxing isn’t possible, or that whatever position you end up in will have some doom-and-gloom aspect of it. All it means is that while you’re in the transitional parts of your career, you should think about where you want to go next and how you can get there. It’s a tempting question to try to avoid, or to try to delay making a decision by taking endless odd jobs and temporary roles, but if you use these transitions to your advantage, you can end up exactly where you want to be: Don’t avoid thinking about the question of ‘what next?’ Maybe the #1 reason that this question is scary to think about is because there’s always some fear or some chance that you won’t be able to get there. While that may or may not be the case, simply not talking about it won’t solve the problem. Even if you tell yourself that you’re just leaving your options open, going blindly down a path to something that you don’t actually want can make things more difficult when you do get to that transition point. Figuring out what you want to do and where you want to go next is a difficult question, but the bright side is that there’s always a way forward, regardless of what stage you’re at now. The key is to really, really know what you want to do, and once you do then identify a mentor or set of people in your professional network that can help you understand what it will take to get there. Think about what’s driving your career choice. Many of us will walk into graduate school with different expectations of what we want from a career. Science is attractive to all of us when we begin school, and a research professor job can seem like the ideal career choice for someone in the sciences. But there aren’t enough professor jobs out there for all of us, and oftentimes the things we value can be met in other positions outside of academia. As you think about what comes next, focus on what’s fundamentally driving your career forward and what you value from a vocation. Is it independence of ideas? Doing impactful work? Being actively involved in lab work and experiments? Working with students? There are a lot of ways to make an impactful career in research, and you don’t have to be a university professor to make a big impact. When looking at what you value, think about what excites you or drives you the most about science. If you like solving real-world problems and working in a fast-paced environment, then industry could be a good fit. If you like what you do being connected to national policies, then a government role could be a glimpse into doing work that can get that done. If you’re a creative type, then there are jobs in writing, communication, and outreach that can keep you working alongside science from a different angle than research. If you think about what you want the most and it’s the scientific method and research that drives you, then you should certainly go for it-just be ready and willing to give the time and energy to get there, because there are other researchers out there with a lot of drive to get to the same place as you want to be. Do what you can with where you are right now. It’s one thing to daydream of graduating or thinking about how easy things will be when you get a permanent job and quite another to get out and do the work that can get you there. On the flip side, there’s a tendency for us to think back on our work or decisions that led to a certain point in our careers. To see the positive of both sides of these two opposing perspectives, focus your thoughts instead about what you can do now in order to set yourself up for something better. This can include networking, identifying a mentor or someone with your dream job, getting some specific technical training, seeing if a short-term internship at a company is right for you, and a myriad of other things that you as a scientist-in-training should see as valuable uses of your time. Whatever it is that you think can help you at the next stage of your career, go for it! Remember to do the best with whatever place you end up in and at whatever stage you find yourself. Even if you don’t like your current post, give yourself some time and energy to invest in your own professional development that can help you get somewhere else. Remember to make time for yourself. It’s good to have time for some personal professional development, but remember too that we all need a break in the day or a bit of a holiday to step back from work and stress. Recognize when you feel like you’ve hit a wall in terms of a day’s productivity or are dragging after a busy few weeks or months of hard work. It may feel counter-intuitive to take a break when you feel like you’re not quite there yet, but these breaks can help re-inspire and unwind your mind, making your thoughts and goals more clear for the next push ahead. It’s not just about where you make it but also in how you get there. I’ve been to a few career panels and seminars, usually of researchers who talk about their career from the beginning, how they ended up in their current role, and what working for their organization/institution is like. My favorite career talks have been from people whose path to where they are now was anything but pre-planned, smooth, and without some unexpected twists and turns. One of the themes I take home from these types of talks is that often times we end up where we are not just because of our career plans, but from all sorts of other factors known as life and luck: being married, having a family, knowing someone who knew someone who had a job, and a lot of times just chance or luck come into where we end up in life. In these career talks, it’s clear that while the person may not have ended up where they thought they would originally, they loved where they ended up nonetheless, bumps along the road and all. Life certainly won’t always be a smooth journey, especially when you’re in a research-oriented career. But that doesn’t mean that you can’t make the absolute best of it or that you can’t enjoy the turns and face the trials that come. As for me, I’ll continue to enjoy the weekend breaks and summer holidays as they come, knowing that when I’m home I have a lot of work to do both in the lab and a lot of mental musings on where I go after April 2017. Thankfully I already have some ideas for both!
After a year of eager anticipation by show viewers, and a year of book readers being annoyed that they’ll no longer know what’s going to happen in the next episode, Season 6 of Game of Thrones is finally upon us. This week has been full of GoT anticipation on my Twitter and Facebook feeds, and I’ve passed several hours in the cell culture lab listening to The World of Ice and Fire audiobook. So with the show and story full in my mind I’ve decided to take a nerdy detour from the last two weeks of practical guides for writing manuscripts to talk about dragons and white walkers.
While perusing through my social media feeds and listening to the Westeros backstories these past few weeks, I’ve pondered why exactly this world and this show is so popular. It’s not the first show to deal with family dramas or power struggles mirroring those in our own history, nor the first one to bring fantasy elements like magic and dragons to life, but this one can strange as it seems, make it feel realistic. Everyone can relate to how love or hate drives people to do crazy things, how sometimes the struggle is not as clear cut as good versus evil, how sometimes the good guys lose, and how everyone’s looking for something that they think they deserve, whether it be retribution or glory or power. Part of the big attraction, at least for me, is the incredible characters. They have flaws and struggles, they learn from their experiences, and sometimes just can’t catch a break despite being good people (here’s a toast to you, Sansa Stark). We all know people in our lives that mirror these characters, whether they’re vying for the iron throne or just take up all the time during lab meetings. Game of Thrones is such a great story and show because it’s not the perfect fairy tale we were told as kids, but is more of a realistic reflection on the challenges we face in our own world, whether we’re armed with dragons, valyrian steel, or just our own wits. Graduate school and scientific research can also feel a bit like a Game (of Thesis, in our case most of the time). Whether it’s committee meetings that feel like the Small Council discussing your fate, or daydreaming of being able to graduate using a Trial by Combat, there’s certainly a few ways that the show and the story can reflect on aspects of the lives of scientists and researchers. This week’s post will focus on a few take-home messages from the GoT storyline, talking points that I feel reflect on graduate school and life as a researcher. And while there may not be one Iron Throne of Research that we’re all vying for, we’re all looking for something. Dragons, prophesies, and steel are good, but a quick wit and hard work ethic can take you just as far. There are several characters and houses that rose to power for obvious reasons. Dragons for House Targaryen, gold for House Lannister, and being really good at shoveling snow for House Stark. It’s easy to see how resources and tools at your disposal can set you apart from the competition, and can make you stand out as a power in your own right. But one of my favorite things about Game of Thrones is that the little guys have a part to play, too, and not an insignificant one at that. Characters like Littlefinger and Varys didn’t come from powerful families (and until we finish the series, we can’t be sure of their honest intentions) but they’ve emerged as players and leaders in the Game through their wits and their knowledge. This is also the case for historically weaker houses such as the Tyrells (read about their back story here) who emerged to power not using, well, power, per se. Through good strategy, patience, and knowing when to stand your ground and when to back down, even minor pieces of the game can emerge to become powerful players. While scheming or back-stabbing is not recommended in research, you should never compare yourself to what other people have in terms of skills, resources, etc. Never underestimate the power of your own knowledge and abilities, and use your patience and wits to work towards your goals in your career. While you may look at others and only see the things they have that are better than you, whether it be in terms of publications, facilities, or the honorable name of their House (e. g. University), remember that in the end you are the one that can take yourself as far as you want to go. Another thing to remember is that even ‘small’ people can also make an impact, or in the case of Tyrion Lannister, ‘cast a large shadow.’ Don’t lower your own achievements because you didn’t save the world outright. If you make something slightly better, or figure something out that wasn’t known before, then that’s something. Take-home book quote: Keep your mind and wits sharp! "A mind needs books as a sword needs a whetstone, if it is to keep its edge" Make things right where you are: avoid blazing ahead and leaving things unfinished behind you. I hear a lot of book readers and show watchers look at Daenery’s storyline and say ‘Come on, girl, get those dragons and fly over to Westeros! What are you waiting for??’ Many criticize Dany’s decision to stay in Essos (and it looks like Season 6 will shed more light on the wisdom of that decision), but I like the reasoning she had here, regardless of all the things that went wrong since then. Instead of blazing ahead to Westeros with her dragons, she saw the problems that a power vacuum had left behind in Slaver’s Bay, and sought to solve the problem of ruthless leadership and a slave-based economy by staying in Mereen as queen. Clearly there has been a learning curve in her success in Slaver’s Bay, but nonetheless her heart was in the right place, and I believe it will end up being a good decision for her personal growth. The take-home lesson from Dany is that if you want to learn how to do big things well, you need to start small. A good example of this in academic or scientific research careers is how we need to go through the steps from graduate school, then into post-doctoral training/entry level industry jobs, before we’re ready to lead our own research team or take the helm of a research program within a company or institute. If we try just to get through something for the sake of passing through, without learning lessons along the way or working to make small, impactful changes, then it can leave us unprepared. Becoming a professional scientist is a process, one that works best when you take it one step at a time. That way, you make sure we can get to the later stages and be ready for it. On a similar note, don’t pine too much about progressing to the next level before you’ve seen things through where you are. If you feel like it’s time to move on but you can’t find a way to get there, instead of getting frustrated just focus on what you can do to move forward bit by bit instead of regretting what’s already been done. Take-home book quote: Keep looking forward! “If I look back I am lost.” Be strategic and have a plan, but be flexible and get your hands dirty when need be. The battle of Blackwater Bay is a great example of how being well-prepared can seal a victory. Tyrion’s preparedness and forethought helped win the day, despite the numerous challenges in terms of the size of Stannis’ navy. But despite all the extensive planning he did, in the heat of the moment Tyrion had to throw on some armor himself and see to getting the work done that needed to be done. Being prepared is always a good idea for life as a researcher. Whether it be reading up on literature before you start writing, thinking about your questions and experiments before you dive into work, or having a strategy for networking at an upcoming conference, laying out your goals and ideas ahead of time can set you ahead in your career, especially at an early stage. Do everything you can to foresee any challenges that come along, but know that you’ll have to be ready for a quick change or a leap into action if push comes to shove. It could be a last-minute experiment that you didn’t plan for or a conference presentation you find out about a week before-whatever it is, put some armor on and get out there. Take-home quote: Go for it! "Can a man still be brave if he's afraid?', 'That is the only time a man can be brave" Be mindful of broken promises and be diligent in keeping your own oaths. The Red Wedding is certainly a good example of broken promises in the Game of Thrones universe, and it’s not the only time people were led astray or had a promise broken. In work and in life, you’ll meet people who will make promises that they don’t keep, or exaggerate their work and their abilities. This is unfortunately just a part of life. There is a good reason to approach everything in research with a skeptical, scientific eye. Keep up your guard and don’t believe anything until you see the data or see the work completed. On the more positive side of things, in your own work you can strive to be one of those who makes and keeps oaths, establishing yourself as a trustworthy collaborator and colleague. Setting yourself up as a reliable person can mean more collaborations, more supporters, and more allies (see the next section). Take-home quote: Be mindful of promise-breakers, and strive to be the honorable one. “Give me honorable enemies rather than ambitious ones, and I'll sleep more easily by night.” We all need allies at our side. We all love House Stark, but no one saw anything good coming from Ned’s single-handed attempt to throw Cersei and her family down. Without support, even if you’re in the right, you can’t hope to make much progress when it comes to big challenges. We all need friends, colleagues, and collaborators on our side to get things done, especially with the challenges we face as scientists today. Similar to being an honorable, promise-keeping person, in your career you should focus on getting and keeping people on your side. Be an engaged and courteous collaborator, and find people you trust that can provide the support or knowledge to make the work you do more impactful. In all your scientific interactions, be professional to the people you meet, and don’t let petty arguments or philosophical disagreements cause you to burn bridges between you and other good researchers. Take-home quote: None of us can do this alone. “When the snows fall and the white winds blow, the lone wolf dies but the pack survives.” Knowing yourself and your strengths and weaknesses is the first step towards success. Tyrion gives one of my favorite quotes about this topic: “Never forget what you are, for surely the world will not. Make it your strength. Then it can never be your weakness. Armor yourself in it, and it will never be used to hurt you.” In the Game of Thrones universe everyone has some level of expectation set on them, whether it be to meet up to the standards of their House/family or if they have some hindrance/greatness about them. Some choose to follow their own paths and others to follow the recommendations or expectations of others. Tyrion was despised by his family, and he knew it, but he focused on improving his own mind and his own connections instead of letting it destroy him. Brienne was expected to be the Lady of Tarth, but she went and set on her own course for knighthood and honor. Jamie was seemingly forever known as the Kingslayer, but he set to make things right for the sake of his own entry in the book of the Kingsguard (a theme more relevant for the book, perhaps…). We already talked about the importance of knowing your own tendencies, work strategies, passions, and all the other ways that you are you. Don’t focus on comparing your skillset or yourself to others, but remember that as a scientist your work is on display for all to see, criticize, and evaluate. Know what you can do and what you can’t, work to fix what you can, and be proud of whoever that person is that you see in the mirror. You won’t be the best at everything, but you are you-and that means something. When in doubt? Fire arrows! Because sometimes that’s all you can do when things get tough, and that’s OK. So here’s to the next season of our favorite fantasy-family rivalry TV series, hoping that any and all of your favorites are safe, at least for a few episodes. Regardless of how A Song of Ice and Fire finishes or who ends up on the Iron Throne, Game of Thrones will have given us incredible story reflective of the human condition and the flaws and challenges we all face, whether there be dragons or just fire-breathing PhD committee members. The Art of Science Writing, Part 2: Putting words onto paper (or, more likely, Word documents)4/20/2016
Last week we began our how-to-guide with the key steps that need to be taken before you start writing a manuscript. We stressed the importance of reading, both the scientific literature relevant for your field, as well as the benefits of personal reading outside of science. Reading ensures that you have key information fresh in your mind, and also shows you how other people write and construct a story. You will be the one that makes your own unique manuscript, but other manuscripts can show you what a finished product looks like in terms of organization and structure. We also went into some detail on making an outline, or if you prefer, a storyboard. This provides the framework you will build off as you start putting your story together.
Before jumping into the five steps for writing manuscripts, I wanted to touch briefly on your writing environment. I’ve heard some people say that they can only write in a certain setting, that they write better at home or in the office or in a sound-proof room, or that they have specific needs in order to get writing done (e.g., loud music, complete silence, endless coffee, bottomless pretzels, and really anything in between). It’s good to have a process in place or a tool that can help you write, but be cautious of getting stuck in the mindset of feeling like you can only write under certain conditions. There will be times in your day or your week when you’ll have some downtime, whether it’s 15 minutes or an hour between running experiments or going to meetings. If you’re thinking about ideas for a manuscript, write them down as they come. Even if it’s a paragraph that you only end up using a couple of sentences from, it’s important to get these ideas out there in a tangible form so you can rearrange and polish them latter. Writing is one of the most important parts of being a scientist. It documents both your thoughts and your hard work and transforms them into a story someone else can learn from-so preparing yourself to be ready to write at any time and in a variety of settings is an important career skill. Step 1: What’s the story, morning glory? Going back to Step 0, what do you have at this point? You have a detailed story board/outline of the relevant literature in your field, you have your figures in a mostly finished state…now what? Before you start taking that story board apart and fitting the ideas into text, write the last paragraph of your introduction. In our last post we mentioned that this paragraph describes the ‘Aim of paper, experimental objectives, and also list any specific hypotheses.’ But why do we start here? This is the core of your story: what you’re doing, how you did it, and what you thought you’d get. From a more philosophical viewpoint, this is also a key part of the scientific method, showing the progress between ideas and knowledge and how you use your work to generate new information to shed light on something not known before. To see this in action, I’ve included the last paper from my PhD, which ended up being one of my personal favorite papers, partly because of lessons learned the hard way in the first two papers. I’ve highlighted the key areas: 'The objective of this study was to evaluate changes in gene expression coupled with in vitro nuclear receptor assays to evaluate the androgenicity of water downstream of the paper mill on the Fenholloway River. Two specific aims were developed: (1) evaluate mRNA levels of vtg, 17βhsd3, and zp2 in the liver, shh in the anal fin, and global hepatic gene expression profiles associated with paper mill exposure, and (2) determine if chemicals in the Fenholloway River could bind to the ligand binding domain of androgen and progesterone receptors. We hypothesized that modulations in gene expression patterns and in vitro analyses would be indicative of androgen exposure and that global gene expression analysis via microarrays would provide insights into the mode(s) of actions of the chemicals present in the effluent.' The study wasn’t a complicated one, and I strove for clarity and simplicity in how I developed this paragraph. Work on this paragraph before any other part of the paper and have your PI or another graduate mentor review it for you. Then once you’ve got them on board with your idea, print it and keep it off to the side to remind you to focus around this core of the paper. Use this paragraph as a framework for your manuscript. As you write, you should be considering how to address the hypothesis/hypotheses using your specific aims and project objectives. Step 2: Start from the middle Once you have the last paragraph of the introduction, you’ll actually want to go to the middle part of the paper next. In the case of your manuscript, the introduction is the beginning of the story, the methods/results is the middle, and the discussion is the end. So before jumping back into the introduction, finish the figure captions and write the materials and methods section (as an added bonus, these are also the two easiest parts of the paper to write). A methods section is essentially structuring your lab protocols and procedures into a narrative form—keeping the most relevant parts in the narrative and citing other papers/protocols to keep the section from becoming too long. Writing this easier section first can help you get into the writing ‘mood’ and can also remind you of exactly what you did in the lab before you write about it. For the results section, keep this to a very cut-and-dry overview of what each figure depicts. This part of the paper shouldn’t include data interpretation, just evaluation. As you’re writing these middle sections, go back to your specific aims and hypotheses and see what the data say about them. Work on these questions and use them to help guide what you say in your results section and also to frame what you’ll bring up in the discussion:
Step 3: Set the scene Now we’re ready to move to the introduction. As we said in our previous post as well as our perfect presentations post, the format of the introduction is presenting a specific problem, its overall importance, and your approach to solving it. We also talked last week about how the outline can look for the introduction (and you already have the last paragraph, so we took that one out): - Paragraph 1: What is the problem and why should the reader worry/care about it? - Paragraph 2 (and maybe 3): What’s been done to address/know more about the problem so far - Paragraph 3/4: Knowledge or tools that can be used to further address the problem With your outline already sorted, you should be able to fill in a few sentences about each idea. The first paragraph should give a short overview of the problem at hand, including definitions and explanations of key concepts in your research area. This is especially important for people outside your field—those who work in this area will likely skip over this part of your paper, but someone unfamiliar with the tools and concepts you’re looking at will need to get a big picture understanding of your work in a single paragraph. For example, if your work is looking at Gene X and its role in the immune system and how it impacts cancer drug effectiveness, you don’t need to give a broad overview of how the immune system works, but someone coming from the field of neurobiology should be able to understand the basics of what type of study system you’re using and why it’s of relevance for your work. The second (and potentially also the third) paragraph will be more of a short literature review, which you can expand on more in the discussion as needed. Avoid dumping all of the existing ideas or possibly relevant literature in this section, since it will make it an unreadable series of facts. Start by simply asking ‘Who else is working on a similar topic to mine?’ and work out from there. You don’t need to cover everything slightly related, but for example of Gene X immune system-cancer drug cross-talk, you can summarize the current basis of knowledge for other genes that related to system-drug cross-talk and how your gene emerged as a potential candidate for further study. The length of this section will depend on you, your PI, and also the publisher, if they happen to have limits on the total word count or a word count per section. If it’s on a total word count basis, keep this section shorter and use your words in more important sections such as the discussion. Step 4: Bring it all together If the last paragraph is where you start writing for your introduction, the first paragraph of the discussion is where you start writing for this last section (confused already?). This leading paragraph of your discussion is what’s going to set up this crucial section of your paper and tie your new results and previous results all together. In this first paragraph, go back to your specific aims and hypotheses. Describe what you found out through the study in the context of your initial hypotheses, and give a step-by-step overview of what you just presented in the paper. Going back to my PLOS one paper, here’s how the discussion section started out: 'We found that masculinization of female G. holbrooki continues to occur in the Fenholloway River. Paper mill effluent exposure is associated with both anal fin elongation as well as with significantly increased bone segment formation at this site. Additionally, we found an increase in the mRNA levels of vtg, zp2, 17βhsd3, and shh in Fenholloway River G. holbrooki. Through comparison of hepatic gene expression patterns to data from laboratory exposures, we found that paper mill effluent exposure resulted in an increase of genes associated with metabolic pathways, with 62 genes similarly expressed by G. holbrooki exposed to androgens, indicating a similarity between impacts at the molecular level between paper mill and androgen exposure. We also found detectable levels of both AR and PR ligands in the transactivation assay in concentrated water samples collected from both the paper mill impacted and reference sites.' This opening paragraph can set you up for the rest of the discussion very easily, as you’ll have essentially listed out a topic for each following paragraph in the discussion. In each paragraph, think about how the results you saw fit in with key experiments from the literature and try to connect the two. What proposed pathways or models exist to explain both your results and data already in the literature? What potential ideas could explain discrepancies between your findings and a similar study by another group? It’s in this section that you’ll need to put the most work, which is why it should be saved for the almost last bit of writing. As with writing anything, though, the one thing you don’t need to do is get it perfect the first time. The discussion is generally the hardest section to write because it requires synthesizing all the results as well as developing new ideas and explanations for what you found. Trying to put this all into writing is not an easy task-but one that you should still give a go anyways. If you feel stuck, try to go one paragraph at a time and send that paragraph to a colleague or mentor to review. Get some feedback from them as to if you’re on the right track, if your scientific logic has any holes, or if there’s a different way you can structure your arguments. The best way to learn how to write is to try, and then try some more-so if anything, don’t be afraid to put words on paper and see how it goes! Also, don’t be afraid of a discussion that goes too long, at least in the pre-submission stages. You can always cut back, and your paper co-authors will likely also have ideas of what should go where and what’s relevant, so feel free to send them a lot and let them cut back as need be. While you as the lead author will do the bulk of the work, don’t be afraid to ask a co-author for additional editorial guidance, especially if they have good paper writing experience. Step 5: Tie up the loose ends While you’ll probably have to come back to your paper after your initial few drafts after your co-authors take a look, there are other things you should make sure are good to go before you finally click ‘submit’. Literature cited: Main hint here? Use a reference tool! If you have access to EndNote then there is a very easy-to-use plug-in; if not there are other free platforms (such as Mendeley) you can use which also have Microsoft Word plug-ins. Whether it’s a long or short paper, regardless of how many references you end up having, using a reference tool will take the tedium out of this section, and will also ensure that everything’s cited in the correct format. Tables and figures: Each journal should have a guide for authors which will specify the types of files supported and any minimum compression sizes/methods for figures. Remember that these are the part of your paper that people will often look at first-so make sure they are clear, accurate, readable, of a high technical quality, and, of course, stylish. Acknowledgements: Be sure to thank any lab mates, technicians, or colleagues who helped out with the project but who didn’t do enough work to make it to the author list. If you have co-author who works in a company or government institution, they will likely have to include wording to reflect that this paper doesn’t reflect the companies views (they will probably add it themselves but you can make a note to ensure that they included it). And don’t forget the funding agencies who sponsored your soon-to-be published study! The key thing to remember about writing is that you won’t get it right the first time around. It takes practice and a lot of trial and error, which can leave you feeling like you’ve been stuck on a paper for ages. That being said, writing is a chance to enable ideas to grow and change over time as part of the creative process, which can bring depth to your arguments and your story. You won’t get a perfect paper the first time around, so envision your time spent writing as constructive practice towards future perfection (or at least publishable perfection!).
We’ve previously touched on writer’s block, and the strategies and tips you can use to get over the initial hurdle of the blank piece of paper. This week I’ve been inspired to revisit the topic of writing, in part because of my own return to science writing after a bit of a break. I greatly enjoyed writing in grad school, perhaps in part because I knew that writing before the end would help me finish my dissertation, but found that picking things up and getting in ‘writing’ mode again after almost two years of lab and computer work as a post-doc was a difficult task. Where do you start when you have nothing but a blank page? How do you go from a few figures to a draft of a manuscript?
As we touched on in our previous post, there are a few ‘blocks’ to get around in order to let the creative juices flow. Just as with presentations, there is no such thing as being held back in your writing by being a bad writer in science. You may not be a naturally prolific writer (just like I am not a naturally confident public speaker), but the great thing about writing in science is that if you stick to a plan and have a goal with what you want to write, you can always get there. In science, it’s not about how big your vocabulary is or how similar your writing is to the great novelists of the 21st century: it’s about sharing your story with clarity and enthusiasm, all laid out in a logical and progressive manner. So don’t let being a ‘bad writer’ bring you down or become a common excuse for you to avoid writing. As with our easy* steps for a perfect** presentation series, we’ll detail a step-by-step guide to writing, focusing on how you can go from a blank piece of paper to a respectable draft. But instead of calling this the ‘Five Easy* steps for a perfect** paper’, this series will focus on the art underlying science writing. Because in reality, art isn’t only about fanning those flames of creativity, it’s also about getting your tools ready, doing some preliminary sketches, and having the technical knowledge to bring your vision to life. You can’t just be a good artist to make good art—you have to put preparation and thought into the works you create in order for them to be impactful. Step -1: Read! Just as with our presentation guidelines, there are things you can and should do before you begin writing a manuscript, grant, science blog, or really anything short or long related to science and to your work. Before you can begin to write and become a better writer, you should read and work towards becoming a better reader. Obviously you’ll read a lot of papers that are relevant to your work, but how many times do you actually read a paper versus just looking at a couple of relevant figures or glancing over the methods section? If you want to see how science writing works, you need to read the results of science writing. See how manuscript authors lay out their story, how they bring together figures and results to a cohesive conclusion, and what works and what doesn’t in terms of style and structure. You’ll likely find more than a few bad or boring papers in the bunch, so when you do find a paper that sticks with you, keep it around: highlight the key points, see how they laid out their figures, and get a sense of how they developed their story. At the same time, learn how to critique a scientific paper. Focus on both the writing itself as well as the underlying logic. Do the findings they present match up with the conclusion they drew? Do the experiments they did line up with their hypothesis or project objectives? Were there any fundamental flaws in how they designed the study that weakens the conclusions they can draw? While you’re learning by seeing how others write, you can also take the time to become an evaluative, critical scientist, which is crucial at any stage of your career. You don’t just have to turn to the scientific literature for reading inspiration, though. Your job as a writer is essentially to tell a story: a story with a beginning, a middle, and an end. Just because your story is crafted on data instead of imagination doesn’t mean that the methods used by authors from outside of science aren’t relevant. Take a break and pick up a new novel or read a non-fiction book on a topic you’re interested in. How does the author keep your attention? How do they transition between ideas or paragraphs? What words or phrases do they use that stick with you? We pick up a lot of our vocabulary and our way of phrasing ideas from listening and reading, so by enjoying more good writing you can also become a better writer. Step 0: Make a story board Sound familiar? That’s because it’s the same piece of advice we gave in our perfect presentations series. Before you open up that dreaded empty Word document (or the boilerplate ‘.tex’ file for those Latex nerds out there), do some ground work and set yourself up for success by drafting your outline or, to use the analogy from last time, a story board. As with the presentation guidelines, the purpose of the storyboard is to provide some structure for your ideas and to let you be creative while at the same time helping you guide your creativity in a logical manner. So what exactly do you need to create your story board for science writing? Figures. These should be in a 90% final form before you begin writing your paper. Maybe you’ll add something else in that was initially lacking, maybe you’ll change the label on some axes or change the color schemes, but overall they should be static the moment you begin writing. The figures should be able to tell a story on their own, the story that you’ll craft into words around these core figures. You may think that the place to start with a manuscript is the introduction, but in reality you should focus on your figures before thinking of any other part of the paper. If you are a pen-and-paper type of person like me, print off each figure as its own separate sheet of paper. Around the sides, make notes about the figure. What do the bars show, on a very basic level (e.g. ‘Number of eggs per brood’)? Is everything labeled appropriately? Someone should be able to look at the figure, even without the caption, and have a basic understanding of what’s going on (such as ‘ok, there’s an increase in the number of eggs based on the dose of the treatment’). Once you’ve had a thorough evaluation of the figures themselves, draft a caption for each one. Start with bullet points of the take-home messages for each figure. What does the figure show, on a more advanced level (e.g. ‘Differences in nutrient uptake in treated versus control animals’)? What should someone understand about this figure that they can’t figure out just by looking at the image itself (such as how many replicates are in each measurement)? Take these bullets as the starting point for your figure caption, and when back on your computer go ahead and write a full paragraph for each figure based on these bullet points. So now you’ve now got your figures and figure captions, which in reality what most people will turn to first in your paper-so you’re off to a good start! Experimental protocols. Once you know the basics of what you’re going to show with your figures, start working on an outline for your experimental methods. This is generally the easiest (and also most boring) part of a paper, but from a scientific perspective is the most crucial. As you put together all of your relevant figures, dig out your lab notebooks and protocols to get all the details of your experiments. Make note of any steps of an experiment that fall outside the scope of a more standard operating procedure, or if a group of samples from one analysis was processed in a different way that the others. Have your lab notes and protocols on hand and give them another read-through before you start writing. You can also look at methods sections from other manuscripts (even ones from your own lab) to get a feel for what information is important and what is superfluous. But be careful not to just copy-paste the methods section from another group’s manuscript, or even your own group (or your own previous manuscript). Even without any malintentions, simply reusing a section may be plagiarism or self-plagiarism. Rewriting the methods section ensures it is current, and it may end up being more clear or concise. A pile of papers that have already been read. This is again a spot that can trip people up in the writing process. Once you’ve got your figures and protocol in place, the next step is to think about how to craft the story around them. You used the protocols to generate the data that you’ll present in your figures. But what’s the contribution to the existing body of knowledge? What’s the context of why that work was done, and how does it fit into what other data is out there already? How does this help your field understand a problem/scientific question? As with step -1, it’s hard to be a good writer if you don’t read. And while you may have a basic understanding of what’s going on in your field or within this topic, you need to take a closer look at the literature before you start writing in order to craft your story and lay out the logic in the most appropriate way. So before you start writing, read in detail any of the manuscripts that you’ll most likely cite: the papers with the experiments that inspired your work, the papers that did similar types of experiments but with perhaps different systems or questions, and the papers that challenge your result at some level. Even if you’re read them already, read them again and make notes on the important findings or concepts that you’ll need to construct your paper. Once the literature review is done, you can use this pile of knowledge to construct your storyboard. Think of your introduction and conclusion not as two separate components, but instead as a continuation of one to the other. The introduction is the beginning of the story, the methods/results is the middle, and the discussion is the end. In your introduction, you set up the coming tale. As with our presentation guidelines, you can use the following format: your paper, just like your presentation, isn’t a series of facts, but is instead a means of presenting a specific problem, its overall importance, and your approach to solving it. You can consistently keep this to anywhere from 4-5 paragraphs by using the following layout: - Paragraph 1: What is the problem and why should the reader worry/care about it? - Paragraph 2 (- 3): What’s been done to address/know more about the problem so far - Paragraph 3/4: Knowledge or tools that can be used to further address the problem - Paragraph 4/5: Aim of paper, experimental objectives, and also list any specific hypotheses The methods and results section are pretty cut and dry, and don’t need much of an outline apart from what’s in your experimental protocols and the bullets you jotted down while working on your figures. Keep any specific or detailed interpretations of figures (such as ‘the decrease in egg production is related to an increase in temperature’) for the discussion. The results section should be very cut and dry, with one paragraph of results per figure. Focus on the basics of what each figure is telling you and save the juicy, exciting bits about what it all means for the discussion. In the discussion, you continue the story started in the instruction, but now you have a new factor to accommodate for: the data you generated in the manuscript. How does your new data fit in with what was known already? Does anyone have data that disagrees with yours? Frame the discussion as a way of addressing the questions you presented in your introduction, how your results fit in with your hypothesis, and what the limitations/future directions of your work are. As you make your outline, put as many ideas, relevant citations, and things to mention in the paper in your storyboard as you can think of. You likely won’t use half of them, but laying out any potentially relevant findings can help provide context for what you should discuss and how you should frame your writing. One way to do this is to break down each paper into a series of bullet points. List out relevant methods, rationale, hypotheses, findings, and if you think results were interpreted correctly. Another alternative is to have bullets ranked by topic, and then list papers and relevant results under that topic, and see where the similarities/differences lie. I’ve tended to use a mixture of both, and then while writing used color-coded notations to help me keep track of what sections were written where. For my own dissertation, before I began writing the introduction and conclusion sections, I first laid out the literature and the key points I wanted to address in a very long outline. While in the end I only used about half of what I put into the outline, when I was ready to begin writing I was able to jump into it quickly, without having to go back and forth between reading and writing and disrupting the flow of my ideas and thoughts. Being ready to write means being more efficient at writing, because you can let your ideas come to life without having to jump back and forth between different tasks, thoughts, or distractions. It may seem like a lot of work before you even start writing more than just a few bullet points. But think about it this way: How much preparation work do you put into a big experiment? How much time does it take you to code something that’s never been done before? How much washing, chopping, and reading recipes do you need to do before you cook a nice dinner? A lot of the things we do, both in lab and in life, take a lot of pre-work in order to come out at a high quality and to be done efficiently. The work you put in before you start writing will allow your work to take off once you are ready to get started-and will make the task less tedious and tiresome, since at that point all you’ll have to do is to tell the story. Next week we’ll go more into detail of how to take the outline and figures and construct a story around them. Until then, happy storyboarding! Science with style blog review: Gretchen Rubin’s four tendencies and making better research habits4/6/2016
Some of my recurring blog themes include topics such as knowing yourself, your working style, and your strengths and weaknesses. By knowing yourself and your tendencies, you can better figure out how to get yourself out of ruts, how to ask for help, or how to make it through a difficult situation in the lab or in the office. As part of my interest in scientific ‘self-help’, I love reading about personality assessments and combing through the theories about my own or my colleagues’ ‘types’. I use the information to think about how to communicate with other people better and also how to recognize my own shortfalls and to work to correct them.
My mother and I share the same interest in observing people and their personalities. Recently she talked to me about Gretchen Rubin’s four tendencies, a personality test that distinguishes people by the way respond to internal and external expectations. I enjoyed the simple and clear presentation, and, while I was initially skeptical of its applicability (probably due to the type of tendency I fall into), I feel it’s relevant for understanding how we work in the lab and in a research setting. You can read all about the theory behind Rubin’s tendencies on her website, but in a nutshell a person’s tendency boils down to how he or she follows instructions. In her book ‘Better than Before’, Rubin focuses on applying this theory towards changing habits, whether it be to exercise three times a week or to call your mom more often so you can discuss your entire family’s Rubin tendency distribution. It’s probably not initially clear what relevance this personality test could have in your scientific career, but as with most jobs, you spend a good portion of your day handling a lot of instructions: what your principal investigator wants, what your company/university wants, what you want, and at some point you’ll also be the one giving out instructions to others. At the same time that we receive information and instruction from various sources, we also make decisions on when do we decide to take breaks and how we decide which tasks to prioritize. I’ll leave the details of the theory and the typologies to Rubin to describe in detail, but let’s get some context for what these four tendencies are, how they may manifest given that you work in a research-type setting, and what the potential strengths and weaknesses are in the lab for each type. But first thing’s first: take the test. No, really, it’s crucial for the rest of this post! It’s a short questionnaire and only a few questions long. And as with any personality test: be sure to answer truthfully to yourself. Respond as you would respond in that situation, and try to really picture yourself in the setting for each question. Assuming that you have now taken the quiz and have been assigned your personality, we can discuss its implications. Rubin’s four personality types first came to be in 2013 and have now grown in detail and structure. The tendencies are also part of Rubin’s The Happiness Project, where she goes into detail of strategies for changing habits based on what types of expectations you follow the most. These descriptions come directly from her website and are referred to as either the Rubin Personality Index or the Rubin Tendencies. We like Rubin Tendencies, so we’ll stick with that one. The four tendencies are obligers, upholders, questioners, and REBELS. In the quote below, ‘rules’ also refer to instruction, or really any type of expectation. “Upholders respond to both inner and outer rules; Questioners question all rules, but can follow rules they endorse (effectively making all rules into inner rules); REBELS resist all rules; Obligers respond to outer rules but not to inner rules. - Upholders wake up and think, “What’s on the schedule and the to-do list for today?” They’re very motivated by execution, getting things accomplished. They really don’t like making mistakes, getting blamed, or failing to follow through (including doing so to themselves). - Questioners wake up and think, “What needs to get done today?” They’re very motivated by seeing good reasons for a particular course of action. They really don’t like spending time and effort on activities they don’t agree with. - REBELS wake up and think, “What do I want to do today?” They’re very motivated by a sense of freedom, of self-determination. They really don’t like being told what to do. - Obligers wake up and think, “What must I do today?” They’re very motivated by accountability. They really don’t like being reprimanded or letting others down. “ Quoted from Gretchen Rubin blog, 27 March 2013 So now that you’ve done the quiz, what do you think of this short assessment of yourself? Do you wake up every morning thinking about what your Rubin tendency says you do? You can read in more detail about your own Rubin Tendency if you’re interested. After reading the detailed reports for the four Rubin tendencies, here’s our own shortened interpretation of them: - Upholders are great doers and achievers, but may struggle if there’s no clarity or no plan. - Questioners are very internally motivated, but may run into issues if they can’t accept worthwhile direction or advice from others. - REBELS have great ambition and creativity, but may resist following direction if they don’t feel like they can do what they want on their own time. - Obligers are reliable and dependable, but may have issues with being too self-sacrificing and spend time building up others before themselves. While Rubin focuses on how types related to habits and her books show you how to create good habits based on what your type is, in this post I instead wanted to highlight some common scenarios that can come up in research and how each type might get caught up with and a potential solution/approach. Upholders: The to-do list masters who may run into progress speed bumps with things like:
What can upholders do? You’ve already got a great work ethic, now you just need to figure out how to think on your feet and think outside the box:
Questioners: Good at critically evaluating everything…except sometimes themselves! Here are the issues that these constant wonderers of ‘why’ can fall into:
What can questioners do? Asking a lot of questions is a good tendency in science, as long as that critical evaluation is evenly distributed and fair. To give yourself a fair assessment, work on the following:
REBELS: Will challenge ideas and reach for the skies…but may have a hard time getting there if they don’t listen to others. Here’s what trouble REBELS can run into in the lab:
What can REBELS do? It may sound like a hard sell to be a good REBEL scientist at first, but one of the things that makes rebels great is that they go against the grain-think of all the great paradigm shifts in science that came from looking at the status quo and saying ‘no’! Nonetheless, you do have to play by the book, at least a little bit:
Obligers: You’re everyone’s favorite, most helpful lab mate, but your own work will go un-worked on if you have a job to do for someone else. Here are some other situations that an obliger may run into:
What can obligers do? It’s hard to put yourself first, so here’s some tips on how you can look at your internal obligations with an external focus:
The thing I like about the Rubin tendencies in the context of research is that it highlights the need for teamwork. There is no one perfect personality type for academic research: we all have to challenge currently held perceptions, knowledge, and ideas, but also have to know when to follow the rules and respect the knowledge already in play. We have to strike a balance between working towards our own goals and recognizing the value of working with others. The key with integrating the tendencies in your own research career is first to recognize which tendency you follow the most and to work towards ensuring that you stay on task for your own career goals. Additional life hack: find friends and collaborators who exhibit different tendencies than you have to balance out the scales. Whoever said that psycho-analyzing your friends and co-workers couldn't be fun or useful!!
One of the challenges of having a weekly blog is not knowing at what time or from where inspiration will come. Sometimes I have ideas in the queue for weeks at a time, other times I’m scrambling on a Tuesday night to come up with something for the next day. This week I’m leaning towards the latter approach, especially after returning from a long weekend/Easter holiday.
While I passed most of the weekend enjoying the sights, wine, and sunshine of central Spain, I realized that one of my favorite parts of travelling around Europe isn’t experiencing the modern-day cuisine and the culture, it’s the history and legacies that were left behind for us today that still inspire and motivate me. In particular, I love seeing the remnants of the Romans. On our first day trip from Madrid we traveled to the walled city of Segovia, which has an in-tact Roman aqueduct that was in use up until the 19th century. The aqueduct is imposing and impressive, nearly 100 feet tall (or 28.5 m, since this is a science blog after all) and stretches 15 km from the city walls. Not only is the original design impressive in its own right, the antiquity of the construction—which was started sometime near 50 AD—adds to its magnificence. We took the time to wander along the aqueduct trail to and from the city, and while admiring the structure I couldn’t help but think of the other impressive works that the Romans left behind. From the awe-inspiring views along Hadrian’s wall as it stretches across the Northern English countryside to the first moment when you see the grandeur of the Coliseum, you can’t help but be impressed by what was accomplished nearly two thousand years ago in a time with no computers, phones, cars, and a multitude of technologies that seem integral to our lives today. While I am certainly not an expert in Roman history, my trips to museums and my brief bits of reading about that period of history has given me an impression of how Rome functioned and thrived. As the saying goes, ‘Rome wasn’t built in a day’, and the breadth of the empire also wasn’t won overnight. It was only through years of wars and also diplomacy that the empire became what it was at its height, stretching from Turkey and Northern Africa all the way to England. But holding that much land in a time without telecommunication of any form required more than just military might. Part of what makes Rome stand out, and makes their monuments still stand today, is the recognition that infrastructure was the key to keeping things in order, in making people happy, and in building an empire that would last beyond one person’s lifetime. Say what you will of the finer details of how things were done in Rome, as it certainly had its fill of bad emperors, slave-based labor, and probable constant lead poisoning, but Rome as a whole was committed to keeping itself together. While other empires may have been held in tact by a single person, as with Alexander the Great whose empire fell apart at his death, Rome lasted and held itself strong for generations. Caesar Augustus commented on Alexander’s downfall in a quote by Plutarch: “He [Caesar Augustus] learned that Alexander, having completed nearly all his conquests by the time he was thirty-two years old, was at an utter loss to know what he should do during the rest of his life, whereat Augustus expressed his surprise that Alexander did not regard it as a greater task to set in order the empire which he had won than to win it.” So where am I going with this, apart from sharing my love of Roman history? One of the reasons that I’m always inspired by the Romans is the fact that they built things to last, and built things for the Empire and not just for themselves. While emperors certainly had nice places to live and probably led better lives than most people in Rome, some emperors like Hadrian (whose wall in England still stands to this day) spent a lot of his time as ruler travelling around and decreeing construction projects for public buildings and infrastructure that everyone could use. While self-indulgence is always a part of being an emperor, king, or leader, the best leaders recognize that giving something back to the people that work for you is better than rewarding yourself for your own leadership achievements. From the perspective of scientific research, Rome can provide us with a means by which to think about the type of work we do. We can make great achievements in knowledge and write the best papers ever, but if this work ends when we retire then what sort of legacy does it leave behind? If we focus only on conquering and not building an infrastructure, will things fall apart once we step away? Just as Rome wasn’t built in a day, great science also takes time to come to fruition, and the greatest scientific achievements were never done for self-indulgent purposes but instead were done while working towards a greater, longer-lasting good. As you think about your own research, envision a legacy and think of how your work can provide a framework of understanding for future researchers I mean, if the Romans could do all the things they did in the world that they lived in, how much could you achieve given the technology and the knowledge that we all have today? |
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